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Analytics","2025-03-11T12:37:58.318Z","2025-03-11T12:37:59.626Z","2025-03-11T12:37:59.614Z","172",{"id":828,"name":829,"alternativeText":16,"caption":16,"width":830,"height":831,"formats":832,"hash":856,"ext":442,"mime":445,"size":857,"url":858,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":859,"updatedAt":859},1659,"121212ifuLogo.jpg",1725,648,{"large":833,"small":838,"medium":844,"thumbnail":850},{"ext":442,"url":834,"hash":835,"mime":445,"name":836,"path":16,"size":545,"width":448,"height":837},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/large_121212ifu_Logo_223b853490.jpg","large_121212ifu_Logo_223b853490","large_121212ifuLogo.jpg",376,{"ext":442,"url":839,"hash":840,"mime":445,"name":841,"path":16,"size":842,"width":455,"height":843},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/small_121212ifu_Logo_223b853490.jpg","small_121212ifu_Logo_223b853490","small_121212ifuLogo.jpg",11.79,188,{"ext":442,"url":845,"hash":846,"mime":445,"name":847,"path":16,"size":848,"width":462,"height":849},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/medium_121212ifu_Logo_223b853490.jpg","medium_121212ifu_Logo_223b853490","medium_121212ifuLogo.jpg",18.96,282,{"ext":442,"url":851,"hash":852,"mime":445,"name":853,"path":16,"size":854,"width":38,"height":855},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/thumbnail_121212ifu_Logo_223b853490.jpg","thumbnail_121212ifu_Logo_223b853490","thumbnail_121212ifuLogo.jpg",4.86,92,"121212ifu_Logo_223b853490",62.79,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/121212ifu_Logo_223b853490.jpg","2025-03-11T12:37:49.080Z","-138",{"pagination":862},{"page":5,"pageSize":327,"pageCount":5,"total":563},{"id":351,"heading":346,"pageHeader":864,"sections":865},{"id":351,"description":16,"showPageHeader":8,"backgroundColor":71,"image":16},[866],{"id":14,"__component":867,"componentVariation":868,"contactsVariation":869,"styles":16,"header":16,"sessionsGroup":870},"content.sessions","Sessions Base","Card Contact Full",[871],{"id":14,"groupTitle":16,"sessions":872},[873,915,963,996,1053,1100,1165,1229,1269,1309,1360,1399,1449,1483],{"id":874,"session":875},14,{"id":874,"title":876,"teaser":67,"body":877,"createdAt":878,"updatedAt":879,"publishedAt":880,"url_path_id":881,"contacts":882,"url_path":914},"Developing data-driven soft sensors: 10 good practices for reliable, safer, and more efficient models","\u003Cp style=\"text-align:justify;\">Soft sensors are models that allow estimating the values of a variable based on other process information, without having to measure this variable directly. The main benefits of soft sensors are (1) they represent a low-cost alternative when compared to physical sensors, (2) they can work together with physical sensors, including identifying when they fail, (3) they allow implementation on existing devices, and (4) they provide real-time estimates, being an option for measurements where physical sensors depend on time-consuming analysis. In this tutorial, we are going to learn how to develop a data-driven soft sensor using Python taking into account data-driven techniques such as neural networks, decision trees, and other regression techniques. Besides the soft sensor development, we will discuss 10 good practices to develop safer, more reliable and more efficient models. The good practices involves the understanding of the risk of not taking care of models extrapolation, the effect of data quality and data quantity while building the models, and the importance of error distribution besides general metrics. After building the models, we will discuss good practices to improve efficiency, how to monitor performance and how to perform models calibration.\u003C/p>","2025-02-14T14:04:16.982Z","2025-02-14T14:04:18.440Z","2025-02-14T14:04:18.434Z","162",[883],{"id":884,"name":885,"committee":16,"position":16,"affiliation":886,"email":16,"biography":887,"createdAt":888,"updatedAt":888,"url_path_id":889,"contactPhoto":890,"socialLinks":912,"url_path":913},49,"Prof. Dr. Gustavo Pessin","Full Researcher, Instituto Tecnológico Vale (ITV). Head of the Robotics, Instrumentation and Control Lab","\u003Cp style=\"text-align:justify;\">Gustavo Pessin, D.Sc. (2013) has a strong background in building intelligent applications, integrating Machine Learning, IoT and Robotics to deploy Industrial and Environmental Applications.  Pessin has dedicated efforts to create better and safer systems for industry and to help the understanding of ecological systems. Intelligent systems for industry have been developed for mineral activities, improving transportation safety and optimizing both extraction and production by means of instrumentation and development of machine learning tools to deal with image and sound recognition, anomaly detection and forecast models. Research with ecological environments have been carried out by investigation on the use of RFIDs to keep track of wildlife. Furthermore, the deployment of a robot and its services to map geological facilities have been helping on the understanding of natural cavities. Pessin got his D.Sc. in Computer Science at the University of Sao Paulo, as a member of the Mobile Robotics Lab. During his D,Sc. Pessin carried out research with the Robotics Lab, at the Heriot-Watt University, Edinburgh, UK and the Communication and Distributed Systems Group, at the Universität Bern, Switzerland.  In 2015, Pessin had a Visiting Scholar position within the Media Lab at the Massachusetts Institute of Technology. Currently, Pessin is a Full Researcher within the Robotics, Instrumentation and Control Lab, at the Vale Institute of Technology. Furthermore, Pessin is a member of two post-graduation programs, one in computer science and the other in automation, at the Federal University of Ouro Preto and at the Federal University of Pará. Pessin has published more than 120 papers in peer- reviewed journals and conferences and has supervised more than 30 thesis and dissertations.\u003C/p>","2025-02-14T14:03:45.872Z","161",{"id":891,"name":892,"alternativeText":16,"caption":16,"width":893,"height":894,"formats":895,"hash":908,"ext":19,"mime":20,"size":909,"url":910,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":911,"updatedAt":911},1650,"gp2024.png",624,668,{"small":896,"thumbnail":902},{"ext":19,"url":897,"hash":898,"mime":20,"name":899,"path":16,"size":900,"width":901,"height":455},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/small_gp2024_e407b7bc66.png","small_gp2024_e407b7bc66","small_gp2024.png",442.59,467,{"ext":19,"url":903,"hash":904,"mime":20,"name":905,"path":16,"size":906,"width":707,"height":907},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/thumbnail_gp2024_e407b7bc66.png","thumbnail_gp2024_e407b7bc66","thumbnail_gp2024.png",54.71,156,"gp2024_e407b7bc66",169.12,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/gp2024_e407b7bc66.png","2025-02-14T14:03:11.961Z",[],"-128","-129",{"id":563,"session":916},{"id":563,"title":917,"teaser":67,"body":918,"createdAt":919,"updatedAt":920,"publishedAt":921,"url_path_id":922,"contacts":923,"url_path":962},"Development of Non-Contact Microwave Cavity Technique for Assessing Environmental Impact on the Dielectric Properties of Nano-Scale Moisture Barriers and Electronic Materials","\u003Cp style=\"text-align:justify;\">We present a novel non-contact microwave cavity method and instrumentation to evaluate the environmental effects on the dielectric permittivity of electronic materials. This approach addresses the challenge of field perturbation caused by non-uniform depolarization field distribution when a partially inserted dielectric sample interacts with the cavity, which can otherwise skew resonant frequency measurements. Our method enables precise analysis of strongly perturbing, partially inserted specimens, which are inaccessible to conventional techniques. By demonstrating a linear relationship between the natural resonant frequency shift and the damping ratio with the volume fraction of the specimen, we improve measurement uncertainty. Incremental sample insertion enhances data resolution, increasing data points from 1 to 20 for a single specimen and significantly improving accuracy for complex permittivity evaluations under environmental exposure. Example applications include the measurement of water vapor transmission rates for thin-film protective coatings on epitaxial monolayer graphene, the impact of environmental moisture and UV radiation on insulating dielectrics in solar installations, and the CO₂ capture efficiency of polyethylenimine thin films. \u003C/p>","2025-02-13T14:24:13.089Z","2025-02-13T14:24:14.569Z","2025-02-13T14:24:14.561Z","153",[924],{"id":925,"name":926,"committee":16,"position":16,"affiliation":927,"email":16,"biography":928,"createdAt":929,"updatedAt":929,"url_path_id":930,"contactPhoto":931,"socialLinks":960,"url_path":961},45,"Jan Obrzut","National Institute of Standards and Technology, USA","\u003Cp style=\"text-align:justify;\">Jan Obrzut earned his Ph.D. in Technical Sciences from Krakow Polytechnic, Poland in 1981. Following a postdoctoral appointment at the Polymer Science Department, University of\u003Cbr>Massachusetts at Amherst, he joined the Five College Radio Astronomy Department, focusing on microwave dielectric waveguides for space exploration. In 1988, he became an Advisory Engineer at IBM Microelectronics Division, where he conducted R&D on chip-scale-electronic packaging reliability. Since 1997, he has been with the National Institute of Standards, specializing in measurement and instrumentation for non-destructive testing standardization. He authored and co-authored over 200 publications, technical reports, several book chapter and international standards.