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Laboratory","2025-06-04T04:46:43.467Z","2025-06-08T22:32:06.022Z","2025-06-04T05:02:31.059Z","153",{"id":1555,"name":1556,"alternativeText":16,"caption":16,"width":1557,"height":1558,"formats":1559,"hash":1582,"ext":953,"mime":915,"size":1583,"url":1584,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":1585,"updatedAt":1585},168,"NPLPrimaryLogoBlueRGB.jpg",2953,1089,{"large":1560,"small":1565,"medium":1571,"thumbnail":1576},{"ext":953,"url":1561,"hash":1562,"mime":915,"name":1563,"path":16,"size":769,"width":958,"height":1564},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/large_NPL_Primary_Logo_Blue_RGB_2501e310eb.jpg","large_NPL_Primary_Logo_Blue_RGB_2501e310eb","large_NPLPrimaryLogoBlueRGB.jpg",369,{"ext":953,"url":1566,"hash":1567,"mime":915,"name":1568,"path":16,"size":1569,"width":873,"height":1570},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/small_NPL_Primary_Logo_Blue_RGB_2501e310eb.jpg","small_NPL_Primary_Logo_Blue_RGB_2501e310eb","small_NPLPrimaryLogoBlueRGB.jpg",18.41,184,{"ext":953,"url":1572,"hash":1573,"mime":915,"name":1574,"path":16,"size":1575,"width":880,"height":1244},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/medium_NPL_Primary_Logo_Blue_RGB_2501e310eb.jpg","medium_NPL_Primary_Logo_Blue_RGB_2501e310eb","medium_NPLPrimaryLogoBlueRGB.jpg",31.88,{"ext":953,"url":1577,"hash":1578,"mime":915,"name":1579,"path":16,"size":1580,"width":1022,"height":1581},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_NPL_Primary_Logo_Blue_RGB_2501e310eb.jpg","thumbnail_NPL_Primary_Logo_Blue_RGB_2501e310eb","thumbnail_NPLPrimaryLogoBlueRGB.jpg",6.93,90,"NPL_Primary_Logo_Blue_RGB_2501e310eb",181.98,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/NPL_Primary_Logo_Blue_RGB_2501e310eb.jpg","2025-06-04T02:44:55.203Z",{"id":343,"variation":39,"button":1587},[1588],{"id":167,"label":896,"size":832,"color":833,"style":16,"icon":834,"iconPosition":835,"url":1589,"newWindow":8,"downloadable":16,"shape":16},"https://www.npl.co.uk/","-127",{"id":241,"name":1592,"description":50,"createdAt":1593,"updatedAt":1594,"publishedAt":1595,"url_path_id":1596,"logo":1597,"website":1616,"url_path":1620},"us4us Ltd.","2025-06-04T04:59:19.195Z","2025-06-08T22:31:10.604Z","2025-06-04T05:02:23.543Z","154",{"id":1598,"name":1599,"alternativeText":16,"caption":16,"width":1600,"height":1601,"formats":1602,"hash":1612,"ext":19,"mime":20,"size":1613,"url":1614,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":1615,"updatedAt":1615},169,"us4us(R)-logo.png",555,177,{"small":1603,"thumbnail":1607},{"ext":19,"url":1604,"hash":1605,"mime":20,"name":1606,"path":16,"size":358,"width":873,"height":1100},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/small_us4us_R_logo_6e902c6444.png","small_us4us_R_logo_6e902c6444","small_us4us(R)-logo.png",{"ext":19,"url":1608,"hash":1609,"mime":20,"name":1610,"path":16,"size":1611,"width":1022,"height":1112},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_us4us_R_logo_6e902c6444.png","thumbnail_us4us_R_logo_6e902c6444","thumbnail_us4us(R)-logo.png",5.06,"us4us_R_logo_6e902c6444",2.38,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/us4us_R_logo_6e902c6444.png","2025-06-04T04:58:43.571Z",{"id":325,"variation":39,"button":1617},[1618],{"id":161,"label":896,"size":832,"color":833,"style":16,"icon":834,"iconPosition":835,"url":1619,"newWindow":8,"downloadable":16,"shape":16},"https://us4us.eu","-128",{"id":187,"name":1622,"description":50,"createdAt":1623,"updatedAt":1624,"publishedAt":1625,"url_path_id":1626,"logo":1627,"website":1658,"url_path":1662},"Sound & Bright","2025-06-05T04:17:16.587Z","2025-06-08T22:33:30.491Z","2025-06-05T04:17:24.995Z","155",{"id":412,"name":1628,"alternativeText":16,"caption":16,"width":1629,"height":1630,"formats":1631,"hash":1654,"ext":19,"mime":20,"size":1655,"url":1656,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":1657,"updatedAt":1657},"logo (5).png",1596,870,{"large":1632,"small":1637,"medium":1642,"thumbnail":1648},{"ext":19,"url":1633,"hash":1634,"mime":20,"name":1635,"path":16,"size":1636,"width":958,"height":924},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/large_logo_5_16a1aaa948.png","large_logo_5_16a1aaa948","large_logo (5).png",82.62,{"ext":19,"url":1638,"hash":1639,"mime":20,"name":1640,"path":16,"size":1641,"width":873,"height":1330},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/small_logo_5_16a1aaa948.png","small_logo_5_16a1aaa948","small_logo (5).png",36.29,{"ext":19,"url":1643,"hash":1644,"mime":20,"name":1645,"path":16,"size":1646,"width":880,"height":1647},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/medium_logo_5_16a1aaa948.png","medium_logo_5_16a1aaa948","medium_logo (5).png",58.31,409,{"ext":19,"url":1649,"hash":1650,"mime":20,"name":1651,"path":16,"size":1652,"width":1022,"height":1653},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_logo_5_16a1aaa948.png","thumbnail_logo_5_16a1aaa948","thumbnail_logo (5).png",16.54,134,"logo_5_16a1aaa948",23.01,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/logo_5_16a1aaa948.png","2025-06-05T19:07:19.097Z",{"id":300,"variation":39,"button":1659},[1660],{"id":363,"label":896,"size":832,"color":833,"style":16,"icon":834,"iconPosition":835,"url":1661,"newWindow":8,"downloadable":16,"shape":16},"https://soundnbright.com/","-129",{"id":181,"name":1664,"description":50,"createdAt":1665,"updatedAt":1666,"publishedAt":1667,"url_path_id":1668,"logo":1669,"website":1683,"url_path":1687},"S-Sharp Corporation","2025-06-05T04:37:04.462Z","2025-06-17T05:02:24.932Z","2025-06-05T04:37:08.560Z","156",{"id":607,"name":1670,"alternativeText":16,"caption":16,"width":1671,"height":1672,"formats":1673,"hash":1679,"ext":19,"mime":20,"size":1680,"url":1681,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":1682,"updatedAt":1682},"S-Sharp.png",428,107,{"thumbnail":1674},{"ext":19,"url":1675,"hash":1676,"mime":20,"name":1677,"path":16,"size":1678,"width":1022,"height":906},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_S_Sharp_df3154935a.png","thumbnail_S_Sharp_df3154935a","thumbnail_S-Sharp.png",6.75,"S_Sharp_df3154935a",2.35,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/S_Sharp_df3154935a.png","2025-06-05T04:36:37.902Z",{"id":117,"variation":39,"button":1684},[1685],{"id":793,"label":896,"size":832,"color":833,"style":16,"icon":834,"iconPosition":835,"url":1686,"newWindow":8,"downloadable":16,"shape":16},"https://www.s-sharp.com/web/index/index.jsp","-130",{"pagination":1689},{"page":5,"pageSize":181,"pageCount":46,"total":363},{"id":207,"heading":208,"pageHeader":1691,"sections":1692},{"id":561,"description":16,"showPageHeader":8,"backgroundColor":54,"image":16},[1693,1702],{"id":1694,"__component":1695,"componentVariation":1696,"styles":16,"header":1697,"body":1700},58,"content.content","Content Image Left",{"id":769,"heading":16,"prose":1698,"lead":16,"eyebrow":16,"badge":16,"componentVariation":1699,"containerWidth":16,"image":16},"\u003Cp>Kickstart your IUS experience with immersive, full‑day short courses led by world‑class instructors in Utrecht. Covering a wide spectrum of ultrasonics topics, these sessions are designed for researchers, engineers, clinicians, entrepreneurs, and students seeking actionable knowledge and skills.\u003C/p>\u003Cdiv class=\"raw-html-embed\">\u003Cdiv class=\"not-prose pt-6 flex justify-center\">\n    \u003Ca href=\"#page-section-1\" rel=\"noopener\" class=\"btn-primary text-white btn-sm btn last:!mr-0 gap-3\">\n        \u003Cspan>Click to view short course details\u003C/span>\n        \u003Csvg xmlns=\"http://www.w3.org/2000/svg\" viewBox=\"0 0 24 24\" fill=\"currentColor\" aria-hidden=\"true\" class=\"h-5 w-5\">\n            \u003Cpath fill-rule=\"evenodd\" d=\"M16.28 11.47a.75.75 0 010 1.06l-7.5 7.5a.75.75 0 01-1.06-1.06L14.69 12 7.72 5.03a.75.75 0 011.06-1.06l7.5 7.5z\" clip-rule=\"evenodd\">\u003C/path>\n        \u003C/svg>\n    \u003C/a>\n\u003C/div>\u003C/div>","Heading Center",{"id":1112,"title":16,"body":1701,"containerWidth":16,"buttonGroup":16,"media":16},"\u003Cfigure class=\"table\">\u003Ctable style=\"border:1px solid hsl(0, 0%, 30%);\">\u003Ctbody>\u003Ctr>\u003Ctd style=\"background-color:hsl(0, 0%, 0%);text-align:center;\">\u003Cspan style=\"color:#FFFFFF;font-size:1.125rem;\">\u003Cstrong>Fluor\u003C/strong>\u003C/span>\u003C/td>\u003Ctd style=\"background-color:hsl(0, 0%, 0%);text-align:center;\">\u003Cspan style=\"color:#FFFFFF;font-size:1.125rem;\">\u003Cstrong>Flash\u003C/strong>\u003C/span>\u003C/td>\u003Ctd style=\"background-color:hsl(0, 0%, 0%);text-align:center;\">\u003Cspan style=\"color:#FFFFFF;font-size:1.125rem;\">\u003Cstrong>Beam\u003C/strong>\u003C/span>\u003C/td>\u003Ctd style=\"background-color:hsl(0, 0%, 0%);text-align:center;\">\u003Cspan style=\"color:#FFFFFF;font-size:1.125rem;\">\u003Cstrong>Neon\u003C/strong>\u003C/span>\u003C/td>\u003Ctd style=\"background-color:hsl(0, 0%, 0%);text-align:center;\">\u003Cspan style=\"color:#FFFFFF;font-size:1.125rem;\">\u003Cstrong>Solar\u003C/strong>\u003C/span>\u003C/td>\u003Ctd style=\"background-color:hsl(0, 0%, 0%);text-align:center;\">\u003Cspan style=\"color:#FFFFFF;font-size:1.125rem;\">\u003Cstrong>Glow\u003C/strong>\u003C/span>\u003C/td>\u003Ctd style=\"background-color:hsl(0, 0%, 0%);text-align:center;\">\u003Cspan style=\"color:#FFFFFF;font-size:1.125rem;\">\u003Cstrong>Spark\u003C/strong>\u003C/span>\u003C/td>\u003Ctd style=\"background-color:hsl(0, 0%, 0%);text-align:center;\">\u003Cspan style=\"color:#FFFFFF;font-size:1.125rem;\">\u003Cstrong>Osram\u003C/strong>\u003C/span>\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"background-color:hsl(352, 61%, 34%);\" colspan=\"8\">\u003Cp style=\"text-align:center;\">\u003Cspan style=\"color:#FFFFFF;\">\u003Cstrong>Morning Sessions |  8:30 - 12:30\u003C/strong> \u003C/span>  \u003Cbr>\u003Cspan style=\"color:#FFFFFF;font-size:.875rem;\">\u003Ci>(Coffee Break from 10:30 - 11:00)\u003C/i>\u003C/span>\u003C/p>\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"border:1px solid hsl(0, 0%, 30%);vertical-align:top;\">\u003Cp>Ultrasound imaging of low velocity blood flow\u003C/p>\u003Cp>\u003Ci>Matt Bruce\u003C/i>\u003C/p>\u003C/td>\u003Ctd style=\"border:1px solid hsl(0, 0%, 30%);vertical-align:top;\">\u003Cp>Ultrasound System Design: Analog Front-End Circuits, In-Probe Electronics, and Imaging\u003C/p>\u003Cp>\u003Ci>Michael Pertijs, David Cowell, Enrico Boni\u003C/i>\u003C/p>\u003C/td>\u003Ctd style=\"border:1px solid hsl(0, 0%, 30%);vertical-align:top;\">\u003Cp>Machine Learning and Signal Analysis Applications in Ultrasonic Non-Destructive. Evaluation Imaging, Data Compression, and Communications\u003C/p>\u003Cp>\u003Ci>Jafar Saniie, Erdal Oruklu\u003C/i>\u003C/p>\u003C/td>\u003Ctd style=\"border:1px solid hsl(0, 0%, 30%);vertical-align:top;\">\u003Cp>Basics of acoustic resonators\u003C/p>\u003Cp>\u003Ci>Kenya Hashimoto\u003C/i>\u003C/p>\u003C/td>\u003Ctd style=\"border:1px solid hsl(0, 0%, 30%);vertical-align:top;\">\u003Cp>Therapeutic applications of focused ultrasound: From biophysics to clinical application\u003C/p>\u003Cp>\u003Ci>Maxine Lafand, David Melodelima\u003C/i>\u003C/p>\u003C/td>\u003Ctd style=\"border:1px solid hsl(0, 0%, 30%);vertical-align:top;\">\u003Cp>Quantitative Ultrasound in Soft Tissues\u003C/p>\u003Cp>\u003Ci>Aiguo Ham, Ivan Rosado Mendes, Cameron Hoerig, Jonathan Mamou\u003C/i>\u003C/p>\u003C/td>\u003Ctd style=\"border:1px solid hsl(0, 0%, 30%);vertical-align:top;\"> \u003C/td>\u003Ctd style=\"border:1px solid hsl(0, 0%, 30%);vertical-align:top;\">\u003Cp>SC-07: Fundamentals of Physical Acoustic Waves for the Analysis of Acoustic Wave Resonators\u003C/p>\u003Cp>\u003Ci>Ji Wang\u003C/i>\u003C/p>\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"background-color:hsl(0, 0%, 0%);border:1px solid hsl(0, 0%, 30%);\" colspan=\"8\">\u003Cp style=\"text-align:center;\">\u003Cspan style=\"color:#FFFFFF;\">\u003Cstrong>Lunch Break (1 hour 30 minutes)\u003C/strong>\u003C/span>\u003C/p>\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"background-color:hsl(352, 61%, 34%);\" colspan=\"8\">\u003Cp style=\"text-align:center;\">\u003Cspan style=\"color:#FFFFFF;\">\u003Cstrong>Afternoon Sessions | 14:00 - 18:00\u003C/strong> \u003C/span>  \u003Cbr>\u003Cspan style=\"color:#FFFFFF;font-size:.875rem;\">\u003Ci>(Coffee Break from 16:00 - 16:30)\u003C/i>\u003C/span>\u003C/p>\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"border:1px solid hsl(0, 0%, 30%);\">\u003Cp>Bulk Acoustic Wave Design Fundamentals for Filter Applications\u003C/p>\u003Cp>David Feld, Mihir Patel\u003C/p>\u003C/td>\u003Ctd style=\"border:1px solid hsl(0, 0%, 30%);\">\u003Cp>Hydrophone measurements for biomedical ultrasound applications\u003C/p>\u003Cp>\u003Ci>Keith Wear, Sam Howard, Andrew Hurrell, Peter Lewin, Srinath Rajagopal, Volker Wilkens, Elly Martin \u003C/i>\u003C/p>\u003C/td>\u003Ctd style=\"border:1px solid hsl(0, 0%, 30%);\">\u003Cp>Biomolecular Ultrasound\u003C/p>\u003Cp>\u003Ci>David Maresca, Mikhail Shapiro\u003C/i>\u003C/p>\u003C/td>\u003Ctd style=\"border:1px solid hsl(0, 0%, 30%);\">\u003Cp>Acoustic Tweezers: From Basic Principles to its Biological Applications\u003C/p>\u003Cp>Ja\u003Ci>e Youn Hwang, Hyung Ham Kim, Teng Ma, Itziar Gonzalez\u003C/i>\u003C/p>\u003C/td>\u003Ctd style=\"border:1px solid hsl(0, 0%, 30%);\">\u003Cp>\u003Ci>Meta-transducers for Ultrasonic Guided Wave Inspections\u003C/i>\u003C/p>\u003Cp>\u003Ci>Luca De Marchi, Masoud Mohammagholiha\u003C/i>\u003C/p>\u003C/td>\u003Ctd style=\"border:1px solid hsl(0, 0%, 30%);\">\u003Cp>Bridging Research and Industry in Ultrasound: Practical Insights for Emerging Innovators\u003C/p>\u003Cp>\u003Ci>Charles Emery, David Horsley, Jessica Liu Strohmann, Chris Daft\u003C/i>\u003C/p>\u003C/td>\u003Ctd style=\"border:1px solid hsl(0, 0%, 30%);\">\u003Cp>Super resolution ultrasound imaging\u003C/p>\u003Cp>\u003Ci>Pengfei Song, Jean Provost\u003C/i>\u003C/p>\u003C/td>\u003Ctd style=\"border:1px solid hsl(0, 0%, 30%);\"> \u003C/td>\u003C/tr>\u003C/tbody>\u003C/table>\u003C/figure>",{"id":5,"__component":1703,"componentVariation":1704,"contactsVariation":1705,"styles":16,"header":16,"sessionsGroup":1706},"content.sessions","Sessions Sidebar Navigation Contacts Bottom","Card Contact Full",[1707,2282,2395,2593,2637],{"id":5,"groupTitle":1708,"sessions":1709},"Medical Acoustics",[1710,1781,2016,2090,2124,2229],{"id":5,"session":1711},{"id":5,"title":1712,"teaser":1713,"body":1714,"createdAt":1715,"updatedAt":1716,"publishedAt":1717,"url_path_id":1718,"contacts":1719,"url_path":1780},"Super-resolution ultrasound imaging","\u003Cp>Super-resolution ultrasound imaging has the capacity to distinguish and map structures that are smaller than the classical limit, typically a fraction of the wavelength. For ultrasound imaging, this means exploring features, such as blood vessels, in the micrometric range deep inside tissue. At the end of this course, students should be able to understand and reproduce super-resolution ultrasound imaging experiments, from data acquisition to image reconstruction, and apply such knowledge in their specific fields. \u003C/p>","\u003Cp>We first explore the fundamental aspects of imaging resolution in ultrasound. Various approaches to bypass the diffraction-limit with microbubbles and other agents are presented. Particularly, we discuss ultrasound localization microscopy, which has recently improved the resolution for vascular imaging by more than 10-fold. We present its various steps, including separation, localization and tracking, and compare different approaches. Specific elements such as temporal resolution, motion correction or volumetric imaging are considered. We then detail the applications of super-resolution ultrasound for brain, cancerous tumor, kidney, liver, lymph node and peripheral vessel imaging, along with future perspectives in the clinical and preclinical context. \u003Cbr>\u003Cbr>We will share tips and tricks for setting up and conducting in vivo super-resolution imaging experiments on chicken embryos, mice, rats, rabbits, pigs, and humans. Hands-on advice will be shared and discussed (e.g., tail vein and jugular vein catheterization, chicken embryo microbubble injections, microbubble bolus versus steady-state infusion, craniotomy and transcranial imaging preparations, respiratory gating considerations,\\ microbubble concentration/sparsity checking and manipulations before data acquisition, data size and processing requirements/considerations, etc.).\u003Cbr>\u003Cbr>The last part of the course will include hands-on image processing of open data (in-silico and in- vivo) with provided ultrasound localization microscopy algorithms. Deep learning-based microbubble localization and tracking methods will also be introduced in this course. We will provide practical experience for microbubble and flow model simulations to generate data for training and testing the neural network.