BEGIN:VCALENDAR VERSION:2.0 PRODID:-//TAMU//NONSGML v1.0//EN X-WR-CALNAME:TAMU Events BEGIN:VTIMEZONE TZID:America/Chicago BEGIN:DAYLIGHT TZNAME:CDT DTSTART:20190310T080000 RDATE:20190310T080000 TZOFFSETFROM:-0600 TZOFFSETTO:-0500 END:DAYLIGHT END:VTIMEZONE BEGIN:VTIMEZONE TZID:America/Chicago BEGIN:STANDARD TZNAME:CST DTSTART:20191103T070000 RDATE:20191103T070000 TZOFFSETFROM:-0500 TZOFFSETTO:-0600 END:STANDARD END:VTIMEZONE BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190213T140000 DTEND;TZID=America/Chicago:20190213T150000 LOCATION:Wisenbaker Engineering Building GEO:30.620771;-96.338948 SUMMARY:ECEN Speaker Series: Graduate Research\, Communication\, and Career DESCRIPTION:ABSTRACT: After 16 years from elementary school to college\, you are in graduate school now. Besides homework\, projects and exams\, research emerges as a new emphasis. At the same time\, communication becomes more important than ever. I will summarize some problems commonly seen among new graduate students during the transition. I will provide suggestions on how to overcome the problems so that graduate study can be more efficient and fruitful. At the end\, I will share my knowledge on post-graduate career options\, and their pros and cons.\nBIOGRAPHY: Jiang Hu received his B.S. degree in optical engineering from Zhejiang University\, China in 1990\, his M.S. degree in physics in 1997\, and his Ph.D. degree in electrical engineering from the University of Minnesota in 2001. He was with IBM Microelectronics from January 2001 to June 2002. Currently he is a professor in the Department of Electrical and Computer Engineering at Texas A&M University. His research interests include electronic design automation\, optimization of computing system design and operation\, approximate computing and hardware security. He received a best paper award at the ACM/IEEE Design Automation Conference in 2001\, an IBM Invention Achievement Award in 2003\, a best paper award at the IEEE/ACM International Conference on Computer-Aided Design in 2011 and a best paper award at the IEEE International Conference on Vehicular Electronics and Safety in 2018. He has served as General Chair and Technical Program Chair for the ACM International Symposium on Physical Design\, and associated editor for IEEE Transactions on CAD and ACM Transactions on Design Automation of Electronic Systems. He received the Humboldt Research Fellowship in 2012. He was named IEEE Fellow in 2016.\nRSVP: tx.ag/JiangHu X-ALT-DESC;FMTTYPE=text/html:

ABSTRACT: After 16 years from elementary school to college, you are in graduate school now. Besides homework, projects and exams, research emerges as a new emphasis. At the same time, communication becomes more important than ever. I will summarize some problems commonly seen among new graduate students during the transition. I will provide suggestions on how to overcome the problems so that graduate study can be more efficient and fruitful. At the end, I will share my knowledge on post-graduate career options, and their pros and cons.\n

BIOGRAPHY: Jiang Hu received his B.S. degree in optical engineering from Zhejiang University, China in 1990, his M.S. degree in physics in 1997, and his Ph.D. degree in electrical engineering from the University of Minnesota in 2001. He was with IBM Microelectronics from January 2001 to June 2002. Currently he is a professor in the Department of Electrical and Computer Engineering at Texas A&M University. His research interests include electronic design automation, optimization of computing system design and operation, approximate computing and hardware security. He received a best paper award at the ACM/IEEE Design Automation Conference in 2001, an IBM Invention Achievement Award in 2003, a best paper award at the IEEE/ACM International Conference on Computer-Aided Design in 2011 and a best paper award at the IEEE International Conference on Vehicular Electronics and Safety in 2018. He has served as General Chair and Technical Program Chair for the ACM International Symposium on Physical Design, and associated editor for IEEE Transactions on CAD and ACM Transactions on Design Automation of Electronic Systems. He received the Humboldt Research Fellowship in 2012. He was named IEEE Fellow in 2016.\n