\u003C/p>","2025-02-13T14:23:09.635Z","152",{"id":932,"name":933,"alternativeText":16,"caption":16,"width":934,"height":934,"formats":935,"hash":956,"ext":442,"mime":445,"size":957,"url":958,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":959,"updatedAt":959},1644,"Jan-Obrzut-photo.jpg",2560,{"large":936,"small":941,"medium":946,"thumbnail":951},{"ext":442,"url":937,"hash":938,"mime":445,"name":939,"path":16,"size":940,"width":448,"height":448},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/large_Jan_Obrzut_photo_5811e1d3df.jpg","large_Jan_Obrzut_photo_5811e1d3df","large_Jan-Obrzut-photo.jpg",51.54,{"ext":442,"url":942,"hash":943,"mime":445,"name":944,"path":16,"size":945,"width":455,"height":455},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/small_Jan_Obrzut_photo_5811e1d3df.jpg","small_Jan_Obrzut_photo_5811e1d3df","small_Jan-Obrzut-photo.jpg",16.87,{"ext":442,"url":947,"hash":948,"mime":445,"name":949,"path":16,"size":950,"width":462,"height":462},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/medium_Jan_Obrzut_photo_5811e1d3df.jpg","medium_Jan_Obrzut_photo_5811e1d3df","medium_Jan-Obrzut-photo.jpg",31.59,{"ext":442,"url":952,"hash":953,"mime":445,"name":954,"path":16,"size":955,"width":907,"height":907},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/thumbnail_Jan_Obrzut_photo_5811e1d3df.jpg","thumbnail_Jan_Obrzut_photo_5811e1d3df","thumbnail_Jan-Obrzut-photo.jpg",3.37,"Jan_Obrzut_photo_5811e1d3df",290.5,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/Jan_Obrzut_photo_5811e1d3df.jpg","2025-02-13T14:22:41.437Z",[],"-119","-120",{"id":164,"session":964},{"id":164,"title":965,"teaser":67,"body":966,"createdAt":967,"updatedAt":968,"publishedAt":969,"url_path_id":970,"contacts":971,"url_path":995},"Effective Technical Paper Publishing & Review Process Guidelines: Tips for Authors, Editors, and Reviewers","\u003Cp style=\"text-align:justify;\">There has been an astronomical increase in the number of technical paper\u003Cbr>submissions in the past decade. Some of the reasons include:\u003C/p>\u003Cul>\u003Cli>pressure to publish, as the success indicator, for promotion and professional\u003Cbr>advancement,\u003C/li>\u003Cli>universities moving away from the traditional Theses and Dissertations compilations and\u003Cbr>instead use peer-reviewed journal papers,\u003C/li>\u003Cli>creation of new journals, and\u003C/li>\u003Cli>the open-access publishing “economy”.\u003C/li>\u003C/ul>\u003Cp style=\"text-align:justify;\">Effective journal paper writing requires many implicit and explicit issues to consider. This involves deciding on the proper, most effective and relevant publications venue; having the knowledge of (and experience) how to compile the content that goes into the paper; having a clear knowledge of the publications’ guidelines and rules for the chosen venue; etc.\u003Cbr>\u003Cbr>The review process is the most crucial aspect of a proper publishing process. It involves the authors, the editors, and the reviewers, and how each performs detrimentally impacts the outcome and the “Quality”.\u003Cbr>\u003Cbr>Inclusion of AI-assisted and AI-generated content has become an important issue. To this end, IEEE has specific guidelines with to authors and reviewers must adhere and ignoring them could have significant implications for authors and reviewers.\u003Cbr>\u003Cbr>This tutorial will specifically discuss issues and guidelines relevant to: Technical Paper Writing; Publication Process; Review Requirements; and Use and Implications of AI Content for authors and reviewers.\u003C/p>","2025-02-12T14:17:47.939Z","2025-02-12T14:55:59.942Z","2025-02-12T14:17:49.341Z","145",[972],{"id":276,"name":973,"committee":16,"position":16,"affiliation":974,"email":16,"biography":975,"createdAt":976,"updatedAt":977,"url_path_id":978,"contactPhoto":979,"socialLinks":993,"url_path":994},"Reza Zoughi ","Iowa State University, USA","\u003Cp style=\"text-align:justify;\">R. Zoughi received his B.S.E.E, M.S.E.E, and Ph.D. degrees in electrical engineering (radar remote sensing, radar systems, and microwaves) from the University of Kansas in Lawrence. Currently, he is the Kirby Gray (Battelle) Chair in Engineering and a Professor Electrical and Computer Engineering (ECpE) at Iowa State University (ISU). He also serves as the Director of Center for Nondestructive Evaluation (CNDE) at ISU. He was as the Schlumberger Endowed Professor of Electrical and Computer Engineering at Missouri University of Science and Technology (Missouri S&T) from January 2001 to August 2019. Prior to joining Missouri S&T and since 1987 he was with the Electrical and Computer Engineering Department at Colorado State University (CSU), where he was a professor and established the Applied Microwave Nondestructive Testing Laboratory (amntl).  Dr. Zoughi held the position of Business Challenge Endowed Professor of Electrical and Computer Engineering from 1995 to 1997. He has received numerous Teaching Awards & Commendations. He is the recipient of the 2007 IEEE Instrumentation and Measurement Society Distinguished Service Award, the 2009 American Society for Nondestructive Testing (ASNT) Research Award for Sustained Excellence, the 2011 IEEE Joseph F. Keithley Award in Instrumentation and Measurement and the 2020 IEEE Instrumentation and Measurement Society Career Excellence Award.  In 2013 and 2020 he and his co-authors received the H. A. Wheeler Applications Prize Paper Award from the IEEE Antennas and Propagation Society (APS). He is also the recipient of the 2023 American Society for Nondestructive Testing (ASNT) Lester/Mehl Honor Lecture Award. He is the author of a textbook entitled “Microwave Nondestructive Testing and Evaluation Principles” KLUWER Academic Publishers, 2000, and the co-author of a chapter on Microwave Techniques in the book entitled “Nondestructive Evaluation: Theory, Techniques, and Applications” Marcel and Dekker, Inc., 2002.  He is the co-author of 203 refereed journal papers, 387+conference proceedings and presentations and 129 technical reports. He served as the Editor-in-Chief of the IEEE Transactions on Instrumentation and Measurement (2007-2011), three terms as an at-large AdCom member of the IEEE Instrumentation and Measurement (I&M) Society, I&M Society President (2014-2015) and served as an I&M Society Distinguished Lecturer. Currently he servs as the Editor-in-Chief of the IEEE Open Journal of Instrumentation and Measurement (OJIM). Since 2020 he has also been serving as an Executive Advisor to the American Society for Nondestructive Testing (ASNT) Board of Directors. He has twenty-one issued US patents to his credit (in addition to several issued abroad). He has delivered numerous Invited and Keynote presentations on the subject of microwave and millimeter wave nondestructive testing and imaging. He is a Fellow of the American Society for Nondestructive Testing (ASNT) and a Life Fellow of IEEE. \u003C/p>","2025-02-12T14:17:11.922Z","2025-02-12T14:19:13.402Z","144",{"id":980,"name":981,"alternativeText":16,"caption":16,"width":982,"height":183,"formats":983,"hash":989,"ext":19,"mime":20,"size":990,"url":991,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":992,"updatedAt":992},1639,"Reza.png",155,{"thumbnail":984},{"ext":19,"url":985,"hash":986,"mime":20,"name":987,"path":16,"size":988,"width":469,"height":907},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/thumbnail_Reza_4872773c2f.png","thumbnail_Reza_4872773c2f","thumbnail_Reza.png",31.42,"Reza_4872773c2f",11.86,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/Reza_4872773c2f.png","2025-02-12T14:16:58.607Z",[],"-111","-112",{"id":135,"session":997},{"id":135,"title":998,"teaser":67,"body":999,"createdAt":1000,"updatedAt":1001,"publishedAt":1002,"url_path_id":1003,"contacts":1004,"url_path":1052},"Electrical Resistance Tomography for 2D and thin-film materials: from measurements to image reconstruction ","\u003Cp style=\"text-align:justify;\">Join us in this comprehensive tutorial to explore the Electrical Resistance Tomography (ERT) — a valuable technique for non-invasive conductivity mapping of 2D and thin-film materials. This tutorial will give you an overview of both experimental practices and advanced mathematical methods, providing a foundation for professionals and researchers interested in exploiting ERT in material science. The first part of the tutorial will focus on practical challenges and solutions in experimental ERT setups. Learn how to implement in-contact electrical measurements on thin films, using suitable custom fixtures; unravel the pros and cons of different measurement protocols; understand how to optimize instrumentation for speed and accuracy. In the second part, the focus will move on the mathematical framework behind ERT. From deriving forward models with partial differential equations to solving non-linear inverse problems with advanced numerical methods, this section will provide hands-on insights into the computational tools needed for an effective conductivity mapping with real-world examples. The tutorial will also introduce Open Science practices, including the development of FAIR-compliant datasets, promoting collaboration between experimental and computational research communities. This tutorial will be an opportunity for professionals and researchers seeking to deepen their understanding of ERT and its applications in material science. \u003C/p>","2025-02-13T17:32:32.505Z","2025-02-13T17:32:34.517Z","2025-02-13T17:32:34.511Z","156",[1005,1030],{"id":1006,"name":1007,"committee":16,"position":16,"affiliation":1008,"email":16,"biography":1009,"createdAt":1010,"updatedAt":1011,"url_path_id":1012,"contactPhoto":1013,"socialLinks":1028,"url_path":1029},46,"Alessandro