\u003C/p>","2025-03-17T15:11:54.416Z","2025-04-01T19:58:24.564Z","2025-03-28T19:36:12.975Z","72",[1720,1742],{"id":261,"name":1721,"committee":16,"position":16,"affiliation":1722,"email":16,"biography":1723,"createdAt":1724,"updatedAt":1724,"url_path_id":1725,"contactPhoto":1726,"socialLinks":1740,"url_path":1741},"Pengfei Song","Duke University","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#000000;\">Pengfei Song, PhD (email: \u003C/span>\u003Ca href=\"mailto:pengfei.song@duke.edu\">\u003Cspan style=\"background-color:transparent;color:#0563c1;\">\u003Cu>pengfei.song@duke.edu\u003C/u>\u003C/span>\u003C/a>\u003Cspan style=\"background-color:transparent;color:#000000;\">; Lab website: \u003C/span>\u003Ca target=\"_blank\" rel=\"noopener noreferrer\" href=\"https://songlab.bme.duke.edu\">\u003Cspan style=\"background-color:transparent;color:#0563c1;\">\u003Cu>https://songlab.bme.duke.edu\u003C/u>\u003C/span>\u003C/a>\u003Cspan style=\"background-color:transparent;color:#000000;\">) is an Associate Professor of Biomedical Engineering at Duke University. He conducted both his PhD and postdoctoral trainings under the supervision of Drs. James Greenleaf and Shigao Chen at Mayo Clinic from 2010 to 2018. His current research interests include ultrafast ultrasound imaging, super-resolution ultrasound, functional ultrasound, 3D ultrasound imaging, deep learning, and ultrasound shear wave elastography. Dr. Song has published over 100 peer-reviewed journal papers with a Google Scholar total citation exceeding 6000 and an h-index over 40. He holds several patents that have been licensed and commercialized by major ultrasound companies and used worldwide in the clinic. Dr. Song has delivered over 30 invited presentations, and he also received various teaching honors for his teaching career. Dr. Song is a recipient of the NIH K99/R00 Pathway to Independence Award, the NSF CAREER Award, the NIBIB Trailblazer Award, the IEEE Ultrasonics Early Career Investigator Award, the Chan Zuckerberg Initiative (CZ) Early Career Acceleration Award, and the Campus Distinguished Promotion Award. His research program has been continuously funded by NIH, DOD CDMRP, and NSF. He is an elected Fellow of AIUM, a Senior Member of the National Academy of Inventors (NAI), and a Senior Member of IEEE.\u003C/span>\u003C/p>","2025-03-17T14:08:46.200Z","51",{"id":1173,"name":1727,"alternativeText":16,"caption":16,"width":1728,"height":1729,"formats":1730,"hash":1736,"ext":19,"mime":20,"size":1737,"url":1738,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":1739,"updatedAt":1739},"Screenshot 2025-03-17 090902.png",249,337,{"thumbnail":1731},{"ext":19,"url":1732,"hash":1733,"mime":20,"name":1734,"path":16,"size":1735,"width":1166,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_Screenshot_2025_03_17_090902_ee712f649a.png","thumbnail_Screenshot_2025_03_17_090902_ee712f649a","thumbnail_Screenshot 2025-03-17 090902.png",40.69,"Screenshot_2025_03_17_090902_ee712f649a",45.62,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/Screenshot_2025_03_17_090902_ee712f649a.png","2025-03-17T14:07:38.986Z",[],"-32",{"id":596,"name":1743,"committee":16,"position":16,"affiliation":1744,"email":16,"biography":1745,"createdAt":1746,"updatedAt":1747,"url_path_id":1748,"contactPhoto":1749,"socialLinks":1778,"url_path":1779},"Jean Provost","Polytechnique Montréal","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#000000;\">Jean Provost, PhD (email: jean.provost@polymtl.ca; Lab website: provostlab.polymtl.ca) is an Associate Professor in the Department of Engineering Physics at Polytechnique Montréal. He earned his Ph.D. from Columbia University, New York, under the supervision of Dr. Elisa Konofagou, followed by postdoctoral training with Dr. Mickael Tanter at ESPCI Paris. Dr. Provost’s research focuses on 3D ultrafast ultrasound imaging, high-frame-rate cardiovascular imaging, multi-modality imaging, dynamic ultrasound localization microscopy, and image reconstruction. He has authored over 50 peer-reviewed journal articles, with more than 3,100 citations. Dr. Provost is the recipient of the European Commission Marie Curie Incoming Fellowship and the FRQS Research Scholar Award. His work has been consistently supported by major funding agencies, including the Canadian Institutes of Health Research (CIHR) and the Natural Sciences and Engineering Research Council of Canada (NSERC). Dr. Provost is a Senior Member of IEEE.\u003C/span> \u003C/p>","2025-03-17T14:10:10.570Z","2025-04-15T01:35:44.592Z","52",{"id":1750,"name":1751,"alternativeText":16,"caption":16,"width":1752,"height":1752,"formats":1753,"hash":1774,"ext":953,"mime":915,"size":1775,"url":1776,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":1777,"updatedAt":1777},105,"JeanProvost_cropped.jpg",1451,{"large":1754,"small":1759,"medium":1764,"thumbnail":1769},{"ext":953,"url":1755,"hash":1756,"mime":915,"name":1757,"path":16,"size":1758,"width":958,"height":958},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/large_Jean_Provost_cropped_6f22612dbe.jpg","large_Jean_Provost_cropped_6f22612dbe","large_JeanProvost_cropped.jpg",108.6,{"ext":953,"url":1760,"hash":1761,"mime":915,"name":1762,"path":16,"size":1763,"width":873,"height":873},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/small_Jean_Provost_cropped_6f22612dbe.jpg","small_Jean_Provost_cropped_6f22612dbe","small_JeanProvost_cropped.jpg",36.81,{"ext":953,"url":1765,"hash":1766,"mime":915,"name":1767,"path":16,"size":1768,"width":880,"height":880},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/medium_Jean_Provost_cropped_6f22612dbe.jpg","medium_Jean_Provost_cropped_6f22612dbe","medium_JeanProvost_cropped.jpg",69.24,{"ext":953,"url":1770,"hash":1771,"mime":915,"name":1772,"path":16,"size":1773,"width":887,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_Jean_Provost_cropped_6f22612dbe.jpg","thumbnail_Jean_Provost_cropped_6f22612dbe","thumbnail_JeanProvost_cropped.jpg",4.92,"Jean_Provost_cropped_6f22612dbe",188.65,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/Jean_Provost_cropped_6f22612dbe.jpg","2025-03-31T21:31:41.475Z",[],"-33","-53",{"id":139,"session":1782},{"id":139,"title":1783,"teaser":1784,"body":50,"createdAt":1785,"updatedAt":1786,"publishedAt":1787,"url_path_id":1788,"contacts":1789,"url_path":2015},"Hydrophone Measurements for Biomedical Ultrasound Applications","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#000000;\">This short course is based on a recent review article (\u003C/span>\u003Ca target=\"_blank\" rel=\"noopener noreferrer\" href=\"https://ieeexplore.ieee.org/abstract/document/9913943\">\u003Cspan style=\"background-color:transparent;color:#0563c1;\">\u003Cu>https://ieeexplore.ieee.org/abstract/document/9913943\u003C/u>\u003C/span>\u003C/a>\u003Cspan style=\"background-color:transparent;color:#000000;\">) and will present basic principles of hydrophone measurements, including mechanisms of action for various hydrophone designs, sensitivity and directivity calibration procedures, practical considerations for performing measurements, signal processing methods to correct for both frequency-dependent sensitivity and spatial averaging across the hydrophone sensitive element, uncertainty in hydrophone measurements, special considerations for high-intensity therapeutic ultrasound, and advice for choosing an appropriate hydrophone for a particular measurement task. Recommendations will be made for information to be included in hydrophone measurement reporting.  The instructors are world-leading hydrophone experts who are active in the development of International Electrotechnical Commission standards on hydrophones and collectively have authored over 50 papers concerning hydrophone methodology in peer-reviewed journals. A live demonstration of hydrophone measurements will be presented.\u003C/span>\u003C/p>","2025-03-17T15:21:44.432Z","2025-04-01T19:58:15.148Z","2025-03-28T19:36:23.774Z","77",[1790,1826,1843,1881,1920,1956,1992],{"id":281,"name":1791,"committee":16,"position":16,"affiliation":1792,"email":16,"biography":1793,"createdAt":1794,"updatedAt":1795,"url_path_id":1796,"contactPhoto":1797,"socialLinks":1824,"url_path":1825},"Samuel Howard","Onda Corporation","\u003Cp>\u003Cspan style=\"background-color:transparent;color:#000000;\">\u003Cstrong>Samuel Howard\u003C/strong> (PhD Cornell University) is the CTO of Onda Corporation, a world-leading manufacturer of hydrophones, scanning tanks, and other equipment for ultrasonic measurement.\u003C/span>\u003C/p>","2025-03-17T14:45:02.033Z","2025-03-31T21:33:20.354Z","56",{"id":1303,"name":1798,"alternativeText":16,"caption":16,"width":1799,"height":1799,"formats":1800,"hash":1820,"ext":953,"mime":915,"size":1821,"url":1822,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":1823,"updatedAt":1823},"S_Howard_cropped.jpg",1092,{"large":1801,"small":1806,"medium":1810,"thumbnail":1815},{"ext":953,"url":1802,"hash":1803,"mime":915,"name":1804,"path":16,"size":1805,"width":958,"height":958},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/large_S_Howard_cropped_99b9c55d06.jpg","large_S_Howard_cropped_99b9c55d06","large_S_Howard_cropped.jpg",97.92,{"ext":953,"url":1807,"hash":1808,"mime":915,"name":1809,"path":16,"size":1296,"width":873,"height":873},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/small_S_Howard_cropped_99b9c55d06.jpg","small_S_Howard_cropped_99b9c55d06","small_S_Howard_cropped.jpg",{"ext":953,"url":1811,"hash":1812,"mime":915,"name":1813,"path":16,"size":1814,"width":880,"height":880},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/medium_S_Howard_cropped_99b9c55d06.jpg","medium_S_Howard_cropped_99b9c55d06","medium_S_Howard_cropped.jpg",58.4,{"ext":953,"url":1816,"hash":1817,"mime":915,"name":1818,"path":16,"size":1819,"width":887,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_S_Howard_cropped_99b9c55d06.jpg","thumbnail_S_Howard_cropped_99b9c55d06","thumbnail_S_Howard_cropped.jpg",3.84,"S_Howard_cropped_99b9c55d06",114.16,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/S_Howard_cropped_99b9c55d06.jpg","2025-03-31T21:31:03.010Z",[],"-37",{"id":306,"name":1827,"committee":16,"position":16,"affiliation":1828,"email":16,"biography":1829,"createdAt":1830,"updatedAt":1830,"url_path_id":1831,"contactPhoto":1832,"socialLinks":1841,"url_path":1842},"Andrew Hurrell","Precision Acoustics Ltd.","\u003Cp>\u003Cspan style=\"background-color:transparent;color:#000000;\">\u003Cstrong>Andrew Hurrell\u003C/strong> (PhD University of Bath) is the Principal Research Physicist and Director at Precision Acoustics Ltd. Precision Acoustics is a world-leading manufacturer of acoustic materials, hydrophones, transducers, scanning tanks, and other equipment for underwater acoustic and ultrasonic measurements.  He serves on several working groups within IEC Technical committee 87 (Ultrasonics) and is a member of the UK standards committees on Ultrasonics and Underwater Acoustics. His research interests include design and fabrication of novel ultrasonic and underwater acoustic sensors, development of novel passive acoustic materials and the use of both numerical and analytical simulations to enhance the performance of ultrasonic and under acoustic test equipment\u003C/span>\u003C/p>","2025-03-17T14:46:07.097Z","57",{"id":1833,"name":1834,"alternativeText":16,"caption":16,"width":1835,"height":1836,"formats":16,"hash":1837,"ext":19,"mime":20,"size":1838,"url":1839,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":1840,"updatedAt":1840},70,"Hurrell photo.png",96,104,"Hurrell_photo_e8115f2466",2.58,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/Hurrell_photo_e8115f2466.png","2025-03-17T14:45:52.555Z",[],"-38",{"id":533,"name":1844,"committee":16,"position":16,"affiliation":1845,"email":16,"biography":1846,"createdAt":1847,"updatedAt":1848,"url_path_id":1849,"contactPhoto":1850,"socialLinks":1879,"url_path":1880},"Peter A. Lewin","Drexel University","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#000000;\">\u003Cstrong>Peter A. Lewin\u003C/strong> (PhD University of Denmark; Life Fellow, IEEE; Fellow AIMBE, AIUM, ASA, IAMBD) is a distinguished university professor of Biomedical Engineering at Drexel University, a former Editor in Chief of \u003Ci>IEEE TUFFC\u003C/i>, and a former chair of the AIUM Technical Standards Committee.  He served on the AIUM Board of Governors.  He has just completed his tenure on the NIH Advisory Council of the National Institute of Nursing Research.  He received the Distinguished Advocate award from AIMBE.  \u003C/span>\u003Cspan style=\"background-color:#ffffff;color:#000000;\">He serves on several working groups of the International Electrotechnical Commission Ultrasonics Technical Committee.  \u003C/span>\u003Cspan style=\"background-color:transparent;color:#000000;\">He has served as instructor for six short courses at the IEEE IUS.  \u003C/span>\u003Cspan style=\"background-color:#ffffff;color:#000000;\">His research interests include biomedical ultrasound and ultrasound exposimetry.\u003C/span>\u003C/p>\u003Cp>\u003Cbr> \u003C/p>","2025-03-17T14:47:43.683Z","2025-03-31T21:33:06.565Z","58",{"id":1851,"name":1852,"alternativeText":16,"caption":16,"width":1853,"height":1853,"formats":1854,"hash":1875,"ext":953,"mime":915,"size":1876,"url":1877,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":1878,"updatedAt":1878},103,"_Peter Lewin headshot_2_upscale.jpg",1900,{"large":1855,"small":1860,"medium":1865,"thumbnail":1870},{"ext":953,"url":1856,"hash":1857,"mime":915,"name":1858,"path":16,"size":1859,"width":958,"height":958},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/large_Peter_Lewin_headshot_2_upscale_93a71c6698.jpg","large_Peter_Lewin_headshot_2_upscale_93a71c6698","large__Peter Lewin headshot_2_upscale.jpg",77.5,{"ext":953,"url":1861,"hash":1862,"mime":915,"name":1863,"path":16,"size":1864,"width":873,"height":873},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/small_Peter_Lewin_headshot_2_upscale_93a71c6698.jpg","small_Peter_Lewin_headshot_2_upscale_93a71c6698","small__Peter Lewin headshot_2_upscale.jpg",27.78,{"ext":953,"url":1866,"hash":1867,"mime":915,"name":1868,"path":16,"size":1869,"width":880,"height":880},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/medium_Peter_Lewin_headshot_2_upscale_93a71c6698.jpg","medium_Peter_Lewin_headshot_2_upscale_93a71c6698","medium__Peter Lewin headshot_2_upscale.jpg",50.08,{"ext":953,"url":1871,"hash":1872,"mime":915,"name":1873,"path":16,"size":1874,"width":887,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_Peter_Lewin_headshot_2_upscale_93a71c6698.jpg","thumbnail_Peter_Lewin_headshot_2_upscale_93a71c6698","thumbnail__Peter Lewin headshot_2_upscale.jpg",4.59,"Peter_Lewin_headshot_2_upscale_93a71c6698",201.9,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/Peter_Lewin_headshot_2_upscale_93a71c6698.jpg","2025-03-31T21:31:03.108Z",[],"-39",{"id":479,"name":1882,"committee":16,"position":16,"affiliation":1883,"email":16,"biography":1884,"createdAt":1885,"updatedAt":1885,"url_path_id":1886,"contactPhoto":1887,"socialLinks":1918,"url_path":1919},"Elly Martin","University College London","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:#ffffff;color:#000000;\">\u003Cstrong>Elly Martin\u003C/strong> (PhD, University of Exeter) is a Principal Research Fellow and UKRI Future Leaders Fellow in the Department of Medical Physics and Biomedical Engineering at University College London, UK, and a fellow at the Wellcome EPSRC Centre for Interventional and Surgical Sciences at UCL. She joined the Medical Ultrasonics section of the Acoustics group at the National Physical Laboratory, UK in 2011, before joining UCL in 2014. She serves on several working groups of the IEC Ultrasonics Technical Committee, and of the ITRUSST consortium.  Her research interests include therapeutic ultrasound (especially cancer and neurological conditions), ultrasonic rewarming of biological materials after cryopreservation, estimation of in situ acoustic parameters, and using hydrophone measurements to validate simulations and characterize devices.