RSVP: tx.ag/JiangHu

UID:20190213T200000Z-73699@calendar.tamu.edu URL:http://calendar.tamu.edu/ece/#!view/event/event_id/73699 LAST-MODIFIED:20190128T201146Z ATTACH:https://calendar.tamu.edu/live/image/gid/63/width/80/height/80/crop/1/src_region/0,0,600,601/1401_ecen_1x1-primary.png X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:73699 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/63/width/80/height/80/crop/1/src_region/0\,0\,600\,601/1401_ecen_1x1-primary.png X-LIVEWHALE-IMAGE-CAPTION:ECEN logo X-LIVEWHALE-SUMMARY:

\n Dr. Jiang Hu\, Professor and Co-Director of Graduate Programs\, Electrical and Computer Engineering\, Texas A&\;M University\n

END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190215T091000 DTEND;TZID=America/Chicago:20190215T101000 LOCATION:Emerging Technologies Building GEO:30.622704;-96.339193 SUMMARY:Energy and Power Group Seminar: Novel control algorithms for hierarchical control of Power Systems DESCRIPTION:Abstract: This research addresses the issue of communication congestion in the transmission of real-time data from local power systems to the centralized controller. It addresses this communication congestion issue in the context of two control problems in the power system: the first communication efficient control solution is proposed to address secondary voltage control of multi-area power systems which utilizes compressive sensing (CS) techniques to reduce the data size to deal with the limited bandwidth problem of the communication channel. It is also equipped with a technique based on Mathematical Morphology Singular Entropy (MSE) to identify faults/ abnormal disturbances locally in the system to avoid bad data/corrupt data being sent to the central controller. To further filter the sensed measurements from local sensors\, it is passed through Mathematical Morphological Filters (MMF). Secondly\, a tertiary control algorithm for optimal reactive power generation control is proposed to minimize power loss and voltage deviation on the tertiary level control. A consensus-based gradient distributed approach is proposed to deal with potential communication delays.\nBiography: Dr. Irfan Khan is an Assistant Professor of Practice at Texas A&M University (TAMU) at Galveston\, TX. He majored in Electrical Engineering at University of Engineering & Technology\, Lahore\, Pakistan\, attended University of Greenwich\, UK\, as an MS student\, and received a Ph.D. in Electrical and Computer Engineering from Carnegie Mellon University in 2018 prior to joining TAMU. His research interests include control and optimization of smart energy networks\, optimization of energy storage systems\, DC Microgrids\, and control of marine technologies. He is an active reviewer of many esteemed journals and conferences. He has published more than 15 refereed journal and conference papers in the smart energy systems related areas. His team won 3rd prize in "Impact-a Thon" competition of 2018\, arranged by Carnegie Mellon University. He secured the first position and won the School of Engineering Award for Overall Best Performance on Master's degree. He also procured Japanese-HEC merit-based scholarship to pursue an undergraduate degree in Electrical Engineering. X-ALT-DESC;FMTTYPE=text/html:

Abstract: This research addresses the issue of communication congestion in the transmission of real-time data from local power systems to the centralized controller. It addresses this communication congestion issue in the context of two control problems in the power system: the first communication efficient control solution is proposed to address secondary voltage control of multi-area power systems which utilizes compressive sensing (CS) techniques to reduce the data size to deal with the limited bandwidth problem of the communication channel. It is also equipped with a technique based on Mathematical Morphology Singular Entropy (MSE) to identify faults/ abnormal disturbances locally in the system to avoid bad data/corrupt data being sent to the central controller. To further filter the sensed measurements from local sensors, it is passed through Mathematical Morphological Filters (MMF). Secondly, a tertiary control algorithm for optimal reactive power generation control is proposed to minimize power loss and voltage deviation on the tertiary level control. A consensus-based gradient distributed approach is proposed to deal with potential communication delays.\n