Arduino","INRIM - Istituto Nazionale di Ricerca Metrologica, Italy","\u003Cp style=\"text-align:justify;\">Alessandro Arduino, Istituto Nazionale di Ricerca Metrologica (INRiM), Strada delle Cacce, 91, 10135 Torino, ITALY. He received the M.Sc. degree in mathematical engineering and the Ph.D. degree in electrical, electronics and communications engineering from the Politecnico di Torino, Italy, in 2014 and 2018, respectively. Since 2018, he has been with the Istituto Nazionale di Ricerca Metrologica (INRiM), Italy, where he is researcher in the department of Advanced Materials Metrology and Life Sciences. His research interests include mathematical and numerical modeling of electromagnetism applied to biomedical engineering and inverse problems. He is maintainer of EPTlib, an open-source C++ library of magnetic resonance-based electric properties tomography methods. \u003C/p>","2025-02-13T17:31:00.711Z","2025-02-13T17:32:01.957Z","154",{"id":1014,"name":1015,"alternativeText":16,"caption":16,"width":762,"height":1016,"formats":1017,"hash":1024,"ext":442,"mime":445,"size":1025,"url":1026,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":1027,"updatedAt":1027},1646,"Alessandro Arduino,.jpg",373,{"thumbnail":1018},{"ext":442,"url":1019,"hash":1020,"mime":445,"name":1021,"path":16,"size":1022,"width":1023,"height":907},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/thumbnail_Alessandro_Arduino_0facb606e3.jpg","thumbnail_Alessandro_Arduino_0facb606e3","thumbnail_Alessandro Arduino,.jpg",3.93,125,"Alessandro_Arduino_0facb606e3",12.73,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/Alessandro_Arduino_0facb606e3.jpg","2025-02-13T17:31:21.398Z",[],"-121",{"id":1031,"name":1032,"committee":16,"position":16,"affiliation":1008,"email":16,"biography":1033,"createdAt":1034,"updatedAt":1034,"url_path_id":1035,"contactPhoto":1036,"socialLinks":1050,"url_path":1051},47,"Alessandro Cultrera","\u003Cp style=\"text-align:justify;\">Alessandro Cultrera, Istituto Nazionale di Ricerca Metrologica (INRiM), Strada delle Cacce, 91, 10135 Torino, ITALY. He holds a degree in Physics and a Ph.D. in Materials Sciences. He joined Istituto Nazionale di Ricerca Metrologica (INRiM) in 2014, with research focus on the electrical characterisation of nano-structured materials and precision electronic measurements (including novel calibration methods). He worked extensively on the development of experimental setup for electrical resistance tomography as a quantitative technique applied to thin-film and 2D and nano-structured materials, and published about graphene and related materials, nanowire networks and transparent conducting oxides.  \u003C/p>","2025-02-13T17:31:35.127Z","155",{"id":1037,"name":1038,"alternativeText":16,"caption":16,"width":1039,"height":1039,"formats":1040,"hash":1046,"ext":442,"mime":445,"size":1047,"url":1048,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":1049,"updatedAt":1049},1645,"Alessandro Cultrera,.jpg",447,{"thumbnail":1041},{"ext":442,"url":1042,"hash":1043,"mime":445,"name":1044,"path":16,"size":1045,"width":907,"height":907},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/thumbnail_Alessandro_Cultrera_673afeaa8f.jpg","thumbnail_Alessandro_Cultrera_673afeaa8f","thumbnail_Alessandro Cultrera,.jpg",4.6,"Alessandro_Cultrera_673afeaa8f",20.96,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/Alessandro_Cultrera_673afeaa8f.jpg","2025-02-13T17:31:21.152Z",[],"-122","-123",{"id":98,"session":1054},{"id":98,"title":1055,"teaser":67,"body":1056,"createdAt":1057,"updatedAt":1058,"publishedAt":1059,"url_path_id":1060,"contacts":1061,"url_path":1099},"High Voltage Circuit Breaker Condition Assessment – Where the instrumentation, measurement and human expertise meet   ","\u003Cp style=\"text-align:justify;\">The increasing energy consumption demand urges to level up the power grid's reliability in every aspect. The high-voltage circuit breaker (HVCB) is one of the most important elements of the power grid responsible for the protection and control of the power system. The life expectancy of a newly installed CB is approximately 40 years. Through its lifetime, under normal conditions. CB will operate (make or break) for less than ten minutes while during abnormal conditions it will operate for less than one minute. To prevent potential issues that might arise during operating and specifically during its long idling time, the HVCBs are inspected and maintained regularly. The presentation will cover the invasive as well as noninvasive measurement methods, signal processing and result interpretation used for assessing the condition of the HVCB. It covers approaches to assessing conditions of the main and arcing contact, operating mechanism as well as the actuating coil focusing on the measurement and acquired signals interpretation.\u003C/p>\u003Cp style=\"text-align:justify;\">The first portion of the presentation is devoted to the anatomy of the measurement approaches for performing well-established tests in industrial applications such as timing test, static resistance measurement, and dynamic resistance measurement as well as assessing the condition of the actuating coil and operating mechanism in the form of minimum trip voltage test and motor test. Additionally, the mechanical integrity will be discussed based on vibration fingerprint-based assessment.\u003C/p>\u003Cp style=\"text-align:justify;\">The second portion of the presentation is oriented toward signal processing, analysis and algorithms utilized to quantify the measurement described in the first portion of the presentation. Thus, the denoising, processing and feature extraction for each stated test will be covered. Furthermore, the extracted features and indices interpretation will be supported by real-life measurements of different HVCB types.\u003C/p>","2025-02-11T23:11:59.084Z","2025-02-11T23:12:01.017Z","2025-02-11T23:12:01.011Z","141",[1062],{"id":252,"name":1063,"committee":16,"position":16,"affiliation":1064,"email":16,"biography":1065,"createdAt":1066,"updatedAt":1067,"url_path_id":1068,"contactPhoto":1069,"socialLinks":1097,"url_path":1098},"Kerim Obarcanin","DV Power, Sweden","\u003Cp style=\"text-align:justify;\">Kerim Obarcanin is a Technical Director at KV Team d.o.o., a part of a DV Power company that researches, develops, manufactures and sells high-voltage test equipment with headquarters in Stockholm (Sweden).\u003C/p>\u003Cp style=\"text-align:justify;\">He is an Industry expert lecturer at the Sarajevo School of Science and Technology (Bosnia and Herzegovina), an academic collaboration partner of Buckingham University (UK) teaching Digital Signal Processing and Multimedia Electronics courses at the Computer Science Faculty. Also, he is involved as an Industry expert lecturer at the International University Sarajevo (Bosnia and Herzegovina), an academic collaboration partner of Istanbul Technical University,  teaching Signals and Systems courses at the Faculty of Engineering and Natural Sciences.\u003C/p>\u003Cp style=\"text-align:justify;\">He completed BSc, MSc and PhD studies at the University of Sarajevo, Faculty of Electrical Engineering Sarajevo. His main research focus is on high-voltage test equipment, signal acquisition, conditioning, processing and analysis for test object condition assessment. During the last 5 years, he has narrowed his research focus on the high voltage circuit breaker test equipment and condition assessment methods and algorithms.\u003C/p>\u003Cp style=\"text-align:justify;\">He is an IEEE member with a Senior member grade. He is married and the father of two. You can reach him at LinkedIn (https://www.linkedin.com/in/obarcaninkerim/). More info about DV Power at https://www.dv-power.com/.\u003C/p>","2025-02-11T23:11:23.672Z","2025-02-11T23:45:07.865Z","140",{"id":1070,"name":1071,"alternativeText":16,"caption":16,"width":1072,"height":1073,"formats":1074,"hash":1093,"ext":19,"mime":20,"size":1094,"url":1095,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":1096,"updatedAt":1096},1637,"Kerim Obarcanin BIO Photo.png",840,856,{"small":1075,"medium":1081,"thumbnail":1087},{"ext":19,"url":1076,"hash":1077,"mime":20,"name":1078,"path":16,"size":1079,"width":1080,"height":455},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/small_Kerim_Obarcanin_BIO_Photo_845f33d7ba.png","small_Kerim_Obarcanin_BIO_Photo_845f33d7ba","small_Kerim Obarcanin BIO Photo.png",389.51,491,{"ext":19,"url":1082,"hash":1083,"mime":20,"name":1084,"path":16,"size":1085,"width":1086,"height":462},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/medium_Kerim_Obarcanin_BIO_Photo_845f33d7ba.png","medium_Kerim_Obarcanin_BIO_Photo_845f33d7ba","medium_Kerim Obarcanin BIO Photo.png",861.83,736,{"ext":19,"url":1088,"hash":1089,"mime":20,"name":1090,"path":16,"size":1091,"width":1092,"height":907},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/thumbnail_Kerim_Obarcanin_BIO_Photo_845f33d7ba.png","thumbnail_Kerim_Obarcanin_BIO_Photo_845f33d7ba","thumbnail_Kerim Obarcanin BIO Photo.png",46.33,153,"Kerim_Obarcanin_BIO_Photo_845f33d7ba",313.53,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/Kerim_Obarcanin_BIO_Photo_845f33d7ba.png","2025-02-11T23:13:22.417Z",[],"-107","-108",{"id":1101,"session":1102},15,{"id":1101,"title":1103,"teaser":67,"body":1104,"createdAt":1105,"updatedAt":1106,"publishedAt":1107,"url_path_id":1108,"contacts":1109,"url_path":1164},"Impedance Spectroscopy: From Fundamentals to Advanced Applications and Signal Processing","\u003Cp style=\"text-align:justify;\">Impedance spectroscopy has become an indispensable tool in modern measurement science, offering unique insights into material and system properties through frequency-dependent electrical measurements. This method is particularly valuable because it is non-invasive and can reveal information about physical and chemical processes that remain hidden to conventional measurement techniques. This tutorial aims to bridge the gap between theoretical understanding and practical implementation of impedance spectroscopy for different classes of application requirements.