\u003C/span>\u003C/p>\u003Cp>\u003Cbr> \u003C/p>","2025-03-17T14:49:17.548Z","59",{"id":1888,"name":1889,"alternativeText":16,"caption":16,"width":1890,"height":1891,"formats":1892,"hash":1914,"ext":953,"mime":915,"size":1915,"url":1916,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":1917,"updatedAt":1917},72,"UCL_Portraits_098.jpg",4032,6048,{"large":1893,"small":1899,"medium":1904,"thumbnail":1909},{"ext":953,"url":1894,"hash":1895,"mime":915,"name":1896,"path":16,"size":1897,"width":1898,"height":958},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/large_UCL_Portraits_098_5b464df3d0.jpg","large_UCL_Portraits_098_5b464df3d0","large_UCL_Portraits_098.jpg",59.06,667,{"ext":953,"url":1900,"hash":1901,"mime":915,"name":1902,"path":16,"size":1903,"width":1140,"height":873},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/small_UCL_Portraits_098_5b464df3d0.jpg","small_UCL_Portraits_098_5b464df3d0","small_UCL_Portraits_098.jpg",19.12,{"ext":953,"url":1905,"hash":1906,"mime":915,"name":1907,"path":16,"size":1908,"width":873,"height":880},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/medium_UCL_Portraits_098_5b464df3d0.jpg","medium_UCL_Portraits_098_5b464df3d0","medium_UCL_Portraits_098.jpg",37.21,{"ext":953,"url":1910,"hash":1911,"mime":915,"name":1912,"path":16,"size":1913,"width":1836,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_UCL_Portraits_098_5b464df3d0.jpg","thumbnail_UCL_Portraits_098_5b464df3d0","thumbnail_UCL_Portraits_098.jpg",3.28,"UCL_Portraits_098_5b464df3d0",1093.64,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/UCL_Portraits_098_5b464df3d0.jpg","2025-03-17T14:49:02.051Z",[],"-40",{"id":620,"name":1921,"committee":16,"position":16,"affiliation":1549,"email":16,"biography":1922,"createdAt":1923,"updatedAt":1924,"url_path_id":1925,"contactPhoto":1926,"socialLinks":1954,"url_path":1955},"Srinath Rajagopal","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#000000;\">\u003Cstrong>Srinath Rajagopal\u003C/strong> (PhD, University College London) is the Science Area Leader for the Ultrasound and Underwater Acoustics Group at the National Physical Laboratory, UK, a world-leading national measurement standards laboratory and one of two world-leading hydrophone calibration facilities. Previously to NPL, he was a Research Physicist with Precision Acoustics Ltd., U.K. He has commissioned ultrasound measurement capabilities for National Measurement Institutes in Europe and Asia. He is the Chair of the British Standards Committee EPL/87 and \u003C/span>\u003Cspan style=\"background-color:#ffffff;color:#000000;\">serves on several working groups of the International Electrotechnical Commission Ultrasonics Technical Committee. His research interests include photoacoustics, ultrasound exposimetry, quantitative diagnostic ultrasound, and hydrophone calibration methodology.\u003C/span>\u003C/p>\u003Cp>\u003Cbr> \u003C/p>","2025-03-17T14:50:24.666Z","2025-03-31T21:51:41.038Z","60",{"id":1538,"name":1927,"alternativeText":16,"caption":16,"width":1928,"height":1928,"formats":1929,"hash":1950,"ext":953,"mime":915,"size":1951,"url":1952,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":1953,"updatedAt":1953},"SR_cropped.jpg",1731,{"large":1930,"small":1935,"medium":1940,"thumbnail":1945},{"ext":953,"url":1931,"hash":1932,"mime":915,"name":1933,"path":16,"size":1934,"width":958,"height":958},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/large_SR_cropped_b41e21fc80.jpg","large_SR_cropped_b41e21fc80","large_SR_cropped.jpg",124.45,{"ext":953,"url":1936,"hash":1937,"mime":915,"name":1938,"path":16,"size":1939,"width":873,"height":873},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/small_SR_cropped_b41e21fc80.jpg","small_SR_cropped_b41e21fc80","small_SR_cropped.jpg",31.41,{"ext":953,"url":1941,"hash":1942,"mime":915,"name":1943,"path":16,"size":1944,"width":880,"height":880},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/medium_SR_cropped_b41e21fc80.jpg","medium_SR_cropped_b41e21fc80","medium_SR_cropped.jpg",71.01,{"ext":953,"url":1946,"hash":1947,"mime":915,"name":1948,"path":16,"size":1949,"width":887,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_SR_cropped_b41e21fc80.jpg","thumbnail_SR_cropped_b41e21fc80","thumbnail_SR_cropped.jpg",4.24,"SR_cropped_b41e21fc80",388.91,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/SR_cropped_b41e21fc80.jpg","2025-03-31T21:45:48.134Z",[],"-41",{"id":105,"name":1957,"committee":16,"position":16,"affiliation":16,"email":16,"biography":1958,"createdAt":1959,"updatedAt":1960,"url_path_id":1961,"contactPhoto":1962,"socialLinks":1990,"url_path":1991},"Keith Wear","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#000000;\">\u003Cstrong>Keith Wear \u003C/strong>(PhD Stanford University; Life Fellow IEEE; Fellow ASA, AIUM, AIMBE) has served as a Physicist.  He received the 2019 AIUM Joseph H. Holmes Basic Science Pioneer Award. He served as Associate Editor-in-Chief for \u003Ci>IEEE TUFFC\u003C/i>. He serves as Associate Editor for \u003Ci>IEEE TUFFC \u003C/i>and the \u003Ci>Journal of the Acoustical Society of America.\u003C/i> He serves as editorial board member for \u003Ci>IEEE Access.\u003C/i> He was Technical Program Chair of the 2008 IEEE IUS, Beijing, China, and General Program Chair of the 2017 IEEE IUS, Washington, DC, USA.  He has served as organizer, moderator, and instructor for seven short courses at the IEEE IUS.  He has served as the chair of the AIUM Technical Standards Committee and AIUM Bioeffects Committee.   He currently serves as chair of the AAPM Task Group 333 on Quality Assurance in MR-guided Focused Ultrasound.  \u003C/span>\u003Cspan style=\"background-color:#ffffff;color:#000000;\">He serves on several working groups of the International Electrotechnical Commission Ultrasonics Technical Committee.  His research interests include hydrophone measurement methodology, therapeutic ultrasound, photoacoustics, and quantitative diagnostic ultrasound.\u003C/span>\u003C/p>","2025-03-17T14:52:48.259Z","2025-08-01T16:39:32.618Z","61",{"id":1836,"name":1963,"alternativeText":16,"caption":16,"width":1964,"height":1964,"formats":1965,"hash":1986,"ext":953,"mime":915,"size":1987,"url":1988,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":1989,"updatedAt":1989},"Wear_photo_cropped.jpg",2592,{"large":1966,"small":1971,"medium":1976,"thumbnail":1981},{"ext":953,"url":1967,"hash":1968,"mime":915,"name":1969,"path":16,"size":1970,"width":958,"height":958},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/large_Wear_photo_cropped_02d60eb89f.jpg","large_Wear_photo_cropped_02d60eb89f","large_Wear_photo_cropped.jpg",96.1,{"ext":953,"url":1972,"hash":1973,"mime":915,"name":1974,"path":16,"size":1975,"width":873,"height":873},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/small_Wear_photo_cropped_02d60eb89f.jpg","small_Wear_photo_cropped_02d60eb89f","small_Wear_photo_cropped.jpg",24.93,{"ext":953,"url":1977,"hash":1978,"mime":915,"name":1979,"path":16,"size":1980,"width":880,"height":880},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/medium_Wear_photo_cropped_02d60eb89f.jpg","medium_Wear_photo_cropped_02d60eb89f","medium_Wear_photo_cropped.jpg",54.03,{"ext":953,"url":1982,"hash":1983,"mime":915,"name":1984,"path":16,"size":1985,"width":887,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_Wear_photo_cropped_02d60eb89f.jpg","thumbnail_Wear_photo_cropped_02d60eb89f","thumbnail_Wear_photo_cropped.jpg",3.59,"Wear_photo_cropped_02d60eb89f",671.2,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/Wear_photo_cropped_02d60eb89f.jpg","2025-03-31T21:31:03.546Z",[],"-42",{"id":343,"name":1993,"committee":16,"position":16,"affiliation":1994,"email":16,"biography":1995,"createdAt":1996,"updatedAt":1997,"url_path_id":1998,"contactPhoto":1999,"socialLinks":2013,"url_path":2014},"Volker Wilkens","Physikalisch-Technische Bundesanstalt (PTB)","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#000000;\">\u003Cstrong>Volker Wilkens\u003C/strong> (PhD University of Oldenburg) is the head of the Ultrasonics Working Group at Physikalisch-Technische Bundesanstalt (PTB), Germany, one of two world-leading hydrophone calibration facilities. He is the chair of the International Electrotechnical Commission (IEC) Ultrasonics Technical Committee and chair of the IEC Working Group on ultrasonic field measurement. His research interests include ultrasonic sensor development as well as hydrophone measurement and calibration methodology. \u003C/span>\u003C/p>","2025-03-17T14:53:45.489Z","2025-04-01T23:24:36.470Z","62",{"id":17,"name":2000,"alternativeText":16,"caption":16,"width":2001,"height":2002,"formats":2003,"hash":2009,"ext":953,"mime":915,"size":2010,"url":2011,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2012,"updatedAt":2012},"Wilkens_cropped.jpg",442,450,{"thumbnail":2004},{"ext":953,"url":2005,"hash":2006,"mime":915,"name":2007,"path":16,"size":2008,"width":1320,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_Wilkens_cropped_53eee0ebae.jpg","thumbnail_Wilkens_cropped_53eee0ebae","thumbnail_Wilkens_cropped.jpg",4.51,"Wilkens_cropped_53eee0ebae",32.4,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/Wilkens_cropped_53eee0ebae.jpg","2025-03-31T21:31:02.469Z",[],"-43","-58",{"id":91,"session":2017},{"id":91,"title":2018,"teaser":2019,"body":50,"createdAt":2020,"updatedAt":2021,"publishedAt":2022,"url_path_id":2023,"contacts":2024,"url_path":2089},"Therapeutic applications of focused ultrasound: From biophysics to clinical application","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#000000;\">This short course gives an introduction to therapeutic use of ultrasound that is currently transitioning from research studies to clinical practice. The ultrasound induced bio-effects useful for therapy will be reviewed along with the generation of ultrasound. Mainly the absorption of ultrasound waves in soft biological tissues leading to heat creation will be described as well as the concept of the equivalent time at 43°C. The second half of the course will cover mechanical effects of ultrasound, and will discuss non-thermal therapy approaches, including lithotripsy, histotripsy, non-thermal ablation and targeted drug delivery. The potential of therapeutic methods using ultrasound currently in preclinical evaluation and clinical practice will be discussed together with the future directions and potential impact of therapeutic ultrasound. The course will emphasize technological issues and system architecture constraints, and will cover the current therapy ultrasound systems and their use in clinical practice. Examples of the results of the clinical studies will be reviewed. \u003C/span>\u003C/p>","2025-03-17T15:32:45.177Z","2025-04-15T01:36:48.879Z","2025-03-28T19:36:39.594Z","81",[2025,2062],{"id":793,"name":2026,"committee":16,"position":16,"affiliation":2027,"email":16,"biography":2028,"createdAt":2029,"updatedAt":2030,"url_path_id":2031,"contactPhoto":2032,"socialLinks":2060,"url_path":2061},"David Melodelima","LabTAU","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#000000;\">David Melodelima was awarded a PhD degree in Biomedical Engineering in 2004 from the university of Lyon, France for his work in the treatment of esophageal cancers using an intraluminal MR-guided High Intensity Focused Ultrasound (HIFU) device. He then carried out postdoctoral work in radiation force ultrasound elastography at Royal Marsden NHS Trust, Institute for Cancer Research, Sutton, UK. He was recruited by the French institute of Health and medical research (INSERM) in 2005 as a research scientist.  He is now Research Director in the LabTAU (Laboratory of Therapeutic Applications of Ultrasound, Lyon, France) and head of the team “High Energy Ultrasound” with a teaching activity in the University of Lyon. His research covers the entire range of investigation of HIFU from the bench to the bedside with several clinical applications in the treatment of liver and pancreatic tumors. He is a member of the IEEE and ISTU societies, an associate editor of Scientific Reports and Editor-in-Chief of IRBM.\u003C/span>\u003C/p>","2025-03-17T15:07:12.553Z","2025-04-01T23:24:17.859Z","71",{"id":1010,"name":2033,"alternativeText":16,"caption":16,"width":2034,"height":2034,"formats":2035,"hash":2056,"ext":953,"mime":915,"size":2057,"url":2058,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2059,"updatedAt":2059},"D_Melodelima_cropped.jpg",1488,{"large":2036,"small":2041,"medium":2046,"thumbnail":2051},{"ext":953,"url":2037,"hash":2038,"mime":915,"name":2039,"path":16,"size":2040,"width":958,"height":958},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/large_D_Melodelima_cropped_d0463ce1a3.jpg","large_D_Melodelima_cropped_d0463ce1a3","large_D_Melodelima_cropped.jpg",67.83,{"ext":953,"url":2042,"hash":2043,"mime":915,"name":2044,"path":16,"size":2045,"width":873,"height":873},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/small_D_Melodelima_cropped_d0463ce1a3.jpg","small_D_Melodelima_cropped_d0463ce1a3","small_D_Melodelima_cropped.jpg",20.92,{"ext":953,"url":2047,"hash":2048,"mime":915,"name":2049,"path":16,"size":2050,"width":880,"height":880},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/medium_D_Melodelima_cropped_d0463ce1a3.jpg","medium_D_Melodelima_cropped_d0463ce1a3","medium_D_Melodelima_cropped.jpg",40.96,{"ext":953,"url":2052,"hash":2053,"mime":915,"name":2054,"path":16,"size":2055,"width":887,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_D_Melodelima_cropped_d0463ce1a3.jpg","thumbnail_D_Melodelima_cropped_d0463ce1a3","thumbnail_D_Melodelima_cropped.jpg",3.82,"D_Melodelima_cropped_d0463ce1a3",142.01,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/D_Melodelima_cropped_d0463ce1a3.jpg","2025-03-31T21:45:47.878Z",[],"-52",{"id":356,"name":2063,"committee":16,"position":16,"affiliation":2027,"email":16,"biography":2064,"createdAt":2065,"updatedAt":2066,"url_path_id":2067,"contactPhoto":2068,"socialLinks":2087,"url_path":2088},"Maxime Lafond","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#000000;\">Maxime Lafond is a research associate at the Laboratory of Therapeutic Applications of Ultrasound (LabTAU, INSERM U1032, Lyon, France). He received an M.Sc. degree in acoustics from Université du Maine, Le Mans, France, and a Ph.D. degree in biomedical engineering from the LabTAU in 2016, with a focus on unseeded cavitation-based potentiation of doxorubicin, stable cavitation monitoring, and cavitation localization. He held a JSPS post-doctoral fellowship at the Umemura-Yoshizawa Laboratory, Tohoku University, from 2017 to 2018, where he was involved in cavitation monitoring in sonodynamic therapy. He also completed a postdoctoral fellowship at the Image-guided Ultrasound Therapeutics Laboratories, University of Cincinnati, from 2018 to 2021 where he worked on catheter-based ultrasound-mediated drug delivery and bioactive gas delivery for bactericidal and neuroprotective applications. He joined the LabTAU in 2021 to study emerging uses of ultrasound, notably in the eye. His current research interests are using cavitation for ophthalmologic applications including presbyopia reversal and glaucoma management, cavitation-mediated cancer treatment, and ultrasound for implant-based neuroregeneration. \u003C/span>\u003C/p>","2025-03-17T15:33:42.391Z","2025-03-31T21:53:05.192Z","82",{"id":2069,"name":2070,"alternativeText":16,"caption":16,"width":2071,"height":2071,"formats":2072,"hash":2083,"ext":953,"mime":915,"size":2084,"url":2085,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2086,"updatedAt":2086},106,"M_Lafond_cropped_upscale.jpg",604,{"small":2073,"thumbnail":2078},{"ext":953,"url":2074,"hash":2075,"mime":915,"name":2076,"path":16,"size":2077,"width":873,"height":873},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/small_M_Lafond_cropped_upscale_dca9d6a3a8.jpg","small_M_Lafond_cropped_upscale_dca9d6a3a8","small_M_Lafond_cropped_upscale.jpg",17.86,{"ext":953,"url":2079,"hash":2080,"mime":915,"name":2081,"path":16,"size":2082,"width":887,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_M_Lafond_cropped_upscale_dca9d6a3a8.jpg","thumbnail_M_Lafond_cropped_upscale_dca9d6a3a8","thumbnail_M_Lafond_cropped_upscale.jpg",3.18,"M_Lafond_cropped_upscale_dca9d6a3a8",23.91,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/M_Lafond_cropped_upscale_dca9d6a3a8.jpg","2025-03-31T21:45:47.378Z",[],"-63","-62",{"id":28,"session":2091},{"id":320,"title":2092,"teaser":2093,"body":2094,"createdAt":2095,"updatedAt":2096,"publishedAt":2097,"url_path_id":2098,"contacts":2099,"url_path":2123},"Ultrasound imaging of low velocity blood flow","\u003Cp>This short course will present an overview of the basic techniques of Doppler blood flow imaging used in industry, followed by the limitations of these conventional approaches to image lower velocity blood flow. The course will then cover how low velocity flow detection has vastly improved with the advent of recent microvascular Doppler flow imaging modes now present on many commercial imaging systems. The second part of the course covers how the introduction of microbubbles solves a key limitation of even these new microvascular Doppler modes to provide visualization of relative differences in microvascular flow. However, ultrasound contrast has had limited clinical application in part due to a lack of quantification. Lastly, traditional and new efforts to quantify microvascular hemodynamics with microbubbles will be presented, particularly non-linear ULM approaches.