Biography: Dr. Irfan Khan is an Assistant Professor of Practice at Texas A&M University (TAMU) at Galveston, TX. He majored in Electrical Engineering at University of Engineering & Technology, Lahore, Pakistan, attended University of Greenwich, UK, as an MS student, and received a Ph.D. in Electrical and Computer Engineering from Carnegie Mellon University in 2018 prior to joining TAMU. His research interests include control and optimization of smart energy networks, optimization of energy storage systems, DC Microgrids, and control of marine technologies. He is an active reviewer of many esteemed journals and conferences. He has published more than 15 refereed journal and conference papers in the smart energy systems related areas. His team won 3rd prize in "Impact-a Thon" competition of 2018, arranged by Carnegie Mellon University. He secured the first position and won the School of Engineering Award for Overall Best Performance on Master's degree. He also procured Japanese-HEC merit-based scholarship to pursue an undergraduate degree in Electrical Engineering.\n

UID:20190215T151000Z-76313@calendar.tamu.edu URL:http://calendar.tamu.edu/ece/#!view/event/event_id/76313 LAST-MODIFIED:20190204T224702Z ATTACH:https://calendar.tamu.edu/live/image/gid/63/width/80/height/80/crop/1/src_region/0,0,600,601/1401_ecen_1x1-primary.png X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:76313 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/63/width/80/height/80/crop/1/src_region/0\,0\,600\,601/1401_ecen_1x1-primary.png X-LIVEWHALE-IMAGE-CAPTION:ECEN logo X-LIVEWHALE-SUMMARY:

\n Dr. Irfan Khan\, Assistant Professor of Practice at Texas A&\;M University at Galveston\n

END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190215T161000 DTEND;TZID=America/Chicago:20190215T171000 LOCATION:Emerging Technologies Building GEO:30.622704;-96.339193 SUMMARY:CESG Seminar: Decentralized control over Unreliable Communication Links DESCRIPTION:Abstract: Decentralized control problems have been a topic of significant research interest due to their relevance to multi-agent systems and large-scale distributed systems. The design of optimal decentralized control strategies has been investigated under various models for inter-controller communication such as graph-based communication models and communication with delays. A common feature of much of the prior work is that the underlying communication structure of the decentralized system is assumed to be fixed and unchanging. For example\, several works assume a fixed communication graph among controllers whose edges describe perfect communication links between controllers. Similarly\, when the communication graph incorporates delays\, the delays are assumed to be fixed and known. This is a key limitation since in many situations communication among controllers may suffer from imperfections such as random packet loss and random packet delays. These imperfections introduce a new layer of uncertainty in the information structure that is not present in the models considered in prior work. In this talk\, we will describe a decentralized LQG control problem where some of the communication links suffer from random packet loss. We will first identify optimal decentralized control strategies for finite horizon version of our problem. We will then discuss the infinite horizon problem and show that there are critical thresholds for packet loss probabilities above which no strategy can achieve finite cost and below which optimal strategies can be explicitly identified.\nBiography: Ashutosh Nayyar received the B.Tech degree in electrical engineering from the Indian Institute of Technology\, Delhi\, India\, in 2006. He received the M.S. degree in electrical engineering and computer science\, the MS degree in applied mathematics\, and the Ph.D. degree in electrical engineering and computer science from the University of Michigan\, Ann Arbor. He was a Post-Doctoral Researcher at the University of Illinois at Urbana-Champaign and at the University of California\, Berkeley before joining the University of Southern California in 2014 where he is currently an Assistant Professor in Ming Hsieh Department of Electrical Engineering. His recognitions include an IEEE CSS George S. Axelby Outstanding Paper Award and NSF Career Award. He is a member of IEEE Control Systems Society\, IEEE Communications Society and IEEE Control Systems Society Conference Editorial Board. X-ALT-DESC;FMTTYPE=text/html:

Abstract: Decentralized control problems have been a topic of significant research interest due to their relevance to multi-agent systems and large-scale distributed systems. The design of optimal decentralized control strategies has been investigated under various models for inter-controller communication such as graph-based communication models and communication with delays. A common feature of much of the prior work is that the underlying communication structure of the decentralized system is assumed to be fixed and unchanging. For example, several works assume a fixed communication graph among controllers whose edges describe perfect communication links between controllers. Similarly, when the communication graph incorporates delays, the delays are assumed to be fixed and known. This is a key limitation since in many situations communication among controllers may suffer from imperfections such as random packet loss and random packet delays. These imperfections introduce a new layer of uncertainty in the information structure that is not present in the models considered in prior work. In this talk, we will describe a decentralized LQG control problem where some of the communication links suffer from random packet loss. We will first identify optimal decentralized control strategies for finite horizon version of our problem. We will then discuss the infinite horizon problem and show that there are critical thresholds for packet loss probabilities above which no strategy can achieve finite cost and below which optimal strategies can be explicitly identified.\n

Biography: Ashutosh Nayyar received the B.Tech degree in electrical engineering from the Indian Institute of Technology, Delhi, India, in 2006. He received the M.S. degree in electrical engineering and computer science, the MS degree in applied mathematics, and the Ph.D. degree in electrical engineering and computer science from the University of Michigan, Ann Arbor. He was a Post-Doctoral Researcher at the University of Illinois at Urbana-Champaign and at the University of California, Berkeley before joining the University of Southern California in 2014 where he is currently an Assistant Professor in Ming Hsieh Department of Electrical Engineering. His recognitions include an IEEE CSS George S. Axelby Outstanding Paper Award and NSF Career Award. He is a member of IEEE Control Systems Society, IEEE Communications Society and IEEE Control Systems Society Conference Editorial Board.\n

UID:20190215T221000Z-77573@calendar.tamu.edu URL:http://calendar.tamu.edu/ece/#!view/event/event_id/77573 LAST-MODIFIED:20190207T164520Z ATTACH:https://calendar.tamu.edu/live/image/gid/63/width/80/height/80/crop/1/src_region/0,0,600,601/1401_ecen_1x1-primary.png X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:77573 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/63/width/80/height/80/crop/1/src_region/0\,0\,600\,601/1401_ecen_1x1-primary.png X-LIVEWHALE-IMAGE-CAPTION:ECEN logo X-LIVEWHALE-SUMMARY:Dr. Ashutosh Nayyar\, Assistant Professor in Ming Hsieh Department of Electrical Engineering\, University of Southern California END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190218T190000 DTEND;TZID=America/Chicago:20190218T200000 LOCATION:Commons GEO:30.615291;-96.335955 SUMMARY:Next Generation Engineering: Are you Ready? (COE/EH Joint Seminar) DESCRIPTION:Global competency\, innovation\, and entrepreneurship are essential skills for success in the 21st century. Learn more about the following programs at this seminar:\n\n Read more about Halliburton Engineering Global Programs here!\n Read more about Engineering Entrepreneurship here!\n\n Register for the event here: tx.ag/nextgenengineer X-ALT-DESC;FMTTYPE=text/html:

\n Global competency, innovation, and entrepreneurship are essential skills for success in the 21st century. Learn more about the following programs at this seminar:\n

\n Read more about Halliburton Engineering Global Programs here!