\u003Cbr>\u003Cbr>We will begin with the fundamentals of impedance measurements and progressively explore real-world applications across various domains. Through practical examples, we will examine how impedance spectroscopy is implemented in laboratory environments with big devices and in-field implemented in embedded systems. The tutorial will address key applications, including material testing, battery characterization, biomedical measurements, and sensor development. Special attention will be given to common challenges encountered in practice, such as dealing with measurement uncertainties, choosing appropriate measurement parameters, and optimizing system performance.\u003Cbr>\u003Cbr>Beyond the basics, we will explore recent developments in advances in measurement hardware and new approaches for data analysis. We will discuss practical strategies for interpreting measurement results, from traditional equivalent circuit modeling to modern analysis methods. The tutorial concludes with a look at current trends and future possibilities in the field.\u003C/p>","2025-02-14T15:24:24.583Z","2025-02-14T15:25:28.362Z","2025-02-14T15:24:43.744Z","165",[1110,1141],{"id":1111,"name":1112,"committee":16,"position":16,"affiliation":1113,"email":16,"biography":1114,"createdAt":1115,"updatedAt":1115,"url_path_id":1116,"contactPhoto":1117,"socialLinks":1139,"url_path":1140},50,"Prof. Dr.-Ing. Olfa Kanoun","Chemnitz University of Technology, Germany","\u003Cp style=\"text-align:justify;\">Prof. Dr.-Ing. Olfa Kanoun (Senior Member, IEEE) is a Full Professor of Measurement and Sensor Technology at Chemnitz University of Technology. Her research focuses on  impedance spectroscopy, wireless, and flexible sensors. Prof. Kanoun has established key academic initiatives promoting impedance spectroscopy in science and technology including the founding of and the International Workshop on Impedance Spectroscopy (IWIS) (2008) and the IEEE IMS-TC2 Committee on Impedance Spectroscopy (2018). She has been awarded with the IEEE Instrumentation and Measurement Society Technical Award in 2022 for pioneering the evolution of impedance spectroscopy from laboratory scale to field sensors. She has supervised more than 50 PhD students, contributes to EU Horizon projects and is member for the review board of the German Science Foundation (DFG). She has published over 700 peer-reviewed papers, holds an H-index of 44, and has been consistently ranked among the Top 2% of scientists globally (Stanford University, 2020–2023). \u003C/p>","2025-02-14T15:23:12.917Z","163",{"id":1118,"name":1119,"alternativeText":16,"caption":16,"width":1120,"height":1121,"formats":1122,"hash":1135,"ext":442,"mime":445,"size":1136,"url":1137,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":1138,"updatedAt":1138},1652,"Prof. Dr.-Ing. Olfa Kanoun.jpg",390,564,{"small":1123,"thumbnail":1129},{"ext":442,"url":1124,"hash":1125,"mime":445,"name":1126,"path":16,"size":1127,"width":1128,"height":455},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/small_Prof_Dr_Ing_Olfa_Kanoun_0a35bb5d54.jpg","small_Prof_Dr_Ing_Olfa_Kanoun_0a35bb5d54","small_Prof. Dr.-Ing. Olfa Kanoun.jpg",17.59,346,{"ext":442,"url":1130,"hash":1131,"mime":445,"name":1132,"path":16,"size":1133,"width":1134,"height":907},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/thumbnail_Prof_Dr_Ing_Olfa_Kanoun_0a35bb5d54.jpg","thumbnail_Prof_Dr_Ing_Olfa_Kanoun_0a35bb5d54","thumbnail_Prof. Dr.-Ing. Olfa Kanoun.jpg",3.41,108,"Prof_Dr_Ing_Olfa_Kanoun_0a35bb5d54",21.77,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/Prof_Dr_Ing_Olfa_Kanoun_0a35bb5d54.jpg","2025-02-14T15:22:55.054Z",[],"-130",{"id":1142,"name":1143,"committee":16,"position":16,"affiliation":1113,"email":16,"biography":1144,"createdAt":1145,"updatedAt":1145,"url_path_id":1146,"contactPhoto":1147,"socialLinks":1162,"url_path":1163},51,"Dr. Ahmed Yahia Kallel","\u003Cp style=\"text-align:justify;\">Dr. Ahmed Yahia Kallel is a senior researcher at the Chair of Measurement and Sensor Technology, Faculty of Electrical Engineering and Information Technology, Chemnitz University of Technology, Germany. He completed his Ph.D. with the highest distinction (summa cum laude) in 2024, following his Dipl.-Ing. in Electrical Engineering (2016) and M.Sc. in Embedded Systems (2018) from the National Engineering School of Sfax, Tunisia. As leader of the \"Impedance Spectroscopy and Measurement Systems\" research group, his research focuses on optimizing measurement systems through novel excitation signal design, embedded systems, and advanced signal processing. Dr. Kallel has authored over 55 scientific publications, including numerous papers in high-impact journals like IEEE Transactions on Instrumentation and Measurement and Measurement Science and Technology. Named Outstanding Reviewer for IEEE Transactions on Instrumentation and Measurement (2023), he serves as Publication Chair for the International Workshop on Impedance Spectroscopy and actively contributes to peer review, having evaluated over 50 scientific manuscripts.\u003C/p>","2025-02-14T15:23:43.029Z","164",{"id":1148,"name":1149,"alternativeText":16,"caption":16,"width":1150,"height":1151,"formats":1152,"hash":1158,"ext":442,"mime":445,"size":1159,"url":1160,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":1161,"updatedAt":1161},1651,"Dr. Ahmed Yahia Kallel.jpg",343,428,{"thumbnail":1153},{"ext":442,"url":1154,"hash":1155,"mime":445,"name":1156,"path":16,"size":1157,"width":1023,"height":907},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/thumbnail_Dr_Ahmed_Yahia_Kallel_8fe2ae560b.jpg","thumbnail_Dr_Ahmed_Yahia_Kallel_8fe2ae560b","thumbnail_Dr. Ahmed Yahia Kallel.jpg",3.59,"Dr_Ahmed_Yahia_Kallel_8fe2ae560b",17.09,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/Dr_Ahmed_Yahia_Kallel_8fe2ae560b.jpg","2025-02-14T15:22:55.029Z",[],"-131","-132",{"id":105,"session":1166},{"id":105,"title":1167,"teaser":67,"body":1168,"createdAt":1169,"updatedAt":1170,"publishedAt":1171,"url_path_id":1172,"contacts":1173,"url_path":1228},"Low Power IoT and Edge AI","\u003Cp style=\"text-align:justify;\">The Internet of Things (IoT) paradigm enables smart objects to communicate, this allows us to interact with our environment in a smart way. It is predicted that low power and ultra-low power sensors will make up the majority of IoT devices by 2030. To leverage the full potential of IoT applications, machine learning (ML) techniques are required to analyze sensor measurements on the edge for real-time analytics, lower latency, and less privacy concern. In this tutorial, we will first give a comprehensive overview of low power sensors and compare various IoT communication protocols. We will cover the end-to-end data integration steps from sensors to the loud data platform using real life award-winning smart cities examples. This tutorial will review various methods for applying ML and deep learning to resource-limited low power sensors. Different hardware and software options will be discussed including bio-inspired chipsets, traditional centralized learning, federated ML, pruning and TinyML for edge computing. We will demonstrate the latest design of our acoustic sensor with edge ML capability for real time sound classification. Development trend and future research opportunities for edge AI and IoT will also be presented. \u003C/p>","2025-02-12T17:35:32.765Z","2025-02-12T17:35:34.112Z","2025-02-12T17:35:34.107Z","151",[1174,1198],{"id":289,"name":1175,"committee":16,"position":16,"affiliation":1176,"email":16,"biography":1177,"createdAt":1178,"updatedAt":1178,"url_path_id":1179,"contactPhoto":1180,"socialLinks":1196,"url_path":1197},"Prof. Henry Leung","The University of Calgary, Canada","\u003Cp style=\"text-align:justify;\">Henry Leung is the Schulich Industry Research Chair and Professor of the Department of Electrical and Software Engineering of the University of Calgary. Before joining U of C, he was with the Department of National Defence (DND) of Canada as a defence scientist. His current research interests include information fusion, machine learning, IoT, nonlinear dynamics, robotics, signal and image processing. He is an associate editor of various journals such as the Scientific Reports and Journal of Sensors. He is the editor of the Springer book series on “Information Fusion and Data Science”. He is a Fellow of IEEE, SPIE, Engineering Institute of Canada (EIC) and Canadian Academy of Engineering (CAE).