\u003C/p>","\u003Cp style=\"text-align:justify;\">The intent of this short course is to provide an overview of how the different modes of ultrasound imaging of blood flow fit together and where their limitations are to highlight where new advances are needed to image low velocity blood flow. Some of the idea of this course arose from interactions with both commercial and academic researchers/developers. My hope for this course is to point our next generation of researchers/developers in directions to advance the imaging of arguably the most important component of blood flow (i.e. perfusion and where tissue/blood interact).\u003C/p>","2025-03-31T15:41:29.803Z","2025-04-15T01:40:02.941Z","2025-03-31T15:41:43.761Z","86",[2100],{"id":2101,"name":2102,"committee":16,"position":16,"affiliation":2103,"email":16,"biography":2104,"createdAt":2105,"updatedAt":2106,"url_path_id":2107,"contactPhoto":2108,"socialLinks":2121,"url_path":2122},50,"Matt Bruce","University of Washington","\u003Cp style=\"text-align:justify;\">Matthew Bruce worked for Philips Medical Systems where he helped develop the first nonlinear imaging modes of microbubbles and Supersonic Imagine where he helped to develop several imaging modal-ities. He is presently at the University of Washington in the Center for Industrial and Medical Ultrasound, where he has several publications and funding in the area of microvascular imaging. He also serves on the Technical Program Committee of the IEEE International Ultrasonics Symposium. His research interests include developing new tools for the ultrasound imaging of tissue and blood flow.\u003C/p>","2025-03-31T15:39:39.625Z","2025-04-01T23:23:14.862Z","85",{"id":1581,"name":2109,"alternativeText":16,"caption":16,"width":1050,"height":2110,"formats":2111,"hash":2117,"ext":953,"mime":915,"size":2118,"url":2119,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2120,"updatedAt":2120},"matt (1).jpg",388,{"thumbnail":2112},{"ext":953,"url":2113,"hash":2114,"mime":915,"name":2115,"path":16,"size":2116,"width":273,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_matt_1_5d092bf4ca.jpg","thumbnail_matt_1_5d092bf4ca","thumbnail_matt (1).jpg",4.93,"matt_1_5d092bf4ca",18.27,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/matt_1_5d092bf4ca.jpg","2025-03-31T15:38:55.887Z",[],"-65","-66",{"id":561,"session":2125},{"id":84,"title":2126,"teaser":50,"body":2127,"createdAt":2128,"updatedAt":2129,"publishedAt":2130,"url_path_id":2131,"contacts":2132,"url_path":2228},"Quantitative ultrasound in soft tissues","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#000000;\">This course will focus on the theoretical and experimental aspects of three families of quantitative ultrasound (QUS) methods: those based on the backscatter coefficient, envelope statistics, and ultrasound attenuation. QUS methods permit quantifying tissue microstructure in great details in a user- and system-independent fashion. Therefore, QUS methods can be used to diagnose diseases, monitor treatment, or for active surveillance. These methods have a long history of success in numerous organ systems. Attendees will learn about the theoretical foundations of the methods, experimental methods and challenges, and become familiar with the state of the art. Upon completion of the course, attendees will have the foundational knowledge necessary to start investigating how QUS methods can be applied to their research and which previous published studies and methods are the most likely to be successfully applied. The course will also review QUS successes from recent studies from researchers within the IEEE IUS community.\u003C/span>\u003C/p>","2025-03-17T15:29:56.876Z","2025-04-01T19:58:19.856Z","2025-03-28T19:36:35.379Z","80",[2133,2157,2181,2205],{"id":363,"name":2134,"committee":16,"position":16,"affiliation":2135,"email":16,"biography":2136,"createdAt":2137,"updatedAt":2138,"url_path_id":2139,"contactPhoto":2140,"socialLinks":2155,"url_path":2156},"Aiguo Han","Virginia Tech","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#000000;\">Aiguo Han is an Assistant Professor in the Department of Biomedical Engineering at Virginia Tech. He received his Ph.D. in Electrical and Computer Engineering from the University of Illinois Urbana-Champaign. His research focuses on biomedical ultrasound imaging, including quantitative ultrasound, transcranial ultrasound, ultrafast ultrasound, and applications of artificial intelligence in ultrasound imaging. Dr. Han is a recipient of the American Institute of Ultrasound in Medicine (AIUM) New Investigator Award (2016) and NIH/NIBIB Trailblazer Award (2022). He serves as a member of the IEEE UFFC IUS Medical Ultrasonics Technical Program Committee, the AIUM Bioeffects Committee, and AIUM/QIBA Pulse-Echo Quantitative Ultrasound Biomarker Committee, and is a Fellow of AIUM.\u003C/span>\u003C/p>","2025-03-17T15:06:06.293Z","2025-05-08T06:55:58.079Z","70",{"id":2141,"name":2142,"alternativeText":16,"caption":16,"width":2143,"height":2144,"formats":2145,"hash":2151,"ext":19,"mime":20,"size":2152,"url":2153,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2154,"updatedAt":2154},148,"Screenshot 2025-05-08 015257.png",248,295,{"thumbnail":2146},{"ext":19,"url":2147,"hash":2148,"mime":20,"name":2149,"path":16,"size":2150,"width":1412,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_Screenshot_2025_05_08_015257_caa184bc6a.png","thumbnail_Screenshot_2025_05_08_015257_caa184bc6a","thumbnail_Screenshot 2025-05-08 015257.png",26.09,"Screenshot_2025_05_08_015257_caa184bc6a",23.73,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/Screenshot_2025_05_08_015257_caa184bc6a.png","2025-05-08T06:52:41.790Z",[],"-51",{"id":553,"name":2158,"committee":16,"position":16,"affiliation":2159,"email":16,"biography":2160,"createdAt":2161,"updatedAt":2162,"url_path_id":2163,"contactPhoto":2164,"socialLinks":2179,"url_path":2180},"Ivan Rosado Mendez","University of Wisconsin-Madison","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#000000;\">Dr. Ivan M. Rosado-Mendez is an assistant professor in the Departments of Medical Physics and Radiology at the University of Wisconsin-Madison. He received his B.S. degree in engineering physics from the Tecnológico de Monterrey, his M.S. degree in medical physics from the National Autonomous University of Mexico (UNAM), and his Ph.D. degree in medical physics from the University of Wisconsin–Madison. From 2017 to 2021, he was an assistant professor at UNAM’s Institute of Physics. His research is centered on developing quantitative methods for medical imaging, with experience in contrast-enhanced mammography and ultrasound. He is also interested in the standardization and clinical translation of quantitative ultrasound biomarkers and the role of medical physicists in these processes, which has led him to co-chair the Pulse-Echo Quantitative Ultrasound biomarker committee of the Quantitative Medical Imaging Coalition and be part of committees within the American Association of Physicists in Medicine and the American Institute of Ultrasound in Medicine.\u003C/span>\u003C/p>","2025-03-17T15:05:01.362Z","2025-04-01T23:22:26.065Z","69",{"id":2165,"name":2166,"alternativeText":16,"caption":16,"width":2167,"height":977,"formats":2168,"hash":2175,"ext":19,"mime":20,"size":2176,"url":2177,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2178,"updatedAt":2178},82,"Screenshot 2025-03-17 100614.png",243,{"thumbnail":2169},{"ext":19,"url":2170,"hash":2171,"mime":20,"name":2172,"path":16,"size":2173,"width":2174,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_Screenshot_2025_03_17_100614_4bd9574382.png","thumbnail_Screenshot_2025_03_17_100614_4bd9574382","thumbnail_Screenshot 2025-03-17 100614.png",68.06,155,"Screenshot_2025_03_17_100614_4bd9574382",41.41,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/Screenshot_2025_03_17_100614_4bd9574382.png","2025-03-17T15:04:47.127Z",[],"-50",{"id":161,"name":2182,"committee":16,"position":16,"affiliation":2183,"email":16,"biography":2184,"createdAt":2185,"updatedAt":2186,"url_path_id":2187,"contactPhoto":2188,"socialLinks":2203,"url_path":2204},"Cameron Hoerig","Weill Cornell Medicine","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#000000;\">Dr. Cameron Hoerig received his B.S. degree from the University of Cincinnati in 2013. He then entered the Bioengineering graduate program at the University of Illinois at Urbana-Champaign, where he received his M. S. and Ph.D. degrees in 2015 and 2018, respectively. He is a currently an Instructor of Biomedical Engineering in Radiology at Weill Cornell Medicine. His research interests include biomedical ultrasonic imaging, tissue characterization, computational mechanics, and machine learning.\u003C/span>\u003C/p>","2025-03-17T15:03:50.398Z","2025-05-08T06:51:18.220Z","68",{"id":2189,"name":2190,"alternativeText":16,"caption":16,"width":1146,"height":2191,"formats":2192,"hash":2199,"ext":19,"mime":20,"size":2200,"url":2201,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2202,"updatedAt":2202},147,"Screenshot 2025-05-08 015032.png",300,{"thumbnail":2193},{"ext":19,"url":2194,"hash":2195,"mime":20,"name":2196,"path":16,"size":2197,"width":2198,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_Screenshot_2025_05_08_015032_58e73ef4fb.png","thumbnail_Screenshot_2025_05_08_015032_58e73ef4fb","thumbnail_Screenshot 2025-05-08 015032.png",20.2,122,"Screenshot_2025_05_08_015032_58e73ef4fb",20.1,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/Screenshot_2025_05_08_015032_58e73ef4fb.png","2025-05-08T06:51:15.405Z",[],"-49",{"id":167,"name":2206,"committee":16,"position":16,"affiliation":2183,"email":16,"biography":2207,"createdAt":2208,"updatedAt":2209,"url_path_id":2210,"contactPhoto":2211,"socialLinks":2226,"url_path":2227},"Jonathan Mamou","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#000000;\">Dr. Jonathan Mamou graduated in 2000 from the Ecole Nationale Supérieure des Télécommunications in Paris, France. In January 2001, he began his graduate studies in Electrical and Computer Engineering at the University of Illinois in Urbana-Champaign, Urbana, IL. He received his M.S. and Ph.D. degrees in May 2002 and 2005, respectively. He previously was the Associate Research Director of the F. L. Lizzi Center for Biomedical Engineering at Riverside Research in New York, NY. He currently is a Professor in the Department of Radiology of Weill Cornell Medicine in New York, NY. Dr. Mamou also is an Adjunct Professor in the Department of Electrical Engineering of New York University. His fields of interest include theoretical aspects of ultrasound scattering, ultrasonic medical imaging, acoustic microscopy, ultrasound contrast agents, and biomedical image processing.\u003C/span>\u003C/p>\u003Cp> \u003C/p>","2025-03-17T15:02:51.740Z","2025-05-08T04:33:15.523Z","67",{"id":2212,"name":2213,"alternativeText":16,"caption":16,"width":2214,"height":2215,"formats":2216,"hash":2222,"ext":19,"mime":20,"size":2223,"url":2224,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2225,"updatedAt":2225},146,"Screenshot 2025-05-07 233350.png",294,368,{"thumbnail":2217},{"ext":19,"url":2218,"hash":2219,"mime":20,"name":2220,"path":16,"size":445,"width":2221,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_Screenshot_2025_05_07_233350_5e2c4636b6.png","thumbnail_Screenshot_2025_05_07_233350_5e2c4636b6","thumbnail_Screenshot 2025-05-07 233350.png",125,"Screenshot_2025_05_07_233350_5e2c4636b6",16.92,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/Screenshot_2025_05_07_233350_5e2c4636b6.png","2025-05-08T04:33:12.935Z",[],"-48","-61",{"id":267,"session":2230},{"id":28,"title":2231,"teaser":50,"body":2232,"createdAt":2233,"updatedAt":2234,"publishedAt":2235,"url_path_id":2236,"contacts":2237,"url_path":2281},"Biomolecular Ultrasound Imaging","\u003Cp>\u003Cspan style=\"background-color:transparent;color:#000000;\">This short course will provide an overview of techniques that are being developed in the field of Biomolecular Ultrasound, which consists in visualizing molecular and cellular processes occurring deep within living organs.\u003C/span>\u003C/p>\u003Cp>\u003Cspan style=\"background-color:transparent;color:#000000;\">While ultrasound is widely used to assess human anatomy and physiology, it plays a very minor role in the field of molecular imaging. Recent advances are beginning to address this limitation thanks to molecular tools that allow ultrasound waves to connect to specific cellular functions.\u003C/span>\u003C/p>\u003Cp>\u003Cspan style=\"background-color:transparent;color:#000000;\">The first part of this course will cover gas vesicles, a new class of genetically encoded ultrasound contrast agents that serve as the ‘green fluorescent protein for ultrasound’. We will review gas vesicle laboratory production techniques, gas vesicles physical properties from a molecular standpoint, engineering strategies to turn gas vesicles into reporter genes and acoustic biosensors, current and foreseeable biosensing applications, and remaining bioengineering challenges.\u003C/span>\u003C/p>\u003Cp>\u003Cspan style=\"background-color:transparent;color:#000000;\">The second part of this course will cover imaging strategies dedicated to sensitive, specific and high-resolution gas vesicle detection. We will review gas vesicles physical properties from an acoustics standpoint, specific challenges that arise when imaging gas vesicles, latest trends in gas vesicle detection, foreseeable imaging developments, and remaining imaging challenges.\u003C/span>\u003C/p>","2025-03-31T15:49:40.029Z","2025-04-15T12:53:39.211Z","2025-03-31T15:49:42.770Z","89",[2238,2263],{"id":2239,"name":2240,"committee":16,"position":16,"affiliation":2241,"email":16,"biography":2242,"createdAt":2243,"updatedAt":2244,"url_path_id":2245,"contactPhoto":2246,"socialLinks":2261,"url_path":2262},51,"David Maresca","Delft University of Technology","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#000000;\">Dr Maresca heads the Maresca Laboratory at Delft University of Technology, the Netherlands. The Maresca Lab develops ultrasound methods capable of visualizing dynamic biological processes across space and time. One of the Lab’s key contributions is the introduction of nonlinear sound-sheet microscopy, a method relying on thin sound sheets to visualize organs at the level of capillaries and cells. Dr. Maresca is an associate professor of Imaging Physics at TU Delft.\u003C/span>\u003C/p>","2025-03-31T15:46:22.830Z","2025-04-01T23:21:10.751Z","87",{"id":2247,"name":2248,"alternativeText":16,"caption":16,"width":2249,"height":2250,"formats":2251,"hash":2257,"ext":19,"mime":20,"size":2258,"url":2259,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2260,"updatedAt":2260},91,"David Maresca Headshot - David Maresca.png",257,260,{"thumbnail":2252},{"ext":19,"url":2253,"hash":2254,"mime":20,"name":2255,"path":16,"size":2256,"width":1365,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_David_Maresca_Headshot_David_Maresca_870d114f49.png","thumbnail_David_Maresca_Headshot_David_Maresca_870d114f49","thumbnail_David Maresca Headshot - David Maresca.png",34.94,"David_Maresca_Headshot_David_Maresca_870d114f49",24.74,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/David_Maresca_Headshot_David_Maresca_870d114f49.png","2025-03-31T15:46:06.905Z",[],"-67",{"id":2264,"name":2265,"committee":16,"position":16,"affiliation":2266,"email":16,"biography":2267,"createdAt":2268,"updatedAt":2269,"url_path_id":2270,"contactPhoto":2271,"socialLinks":2279,"url_path":2280},52,"Mikhail Shapiro","California Institute of Technology","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#000000;\">Dr. Shapiro heads the Shapiro Laboratory at the California Institute of Technology. The Shapiro Lab develops bimolecular contrast agents, sensors, and actuators to enable non-invasive imaging and control of cellular function for basic biology and cell-based diagnostics and therapeutics. Dr. Shapiro is a Professor of Chemical Engineering and Medical Engineering, an Investigator of the Howard Hughes Medical Institute and Director of the Center for Molecular and Cellular Medicine at Caltech.