\n Read more about Engineering Entrepreneurship here!\n

\n Register for the event here: tx.ag/nextgenengineer

UID:20190219T010000Z-36708@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/33908-halliburton-engineering-global-programs LAST-MODIFIED:20190116T164206Z ATTACH:https://calendar.tamu.edu/live/image/gid/86/width/80/height/80/crop/1/src_region/0,0,200,200/2385_special_seminar_logo.png X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:36708 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/86/width/80/height/80/crop/1/src_region/0\,0\,200\,200/2385_special_seminar_logo.png X-LIVEWHALE-COST:Free X-LIVEWHALE-CONTACT-INFO:engineeringhonors@tamu.edu X-LIVEWHALE-SUMMARY:All COE END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190322T091000 DTEND;TZID=America/Chicago:20190322T101000 LOCATION:Emerging Technologies Building GEO:30.622704;-96.339193 SUMMARY:An Internet of Things (IoT) enabled wireless battery management system DESCRIPTION:Abstract: In this seminar\, a new concept of IoT-enabled wireless battery management system (BMS) in cyber-physical environments will be introduced. We will be covering the proposed IoT-Cloud platform used for battery health monitoring and control. Furthermore\, potential cyber-physical security vulnerabilities and defense strategies to protect the IoT-enabled BMS systems from malicious cyber-attacks will be discussed.\nBio: Dr. Taesic Kim received M.S. degree in Electrical Engineering and Ph.D. degree in Computer Engineering at the University of Nebraska-Lincoln in 2012 and 2015\, respectively. In 2009\, He was with the New and Renewable Energy Research Group of Korea Electrotechnology Research Institute\, South Korea. He was also with Mitsubishi Electric Research Laboratories\, Cambridge\, MA\, USA in 2013. Currently\, He is a tenure-track assistant professor in the Department of Electrical Engineering and Computer Science at the Texas A&M University-Kingsville. He directs the cyber-physical power and energy systems (CPPES) group and focuses on research in energy IoT\, power electronics\, cyber and physical security\, blockchain\, and intelligence algorithms for power and energy systems. He holds 2 U.S. patents and co-authored more than 40 papers in refereed journals and IEEE conference proceedings in the field of CPPES. He is a Cyber Physical Security Steering Committee for IEEE PELS and a Guest Associate Editor of the IEEE Journal of Emerging and Selective Topics in Power Electronics: Special Issue on "Cybersecurity of Power Electronics through Hardware Hardening". He is a recipient of the Myron Zucker Student-Faculty Grant Award from IEEE IAS\, the Microsoft Azure Award\, the Best Paper Prize (1st place) of the 2017 IEEE International Conference on Electro Information Technology\, and the First Prize Award in the 2013 IEEE IAS Graduate Student Thesis Contest. X-ALT-DESC;FMTTYPE=text/html:

Abstract: In this seminar, a new concept of IoT-enabled wireless battery management system (BMS) in cyber-physical environments will be introduced. We will be covering the proposed IoT-Cloud platform used for battery health monitoring and control. Furthermore, potential cyber-physical security vulnerabilities and defense strategies to protect the IoT-enabled BMS systems from malicious cyber-attacks will be discussed.\n

Bio: Dr. Taesic Kim received M.S. degree in Electrical Engineering and Ph.D. degree in Computer Engineering at the University of Nebraska-Lincoln in 2012 and 2015, respectively. In 2009, He was with the New and Renewable Energy Research Group of Korea Electrotechnology Research Institute, South Korea. He was also with Mitsubishi Electric Research Laboratories, Cambridge, MA, USA in 2013. Currently, He is a tenure-track assistant professor in the Department of Electrical Engineering and Computer Science at the Texas A&M University-Kingsville. He directs the cyber-physical power and energy systems (CPPES) group and focuses on research in energy IoT, power electronics, cyber and physical security, blockchain, and intelligence algorithms for power and energy systems. He holds 2 U.S. patents and co-authored more than 40 papers in refereed journals and IEEE conference proceedings in the field of CPPES. He is a Cyber Physical Security Steering Committee for IEEE PELS and a Guest Associate Editor of the IEEE Journal of Emerging and Selective Topics in Power Electronics: Special Issue on "Cybersecurity of Power Electronics through Hardware Hardening". He is a recipient of the Myron Zucker Student-Faculty Grant Award from IEEE IAS, the Microsoft Azure Award, the Best Paper Prize (1st place) of the 2017 IEEE International Conference on Electro Information Technology, and the First Prize Award in the 2013 IEEE IAS Graduate Student Thesis Contest.\n