\u003C/p>","2025-02-12T17:34:17.938Z","149",{"id":1181,"name":1182,"alternativeText":16,"caption":16,"width":1183,"height":1184,"formats":1185,"hash":1192,"ext":442,"mime":445,"size":1193,"url":1194,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":1195,"updatedAt":1195},1642,"Henry Leung.jpg",215,184,{"thumbnail":1186},{"ext":442,"url":1187,"hash":1188,"mime":445,"name":1189,"path":16,"size":1190,"width":1191,"height":907},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/thumbnail_Henry_Leung_f7de328e93.jpg","thumbnail_Henry_Leung_f7de328e93","thumbnail_Henry Leung.jpg",6.02,182,"Henry_Leung_f7de328e93",6.24,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/Henry_Leung_f7de328e93.jpg","2025-02-12T17:34:01.631Z",[],"-116",{"id":1199,"name":1200,"committee":16,"position":16,"affiliation":1201,"email":16,"biography":1202,"createdAt":1203,"updatedAt":1203,"url_path_id":1204,"contactPhoto":1205,"socialLinks":1226,"url_path":1227},44,"Dr. Nan Xie","IT Manager, The City of Calgary, Calgary, Canada","\u003Cp style=\"text-align:justify;\">Dr. Nan Xie is the Manager of Emerging Technologies at The City of Calgary Information Technology business unit. Additionally, he is an adjunct professor in the Department of Electrical and Software Engineering at the University of Calgary, Canada. Nan has spearheaded the development and deployment of award-winning smart city applications utilizing industrial IoT and AI machine learning. The City of Calgary’s success has consistently attracted media attention, establishing The City as a leader in technologic innovation within the government sector. Dr. Xie earned his Ph.D degree from the University of Calgary. His current research interest is in the areas of artificial intelligence, neural networks, Internet of Things (IoT) and 5G for smart city applications.  \u003C/p>","2025-02-12T17:35:00.386Z","150",{"id":1206,"name":1207,"alternativeText":16,"caption":16,"width":1208,"height":1209,"formats":1210,"hash":1222,"ext":442,"mime":445,"size":1223,"url":1224,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":1225,"updatedAt":1225},1643,"nan xie.jpg",487,654,{"small":1211,"thumbnail":1217},{"ext":442,"url":1212,"hash":1213,"mime":445,"name":1214,"path":16,"size":1215,"width":1216,"height":455},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/small_nan_xie_295d867518.jpg","small_nan_xie_295d867518","small_nan xie.jpg",24.34,372,{"ext":442,"url":1218,"hash":1219,"mime":445,"name":1220,"path":16,"size":1221,"width":39,"height":907},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/thumbnail_nan_xie_295d867518.jpg","thumbnail_nan_xie_295d867518","thumbnail_nan xie.jpg",3.9,"nan_xie_295d867518",40.16,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/nan_xie_295d867518.jpg","2025-02-12T17:34:01.692Z",[],"-117","-118",{"id":28,"session":1230},{"id":28,"title":1231,"teaser":67,"body":1232,"createdAt":1233,"updatedAt":1234,"publishedAt":1235,"url_path_id":1236,"contacts":1237,"url_path":1268},"Mastering Electrical Impedance Spectroscopy: From Basics to Advanced Measurement Setups","\u003Cp style=\"text-align:justify;\">Electrical impedance spectroscopy (EIS) is a powerful technique, but performing accurate measurements can be challenging. Selecting the right equipment, sensors and configurations requires a deep understanding of specifications, parameters, and options—decisions that even experienced engineers and scientists may find complex. The interdependencies of components, practical constraints, and the prevalence of imprecise or overly simplified assumptions further complicate the process.\u003C/p>\u003Cp style=\"text-align:justify;\">This tutorial addresses the critical technical aspects of EIS measurement setups, providing participants with both foundational knowledge and actionable insights. \u003Cspan lang=\"DE\" dir=\"ltr\">Topics covered include:\u003C/span>\u003C/p>\u003Cul>\u003Cli style=\"text-align:justify;\">A concise review of EIS fundamentals\u003C/li>\u003Cli style=\"text-align:justify;\">Exploration of common and unconventional EIS applications\u003C/li>\u003Cli style=\"text-align:justify;\">Overview of available instrument classes and their specific strengths\u003C/li>\u003Cli style=\"text-align:justify;\">In-depth analysis of key specifications and their practical implications\u003C/li>\u003Cli style=\"text-align:justify;\">\u003Cspan lang=\"DE\" dir=\"ltr\">Multichannel systems and their advantages\u003C/span>\u003C/li>\u003Cli style=\"text-align:justify;\">\u003Cspan lang=\"DE\" dir=\"ltr\">Addressing parasitic influences\u003C/span>\u003C/li>\u003Cli style=\"text-align:justify;\">Selection and use of electrodes and sensors\u003C/li>\u003C/ul>\u003Cp style=\"text-align:justify;\">The tutorial combines lectures with hands-on sessions to solidify understanding through practical examples. Real-life case studies from academic research and industrial applications will illustrate the discussed concepts, highlighting their relevance and significance. By the end, participants will be equipped to navigate the complexities of EIS measurements, make informed decisions about setups, and avoid common pitfalls caused by oversimplifications or misconceptions.\u003C/p>","2025-02-10T13:15:52.303Z","2025-02-10T13:16:09.400Z","2025-02-10T13:15:53.591Z","139",[1238],{"id":190,"name":1239,"committee":16,"position":16,"affiliation":1240,"email":16,"biography":1241,"createdAt":1242,"updatedAt":1243,"url_path_id":1244,"contactPhoto":1245,"socialLinks":1266,"url_path":1267},"Martin Bulst","Application Consultant bei Sciospec Scientific Instruments GmbH","\u003Cp style=\"text-align:justify;\">\u003Cstrong>Martin Bulst \u003C/strong>(Bennewitz, Germany) studied Physics at the Technical University Dresden and the University of Leipzig. In 2010, while still a student, he became a founding member of Sciospec. He completed his diploma in Physics in 2013, contributing to a joint research project involving Sciospec, the University of Leipzig, and the Leibniz Institute of Surface Modification (IOM). His diploma thesis focused on the dynamic characterization of organic thin-film structures using impedimetric measurement techniques on piezoelectric resonant sensors.\u003C/p>\u003Cp style=\"text-align:justify;\">Since joining Sciospec, Martin has played a pivotal role in application development. As Lead Application Engineer, he has contributed significantly to numerous product developments for internal use and industrial partners. He has also coordinated several joint research projects, bridging academic research and industrial applications.\u003C/p>\u003Cp style=\"text-align:justify;\">\u003Ca target=\"_blank\" rel=\"noopener noreferrer\" href=\"https://www.linkedin.com/in/martin-bulst-9b250bb9/\">\u003Cspan lang=\"EN-US\" dir=\"ltr\">https://www.linkedin.com/in/martin-bulst-9b250bb9/\u003C/span>\u003C/a>\u003C/p>\u003Cp style=\"text-align:justify;\">\u003Ca target=\"_blank\" rel=\"noopener noreferrer\" href=\"http://www.sciospec.com\">\u003Cspan lang=\"EN-US\" dir=\"ltr\">www.sciospec.com\u003C/span>\u003C/a>\u003Cspan lang=\"DE\" dir=\"ltr\"> \u003C/span>\u003C/p>","2025-02-10T13:15:30.454Z","2025-02-10T13:16:28.255Z","138",{"id":1246,"name":1247,"alternativeText":16,"caption":16,"width":1248,"height":1249,"formats":1250,"hash":1262,"ext":19,"mime":20,"size":1263,"url":1264,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":1265,"updatedAt":1265},1636,"MartinBulst.png",509,700,{"small":1251,"thumbnail":1257},{"ext":19,"url":1252,"hash":1253,"mime":20,"name":1254,"path":16,"size":1255,"width":1256,"height":455},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/small_Martin_Bulst_301435a500.png","small_Martin_Bulst_301435a500","small_MartinBulst.png",159.26,364,{"ext":19,"url":1258,"hash":1259,"mime":20,"name":1260,"path":16,"size":1261,"width":803,"height":907},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/thumbnail_Martin_Bulst_301435a500.png","thumbnail_Martin_Bulst_301435a500","thumbnail_MartinBulst.png",21.98,"Martin_Bulst_301435a500",77.43,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/Martin_Bulst_301435a500.png","2025-02-10T13:15:18.438Z",[],"-105","-106",{"id":14,"session":1270},{"id":14,"title":1271,"teaser":67,"body":1272,"createdAt":1273,"updatedAt":1274,"publishedAt":1275,"url_path_id":1276,"contacts":1277,"url_path":1308},"Measurements Applications in Autonomous Systems","\u003Cp style=\"text-align:justify;\">Autonomous systems are nowadays having an undisputed pervasiveness in the modern society. Autonomous driving cars as well as applications of service robots (e.g. cleaning robots, companion robots, intelligent healthcare solutions, tour guided systems) are becoming more and more popular and a general acceptance is now developing around such systems in the modern societies. Nonetheless, one of the major problems in building such applications relies on the capability of autonomous systems to understand their surroundings and then plan proper counteractions. The most popular solutions, which are gaining more and more attention, rely on artificial intelligence and deep learning as a means to perceive the structured and complex natural environment. Nonetheless, besides the importance of such complex tools, classical concept of metrology, such as standard uncertainty, accuracy and precision, are still unavoidable for a clear and effective understanding of modern autonomous systems applications. \u003Cbr>\u003Cbr>At the end of this tutorial the attendee will be able to answer such questions as: what are the tools and the methods of major relevance for autonomous systems applications? How do concepts as uncertainty map in the autonomous systems realm?\u003C/p>","2025-02-09T18:22:18.522Z","2025-02-09T18:22:20.395Z","2025-02-09T18:22:20.381Z","136",[1278],{"id":171,"name":1279,"committee":16,"position":1280,"affiliation":1281,"email":16,"biography":1282,"createdAt":1283,"updatedAt":1283,"url_path_id":1284,"contactPhoto":1285,"socialLinks":1306,"url_path":1307},"Daniele Fontanelli","Department of Industrial Engineering","University of Trento - Italy","\u003Cp style=\"text-align:justify;\">Daniele Fontanelli (M’10, SM'19, F'25) received the M.S. degree in Information Engineering in 2001, and the Ph.D. degree in Automation, Robotics and Bioengineering in 2006, both from the University of Pisa, Pisa, Italy.  