\u003C/span>\u003C/p>","2025-03-31T15:48:19.245Z","2025-04-01T23:20:50.997Z","88",{"id":2272,"name":2273,"alternativeText":16,"caption":16,"width":2274,"height":2274,"formats":16,"hash":2275,"ext":19,"mime":20,"size":2276,"url":2277,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2278,"updatedAt":2278},92,"Mikhail Shapiro Headshot - David Maresca.png",113,"Mikhail_Shapiro_Headshot_David_Maresca_cc1be5fdf0",10.84,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/Mikhail_Shapiro_Headshot_David_Maresca_cc1be5fdf0.png","2025-03-31T15:48:05.213Z",[],"-68","-69",{"id":46,"groupTitle":2283,"sessions":2284},"Sensors, NDE and Industrial Applications",[2285,2340],{"id":358,"session":2286},{"id":14,"title":2287,"teaser":2288,"body":50,"createdAt":2289,"updatedAt":2290,"publishedAt":2291,"url_path_id":2292,"contacts":2293,"url_path":2339},"Meta-transducers for Ultrasonic Guided Wave Inspections","\u003Cp style=\"text-align:justify;\">Conventional ultrasonic guided wave inspections typically rely on large phased-array systems, which are limited by bulky hardware, high power consumption, and complex data acquisition. Meta-transducers, on the other hand, integrate advanced functionalities such as beam steering or mode filtering directly into the transducer design. This “in-sensor” approach significantly reduces hardware requirements and simplifies signal processing, enabling in-situ, low-power, and real-time structural health monitoring. This course is divided into two parts. The first session covers the theoretical foundations of guided waves and introduces the key concepts behind meta-transducer technology,\u003Cbr>including electrode shaping, anisotropic wavenumber filtering, and other novel design strategies, with examples illustrating how these designs outperform conventional approaches. The second part emphasizes practical modeling techniques and numerical simulations of guided wave propagation, demonstrating how to build, analyze, and optimize meta-transducer configurations using tools such as COMSOL Multiphysics. By the end of the course, participants will have both the theoretical background and the hands-on skills required to design and evaluate meta-transducers for ultrasonic inspections.\u003C/p>","2025-03-17T15:24:17.767Z","2025-04-01T19:58:40.036Z","2025-03-28T19:36:27.323Z","78",[2294,2318],{"id":325,"name":2295,"committee":16,"position":16,"affiliation":2296,"email":16,"biography":2297,"createdAt":2298,"updatedAt":2299,"url_path_id":2300,"contactPhoto":2301,"socialLinks":2316,"url_path":2317},"Luca De Marchi","University of Bologna","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#000000;\">\u003Cstrong>Luca De Marchi\u003C/strong> (Senior Member, IEEE) received the M.Sc. and Ph.D. degrees in electronics engineering from the University of Bologna, Bologna, Italy, in 2002 and 2006, respectively. He is currently an Associate Professor of Electronics with the University of Bologna. He has authored more than 200 articles in international journals or the proceedings of international conferences. He holds two patents. His research interests include multiresolution and adaptive signal processing, with\u003Cstrong> \u003C/strong>a particular emphasis on SHM applications.\u003C/span>\u003C/p>","2025-03-17T14:55:13.206Z","2025-05-08T04:24:52.211Z","63",{"id":2302,"name":2303,"alternativeText":16,"caption":16,"width":2304,"height":2305,"formats":2306,"hash":2312,"ext":19,"mime":20,"size":2313,"url":2314,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2315,"updatedAt":2315},143,"Screenshot 2025-05-07 232526.png",407,443,{"thumbnail":2307},{"ext":19,"url":2308,"hash":2309,"mime":20,"name":2310,"path":16,"size":2311,"width":2302,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_Screenshot_2025_05_07_232526_99d9b1b99b.png","thumbnail_Screenshot_2025_05_07_232526_99d9b1b99b","thumbnail_Screenshot 2025-05-07 232526.png",26.3,"Screenshot_2025_05_07_232526_99d9b1b99b",48.38,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/Screenshot_2025_05_07_232526_99d9b1b99b.png","2025-05-08T04:24:48.005Z",[],"-44",{"id":124,"name":2319,"committee":16,"position":16,"affiliation":2296,"email":16,"biography":2320,"createdAt":2321,"updatedAt":2321,"url_path_id":2322,"contactPhoto":2323,"socialLinks":2337,"url_path":2338},"Masoud Mohammadgholiha","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#000000;\">\u003Cstrong>Masoud Mohammadgholiha \u003C/strong>(Member, IEEE) received the B.Sc. degree in Civil Engineering from Bu-Ali Sina University, Hamedan, Iran, in 2014, the M.Sc. degree in Structural and Earthquake Engineering from the K. N. Toosi University of Technology, Tehran, Iran, in 2017, and the Ph.D. degree in Engineering and Information Technology for Structural and Environmental Monitoring and Risk Management from the University of Bologna, Bologna, Italy, in 2024. He is currently a Postdoctoral Research Fellow with the University of Bologna. His research interests include structural health monitoring, ultrasonic transducer design, guided waves, signal processing, and vibration analysis.\u003C/span>\u003C/p>\u003Cp>\u003Cbr> \u003C/p>","2025-03-17T14:56:39.950Z","64",{"id":2324,"name":2325,"alternativeText":16,"caption":16,"width":1598,"height":369,"formats":2326,"hash":2333,"ext":19,"mime":20,"size":2334,"url":2335,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2336,"updatedAt":2336},77,"Screenshot 2025-03-17 095739.png",{"thumbnail":2327},{"ext":19,"url":2328,"hash":2329,"mime":20,"name":2330,"path":16,"size":2331,"width":2332,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_Screenshot_2025_03_17_095739_6f3e49b38a.png","thumbnail_Screenshot_2025_03_17_095739_6f3e49b38a","thumbnail_Screenshot 2025-03-17 095739.png",41.16,126,"Screenshot_2025_03_17_095739_6f3e49b38a",16.97,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/Screenshot_2025_03_17_095739_6f3e49b38a.png","2025-03-17T14:56:11.455Z",[],"-45","-59",{"id":221,"session":2341},{"id":445,"title":2342,"teaser":2343,"body":50,"createdAt":2344,"updatedAt":2345,"publishedAt":2346,"url_path_id":2347,"contacts":2348,"url_path":2394},"Machine Learning and Signal Analysis Applications in Ultrasonic Non-Destructive Evaluation, Imaging, Data Compression, and Communications","\u003Cp>This concise course offers a comprehensive overview of machine learning and signal processing techniques tailored for ultrasonic imaging applications. We will present a range of case studies that address critical real-world challenges, including defect detection in essential components at nuclear facilities, pulse-echo chirplet estimation, and flaw identification in coarse-grained materials through advanced order statistics and deep learning networks. Additionally, the course delves into ultrasonic data compression via machine learning, the development of software-defined ultrasonic systems for communication across solid mediums, and the integration of hardware and software in system-on-chip designs specifically for ultrasonic signal processing tasks.\u003C/p>","2025-04-15T01:28:35.686Z","2025-04-15T01:28:38.371Z","2025-04-15T01:28:38.366Z","108",[2349,2372],{"id":863,"name":2350,"committee":16,"position":16,"affiliation":2351,"email":16,"biography":2352,"createdAt":2353,"updatedAt":2354,"url_path_id":2355,"contactPhoto":2356,"socialLinks":2370,"url_path":2371},"Jafar Saniie","Illinois Institute of Technology","\u003Cp>Jafar Saniie (IEEE Life Fellow for contributions to ultrasonic signal processing for detection, estimation, and imaging) received his B.S. degree with high honors in Electrical Engineering from the University of Maryland in 1974. He received his M.S. degree in Biomedical Engineering in 1977 from Case Western Reserve University, Cleveland, Ohio, and his Ph.D. degree in Electrical Engineering in 1981 from Purdue University, West Lafayette, Indiana. In 1981 Dr. Saniie joined the Department of Applied Physics, University of Helsinki, Finland, to conduct research in photothermal and photoacoustic imaging. Since 1983, he has been with the Department of Electrical and Computer Engineering at Illinois Institute of Technology where he served as the Department Chair (2017-2024), and he has been the Filmer Endowed Chair Professor and Director of Embedded Computing and Signal Processing (ECASP) Research Laboratory (http://ecasp.ece.iit.edu/ ). Dr. Saniie's research interests and activities are in ultrasonic signal and image processing, ultrasonic software-defined communication, artificial intelligence and machine learning, statistical pattern recognition, estimation and detection, data compression, time-frequency analysis, embedded digital systems, system-on-chip hardware/software co-design, Internet of things, computer vision, and deep learning, and ultrasonic nondestructive testing and imaging. Dr. Saniie’s research activities have been supported by DOE, ONR, NSF, ANL, University of Chicago, and EPRI (Electric Power Research Institute) to conduct research in the area sensors, signal processing for detection, estimation, imaging, and system-on-chip design, ultrasonic communications for secure networking, thermal tomography, and nondestructive testing. Dr. Saniie has been a Technical Program Committee member of the IEEE Ultrasonics Symposium since 1987 (The Chair of Sensors, NDE and Industrial Applications Group, 2004-2013), Associate Editor of the IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control (1994-2020), the Lead Guest Editor for the IEEE Ultrasonics, Ferroelectrics and Frequency Control (UFFC) Special Issue on Ultrasonics and Ferroelectrics (August 2014), the IEEE UFFC Special Issue on Novel Embedded Systems for Ultrasonic Imaging and Signal Processing (July 2012), and Special Issue on Advances in Acoustic Sensing, Imaging, and Signal Processing published in the Journal of Advances in Acoustics and Vibration, 2013. Dr. Saniie was the General Chair of the 2014 IEEE Ultrasonics Symposium in Chicago. He has served as the IEEE UFFC Ultrasonics Awards Chair since 2018. He served as the Ultrasonics Vice President of the IEEE UFFC Society (2014-2017). He has over 490 publications and has supervised 41 Ph.D. dissertations, and 28 MS Theses to completion. Dr. Saniie received the 2006 Outstanding Faculty Award for Excellence and Contributions to Computer Engineering Program, and the 2007 Armour College of Engineering and the University (Illinois Institute of Technology) Excellence in Teaching Award.\u003C/p>","2025-04-15T01:27:24.463Z","2025-04-15T01:38:32.485Z","106",{"id":2357,"name":2358,"alternativeText":16,"caption":16,"width":2141,"height":1100,"formats":2359,"hash":2366,"ext":953,"mime":915,"size":2367,"url":2368,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2369,"updatedAt":2369},117,"Jafar.jpg",{"thumbnail":2360},{"ext":953,"url":2361,"hash":2362,"mime":915,"name":2363,"path":16,"size":2364,"width":2365,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_Jafar_647837060c.jpg","thumbnail_Jafar_647837060c","thumbnail_Jafar.jpg",4.16,145,"Jafar_647837060c",4.25,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/Jafar_647837060c.jpg","2025-04-15T01:27:21.886Z",[],"-86",{"id":906,"name":2373,"committee":16,"position":16,"affiliation":2351,"email":16,"biography":2374,"createdAt":2375,"updatedAt":2376,"url_path_id":2377,"contactPhoto":2378,"socialLinks":2392,"url_path":2393},"Erdal Oruklu","\u003Cp>Erdal Oruklu (IEEE Senior Member) received his B.S. degree in Electronics and Communications Engineering from Technical University of Istanbul, Turkey, in 1995, his M.S. degree in Electrical Engineering from Bogazici University, Istanbul, Turkey, in 1999, and his Ph.D. degree in Computer Engineering from Illinois Institute of Technology, Chicago, Illinois, in 2005. He joined the Department of Electrical and Computer Engineering at Illinois Institute of Technology in 2005, where he is an Associate Professor, Associate Chair, and Director of the VLSI and SoC Design Research Laboratory. Dr. Oruklu's research interests include reconfigurable computing, advanced computer architectures, hardware/software co-design, embedded systems, and high-speed computer arithmetic. In particular, he focuses on research and development of system-on-chip (SoC) frameworks for FPGA and VLSI implementations of real-time ultrasound detection, estimation, and imaging applications. He has more than 150 conference and journal publications. Dr. Oruklu is a member of the Technical Program Committee and Group Vice Chair (Sensors, NDE and Industrial Applications Group) for the IEEE Ultrasonics Symposium. Dr. Oruklu is also an Associate Editor for the IEEE Open Journal of Ultrasonics, Ferroelectrics, and Frequency Control Society.\u003C/p>","2025-04-15T01:28:05.142Z","2025-05-08T06:57:35.936Z","107",{"id":431,"name":2379,"alternativeText":16,"caption":16,"width":2380,"height":2381,"formats":2382,"hash":2388,"ext":19,"mime":20,"size":2389,"url":2390,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2391,"updatedAt":2391},"Screenshot 2025-05-08 015825.png",318,324,{"thumbnail":2383},{"ext":19,"url":2384,"hash":2385,"mime":20,"name":2386,"path":16,"size":2387,"width":1320,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_Screenshot_2025_05_08_015825_ff0e407f07.png","thumbnail_Screenshot_2025_05_08_015825_ff0e407f07","thumbnail_Screenshot 2025-05-08 015825.png",26.99,"Screenshot_2025_05_08_015825_ff0e407f07",23.24,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/Screenshot_2025_05_08_015825_ff0e407f07.png","2025-05-08T06:57:33.431Z",[],"-87","-88",{"id":119,"groupTitle":2396,"sessions":2397},"Physical Acoustics",[2398,2494,2559],{"id":510,"session":2399},{"id":358,"title":2400,"teaser":2401,"body":2402,"createdAt":2403,"updatedAt":2404,"publishedAt":2405,"url_path_id":2406,"contacts":2407,"url_path":2493},"Acoustic Tweezers: From Basic Principles to its Biological Applications","\u003Cp>\u003Cspan style=\"color:black;\">Acoustic tweezers, a cutting-edge technology at the intersection of acoustics, microfluidics, and biomedical engineering, have emerged as a powerful tool for the precise manipulation and sorting of microscale objects. This tutorial provides a comprehensive overview of the design, fabrication, and diverse applications of acoustic tweezers. The tutorial begins by introducing the fundamental principles of acoustic tweezers, highlighting the underlying physics of acoustic wave propagation and the generation of acoustic radiation forces. It explores various design strategies for creating acoustic tweezer devices, including transducer configurations, materials selection, and system designs.\u003C/span>\u003C/p>","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"color:black;\">A significant portion of the tutorial is dedicated to the fabrication techniques employed in developing acoustic tweezer devices. It covers ultrasound transducer fabrication, design considerations, and integration with optical microscopic systems. Practical insights into the challenges and solutions associated with fabrication are discussed to assist researchers and practitioners in implementing acoustic tweezers in their work.\u003C/span>\u003C/p>\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"color:black;\">Furthermore, the tutorial introduces the broad spectrum of applications for acoustic tweezers, ranging from cell manipulation to characterization. Case studies are presented to illustrate the versatility and potential impact of this technology in various fields, emphasizing its role in advancing biomedical research, diagnostics, and beyond.\u003C/span>\u003C/p>\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"color:black;\">In conclusion, this tutorial aims to provide a comprehensive resource for researchers, engineers, and students interested in the design, fabrication, and applications of acoustic tweezers. By offering a detailed exploration of the underlying principles and practical considerations, it seeks to empower individuals to harness the full potential of acoustic tweezers in their respective domains.\u003C/span>\u003C/p>","2025-03-31T16:00:32.166Z","2025-04-15T01:40:46.316Z","2025-03-31T16:00:33.717Z","94",[2408,2424,2454,2478],{"id":1023,"name":2409,"committee":16,"position":16,"affiliation":2410,"email":16,"biography":2411,"createdAt":2412,"updatedAt":2412,"url_path_id":2413,"contactPhoto":2414,"socialLinks":2422,"url_path":2423},"Jae Youn Hwang","DGIST","\u003Cp style=\"text-align:justify;\">\u003Cstrong>Dr. Jae Youn Hwang\u003C/strong> received a B.S. degree from Korea University and an M.S. degree from Seoul National University. In 2009, he earned his Ph.D. in Biomedical Engineering from the University of Southern California (USC). Following his doctoral studies, he worked as a postdoctoral fellow at Cedars-Sinai Medical Center (CSMC), gaining valuable research experience. He then joined the NIH Resource Center for Medical Ultrasonic Transducer Technology, focusing on the development of innovative high-frequency ultrasound technologies. In 2014, he joined the Department of Information and Communication Engineering at DGIST as an assistant professor. Currently, he holds multiple key positions at DGIST, serving as Chair, Department of Interdisciplinary Studies; Chair, Biomedical Science & Engineering Major in Interdisciplinary Studies; Professor, Department of Electrical Engineering and Computer Science; Professor, Artificial Intelligence Major in Interdisciplinary Studies. He was Associate Vice President for Strategic Planning of DGIST and also a Non-Executive Director at Dabeeo Inc. Dr. Hwang actively contributes to the scientific community as a Technical Committee Member of the IEEE International Ultrasonics Symposium (since 2022), SPIE Photonics West BIOS (since 2017), and BIOIMAGING (since 2017). Additionally, he serves on the Editorial Board of the Korea Nondestructive Test Society Journal.