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:20190213T161000 DTEND;TZID=America/Chicago:20190213T170000 LOCATION:JCAIN SUMMARY:J. Mike Walker '66 Seminar Series - Dr. A. Jeffrey Giacomin DESCRIPTION:Bio:\n\n Dr. Giacomin is Professor of Chemical Engineering and of Mechanical and Materials Engineering at Queen's University at Kingston in Canada where he holds the title of Tier 1 Canada Research Chair in Rheology. Born in Kingston\, Professor Giacomin graduated high school on the island of Montreal. He earned his bachelor's and master's degrees in Chemical Engineering from Queen's University in Kingston\, before joining the Research Division at DuPont Canada. He then earned a Ph.D. in Chemical Engineering from McGill University under Professor John Dealy\, his thesis titled "A Sliding Plate Melt Rheometer Incorporating a Shear Stress Transducer." He joined the Mechanical Engineering faculty at Texas A&M University. He has been Professor of Mechanical Engineering at the University of Wisconsin\, where for twenty years he chaired its Rheology Research Center. He has held visiting professorships at McGill University\, the University of Sherbrooke\, the Swiss Federal Institute of Technology\, the Paris School of Mines\, the National University of Singapore\, Chung Yuan University near Taipei\, Yunlin University\, in southern Taiwan\, and Shandong University in mainland China. He is President of the Canadian Society of Rheology\, and a former President of The Society of Rheology. Giacomin serves as sole Editor-in-Chief of Physics of Fluids.\n\n  \n\n Abstract:\n\n Large-amplitude oscillatory shear flow (LAOS) is the most popular laboratory experiment for investigating the nonlinear rheological behavior of polymeric liquids. This nonlinear experiment brings out distortion in the stress response. Attempts to analyze this distortion using continuum approaches have lead us to quantitative responses but these teach us little about the molecular origins of the distortions\, namely molecular structure and orientation. Here\, we investigate stress responses from LAOS from continuum and molecular approaches. We also explore traverse the bridge between these two approaches\, which we call macromolecular continua. In the continuum framework\, the Oldroyd 8-constant framework2 is a versatile set of popular fluid models3. Moreover\, when generalized to multimode fluid using the Spriggs relations\, this fluid model can successfully predict nonlinear behavior of polymeric liquids. Finally\, the Oldroyd 8- constant framework yields exact solutions\, for both shear stress and normal stress difference responses. Whereas these exact solutions give us a general idea on how a material reacts to nonlinear input\, using them can be cumbersome. We can exploit these exact solutions to get simpler forms called Padé approximants. Under some circumstances\, the best of these\, for either the shear stress or the normal stress differences\, gives the same level of accuracy as the exact expression. Lastly\, we can also exploit these exact solutions for the thermodynamic analysis of flow stability to depict when LAOS is unstable. Molecular structure and orientation are the primary causes of nonlinearity in viscoelastic behaviors of polymeric liquids. To explain the molecular origins of polymer fluid elasticity\, we find the rigid dumbbell suspension to be the simplest relevant. By relevant we at least mean\, predicting distortion in the stress responses. The stress expressions for molecular models take the approximate form of truncated power series. We can thus exploit the best Padé approximants to perfect these truncated expansions. Since arriving at these truncated expansions involves difficulty\, perfecting these so easily is useful. X-ALT-DESC;FMTTYPE=text/html:

\n Bio:\n

\n Dr. Giacomin is Professor of Chemical Engineering and of Mechanical and Materials Engineering at Queen's University at Kingston in Canada where he holds the title of Tier 1 Canada Research Chair in Rheology. Born in Kingston, Professor Giacomin graduated high school on the island of Montreal. He earned his bachelor's and master's degrees in Chemical Engineering from Queen's University in Kingston, before joining the Research Division at DuPont Canada. He then earned a Ph.D. in Chemical Engineering from McGill University under Professor John Dealy, his thesis titled "A Sliding Plate Melt Rheometer Incorporating a Shear Stress Transducer." He joined the Mechanical Engineering faculty at Texas A&M University. He has been Professor of Mechanical Engineering at the University of Wisconsin, where for twenty years he chaired its Rheology Research Center. He has held visiting professorships at McGill University, the University of Sherbrooke, the Swiss Federal Institute of Technology, the Paris School of Mines, the National University of Singapore, Chung Yuan University near Taipei, Yunlin University, in southern Taiwan, and Shandong University in mainland China. He is President of the Canadian Society of Rheology, and a former President of The Society of Rheology. Giacomin serves as sole Editor-in-Chief of Physics of Fluids.\n