He was a Visiting Scientist with the Vision Lab of the University of California at Los Angeles, Los Angeles, US, from 2006 to 2007.  From 2007 to 2008, he has been an Associate Researcher with the Interdepartmental Research Center ``E. Piaggio'', University of Pisa.  From 2008 to 2013 he joined as an Associate Researcher the Department of Information Engineering and Computer Science and from 2014 the Department of Industrial Engineering, both at the University of Trento, Trento, Italy, where he is now a Full Professor in the field of Measurement and Robotics. He has authored and co-authored more than 250 scientific papers in peer-reviewed top journals and conference proceedings.  He is currently an IEEE Fellow Member, a Senior Area Editor for the IEEE Transactions on Instrumentation and Measurement, an Associate Editor for the IEEE Robotics and Automation Letters, and he is a member of the IMEKO TC17 - Measurement in Robotics. He has also served in the technical program committee of numerous conferences in the area of measurements and robotics. He has been served as an Associate Editor in Chief from 2021 to 2023 and as an Associate Editor from 2019 to 2021 for the IEEE Transactions on Instrumentation, and as an Associate Editor for the IET Science, Measurement & Technology Journal from 2019 to 2024. He is the co-founder of Polytec Intralogistics Srl (https://www.polytecintralogistics.com/en/) and of the IDRA Labs (https://idra-lab.github.io/). He is the PI of the EU project MAGICIAN - iMmersive leArninG for ImperfeCtion detection and repAir through human-robot interactioN - and he was the co-founder and the PI of the EIT-Digital international Master on ``Autonomous Systems'' from 2017 to 2023. His research interests include distributed and real-time estimation and control, localisation algorithms, synchrophasor estimation, clock synchronisation algorithms, resource aware control, wheeled mobile robots, service robotics and human-robot interaction and estimation.  \u003C/p>","2025-02-09T18:21:31.337Z","135",{"id":1286,"name":1287,"alternativeText":16,"caption":16,"width":1288,"height":1289,"formats":1290,"hash":1302,"ext":442,"mime":445,"size":1303,"url":1304,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":1305,"updatedAt":1305},1635,"Daniele Fontanelli.jpg",393,525,{"small":1291,"thumbnail":1297},{"ext":442,"url":1292,"hash":1293,"mime":445,"name":1294,"path":16,"size":1295,"width":1296,"height":455},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/small_Daniele_Fontanelli_79750e4356.jpg","small_Daniele_Fontanelli_79750e4356","small_Daniele Fontanelli.jpg",36.66,374,{"ext":442,"url":1298,"hash":1299,"mime":445,"name":1300,"path":16,"size":1301,"width":239,"height":907},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/thumbnail_Daniele_Fontanelli_79750e4356.jpg","thumbnail_Daniele_Fontanelli_79750e4356","thumbnail_Daniele Fontanelli.jpg",4.27,"Daniele_Fontanelli_79750e4356",40.97,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/Daniele_Fontanelli_79750e4356.jpg","2025-02-09T18:21:06.369Z",[],"-103","-104",{"id":129,"session":1310},{"id":129,"title":1311,"teaser":67,"body":1312,"createdAt":1313,"updatedAt":1314,"publishedAt":1315,"url_path_id":1316,"contacts":1317,"url_path":1359},"Measurement Validation in Automated Compound Oriented Measurements","\u003Cp style=\"text-align:justify;\">Compound-Oriented Measurement Technology is a specialized area within measurement technology that requires a more comprehensive approach than standard measurement techniques. These methods can be complex and involve several stages, including sampling, sample preparation, transportation, reformatting, measurement, and data processing. The intricate nature of these procedures requires a validation, which consideres all subprocesses within the overall workflow for accurate measurement results. In contrast to most physical measurements, compound-oriented measurements qualify (identify) and quantify the measurand of interest. Often, the measurand must be selected from multi-component mixtures of different compounds embedded in biological, chemical, medical, industrial, or environmental matrices. Compound-oriented measurements can be improved using robotic systems to increase sample throughput, ensure the safety of personnel, and enhance measurement accuracy. This tutorial will provide an in-depth exploration of the theoretical and practical aspects of compound-oriented measurements, the validation strategies required for both manual and automated methods, and the key parameters for evaluating measurement systems. Real-world examples, such as detecting heavy metals and pharmaceutical residues in environmental and biological samples, will demonstrate the validation results for both manual and automated measurement processes. The tutorial will also highlight how robotic systems can streamline workflows and reduce the influence of variables, leading to more accurate and reliable results. By the end of this tutorial, you will gain a comprehensive understanding of the complexities of compound-oriented measurements and the potential of automation solutions through robotic systems.\u003C/p>","2025-02-14T13:25:07.212Z","2025-02-14T13:25:09.683Z","2025-02-14T13:25:09.678Z","159",[1318],{"id":763,"name":1319,"committee":16,"position":16,"affiliation":1320,"email":16,"biography":1321,"createdAt":1322,"updatedAt":1322,"url_path_id":1323,"contactPhoto":1324,"socialLinks":1357,"url_path":1358},"Heidi Fleischer","Institute of Automation & Center for Life Science Automation (CELISCA), University of Rostock, Germany","\u003Cp style=\"text-align:justify;\">Heidi Fleischer, PhD, Professor of Process Automation, Institute for Automation, University of Rostock, Associate Director, Center for Life Science Automation (celisca)\u003Cbr>Friedrich-Barnewitz-Str. 8, 18119 Rostock, Germany\u003C/p>\u003Cp style=\"text-align:justify;\">Prof. Dr.-Ing. habil. Heidi Fleischer completed her university degree in 2008 in Information Technology and Computer Engineering (Dipl.-Ing. and M.Sc.). Since then, she has worked in an interdisciplinary manner, earning her Ph.D. in 2011 and her habilitation (Dr. Ing. habil.) in 2016 in Measurement and Automation Technology. In 2021, she was appointed as Professor for Process Automation at the University of Rostock. Additionally, she serves as Associate Director of the Center for Life Science Automation (celisca) at the University of Rostock. Prof. Fleischer has authored more than 137 journal and conference papers and two monographs. Her research focuses on process measurement and automation in medicine, environmental sciences, biotechnology, and chemistry.\u003C/p>\u003Cp style=\"text-align:justify;\">Beyond her university responsibilities, she has been actively engaged for over 10 years with the Hanseatic Institute of Technology e.V. (HIT e.V.), where she contributes to initiatives on Lifelong Learning and Interdisciplinary Research.\u003C/p>\u003Cp style=\"text-align:justify;\">As a member of international professional societies including IEEE—specifically the IEEE Instrumentation and Measurement Society (IMS) and the IEEE Robotics and Automation Society (RAS)—as well as the Society for Laboratory Automation and Screening (SLAS), she actively participates as a lecturer and presenter at their conferences and as author and reviewer in related scientific journals.\u003C/p>","2025-02-14T13:24:39.412Z","158",{"id":1325,"name":1326,"alternativeText":16,"caption":16,"width":1327,"height":1328,"formats":1329,"hash":1353,"ext":1331,"mime":445,"size":1354,"url":1355,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":1356,"updatedAt":1356},1648,"Heidi Fleischer.jpeg",2048,1536,{"large":1330,"small":1336,"medium":1342,"thumbnail":1347},{"ext":1331,"url":1332,"hash":1333,"mime":445,"name":1334,"path":16,"size":1335,"width":448,"height":462},".jpeg","https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/large_Heidi_Fleischer_969185f194.jpeg","large_Heidi_Fleischer_969185f194","large_Heidi Fleischer.jpeg",189.73,{"ext":1331,"url":1337,"hash":1338,"mime":445,"name":1339,"path":16,"size":1340,"width":455,"height":1341},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/small_Heidi_Fleischer_969185f194.jpeg","small_Heidi_Fleischer_969185f194","small_Heidi Fleischer.jpeg",51.88,375,{"ext":1331,"url":1343,"hash":1344,"mime":445,"name":1345,"path":16,"size":1346,"width":462,"height":449},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/medium_Heidi_Fleischer_969185f194.jpeg","medium_Heidi_Fleischer_969185f194","medium_Heidi Fleischer.jpeg",113.78,{"ext":1331,"url":1348,"hash":1349,"mime":445,"name":1350,"path":16,"size":1351,"width":1352,"height":907},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/thumbnail_Heidi_Fleischer_969185f194.jpeg","thumbnail_Heidi_Fleischer_969185f194","thumbnail_Heidi Fleischer.jpeg",9.04,208,"Heidi_Fleischer_969185f194",631.2,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/Heidi_Fleischer_969185f194.jpeg","2025-02-14T13:24:23.238Z",[],"-125","-126",{"id":117,"session":1361},{"id":117,"title":1362,"teaser":67,"body":1363,"createdAt":1364,"updatedAt":1365,"publishedAt":1366,"url_path_id":1367,"contacts":1368,"url_path":1398},"Measurement Fundamentals ","\u003Cp style=\"text-align:justify;\">The acquisition of information about physical quantities by means of sensors historically fostered the interpretation of measurement as a merely experimental activity. Conversely, measurement is a complex activity, far more complex than suitably connecting and reading an instrument. Indeed, prior of the execution of empirical activities, measurement always requires descriptive activities to be performed to ensure both the correct