\u003C/p>","2025-03-31T15:55:54.143Z","90",{"id":2415,"name":2416,"alternativeText":16,"caption":16,"width":2274,"height":2417,"formats":16,"hash":2418,"ext":19,"mime":20,"size":2419,"url":2420,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2421,"updatedAt":2421},93,"Picture1.png",135,"Picture1_7a638718d8",11.73,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/Picture1_7a638718d8.png","2025-03-31T15:54:47.313Z",[],"-70",{"id":2425,"name":2426,"committee":16,"position":16,"affiliation":2427,"email":16,"biography":2428,"createdAt":2429,"updatedAt":2430,"url_path_id":2431,"contactPhoto":2432,"socialLinks":2452,"url_path":2453},54,"Hyung Ham Kim","POSTECH","\u003Cp style=\"text-align:justify;\">\u003Cstrong>Dr. Hyung Ham Kim\u003C/strong> received his Ph.D. degree in Biomedical Engineering from the University of Southern California, Los Angeles, CA in 2010. He worked as a Research Assistant Professor in the Department of Biomedical Engineering at the University of Southern California and Manager of the NIH Resource Center for Medical Ultrasonic Transducer Technology until he joined Analogic Inc., Peabody, MA in 2014. At Analogic, he led the research solutions business as a Director of Business Development by 2016. He is currently a Professor of the Department of Electrical Engineering, Department of Convergence IT Engineering, and School of Convergence Science and Technology at Pohang University of Science and Technology (POSTECH), Pohang, Korea. His current research includes high-frequency array transducers for high-resolution ultrasound imaging, cell mechanics studies using acoustic tweezers, brain-computer interface, and industrial applications of high-frequency ultrasound.\u003C/p>","2025-03-31T15:56:59.209Z","2025-05-08T04:21:51.527Z","91",{"id":253,"name":2433,"alternativeText":16,"caption":16,"width":2001,"height":2434,"formats":2435,"hash":2448,"ext":19,"mime":20,"size":2449,"url":2450,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2451,"updatedAt":2451},"Screenshot 2025-05-07 232216.png",534,{"small":2436,"thumbnail":2442},{"ext":19,"url":2437,"hash":2438,"mime":20,"name":2439,"path":16,"size":2440,"width":2441,"height":873},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/small_Screenshot_2025_05_07_232216_92450af1e3.png","small_Screenshot_2025_05_07_232216_92450af1e3","small_Screenshot 2025-05-07 232216.png",186.45,414,{"ext":19,"url":2443,"hash":2444,"mime":20,"name":2445,"path":16,"size":2446,"width":2447,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_Screenshot_2025_05_07_232216_92450af1e3.png","thumbnail_Screenshot_2025_05_07_232216_92450af1e3","thumbnail_Screenshot 2025-05-07 232216.png",22.86,129,"Screenshot_2025_05_07_232216_92450af1e3",59.61,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/Screenshot_2025_05_07_232216_92450af1e3.png","2025-05-08T04:21:48.039Z",[],"-71",{"id":2455,"name":2456,"committee":16,"position":16,"affiliation":2457,"email":16,"biography":2458,"createdAt":2459,"updatedAt":2459,"url_path_id":2460,"contactPhoto":2461,"socialLinks":2476,"url_path":2477},55,"Teng Ma","SIAT","\u003Cp style=\"text-align:justify;\">\u003Cstrong>Dr. Teng Ma\u003C/strong> is a Professor and Ph.D. advisor at the Shenzhen Institutes of Advanced Technology (SIAT), Chinese Academy of Sciences. He also serves as the Deputy Director of the Electronics and Information Division at the National Key Laboratory of Medical Imaging Science and Technology Systems. He received his Ph.D. in Biomedical Engineering from the University of Southern California (USC) in 2015. After completing his doctorate, he worked as a postdoctoral researcher at the NIH Resource Center for Medical Ultrasonic Transducer Technology, jointly established by USC and the U.S. National Institutes of Health (NIH). In 2017, he returned to China as a recipient of the National High-Level Overseas Talent Recruitment Program and joined SIAT.\u003C/p>","2025-03-31T15:57:50.027Z","92",{"id":2462,"name":2463,"alternativeText":16,"caption":16,"width":2464,"height":2465,"formats":2466,"hash":2472,"ext":953,"mime":915,"size":2473,"url":2474,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2475,"updatedAt":2475},95,"Picture3.jpg",306,383,{"thumbnail":2467},{"ext":953,"url":2468,"hash":2469,"mime":915,"name":2470,"path":16,"size":2471,"width":2221,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_Picture3_6501d7e7bf.jpg","thumbnail_Picture3_6501d7e7bf","thumbnail_Picture3.jpg",2.95,"Picture3_6501d7e7bf",16.56,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/Picture3_6501d7e7bf.jpg","2025-03-31T15:57:35.661Z",[],"-72",{"id":2479,"name":2480,"committee":16,"position":16,"affiliation":2481,"email":16,"biography":2482,"createdAt":2483,"updatedAt":2483,"url_path_id":2484,"contactPhoto":2485,"socialLinks":2491,"url_path":2492},56,"Itziar Gonzalez","ITEFI","\u003Cp style=\"text-align:justify;\">Dr. Itziar González Gómez is the Deputy Director for Scientific Affairs at the Institute of Physical and Information Technologies (ITEFI), part of the Spanish National Research Council (CSIC). Since 2023, she has also been a member of the Scientific Committee of the IEEE International Ultrasonics Symposium (IUS). Her research spans various fields, including microplastics, cancer, ultrasound, tissue engineering, and acoustofluidics. She has published numerous papers on these topics, with over 1,200 citations. Recently, she has been conducting research on \u003Cstrong>In-Situ Resource Utilization (ISRU)\u003C/strong>, focusing on strategies for resource acquisition essential for space colonization and exploration.\u003C/p>","2025-03-31T15:58:51.492Z","93",{"id":1835,"name":2486,"alternativeText":16,"caption":16,"width":2221,"height":2221,"formats":16,"hash":2487,"ext":953,"mime":915,"size":2488,"url":2489,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2490,"updatedAt":2490},"Picture4.jpg","Picture4_a2e0de3fb1",4.09,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/Picture4_a2e0de3fb1.jpg","2025-03-31T15:58:39.696Z",[],"-73","-74",{"id":751,"session":2495},{"id":510,"title":2496,"teaser":2497,"body":2498,"createdAt":2499,"updatedAt":2500,"publishedAt":2501,"url_path_id":2502,"contacts":2503,"url_path":2558},"Bulk Acoustic Wave Design Fundamentals for Filter Applications","\u003Cp>\u003Cspan style=\"background-color:transparent;color:#222222;\">Piezoelectric MEMS based acoustic wave resonators have been the backbone for low loss, high-rejection and compact RF filters over the past 30 years.  This course will provide an overview on basic principles of piezoelectric theory and acoustic wave propagation, material selection, underlying bulk acoustic wave resonator design, and measurement techniques for the design of RF bulk acoustic wave (BAW) filters.\u003C/span>\u003C/p>","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#222222;\">We introduce acoustic wave resonator technology and discuss its impact on RF filters in general. We outline the opportunities and challenges that BAW technology can address for stringent RF filtering demands. We cover the fundamentals of bulk acoustic wave technology and design architectures for RF filtering applications. \u003C/span>\u003C/p>\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#222222;\">We discuss: (1) a range of resonator models from the phenomenological Butterworth Van-Dyke Model, the physical (1D) Mason model, and 2D & 3D electro-acoustic multi-physics models, (2) harmonic emissions and intermodulation distortion and how these can be measured and modelled, and (3) key metrological performance indicators of resonators including coupling factor and quality factor.\u003C/span>\u003C/p>","2025-03-31T16:10:00.689Z","2025-04-15T01:41:04.725Z","2025-03-31T18:46:58.268Z","97",[2504,2528],{"id":2505,"name":2506,"committee":16,"position":16,"affiliation":2507,"email":16,"biography":2508,"createdAt":2509,"updatedAt":2510,"url_path_id":2511,"contactPhoto":2512,"socialLinks":2526,"url_path":2527},57,"David A. Feld","Skyworks","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#000000;\">David A. Feld was born in Cambridge, MA, in 1964. He received the B.S. degree in electrical engineering from Columbia University, New York, NY, in 1986, and a Ph.D. degree in electrical engineering from the University of California at Berkeley, in 1993. In 1994 he joined the Massachusetts Institute of Technology (MIT) Lincoln Laboratory, as a researcher in the field of superconductive electronics. In 2000, he joined Agilent Technologies, San Jose, CA, as an FBAR Filter Designer, and later as a researcher in FBAR device R&D. In 2020 he joined Skyworks Solutions in Irvine CA where he leads a device R&D team in developing BAW and SAW technologies.\u003C/span>\u003C/p>","2025-03-31T16:03:56.497Z","2025-04-01T23:18:34.980Z","95",{"id":2513,"name":2514,"alternativeText":16,"caption":16,"width":2515,"height":1330,"formats":2516,"hash":2522,"ext":19,"mime":20,"size":2523,"url":2524,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2525,"updatedAt":2525},97,"Screenshot 2025-03-31 110448.png",204,{"thumbnail":2517},{"ext":19,"url":2518,"hash":2519,"mime":20,"name":2520,"path":16,"size":2521,"width":2357,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_Screenshot_2025_03_31_110448_b3af2fb160.png","thumbnail_Screenshot_2025_03_31_110448_b3af2fb160","thumbnail_Screenshot 2025-03-31 110448.png",31.98,"Screenshot_2025_03_31_110448_b3af2fb160",22.39,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/Screenshot_2025_03_31_110448_b3af2fb160.png","2025-03-31T16:03:41.073Z",[],"-75",{"id":1694,"name":2529,"committee":16,"position":16,"affiliation":2530,"email":16,"biography":2531,"createdAt":2532,"updatedAt":2533,"url_path_id":2534,"contactPhoto":2535,"socialLinks":2556,"url_path":2557},"Mihir S. Patel","Skyworks Solutions Inc","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:#ffffff;color:#222222;\">Mihir S. Patel (M’07) received the B.S. degree in Civil Engineering from the M. S. University of Baroda, India, in 2001, and the M.S. and Ph.D. degrees in structures/mechanics from Rutgers University, Piscataway, NJ, USA, in 2004 and 2008, respectively. Dr. Patel’s contributions have been to the advancement of piezo MEMS technology for high precision acoustic devices.  He has authored or co-authored more than 40 technical papers ten U.S. patents. His research interests include the design and development of novel piezoelectric acoustic wave devices, and application of numerical methods for the investigation of environmental effects on acoustic wave propagation.  At the IEEE-UFFC Society, he serves as a member of the Technical Program Committee for the IEEE Ultrasonics Symposia. \u003C/span>\u003C/p>","2025-03-31T16:07:22.067Z","2025-09-09T21:44:42.036Z","96",{"id":2536,"name":2537,"alternativeText":16,"caption":16,"width":2538,"height":2539,"formats":2540,"hash":2552,"ext":19,"mime":20,"size":2553,"url":2554,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2555,"updatedAt":2555},144,"Screenshot 2025-05-07 232757.png",418,511,{"small":2541,"thumbnail":2546},{"ext":19,"url":2542,"hash":2543,"mime":20,"name":2544,"path":16,"size":2545,"width":1647,"height":873},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/small_Screenshot_2025_05_07_232757_76e7352c4e.png","small_Screenshot_2025_05_07_232757_76e7352c4e","small_Screenshot 2025-05-07 232757.png",137.82,{"ext":19,"url":2547,"hash":2548,"mime":20,"name":2549,"path":16,"size":2550,"width":2551,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_Screenshot_2025_05_07_232757_76e7352c4e.png","thumbnail_Screenshot_2025_05_07_232757_76e7352c4e","thumbnail_Screenshot 2025-05-07 232757.png",20.25,128,"Screenshot_2025_05_07_232757_76e7352c4e",30.83,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/Screenshot_2025_05_07_232757_76e7352c4e.png","2025-05-08T04:27:21.355Z",[],"-76","-77",{"id":155,"session":2560},{"id":751,"title":2561,"teaser":2562,"body":2563,"createdAt":2564,"updatedAt":2565,"publishedAt":2566,"url_path_id":2567,"contacts":2568,"url_path":2592},"Fundamentals of Physical Acoustics for the Analysis of Acoustic Wave Resonators","\u003Cp>With the rapid miniaturization of acoustic wave resonators for frequency control and sensor applications, the analysis and design of these devices are increasingly transitioning to computer-based digital processes. This shift necessitates a strong emphasis on formulation and modeling that takes into account material properties and dynamic characteristics. In light of the heavy reliance on design tools, it is essential to begin with the fundamental theories underlying acoustic wave devices to support numerical analyses.\u003C/p>","\u003Cp> We present the foundational equations governing wave propagation in piezoelectric solids, focusing on device structures, crystal materials, plates, films, and layered configurations corresponding to their respective vibration modes and frequencies. Simplifications are applied to typical resonators in relation to their distinctive frequencies associated with operational modes. These findings play a crucial role in guiding the conceptualization and development of novel types of resonators. Further enhancements in analysis can be achieved by employing numerical methods for precise solutions regarding vibration modes and frequencies of actual resonator structures. This optimization aims at improving performance while ensuring accurate extraction of electrical parameters necessary for circuit design. The formulated methodologies can be applied across common types of resonators such as bulk acoustic wave (BAW) devices, surface acoustic wave (SAW) resonators, and film bulk acoustic wave (FBAR) systems. Ultimately, we will present a formal procedure encompassing both complete formulation and approximate analysis techniques pertinent to acoustic wave resonators. This course serves as an introduction to the formulation and performance property analysis of these devices; further engineering solutions may be attained through practical tools such as finite element analysis.\u003C/p>","2025-04-15T01:25:25.061Z","2025-04-15T01:41:37.430Z","2025-04-15T01:25:26.515Z","105",[2569],{"id":2570,"name":2571,"committee":16,"position":16,"affiliation":2572,"email":16,"biography":2573,"createdAt":2574,"updatedAt":2575,"url_path_id":2576,"contactPhoto":2577,"socialLinks":2590,"url_path":2591},59,"Ji Wang","Ningbo University, China","\u003Cp>\u003Cstrong>Professor Ji Wang\u003C/strong> has held the position of Qianjiang Chair Professor of Zhejiang Province at Ningbo University since 2002. From 2013 to 2019, he also served as Associate Dean for Research and Graduate Studies in the School of Mechanical Engineering and Mechanics at Ningbo University. He was the founding director of the Piezoelectric Device Laboratory, which is recognized as a Key Laboratory by the Municipality of Ningbo.\u003C/p>\u003Cp>Prior to his academic career, Professor Wang worked as a senior engineer at SaRonix in Menlo Park, CA from 2001 to 2002; as a senior engineer and manager at NetFront Communications in Sunnyvale, CA from 1999 to 2001; and as a Senior Member of Technical Staff at Epson Palo Alto Laboratory in Palo Alto, CA from 1995 to 1999. Additionally, he has held visiting positions at Chiba University, the University of Nebraska-Lincoln, and Argonne National Laboratory. He earned his PhD and Master's degrees from Princeton University in 1996 and 1993 respectively, following his bachelor's degree from Gansu University of Technology in 1983.\u003C/p>\u003Cp>Professor Wang's research focuses on acoustic waves and high-frequency vibrations within elastic and piezoelectric solids for resonator design and analysis. His work includes nonlinear vibration analysis resulting in several patents registered both in the United States and China. He has authored approximately 240 journal papers and frequently delivers invited talks, keynote addresses, and plenary presentations at major international conferences.\u003C/p>\u003Cp>He serves on various boards as a member or advisor for leading companies within the acoustic wave device industry. Furthermore, Professor Wang is an active participant on numerous international committees including those associated with IEEE UFFC Technical Program Committees for Frequency Control Symposium & Ultrasonics Symposium; IEEE MTT-S; IEC TC-49; among others. Notably, he is also the founding chair of both CSTAM’s Committee on Mechanics of Electronic & Magnetic Devices as well as SPAWDA.\u003C/p>\u003Cp>Currently Professor Wang is the Executive Editor of \u003Ci>MechanoEngineering\u003C/i>.  From 2015 to 2020, Professor Wang was appointed editor-in-chief for \u003Ci>Structural Longevity\u003C/i> while contributing to editorial boards across multiple prestigious international journals.