\n  \n

\n Abstract:\n

\n Large-amplitude oscillatory shear flow (LAOS) is the most popular laboratory experiment for investigating the nonlinear rheological behavior of polymeric liquids. This nonlinear experiment brings out distortion in the stress response. Attempts to analyze this distortion using continuum approaches have lead us to quantitative responses but these teach us little about the molecular origins of the distortions, namely molecular structure and orientation. Here, we investigate stress responses from LAOS from continuum and molecular approaches. We also explore traverse the bridge between these two approaches, which we call macromolecular continua. In the continuum framework, the Oldroyd 8-constant framework2 is a versatile set of popular fluid models3. Moreover, when generalized to multimode fluid using the Spriggs relations, this fluid model can successfully predict nonlinear behavior of polymeric liquids. Finally, the Oldroyd 8- constant framework yields exact solutions, for both shear stress and normal stress difference responses. Whereas these exact solutions give us a general idea on how a material reacts to nonlinear input, using them can be cumbersome. We can exploit these exact solutions to get simpler forms called Padé approximants. Under some circumstances, the best of these, for either the shear stress or the normal stress differences, gives the same level of accuracy as the exact expression. Lastly, we can also exploit these exact solutions for the thermodynamic analysis of flow stability to depict when LAOS is unstable. Molecular structure and orientation are the primary causes of nonlinearity in viscoelastic behaviors of polymeric liquids. To explain the molecular origins of polymer fluid elasticity, we find the rigid dumbbell suspension to be the simplest relevant. By relevant we at least mean, predicting distortion in the stress responses. The stress expressions for molecular models take the approximate form of truncated power series. We can thus exploit the best Padé approximants to perfect these truncated expansions. Since arriving at these truncated expansions involves difficulty, perfecting these so easily is useful.\n

UID:20190213T221000Z-75233@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/73261-j-mike-walker-66-seminar-series-dr-a-jeffrey LAST-MODIFIED:20190131T155157Z ATTACH:https://calendar.tamu.edu/live/image/gid/72/width/80/height/80/crop/1/src_region/0,0,1000,1000/3502_MEEN-social-profile-pic.jpg X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:75233 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/72/width/80/height/80/crop/1/src_region/0\,0\,1000\,1000/3502_MEEN-social-profile-pic.jpg X-LIVEWHALE-IMAGE-CAPTION:J. Mike Walker ’\;66 Department of Mechanical Engineering X-LIVEWHALE-COST:Free X-LIVEWHALE-CONTACT-INFO:Sandra Havens
\n
\nshavens@tamu.edu X-LIVEWHALE-SUMMARY:Dr. A. Jeffrey Giacomin\, \;Professor of Chemical Engineering and of Mechanical and Materials Engineering and NSERC Tier 1 Canada Research Chair in Rheology at Queen's University\, will be featured for a seminar titled\, "Exploiting Large-Amplitude Oscillatory Shear Flow." END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190213T161000 DTEND;TZID=America/Chicago:20190213T172500 LOCATION:Harvey R. Bright Building GEO:30.619039;-96.338788 SUMMARY:From pseudorandomness to quantum computing DESCRIPTION:Abstract\n Randomness is a powerful resource\, but is equally expensive to generate. Pseudorandomness comes as an efficient approximation to true randomness\, and has become an indispensable primitive in computation. In this talk\, after a gentle introduction to pseudorandomness\, I will guide you to look at it in the new paradigm of quantum computation. I will focus on a basic quantum pseudorandom object\, pseudorandom quantum state\, and its application in constructing a quantum money scheme that resists counterfeiting. From there\, I will give you a more broad view on the various research topics in quantum computing.\nBiography\n Fang Song is an assistant professor in the department of computer science and engineering at Texas A&M University. He received his PhD degree from the Pennsylvania State University in 2013 and spent several productive years as a post-doctoral fellow in the Institute for Quantum Computing in Waterloo\, Canada. His research goal is to understand the strengths and limits of quantum computing\, so that he can design better algorithms and develop novel schemes in cryptography and cybersecurity that are safe against quantum attackers. He is usually busy with proving theorems\, but whenever possible\, he loves going for a hike or reading on architecture and psychology. X-ALT-DESC;FMTTYPE=text/html:

Abstract
\n Randomness is a powerful resource, but is equally expensive to generate. Pseudorandomness comes as an efficient approximation to true randomness, and has become an indispensable primitive in computation. In this talk, after a gentle introduction to pseudorandomness, I will guide you to look at it in the new paradigm of quantum computation. I will focus on a basic quantum pseudorandom object, pseudorandom quantum state, and its application in constructing a quantum money scheme that resists counterfeiting. From there, I will give you a more broad view on the various research topics in quantum computing.\n