UID:20190322T141000Z-75258@calendar.tamu.edu URL:http://calendar.tamu.edu/ece/#!view/event/event_id/75258 LAST-MODIFIED:20190131T165503Z ATTACH:https://calendar.tamu.edu/live/image/gid/63/width/80/height/80/crop/1/src_region/0,0,600,601/1401_ecen_1x1-primary.png X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:75258 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/63/width/80/height/80/crop/1/src_region/0\,0\,600\,601/1401_ecen_1x1-primary.png X-LIVEWHALE-IMAGE-CAPTION:ECEN logo X-LIVEWHALE-SUMMARY:Dr. Taesic Kim\, Assistant Professor\, Department of Electrical Engineering and Computer Science\, Texas A&\;M University-Kingsville END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190520T070000 DTEND;TZID=America/Chicago:20190523T200000 SUMMARY:IEEE SGSMA 2019 The IEEE International Conference on Smart Grid Synchronized Measurements and Analytics 2019 DESCRIPTION:For more information\, visit the website: http://sgsma.org/ X-ALT-DESC;FMTTYPE=text/html:

\n For more information, visit the website: http://sgsma.org/\n

UID:20190520T120000Z-48895@calendar.tamu.edu URL:http://calendar.tamu.edu/ece/#!view/event/event_id/48895 LAST-MODIFIED:20180928T182937Z X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:48895 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-SUMMARY:The First IEEE International Conference on Smart Grid Synchronized Measurements and Analytics – SGSMA END:VEVENT BEGIN:VEVENT DTSTART;VALUE=DATE:20190521 DTEND;VALUE=DATE:20190523 SUMMARY:IEEE SGSMA 2019 The IEEE International Conference on Smart Grid Synchronized Measurements and Analytics 2019 DESCRIPTION:For more information\, visit the website: http://sgsma.org/ X-ALT-DESC;FMTTYPE=text/html:

\n For more information, visit the website: http://sgsma.org/\n

UID:20190521T120000Z-48895@calendar.tamu.edu URL:http://calendar.tamu.edu/ece/#!view/event/event_id/48895 LAST-MODIFIED:20180928T182937Z X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:48895 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-ALL-DAY:1 X-LIVEWHALE-SUMMARY:The First IEEE International Conference on Smart Grid Synchronized Measurements and Analytics – SGSMA END:VEVENT BEGIN:VEVENT DTSTART;VALUE=DATE:20190522 DTEND;VALUE=DATE:20190523 SUMMARY:IEEE SGSMA 2019 The IEEE International Conference on Smart Grid Synchronized Measurements and Analytics 2019 DESCRIPTION:For more information\, visit the website: http://sgsma.org/ X-ALT-DESC;FMTTYPE=text/html:

\n For more information, visit the website: http://sgsma.org/\n

UID:20190522T120000Z-48895@calendar.tamu.edu URL:http://calendar.tamu.edu/ece/#!view/event/event_id/48895 LAST-MODIFIED:20180928T182937Z X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:48895 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-ALL-DAY:1 X-LIVEWHALE-SUMMARY:The First IEEE International Conference on Smart Grid Synchronized Measurements and Analytics – SGSMA END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190523T000000 DTEND;TZID=America/Chicago:20190523T200000 SUMMARY:IEEE SGSMA 2019 The IEEE International Conference on Smart Grid Synchronized Measurements and Analytics 2019 DESCRIPTION:For more information\, visit the website: http://sgsma.org/ X-ALT-DESC;FMTTYPE=text/html:

\n For more information, visit the website: http://sgsma.org/\n

UID:20190523T050000Z-48895@calendar.tamu.edu URL:http://calendar.tamu.edu/ece/#!view/event/event_id/48895 LAST-MODIFIED:20180928T182937Z X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:48895 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-SUMMARY:The First IEEE International Conference on Smart Grid Synchronized Measurements and Analytics – SGSMA END:VEVENT END:VCALENDAR