\u003C/p>","2025-04-15T01:24:35.522Z","2025-05-08T06:56:20.378Z","104",{"id":2578,"name":2579,"alternativeText":16,"caption":16,"width":2580,"height":1729,"formats":2581,"hash":2586,"ext":19,"mime":20,"size":2587,"url":2588,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2589,"updatedAt":2589},149,"Screenshot 2025-05-08 015658.png",290,{"thumbnail":2582},{"ext":19,"url":2583,"hash":2584,"mime":20,"name":2585,"path":16,"size":2389,"width":1653,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_Screenshot_2025_05_08_015658_85f9c31e5e.png","thumbnail_Screenshot_2025_05_08_015658_85f9c31e5e","thumbnail_Screenshot 2025-05-08 015658.png","Screenshot_2025_05_08_015658_85f9c31e5e",26.79,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/Screenshot_2025_05_08_015658_85f9c31e5e.png","2025-05-08T06:56:18.014Z",[],"-84","-85",{"id":139,"groupTitle":2594,"sessions":2595},"Microacoustics - SAW, FBAR and MEMS",[2596],{"id":207,"session":2597},{"id":77,"title":2598,"teaser":2599,"body":2600,"createdAt":2601,"updatedAt":2602,"publishedAt":2603,"url_path_id":2604,"contacts":2605,"url_path":2636},"Basics of RF Acoustic Resonators","\u003Cp style=\"text-align:justify;\">Owing to excellent performance, radio frequency (RF) surface and bulk acoustic wave (SAW/BAW) devices are widely used in the RF frontend of current smartphones. Nevertheless, SAW/BAW engineers are always requested to further improve the device performance. But how?\u003C/p>","\u003Cp style=\"text-align:justify;\">This lecture starts from an introduction of the modified Butterworth Van Dyke (mBVD) model, which is widely used in the experimental evaluation of RF SAW/BAW resonators and as a core cell for filter design. Here, we regard the mBVD model as ideal except excess losses and the deviation as performance degradation. It is shown how impact of various degradation mechanisms appears in the simulation results. They include longitudinal and transverse resonances, parasitic circuit elements, SAW and BAW energy leakage, and so on. Their origins and countermeasures are also detailed. Excess losses arisen in RF resonators are also discussed with the help of the scaling law. Then, the mBVD fitting for one-port resonators is demonstrated in three cases; one-and two-port, and PCB-mounted setups. Fitting procedures are explained, and it is shown that if all the parameters are set appropriately, the device characteristics can be expressed with astonishing accuracy. It is shown that measured data across a wide frequency range are helpful for precise determination of parasitic impedances. It is also shown that the mBVD model is effective to characterize the multi-port SAW resonator, namely double mode SAW (DMS) filter. Finally, the mBVD model is extended for the use in nonlinearity analysis, and itsusefulness is revealed.\u003C/p>","2025-03-17T15:25:31.500Z","2025-04-01T19:59:02.904Z","2025-03-28T19:36:31.114Z","79",[2606],{"id":300,"name":2607,"committee":16,"position":16,"affiliation":2608,"email":16,"biography":2609,"createdAt":2610,"updatedAt":2611,"url_path_id":2612,"contactPhoto":2613,"socialLinks":2634,"url_path":2635},"Ken-ya Hashimoto","University of Electronic Science and Technology of China","\u003Cp style=\"margin-left:-0.1pt;\">\u003Cspan style=\"background-color:transparent;color:#000000;\">\u003Cstrong>Ken-ya Hashimoto \u003C/strong>received the B. S. and M. S. degrees in electrical engineering from Chiba University, Chiba, Japan, in 1978 and 1980, respectively, and the Dr. Eng. degree from the Tokyo Institute of Technology, Tokyo, Japan, in 1989.\u003C/span>\u003C/p>\u003Cp style=\"margin-left:-0.1pt;\">\u003Cspan style=\"background-color:transparent;color:#000000;\">He joined Chiba University as a Research Associate in 1980 and retired there as a Professor Emeritus in 2021. Right after retirement, he moved to the University of Electronic Science and Technology of China (UESTC), Chengdu, China, as a professor.\u003C/span>\u003C/p>\u003Cp style=\"margin-left:-0.1pt;\">\u003Cspan style=\"background-color:transparent;color:#000000;\">He received IEEE Fellow (2005), International Distinguished Lecturer Award (2005) and Distinguished Service Award (2019) both from the IEEE UFFC Society, Ichimura Industrial Award from the New Technology Development Foundation (2015), The Commendation for Science and Technology by the Minister of Education, Culture, Sports, Science and Technology for Research (2018), and so on. \u003C/span>\u003C/p>\u003Cp style=\"margin-left:-0.1pt;\">\u003Cspan style=\"background-color:transparent;color:#000000;\">His current research interests include simulation and design of various high-performance surface and bulk acoustic wave devices.\u003C/span>\u003C/p>\u003Cp>\u003Cbr> \u003C/p>","2025-03-17T14:58:41.093Z","2025-05-08T04:30:49.035Z","65",{"id":2365,"name":2614,"alternativeText":16,"caption":16,"width":2615,"height":2616,"formats":2617,"hash":2630,"ext":19,"mime":20,"size":2631,"url":2632,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2633,"updatedAt":2633},"Screenshot 2025-05-07 233124.png",419,502,{"small":2618,"thumbnail":2624},{"ext":19,"url":2619,"hash":2620,"mime":20,"name":2621,"path":16,"size":2622,"width":2623,"height":873},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/small_Screenshot_2025_05_07_233124_4b642792c3.png","small_Screenshot_2025_05_07_233124_4b642792c3","small_Screenshot 2025-05-07 233124.png",171.48,417,{"ext":19,"url":2625,"hash":2626,"mime":20,"name":2627,"path":16,"size":2628,"width":2629,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_Screenshot_2025_05_07_233124_4b642792c3.png","thumbnail_Screenshot_2025_05_07_233124_4b642792c3","thumbnail_Screenshot 2025-05-07 233124.png",21.88,130,"Screenshot_2025_05_07_233124_4b642792c3",51.22,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/Screenshot_2025_05_07_233124_4b642792c3.png","2025-05-08T04:30:45.040Z",[],"-46","-60",{"id":14,"groupTitle":2638,"sessions":2639},"Transducer and Transducer Materials",[2640,2781],{"id":439,"session":2641},{"id":46,"title":2642,"teaser":2643,"body":2644,"createdAt":2645,"updatedAt":2646,"publishedAt":2647,"url_path_id":2648,"contacts":2649,"url_path":2780},"Bridging Research and Industry in Ultrasound: Practical Insights for Emerging Innovators","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#222222;\">Successfully translating ultrasound innovations from research to industry requires a comprehensive understanding of product development, regulatory frameworks, intellectual property strategies, and commercialization pathways. This short course is designed to equip researchers, engineers, and entrepreneurs with the critical knowledge and practical skills necessary to navigate this complex landscape and drive innovation from concept to market.\u003C/span>\u003C/p>","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#222222;\">This course will first provide a structured framework for identifying market opportunities, constructing a compelling business case, and formulating effective go-to-market strategies. Participants will gain a deep understanding of the regulatory environment, including FDA and MDR approval pathways, medical device classifications, and compliance requirements for both medical and commercial ultrasound applications.\u003C/span>\u003C/p>\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#222222;\">Intellectual property protection is a key consideration in ultrasound commercialization, and this course will provide best practices for patent filing, freedom-to-operate analysis, and IP portfolio management to secure competitive advantages. The entrepreneurship segment will address the essential components of launching a successful startup, from securing funding and developing a minimum viable product to navigating partnerships and scaling operations.\u003C/span>\u003C/p>\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#222222;\">A detailed exploration of the product development lifecycle will cover system design, prototyping methodologies, and the critical transition from research prototypes to scalable manufacturing. Additionally, process development and quality control strategies will be examined, focusing on regulatory compliance, risk mitigation, and the establishment of robust manufacturing pipelines. Supply chain management will also be addressed, with insights into strategic sourcing, vendor relationships, and navigating global supply chain disruptions.\u003C/span>\u003C/p>\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#222222;\">Structured into targeted sessions, this course integrates expert-led presentations, real-world case studies, and interactive discussions to provide attendees with actionable insights and industry best practices. Whether you are a researcher seeking commercialization pathways, an entrepreneur refining a business strategy, or an industry professional looking to deepen your expertise, this course offers invaluable guidance on bridging the gap between research and industry to successfully bring ultrasound technologies to market.\u003C/span>\u003C/p>","2025-03-17T15:13:32.075Z","2025-05-13T20:29:01.453Z","2025-03-28T19:36:16.668Z","73",[2650,2671,2712,2740],{"id":420,"name":2651,"committee":16,"position":16,"affiliation":2652,"email":16,"biography":2653,"createdAt":2654,"updatedAt":2655,"url_path_id":2656,"contactPhoto":2657,"socialLinks":2669,"url_path":2670},"Jessica Liu Strohmann","Qualcomm","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#000000;\">Dr. Jessica Liu Strohmann earned her Ph.D. in Mechanical Engineering from the University of Colorado at Boulder. She is currently the Principal Engineer at Qualcomm. Dr. Strohmann is an IEEE Senior Member, an elected AdCom member, a Technical Program Committee (TPC) member for IEEE IUS, and an Associate Editor for IEEE UFFC Transactions. With extensive experience in miniaturized systems and innovative acoustics/ultrasonic transducer design and integration, Dr. Strohmann has led cutting-edge projects in Silicon Valley's high-tech companies. Her work has been recognized three times as \"Inventions of the Year\" by Popular Science, and her designs have reached billions of users. Dr. Strohmann has published numerous articles in peer-reviewed international journals and conferences. Her research has resulted in over 60 granted patents and more than 130 patent applications. She was honored with the prestigious “Qualcomm IP Achievement Award 2024.” Her current research interests include emerging ultrasound imaging techniques, MEMS-based transducers for industrial applications, and numerical multi-physics modeling.\u003C/span>\u003C/p>","2025-03-17T14:38:31.413Z","2025-04-15T01:34:45.629Z","53",{"id":1206,"name":2658,"alternativeText":16,"caption":16,"width":2198,"height":393,"formats":2659,"hash":2665,"ext":19,"mime":20,"size":2666,"url":2667,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2668,"updatedAt":2668},"Screenshot 2025-03-17 093939.png",{"thumbnail":2660},{"ext":19,"url":2661,"hash":2662,"mime":20,"name":2663,"path":16,"size":2664,"width":2357,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_Screenshot_2025_03_17_093939_a508b96c52.png","thumbnail_Screenshot_2025_03_17_093939_a508b96c52","thumbnail_Screenshot 2025-03-17 093939.png",40.64,"Screenshot_2025_03_17_093939_a508b96c52",14.41,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/Screenshot_2025_03_17_093939_a508b96c52.png","2025-03-17T14:38:13.332Z",[],"-34",{"id":117,"name":2672,"committee":16,"position":16,"affiliation":2673,"email":16,"biography":2674,"createdAt":2675,"updatedAt":2676,"url_path_id":2677,"contactPhoto":2678,"socialLinks":2710,"url_path":2711},"Charles D. Emery","Sciton, Inc.","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#000000;\">Charles D. Emery is an accomplished and results-oriented professional with over 20 years of experience driving innovation and product development in the medical device industry. He possesses a proven history of connecting customer needs to novel solutions, leveraging his deep expertise in system design, signal processing, ultrasound imaging and therapy technology, and intellectual property development. He is currently Senior Engineering Director at Sciton, Inc. in Palo Alto, California, where he leads a talented cross-functional team in delivering novel advancements in medical aesthetics using multiple energy modalities. Prior to Sciton, Dr. Emery served as Vice President of Product Development and Chief Innovation Officer at Ulthera Inc. (a division of Merz, Inc.), where he led teams that delivered extraordinarily complex medical devices generating substantial revenue. Dr. Emery’s leadership and innovation was a key component in the $600m acquisition of Ulthera by Merz.  Other experiences include requirements management, preclinical testing, GLP studies, and regulatory submissions (IEC 60601, 21 CFR Part 820, and ISO 13485). He holds a Ph.D. in Biomedical Engineering from Duke University and an MBA in Technology Management from the University of Washington (summa cum laude, first in class). Dr. Emery has served as a technical advisor and consultant for several organizations, including Method AI, EndoSound and Ardian (supported $800m acquisition by Medtronic), and was formerly an Adjunct Professor at Dalhousie University. He is dedicated to mentoring and team development, with a passion for translating innovative research into impactful medical technologies. \u003C/span>\u003C/p>","2025-03-17T14:59:55.643Z","2025-04-01T23:16:19.667Z","66",{"id":2679,"name":2680,"alternativeText":16,"caption":16,"width":2681,"height":2682,"formats":2683,"hash":2706,"ext":953,"mime":915,"size":2707,"url":2708,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2709,"updatedAt":2709},79,"Charles Emery Headshot 2021 Cropped - Charles Emery.jpg",1716,1296,{"large":2684,"small":2690,"medium":2696,"thumbnail":2702},{"ext":953,"url":2685,"hash":2686,"mime":915,"name":2687,"path":16,"size":2688,"width":958,"height":2689},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/large_Charles_Emery_Headshot_2021_Cropped_Charles_Emery_b9eeb54a8a.jpg","large_Charles_Emery_Headshot_2021_Cropped_Charles_Emery_b9eeb54a8a","large_Charles Emery Headshot 2021 Cropped - Charles Emery.jpg",76.19,755,{"ext":953,"url":2691,"hash":2692,"mime":915,"name":2693,"path":16,"size":2694,"width":873,"height":2695},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/small_Charles_Emery_Headshot_2021_Cropped_Charles_Emery_b9eeb54a8a.jpg","small_Charles_Emery_Headshot_2021_Cropped_Charles_Emery_b9eeb54a8a","small_Charles Emery Headshot 2021 Cropped - Charles Emery.jpg",17.89,378,{"ext":953,"url":2697,"hash":2698,"mime":915,"name":2699,"path":16,"size":2700,"width":880,"height":2701},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/medium_Charles_Emery_Headshot_2021_Cropped_Charles_Emery_b9eeb54a8a.jpg","medium_Charles_Emery_Headshot_2021_Cropped_Charles_Emery_b9eeb54a8a","medium_Charles Emery Headshot 2021 Cropped - Charles Emery.jpg",39.78,566,{"ext":953,"url":2703,"hash":2704,"mime":915,"name":2705,"path":16,"size":1874,"width":173,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_Charles_Emery_Headshot_2021_Cropped_Charles_Emery_b9eeb54a8a.jpg","thumbnail_Charles_Emery_Headshot_2021_Cropped_Charles_Emery_b9eeb54a8a","thumbnail_Charles Emery Headshot 2021 Cropped - Charles Emery.jpg","Charles_Emery_Headshot_2021_Cropped_Charles_Emery_b9eeb54a8a",288.35,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/Charles_Emery_Headshot_2021_Cropped_Charles_Emery_b9eeb54a8a.jpg","2025-03-17T14:59:42.566Z",[],"-47",{"id":382,"name":2713,"committee":16,"position":16,"affiliation":2714,"email":16,"biography":2715,"createdAt":2716,"updatedAt":2717,"url_path_id":2718,"contactPhoto":2719,"socialLinks":2738,"url_path":2739},"David A. Horsley","Northeastern University","\u003Cp style=\"text-align:justify;\">David A. Horsley is a Professor of Electrical and Computer Engineering at Northeastern University, where he is co-director of the Institute for NanoSystems Innovation (NanoSI), and an Adjunct Professor of Mechanical Engineering at the University of California, Berkeley. Dr. Horsley co-founded several deep-tech companies, most recently Chirp Microsystems (now part of TDK InvenSense), a manufacturer of MEMS-based ultrasonic sensors. At Chirp (and later TDK), he developed a global supply chain of tier-one semiconductor and OSAT suppliers, led R&D teams designing ASIC and MEMS chips, developed and executed IP strategy, established reliability qualification processes, and oversaw application engineering engagements with major international consumer electronics customers. Dr. Horsley advises early-stage startups in the semiconductor and related fields and was the Chip Track chair at UC Berkeley’s SkyDeck Accelerator from 2022-2024.\u003Cbr> \u003C/p>\u003Cp style=\"text-align:justify;\">Dr. Horsley was Co-Chair of the 2016 IEEE Sensors Conference, Co-Chair of the 2017 Transducers Research Foundation Napa Microsystems Workshop, and Co-Chair of the 2020 IEEE MEMS Conference. Dr. Horsley is an IEEE Fellow, a Fellow of the National Academy of Inventors, is a recipient of the National Science Foundation’s CAREER Award, the UC Davis Outstanding Junior Faculty Award, the 2016 NSF I/UCRC Association’s Schwarzkopf Award for Technological Innovation, the 2018 East Bay Innovation Award, and Northeastern University’s 2024 Global Network Accelerator Award. He has authored or co-authored over 200 scientific papers and holds over 30 patents.