implementation of the experiments and the interpretation of the obtained information. \u003Cbr>\u003Cbr>In this tutorial, the basic concepts involved in any measurement are presented and discussed. The tutorial contents support a methodologically correct development required by any measurement, regardless the kind of involved quantities (either physical or non-physical) or the field of application. \u003Cbr>\u003Cbr>At the end of this tutorial the attendee will be able to answer such questions as: Which characteristics need to be fulfilled to ensure that an informative empirical process is a measurement? How an adequate model for a given measurement can be identified? How the quantity of information obtained through measurement can be evaluated and expressed? \u003C/p>","2025-02-12T13:19:22.252Z","2025-02-12T13:19:23.938Z","2025-02-12T13:19:23.931Z","143",[1369],{"id":364,"name":1370,"committee":16,"position":16,"affiliation":1371,"email":16,"biography":1372,"createdAt":1373,"updatedAt":1373,"url_path_id":1374,"contactPhoto":1375,"socialLinks":1396,"url_path":1397},"Dario Petri","Department of Industrial Engineering, University of Trento – Italy","\u003Cp style=\"text-align:justify;\">Dario Petri (M’92-SM’05-F’09) is a Full Professor of Measurement Science and Electronic instrumentation and the head of the Quality Assurance Committee of the University of Trento, Italy. He is also an IEEE Fellow member, and the recipient of the 2020 IEEE Joseph F. Keithley Award “for contributions to measurement fundamentals and signal processing techniques in instrumentation and measurement”. \u003Cbr>\u003Cbr>Dario Petri is an Associate Editor in Chief of the IEEE Transactions on Instrumentation and Measurement. He was the VP for Finance of the IEEE Instrumentation and Measurement Society from 2013 to 2018, the VP for Conferences of the same Society from 2011 to 2013. He is the chair of the IEEE Smart Cities Initiative in Trento since 2015. \u003Cbr>He chaired the Italian scientific Association of Electrical and Electronic Measurement from 2013 to 2016 and the IEEE Italy Section from 2012 to 2014.  He was also a member of the Group of Expert of Evaluation (GEV) for research in the area of Industrial and Information Engineering in Italy from 2016 to 2017. \u003Cbr>\u003Cbr>He was the head of the Department of Information Engineering and Computer Science of the University of Trento from 2010 to 2012 and the head of the Department of Industrial Engineering of the same University from 2016 to 2021. \u003Cbr>\u003Cbr>Dario Petri received the M.Sc. degree (summa cum laude) and the Ph.D. degree in electronics engineering from the University of Padua, Padua, Italy, in 1986 and 1990, respectively. \u003Cbr>\u003Cbr>During his research career, Dario Petri has been an author of more than 350 papers published in international journals or in proceedings of peer reviewed international conferences. His research activities are focused on fundamentals of measurement theory, digital signal processing applied to measurement problems, data acquisition systems, instrumentation for smart energy grids, measurement for quality management.\u003C/p>","2025-02-12T13:18:40.937Z","142",{"id":1376,"name":1377,"alternativeText":16,"caption":16,"width":1080,"height":1378,"formats":1379,"hash":1392,"ext":442,"mime":445,"size":1393,"url":1394,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":1395,"updatedAt":1395},1638,"dario.jpg",601,{"small":1380,"thumbnail":1386},{"ext":442,"url":1381,"hash":1382,"mime":445,"name":1383,"path":16,"size":1384,"width":1385,"height":455},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/small_dario_c10de2140f.jpg","small_dario_c10de2140f","small_dario.jpg",26.61,408,{"ext":442,"url":1387,"hash":1388,"mime":445,"name":1389,"path":16,"size":1390,"width":1391,"height":907},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/thumbnail_dario_c10de2140f.jpg","thumbnail_dario_c10de2140f","thumbnail_dario.jpg",3.99,127,"dario_c10de2140f",38.54,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/dario_c10de2140f.jpg","2025-02-12T13:18:07.564Z",[],"-109","-110",{"id":403,"session":1400},{"id":403,"title":1401,"teaser":67,"body":1402,"createdAt":1403,"updatedAt":1404,"publishedAt":1405,"url_path_id":1406,"contacts":1407,"url_path":1448},"Measurement of the Beam-Pattern of the Antenna System as a Large Structure By Using the Flying Drone Equipped with RF Probes","\u003Cp style=\"text-align:justify;\">Antennas are seen everywhere connectivity is required. Along with cellular phones and IoT devices, vehicles in the land or the sea need channels of communication via relays in the sky or the peak of a hill to send and receive information in a mobile network indebted to functions of the antennas. The quality of the communication is determined by that of an antenna whether it goes with the analogue or digital mobile framework, for it allows an RF signal from the transmitter to reach the receiver. Before the antenna is deployed for the ultimate configuration of wireless communication, its characteristics of electromagnetic radiation are assessed with the far-field test equipment at an anechoic chamber. It is normal of the Zigbee, Bluetooth, WiFi, 5G mobile, metasurface lens, RIS reflectors, SAR antennas, etc. to undergo the conventional test method. Meanwhile, it runs across technical limits and shortcomings when the radiation aperture or structure holding the antenna is very large such as access point antennas mounted on a building or high directivity ones having large apertures adopted for hyper connectivity and target detection. In case the space for a wireless link such as the localizer in the instrument landing system as well as the mountain-top television relay station should be too large to be put into the anechoic chamber, an alternative method had to be come up with. The drone is adopted to the in-flight observation of the electromagnetic properties of the antenna huge or positioned very high. Step 1 is to equip the drone with the probe antenna, GPS antenna, spectrum analyzer, data storage and controller. Step 2 is to define the shape and size of the field scanning surface comprising observation positions with the distance and angular range from the antenna under test (AUT). Step 3 is to calibrate the AUT with the reference antenna like the log-periodic or horn antenna. Step 4 is to conduct the field scanning with the drone and record the observed field at every observation position on the scanning surface. Step 5 is to make the field plot and analyze it. In this talk, the general idea is mentioned and followed by elaborating on a real example of a UHF broadcasting antenna.  \u003C/p>","2025-02-12T14:59:39.795Z","2025-02-12T14:59:41.435Z","2025-02-12T14:59:41.430Z","148",[1408,1423],{"id":401,"name":1409,"committee":16,"position":16,"affiliation":1410,"email":16,"biography":1411,"createdAt":1412,"updatedAt":1412,"url_path_id":1413,"contactPhoto":1414,"socialLinks":1421,"url_path":1422},"Prof. Dr. Sungtek Kahng","Incheon National University, Korea ","\u003Cp style=\"text-align:justify;\">Prof. Sungtek Kahng received his Ph.D. degree from Hanyang University, Korea in 2000, with a specialty in Radio Science and Engineering. From 2000 to 2004, he worked for the Electronics and Telecommunication Research Institute(briefly, ETRI), and developed Satellite Payloads of GEOs, Computational EM methods and Electromagnetic Field Measurement Techniques.\u003Cbr>\u003Cbr>Currently, in Dept. of Info. & Telecomm. Eng. of Incheon National University, he works on WPT devices, PD sensors, EMI/EMC, RF components for UAM Radars and satellites, smart antennas for 5G/IoT networking. He in the committee evaluating Korean Satellite Development Programs appointed by NRF has cooperated mainly with LGE, LIGNEX1, ETRI, KARI, ADD, CAMM, Corning(USA), Samsung, AceTechnology, Hyundai, Amotech, Innertron, and NISSHA(Japan) where he holds a fellow position. Along with roles of IEEE APS STC judge, IEEE APS TC Antenna Measurements, KICS Vice President, KIEE Journal Editor, etc., he served as the ICCR 2022 TPC Chair, Chair of LOC for ICEE 2026 and General Chair for IEEE APCAP 2019. Presently, he is the director of Korean Mistry of Science and IT funded National Research and Development Center on 6G Radio and Satellite Communication Technologies named ITRC.\u003C/p>","2025-02-12T14:58:03.327Z","146",{"id":1415,"name":1416,"alternativeText":16,"caption":16,"width":1023,"height":747,"formats":16,"hash":1417,"ext":19,"mime":20,"size":1418,"url":1419,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":1420,"updatedAt":1420},1640,"Sungtek Kahng.png","Sungtek_Kahng_2f61a923a8",9.58,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/Sungtek_Kahng_2f61a923a8.png","2025-02-12T14:57:49.739Z",[],"-113",{"id":270,"name":1424,"committee":16,"position":16,"affiliation":1425,"email":16,"biography":1426,"createdAt":1427,"updatedAt":1427,"url_path_id":1428,"contactPhoto":1429,"socialLinks":1446,"url_path":1447},"Dr. Changhyeong Lee","Surface Engineering, Corning Technology Center Korea, Korea","\u003Cp style=\"text-align:justify;\">Dr. Changhyeong Lee earned his Ph.D. degree in Radio Science and Engineering including Microwave Component and Antenna development at Incheon National University. His research fields are microwave engineering, RF components for satellite transponders, 5G antennas and metamaterials. He worked for Center for Advanced Metamaterials based in Korean Institute of Machinery and Materials. Leaving CAMM at KIMM, he worked on plasma generators for semi-conductor etchers in SEMES. Presently, he develops glass-based transparent metamaterials in Corning.