\u003C/p>","2025-03-17T14:39:54.055Z","2025-04-01T23:15:53.661Z","54",{"id":1348,"name":2720,"alternativeText":16,"caption":16,"width":2721,"height":2722,"formats":2723,"hash":2734,"ext":953,"mime":915,"size":2735,"url":2736,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2737,"updatedAt":2737},"Horsley Headshot 2024 - David Horsley.jpg",714,737,{"small":2724,"thumbnail":2730},{"ext":953,"url":2725,"hash":2726,"mime":915,"name":2727,"path":16,"size":2728,"width":2729,"height":873},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/small_Horsley_Headshot_2024_David_Horsley_fae416c16b.jpg","small_Horsley_Headshot_2024_David_Horsley_fae416c16b","small_Horsley Headshot 2024 - David Horsley.jpg",34.86,484,{"ext":953,"url":2731,"hash":2732,"mime":915,"name":2733,"path":16,"size":1111,"width":699,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_Horsley_Headshot_2024_David_Horsley_fae416c16b.jpg","thumbnail_Horsley_Headshot_2024_David_Horsley_fae416c16b","thumbnail_Horsley Headshot 2024 - David Horsley.jpg","Horsley_Headshot_2024_David_Horsley_fae416c16b",84.79,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/Horsley_Headshot_2024_David_Horsley_fae416c16b.jpg","2025-03-17T14:39:34.849Z",[],"-35",{"id":2324,"name":2741,"committee":16,"position":16,"affiliation":2742,"email":16,"biography":2743,"createdAt":2744,"updatedAt":2745,"url_path_id":2746,"contactPhoto":2747,"socialLinks":2778,"url_path":2779},"Chris Daft","River Sonic Solutions","\u003Cp style=\"margin-left:0px;\">Chris Daft has experience in physics, imaging, semiconductors, and signal processing, aimed at advancing human health. For the past decade he has had a consulting practice at River Sonic Solutions, LLC. Projects have included development of intravascular imagers, devices for monitoring cancer treatments, and cost-effective imaging solutions for point-of-care applications. His expertise spans conceptualizing new systems, advanced wave mathematics, real-time signal processing, and sensor design, with significant contributions in ASIC and MEMS development. He has worked with GE, Siemens, Samsung, FUJIFILM and many startups. At Sensant Corp he was involved with commercialization of the cMUT technology invented at Stanford University.\u003C/p>\u003Cp style=\"margin-left:0px;\">Some recent work on guided transcranial ultrasound stimulation with the University of Arizona has been published.\u003C/p>\u003Cp style=\"margin-left:0px;\">He holds 28 patents (with 20 pending) and has authored 23 publications.\u003C/p>\u003Cp style=\"margin-left:0px;\">Dr. Daft's academic background includes a Ph.D. in Materials Science from Oxford University, and a B.A. and M.A. in Physics. He taught Bioengineering for three years at the University of Illinois at Urbana-Champaign\u003C/p>","2025-05-13T20:25:46.482Z","2025-05-13T20:28:30.648Z","139",{"id":193,"name":2748,"alternativeText":16,"caption":16,"width":2749,"height":2750,"formats":2751,"hash":2774,"ext":953,"mime":915,"size":2775,"url":2776,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2777,"updatedAt":2777},"cd-med-pic.jpg",856,1052,{"large":2752,"small":2758,"medium":2763,"thumbnail":2768},{"ext":953,"url":2753,"hash":2754,"mime":915,"name":2755,"path":16,"size":2756,"width":2757,"height":958},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/large_cd_med_pic_5cae0c72ed.jpg","large_cd_med_pic_5cae0c72ed","large_cd-med-pic.jpg",72.54,814,{"ext":953,"url":2759,"hash":2760,"mime":915,"name":2761,"path":16,"size":2762,"width":2304,"height":873},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/small_cd_med_pic_5cae0c72ed.jpg","small_cd_med_pic_5cae0c72ed","small_cd-med-pic.jpg",19.26,{"ext":953,"url":2764,"hash":2765,"mime":915,"name":2766,"path":16,"size":1395,"width":2767,"height":880},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/medium_cd_med_pic_5cae0c72ed.jpg","medium_cd_med_pic_5cae0c72ed","medium_cd-med-pic.jpg",610,{"ext":953,"url":2769,"hash":2770,"mime":915,"name":2771,"path":16,"size":2772,"width":2773,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_cd_med_pic_5cae0c72ed.jpg","thumbnail_cd_med_pic_5cae0c72ed","thumbnail_cd-med-pic.jpg",3.37,127,"cd_med_pic_5cae0c72ed",82.51,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/cd_med_pic_5cae0c72ed.jpg","2025-05-13T20:25:42.621Z",[],"-117","-54",{"id":541,"session":2782},{"id":119,"title":2783,"teaser":2784,"body":2785,"createdAt":2786,"updatedAt":2787,"publishedAt":2788,"url_path_id":2789,"contacts":2790,"url_path":2895},"Ultrasound System Design: Analog Front-End Circuits, In-Probe Electronics, and Imaging Systems","\u003Cp style=\"text-align:justify;\">This short course explores the interaction of Analog Front End (AFE) electronics with passive ultrasound transducers, advances to the integration of the AFE with in-probe electronics, and finally considers the implications on ultrasound system design. The course starts by considering the electronics within a typical AFE. A basic electronics primer is provided including Characteristic Impedance, Impedance Matching, Cable Selection then Analog and Switched Mode Transmit Circuits, Transmit/Receive Switches and Multiplexers, Receiver AFE, Amplification including Noise Factor and Noise Figure, Filtering and Analog to Digital Convertors (ADC).\u003C/p>","\u003Cp style=\"text-align:justify;\">With an understanding of the discrete building blocks, active probes with in-probe electronics and the associated system partitioning will be studied, with use cases in SNR enhancement and the realization of 3D probes and wearables. The use of Application-Specific Integrated Circuits (ASICs) and the integration of such ASICs with ultrasound transducer arrays will be discussed. Approaches to realizing in-probe transmit and receive circuitry will be introduced. Multiplexing, sub-array beamforming and in-probe digitization will be discussed as approaches to realizing the channel-count reduction that is crucial for high-element-count 3D probes.  The course concludes by exploring ultrasound system design in context of passive probes with separate AFEs and active probes with in-probe electronics. The challenges and techniques for data acquisition (both multiplexed and full-channel), storage and transfer will be discussed. Beamformer implementations will be introduced, with emphasis on delay-and-sum. Techniques for data post-processing for B-mode and Doppler modes will be covered. Finally, communication with activeprobes and the handling of pre-beamformed data will be discussed.\u003C/p>","2025-03-17T15:17:04.340Z","2025-04-15T01:32:57.784Z","2025-03-28T19:36:20.373Z","74",[2791,2826,2853],{"id":401,"name":2792,"committee":16,"position":16,"affiliation":2241,"email":16,"biography":2793,"createdAt":2794,"updatedAt":2795,"url_path_id":2796,"contactPhoto":2797,"socialLinks":2824,"url_path":2825},"Michiel A. P. Pertijs","\u003Cp>\u003Cspan style=\"background-color:transparent;color:#000000;\">\u003Cstrong>Michiel A. P. Pertijs \u003C/strong>(S’99–M’06–SM’10) received the M.Sc. and Ph.D. degrees in electrical engineering (both \u003Ci>cum laude\u003C/i>) from Delft University of Technology, Delft, The Netherlands, in 2000 and 2005, respectively. From 2005 to 2008, he was with National Semiconductor, Delft, where he designed precision operational amplifiers and instrumentation amplifiers. From 2008 to 2009, he was a Senior Researcher with imec / Holst Centre, Eindhoven, The Netherlands. In 2009, he joined the Electronic Instrumentation Laboratory of Delft University of Technology, where he is now an Associate Professor. He heads a research group focusing on integrated circuits for ultrasound applications. In 2023, he co-founded the company SonoSilicon, which specializes in chip technology for next-generation medical ultrasound devices. He has authored or co-authored two books, five book chapters, 16 patents, and over 175 technical papers. \u003C/span>\u003C/p>\u003Cp>\u003Cspan style=\"background-color:transparent;color:#000000;\">Dr. Pertijs is a member of the technical program committees of the European Solid-State Circuits Conference (ESSCIRC) and the IEEE International Ultrasonics Symposium (IUS), and also served on the program committees of the International Solid-State Circuits Conference (ISSCC) and the IEEE Sensors Conference. He served as an Associate Editor (AE) for the IEEE Open Journal of Solid-State Circuits (O-JSSC) and the IEEE Journal of Solid-State Circuits (JSSC). He received the ISSCC 2005 Jack Kilby Award and the JSSC 2005 Best Paper Award. For his Ph.D. research on high-accuracy CMOS smart temperature sensors, he received the 2006 Simon Stevin Gezel Award from the Dutch Technology Foundation STW. In 2014 and 2023, he was elected Best Teacher of the EE program at Delft University of Technology.\u003C/span>\u003C/p>","2025-03-17T14:41:46.934Z","2025-04-15T01:33:27.830Z","55",{"id":1672,"name":2798,"alternativeText":16,"caption":16,"width":2799,"height":2799,"formats":2800,"hash":2820,"ext":953,"mime":915,"size":2821,"url":2822,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2823,"updatedAt":2823},"Pertijs_Michiel_cropped.jpg",1191,{"large":2801,"small":2806,"medium":2811,"thumbnail":2816},{"ext":953,"url":2802,"hash":2803,"mime":915,"name":2804,"path":16,"size":2805,"width":958,"height":958},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/large_Pertijs_Michiel_cropped_c66264bb04.jpg","large_Pertijs_Michiel_cropped_c66264bb04","large_Pertijs_Michiel_cropped.jpg",95.8,{"ext":953,"url":2807,"hash":2808,"mime":915,"name":2809,"path":16,"size":2810,"width":873,"height":873},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/small_Pertijs_Michiel_cropped_c66264bb04.jpg","small_Pertijs_Michiel_cropped_c66264bb04","small_Pertijs_Michiel_cropped.jpg",22.7,{"ext":953,"url":2812,"hash":2813,"mime":915,"name":2814,"path":16,"size":2815,"width":880,"height":880},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/medium_Pertijs_Michiel_cropped_c66264bb04.jpg","medium_Pertijs_Michiel_cropped_c66264bb04","medium_Pertijs_Michiel_cropped.jpg",51.83,{"ext":953,"url":2817,"hash":2818,"mime":915,"name":2819,"path":16,"size":1985,"width":887,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_Pertijs_Michiel_cropped_c66264bb04.jpg","thumbnail_Pertijs_Michiel_cropped_c66264bb04","thumbnail_Pertijs_Michiel_cropped.jpg","Pertijs_Michiel_cropped_c66264bb04",138.29,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/Pertijs_Michiel_cropped_c66264bb04.jpg","2025-03-31T21:45:47.835Z",[],"-36",{"id":769,"name":2827,"committee":16,"position":16,"affiliation":2828,"email":16,"biography":2829,"createdAt":2830,"updatedAt":2831,"url_path_id":2832,"contactPhoto":2833,"socialLinks":2851,"url_path":2852},"David Cowell","University of Leeds","\u003Cp style=\"text-align:justify;\">\u003Cspan style=\"background-color:transparent;color:#000000;\">David M.J. Cowell gained his Ph.D. from the School of Electronic and Electrical Engineering at the University of Leeds in 2008 working with the Ultrasound Group. His doctoral research area was advanced coding excitation techniques and excitation circuit design for industrial instrumentation and medical ultrasound imaging systems. He subsequently worked as a Research Fellow within the Ultrasound Group providing extensive consultancy in instrumentation, embedded systems, FPGA, and high-speed digital hardware design. Since 2015 he has held the position of Teaching and Research Fellow, with a focus on embedded systems and ultrasound. His ongoing research interests are in the area of high frame rate ultrasound systems for both medical and industrial applications, advanced ultrasound excitation systems with low harmonic distortion for array imaging, and signal processing for process measurement. His work has led to the development of the Ultrasound Array Research Platform (UARP) which is used within academic research groups and is currently being trialed medically with the Medical Discoveries Catapult and industrially within Sellafield as a key measurement technology for use during ongoing live nuclear decommissioning activities. He led the design of a portable passive magnetic measurement system for the remote inspection of buried oil and gas pipelines then conducted a global program of field trials and commercial surveys. This technology is now deployed commercially by Speir Hunter. His research work has led to several granted patents and publications. He is a member of the Technical Program Committee of the IEEE International Ultrasonics Symposium and has delivered multiple technical short courses.\u003C/span>\u003C/p>","2025-03-17T15:17:48.122Z","2025-04-01T23:10:19.465Z","75",{"id":1212,"name":2834,"alternativeText":16,"caption":16,"width":2002,"height":1132,"formats":2835,"hash":2847,"ext":953,"mime":915,"size":2848,"url":2849,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2850,"updatedAt":2850},"david_cowell - D Cowell.jpg",{"small":2836,"thumbnail":2842},{"ext":953,"url":2837,"hash":2838,"mime":915,"name":2839,"path":16,"size":2840,"width":2841,"height":873},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/small_david_cowell_D_Cowell_3418ca246a.jpg","small_david_cowell_D_Cowell_3418ca246a","small_david_cowell - D Cowell.jpg",37.77,375,{"ext":953,"url":2843,"hash":2844,"mime":915,"name":2845,"path":16,"size":2846,"width":2357,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_david_cowell_D_Cowell_3418ca246a.jpg","thumbnail_david_cowell_D_Cowell_3418ca246a","thumbnail_david_cowell - D Cowell.jpg",5.66,"david_cowell_D_Cowell_3418ca246a",50.86,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/david_cowell_D_Cowell_3418ca246a.jpg","2025-03-31T16:14:36.754Z",[],"-56",{"id":99,"name":2854,"committee":16,"position":16,"affiliation":2855,"email":16,"biography":2856,"createdAt":2857,"updatedAt":2858,"url_path_id":2859,"contactPhoto":2860,"socialLinks":2893,"url_path":2894},"Enrico Boni","University of Florence","\u003Cp>\u003Cspan style=\"background-color:transparent;color:#000000;\">\u003Cstrong>Enrico Boni \u003C/strong>(M’12, SM’22) was born in 1977 in Florence, Italy. He graduated in electronic engineering in 2001 at the University of Florence, Italy and received the PhD degree in Electronic System Engineering in 2005 from the University of Florence, Italy. Since December 2021 he is Associate Professor in Electronics at the Department of Information Engineering, University of Florence, Italy. His research interests include analog and digital systems design, digital signal processing algorithms, digital control systems, Doppler ultrasound signal processing, microemboli detection and classification, Ultrasound research platforms and Ultrasound frontend electronics design.\u003C/span>\u003C/p>","2025-03-17T15:18:05.679Z","2025-04-15T01:33:47.151Z","76",{"id":2861,"name":2862,"alternativeText":16,"caption":16,"width":2863,"height":2864,"formats":2865,"hash":2889,"ext":953,"mime":915,"size":2890,"url":2891,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":2892,"updatedAt":2892},100,"foto_EB - Enrico Boni.jpg",1696,2103,{"large":2866,"small":2872,"medium":2878,"thumbnail":2884},{"ext":953,"url":2867,"hash":2868,"mime":915,"name":2869,"path":16,"size":2870,"width":2871,"height":958},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/large_foto_EB_Enrico_Boni_6fd6dd417e.jpg","large_foto_EB_Enrico_Boni_6fd6dd417e","large_foto_EB - Enrico Boni.jpg",125.29,806,{"ext":953,"url":2873,"hash":2874,"mime":915,"name":2875,"path":16,"size":2876,"width":2877,"height":873},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/small_foto_EB_Enrico_Boni_6fd6dd417e.jpg","small_foto_EB_Enrico_Boni_6fd6dd417e","small_foto_EB - Enrico Boni.jpg",33.11,403,{"ext":953,"url":2879,"hash":2880,"mime":915,"name":2881,"path":16,"size":2882,"width":2883,"height":880},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/medium_foto_EB_Enrico_Boni_6fd6dd417e.jpg","medium_foto_EB_Enrico_Boni_6fd6dd417e","medium_foto_EB - Enrico Boni.jpg",70.96,605,{"ext":953,"url":2885,"hash":2886,"mime":915,"name":2887,"path":16,"size":2888,"width":2332,"height":887},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/thumbnail_foto_EB_Enrico_Boni_6fd6dd417e.jpg","thumbnail_foto_EB_Enrico_Boni_6fd6dd417e","thumbnail_foto_EB - Enrico Boni.jpg",4.6,"foto_EB_Enrico_Boni_6fd6dd417e",537.31,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ius25/foto_EB_Enrico_Boni_6fd6dd417e.jpg","2025-03-31T16:15:22.333Z",[],"-57","-55",{"data":2897,"meta":2898},{"id":207,"heading":208,"createdAt":209,"updatedAt":210,"publishedAt":211,"url_path_id":212,"url_path":203,"contentType":89},{},1778853068836]