\u003C/p>","2025-02-12T14:58:53.382Z","147",{"id":1430,"name":1431,"alternativeText":16,"caption":16,"width":1432,"height":1433,"formats":1434,"hash":1441,"ext":19,"mime":20,"size":1442,"url":1443,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":1444,"updatedAt":1445},1641,"Changhyeong Lee.png",303,318,{"thumbnail":1435},{"ext":19,"url":1436,"hash":1437,"mime":20,"name":1438,"path":16,"size":1439,"width":1440,"height":907},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/thumbnail_Changhyeong_Lee_2411778bf6.png","thumbnail_Changhyeong_Lee_2411778bf6","thumbnail_Changhyeong Lee.png",50.61,149,"Changhyeong_Lee_2411778bf6",48.62,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/Changhyeong_Lee_2411778bf6.png","2025-02-12T14:57:49.907Z","2025-02-12T14:58:50.122Z",[],"-114","-115",{"id":123,"session":1450},{"id":123,"title":1451,"teaser":67,"body":1452,"createdAt":1453,"updatedAt":1454,"publishedAt":1455,"url_path_id":1456,"contacts":1457,"url_path":1482},"Real-time Condition Monitoring and Fault Diagnosis of Rolling Element Bearings ","\u003Cp style=\"text-align:justify;\">Rolling element bearings are commonly used in rotating machines such as vehicles, aircraft, and motors. As a matter of fact, most machinery imperfections, especially for small- and medium-size machines, are related to bearing defects. However, reliable fault detection in rolling element bearings remains a challenging task in this research and development field, due to reasons such as system dynamics complexity and feature modulations. This tutorial will address recent development and the related challenges in bearing fault detection and real-time health condition monitoring. The covered research aspects include smart sensor-based data acquisition, signal denoising to improve signal-to-noise ratio, signal processing for bearing representative feature extraction, and AI-based real-time machine condition monitoring and fault diagnostics. This tutorial will discuss recent research progress in related fields, the challenges encountered, and possible solutions. It will also provide examples and strategies on how to implement the related technologies for machine health condition monitoring and fault diagnostics in real-world industrial applications.\u003C/p>","2025-02-15T16:48:12.615Z","2025-02-15T16:48:14.226Z","2025-02-15T16:48:14.222Z","169",[1458],{"id":1459,"name":1460,"committee":16,"position":16,"affiliation":1461,"email":16,"biography":1462,"createdAt":1463,"updatedAt":1463,"url_path_id":1464,"contactPhoto":1465,"socialLinks":1480,"url_path":1481},53,"Wilson Wang","Lakehead University, Canada","\u003Cp style=\"text-align:justify;\">Wilson Wang received his BSc in Electromechanical Engineering (Shandong University, China), MSc in Mechanical Engineering (Northeastern University, China), MEng in Industrial Engineering (University of Toronto, Canada), and PhD in Mechatronics Engineering (University of Waterloo, Canada) in 2002. From 2002 to 2004, he was a Senior Scientist and Project Manager at Mechworks Systems Inc. (Kitchener, Ontario, Canada). He joined Lakehead University in 2004, where he is currently a professor and director in Mechatronics Engineering. \u003Cbr>\u003Cbr>Dr. Wang is a Lakehead Research Chair. His research interests include machine fault diagnostics, prognostics, mechatronics, AI, ML, and smart sensors. He has supervised more than 80 highly qualified personnel (PDF, PhD and MSc), and published more than 150 peer-reviewed journal articles. He has also successfully implemented his proposed techniques and developed approximately 20 products for real-time machine condition monitoring and diagnostic applications in real industrial applications. \u003Cbr>\u003Cbr>Dr. Wang has received many awards, including Lakehead Distinguished Researcher Award in 2017, and NSERC (Natural Science and Engineering Research Council of Canada) Accelerator Award in 2016. He has also participated in many professional administration activities such as the Chair of Expert Committee of CFI (Canada Foundation for Innovation) for Innovation Funds (2022-2024). He has also been an associate editor in several journals including IEEE Transactions in Measurement and Instrumentation. \u003C/p>","2025-02-15T16:47:48.284Z","168",{"id":1466,"name":1467,"alternativeText":16,"caption":16,"width":1468,"height":1469,"formats":1470,"hash":1476,"ext":442,"mime":445,"size":1477,"url":1478,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":1479,"updatedAt":1479},1654,"Wilson Wang.jpg",305,363,{"thumbnail":1471},{"ext":442,"url":1472,"hash":1473,"mime":445,"name":1474,"path":16,"size":1475,"width":502,"height":907},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/thumbnail_Wilson_Wang_2d32308aa4.jpg","thumbnail_Wilson_Wang_2d32308aa4","thumbnail_Wilson Wang.jpg",4.36,"Wilson_Wang_2d32308aa4",19.97,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/Wilson_Wang_2d32308aa4.jpg","2025-02-15T16:47:10.309Z",[],"-135","-136",{"id":1484,"session":1485},16,{"id":1484,"title":1486,"teaser":67,"body":1487,"createdAt":1488,"updatedAt":1489,"publishedAt":1490,"url_path_id":1491,"contacts":1492,"url_path":1516},"Smart Sensing Systems and AI for Precision Agriculture","\u003Cp style=\"text-align:justify;\">The precision agriculture (PA) combines technologies and practices that assure the optimization of the operations associated agricultural production through specific farm management. \u003Cbr>\u003Cbr>Regarding the used technologies distributed smart sensing systems characterized by fixed and mobile nodes (based on remote sensing  and Unnamed Aerial Vehicle (UAV))) are used to turn the farming operations into data, and to optimize the future operation based on data driven models that can be part of digital twins applied in precision agriculture. Edge and cloud computing platforms that are capable to run AI/ML algorithms may contribute to help on human decisions. \u003Cbr>\u003Cbr>The tutorial focusses on digital transformation of the agriculture in the context of heavily uncertainty associated with climate change. The IoT ecosystem technologies for precision agriculture will be discussed including multimodal sensing and artificial intelligence. In-situ and remote sensing are considered special attention being granted to the soil characteristics monitoring (moisture and macronutrients concentration). \u003Cbr>\u003Cbr>The agriculture UAV imagery and satellite  imagery solutions as so as the relation between the data coming from the in-situ distributed smart sensors and acquired images using multispectral and thermographic camera and imagery techniques will be part of the presentation as so as elements of virtualization in the case of digital twins implementation. AI multiple sources data driven models for an increased crops quality through the optimization of farming operations as so as examples of data driven models for smart irrigation and nutrients will be discussed. \u003C/p>","2025-02-14T16:39:05.490Z","2025-02-14T16:39:07.308Z","2025-02-14T16:39:07.302Z","167",[1493],{"id":1494,"name":1495,"committee":16,"position":16,"affiliation":1496,"email":16,"biography":1497,"createdAt":1498,"updatedAt":1498,"url_path_id":1499,"contactPhoto":1500,"socialLinks":1514,"url_path":1515},52,"Dr. Octavian Postolache","Instituto de Telecomunicaçoes, Lisbon, Portugal","\u003Cp style=\"text-align:justify;\">Dr. Octavian Adrian Postolache is electrical engineer and Full Professor at ISCTE-Instituto Universitario de Lisboa and Senior researcher of Instituto de Telecomunicacoes, Lisbon, Portugal. His fields of interests are smart sensors, WSN, IoT for precision agriculture,  artificial intelligence for automated measurement systems, intelligent transportation. Dr. Postolache is author and co-author of 10 patents, 12 books, 21 book chapters, and more than 450 papers in international journals and indexed conferences with peer review and he is top 2% world most cited scientists according with Stanford Elsevier 2024. He developed important research work in the field of environment monitoring and he participate as PI or  member in national and international Agriculture 4.0 projects  such as AGROECOINN and SmartFarm 4.0 Colab. He is IEEE Senior Member, chair of IEEE IMS TC-13 and current chair of IEEE IMS Portugal Chapter. He is Associate Editor of IEEE Sensors Journal, IEEE Transaction on Instrumentation and Measurement and IoT from Elsevier.  He received IEEE outstanding reviewer and the outstanding associate editor from IEEE Transactions in Instrumentation and Measurement and IEEE Sensors Journal  and other awards related to his research activity at different international forums. He served as project evaluator for different scientific founding agencies.\u003C/p>","2025-02-14T16:38:33.681Z","166",{"id":1501,"name":1502,"alternativeText":16,"caption":16,"width":1503,"height":1503,"formats":1504,"hash":1510,"ext":442,"mime":445,"size":1511,"url":1512,"previewUrl":16,"provider":23,"provider_metadata":16,"createdAt":1513,"updatedAt":1513},1653,"Dr. Octavian Postolache.jpg",489,{"thumbnail":1505},{"ext":442,"url":1506,"hash":1507,"mime":445,"name":1508,"path":16,"size":1509,"width":907,"height":907},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/thumbnail_Dr_Octavian_Postolache_6d249c0a20.jpg","thumbnail_Dr_Octavian_Postolache_6d249c0a20","thumbnail_Dr. Octavian Postolache.jpg",4.38,"Dr_Octavian_Postolache_6d249c0a20",23.98,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/i2mtc25/Dr_Octavian_Postolache_6d249c0a20.jpg","2025-02-14T16:38:04.477Z",[],"-133","-134",{"data":1518,"meta":1519},{"id":351,"heading":346,"createdAt":352,"updatedAt":353,"publishedAt":354,"url_path_id":355,"url_path":347,"contentType":103},{},1778852464885]