Biography
\n Fang Song is an assistant professor in the department of computer science and engineering at Texas A&M University. He received his PhD degree from the Pennsylvania State University in 2013 and spent several productive years as a post-doctoral fellow in the Institute for Quantum Computing in Waterloo, Canada. His research goal is to understand the strengths and limits of quantum computing, so that he can design better algorithms and develop novel schemes in cryptography and cybersecurity that are safe against quantum attackers. He is usually busy with proving theorems, but whenever possible, he loves going for a hike or reading on architecture and psychology.\n

UID:20190213T221000Z-75750@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/75428-from-pseudorandomness-to-quantum-computing CATEGORIES:Speakers, Forums, and Conferences LAST-MODIFIED:20190201T143547Z ATTACH:https://calendar.tamu.edu/live/image/gid/53/width/80/height/80/crop/1/src_region/0,0,600,600/1440_csce_1x1-primary.png X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:75750 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/53/width/80/height/80/crop/1/src_region/0\,0\,600\,600/1440_csce_1x1-primary.png X-LIVEWHALE-COST:Free X-LIVEWHALE-CONTACT-INFO:Ricardo Gutierrez-Osuna
\nrgutier@cse.tamu.edu X-LIVEWHALE-SUMMARY:A Computer Science and Engineering 681 Graduate Seminar discussing \;pseudorandomness through the new paradigm of quantum computation. END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190214T155500 DTEND;TZID=America/Chicago:20190214T165500 LOCATION:Emerging Technologies Building SUMMARY:BMEN 681 Seminar Series: Dr. Tomasz Tkaczyk DESCRIPTION:Dr. Tomasz Tkaczyk from Rice University will present a seminar as part of the BMEN 681 Seminar Series. More details to come. X-ALT-DESC;FMTTYPE=text/html:

\n Dr. Tomasz Tkaczyk from Rice University will present a seminar as part of the BMEN 681 Seminar Series. More details to come.\n

UID:20190214T215500Z-75306@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/75289-bmen-681-seminar-series-dr-tomasz-tkaczyk CATEGORIES:General Interest LAST-MODIFIED:20190131T221607Z ATTACH:https://calendar.tamu.edu/live/image/gid/26/width/80/height/80/crop/1/src_region/0,0,600,601/3089_BMEN_1x1-primary.png X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:75306 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/26/width/80/height/80/crop/1/src_region/0\,0\,600\,601/3089_BMEN_1x1-primary.png X-LIVEWHALE-IMAGE-CAPTION:BMEN logo X-LIVEWHALE-CONTACT-INFO:Jennifer Reiley
\njreiley@tamu.edu X-LIVEWHALE-SUMMARY:Dr. Tomasz Tkaczyk from Rice University will present a seminar as part of the BMEN 681 Seminar Series. 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-77197@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/76313-energy-and-power-group-seminar-novel-control LAST-MODIFIED:20190206T202829Z 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:77197 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:20190215T135000 DTEND;TZID=America/Chicago:20190215T144000 LOCATION:Emerging Technologies Building GEO:30.622704;-96.339193 SUMMARY:Seminar: Dr. Robin Murphy\, Texas A&M University\, Department of Computer Science & Engineering UID:20190215T195000Z-74101@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/70686-seminar-dr-robin-murphy-texas-aampm-university LAST-MODIFIED:20190129T141810Z ATTACH:https://calendar.tamu.edu/live/image/gid/83/width/80/height/80/crop/1/src_region/0,0,880,880/3485_ISEN.jpg X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:74101 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/83/width/80/height/80/crop/1/src_region/0\,0\,880\,880/3485_ISEN.jpg X-LIVEWHALE-IMAGE-CAPTION:Industrial &\; Systems Engineering logo 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-78399@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/77573-cesg-seminar-decentralized-control-over-unreliable LAST-MODIFIED:20190211T170311Z 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:78399 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:20190220T161000 DTEND;TZID=America/Chicago:20190220T170000 LOCATION:JCAIN SUMMARY:J. Mike Walker '66 Seminar Series - Dr. Mario Rotea DESCRIPTION:Bio:\nMario A. Rotea is the holder of the Erik Jonsson Chair in Engineering and Computer Science at the University of Texas at Dallas\, where he is also the department head of mechanical engineering. Rotea spent 17 years at Purdue University as a professor of aeronautics and astronautics\, developing and teaching methods for the analysis and design of control systems. He also worked for the United Technologies Research Center as senior research engineer on advanced control systems for helicopters\, gas turbines\, and machine tools. Rotea was the head of the Mechanical and Industrial Engineering Department at the University of Massachusetts Amherst\, where he expanded the department in the area of wind energy and applications of industrial engineering to the health care sector. His career includes terms as director of the Control Systems Program and division director of Engineering Education and Centers at the National Science Foundation. Rotea is cofounder of WindSTAR\, an NSF Industry University Cooperative Research Center aimed at bringing together academia and industry to advance wind energy through industry-relevant research and education. Rotea joined UT Dallas in 2009 to serve as professor and inaugural head of the then newly-created mechanical engineering department. He is a Fellow of the IEEE for contributions to robust and optimal control of multivariable systems. Rotea graduated with a degree in electronic engineering from the University of Rosario. He received a master's degree in electrical engineering and his Ph.D. in control science and dynamical systems from the University of Minnesota.\n\n Abstract:\n\n Wind energy technology is a major player in utility-scale renewable energy for the production of electricity around the globe. Many countries share the strategic goal of increasing the penetration of wind energy into the electric grids. In the U.S. alone the goal is to increase from 90 gigawatts [GW] of wind power installed capacity\, supplying 6% of the electricity demand\, to 400 GW of wind power contributing 35% electricity by 2050. Attaining this goal would require a continued decrease of the cost of wind power. Advanced control systems are key to reducing the cost of wind energy\, by maximizing annual energy production or reducing the operation and maintenance expenditures. This talk will provide an overview of the work done at the University of Texas at Dallas in (nearly) model free control of wind turbines and wind plants. It will be shown how extremum seeking control (ESC) may be used to improve the power production of existing turbines in the field. It will also be shown\, how the turbine's ESCs may be coordinated to maximize the total power production of aerodynamically coupled turbines operating in a wind plant. X-ALT-DESC;FMTTYPE=text/html:

\n Bio:\n

Mario A. Rotea is the holder of the Erik Jonsson Chair in Engineering and Computer Science at the University of Texas at Dallas, where he is also the department head of mechanical engineering. Rotea spent 17 years at Purdue University as a professor of aeronautics and astronautics, developing and teaching methods for the analysis and design of control systems. He also worked for the United Technologies Research Center as senior research engineer on advanced control systems for helicopters, gas turbines, and machine tools. Rotea was the head of the Mechanical and Industrial Engineering Department at the University of Massachusetts Amherst, where he expanded the department in the area of wind energy and applications of industrial engineering to the health care sector. His career includes terms as director of the Control Systems Program and division director of Engineering Education and Centers at the National Science Foundation. Rotea is cofounder of WindSTAR, an NSF Industry University Cooperative Research Center aimed at bringing together academia and industry to advance wind energy through industry-relevant research and education. Rotea joined UT Dallas in 2009 to serve as professor and inaugural head of the then newly-created mechanical engineering department. He is a Fellow of the IEEE for contributions to robust and optimal control of multivariable systems. Rotea graduated with a degree in electronic engineering from the University of Rosario. He received a master's degree in electrical engineering and his Ph.D. in control science and dynamical systems from the University of Minnesota.\n

\n Abstract:\n

\n Wind energy technology is a major player in utility-scale renewable energy for the production of electricity around the globe. Many countries share the strategic goal of increasing the penetration of wind energy into the electric grids. In the U.S. alone the goal is to increase from 90 gigawatts [GW] of wind power installed capacity, supplying 6% of the electricity demand, to 400 GW of wind power contributing 35% electricity by 2050. Attaining this goal would require a continued decrease of the cost of wind power. Advanced control systems are key to reducing the cost of wind energy, by maximizing annual energy production or reducing the operation and maintenance expenditures. This talk will provide an overview of the work done at the University of Texas at Dallas in (nearly) model free control of wind turbines and wind plants. It will be shown how extremum seeking control (ESC) may be used to improve the power production of existing turbines in the field. It will also be shown, how the turbine's ESCs may be coordinated to maximize the total power production of aerodynamically coupled turbines operating in a wind plant.\n

UID:20190220T221000Z-75235@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/70607-j-mike-walker-66-seminar-series-dr-mario-rotea LAST-MODIFIED:20190131T155200Z ATTACH:https://calendar.tamu.edu/live/image/gid/72/width/80/height/80/crop/1/src_region/0,0,1000,1000/3502_MEEN-social-profile-pic.jpg X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:75235 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/72/width/80/height/80/crop/1/src_region/0\,0\,1000\,1000/3502_MEEN-social-profile-pic.jpg X-LIVEWHALE-IMAGE-CAPTION:J. Mike Walker ’\;66 Department of Mechanical Engineering X-LIVEWHALE-COST:Free X-LIVEWHALE-CONTACT-INFO:Sandra Havens
\n
\nshavens@tamu.edu
X-LIVEWHALE-SUMMARY:Dr. Mario Rotea\, department head and Erik Jonsson Chair in Engineering and Computer Science in the Department of Mechanical Engineering at the University of Texas at Dallas\, will be featured in a seminar titled\, "Control of Wind Energy Systems." END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190220T161000 DTEND;TZID=America/Chicago:20190220T172500 LOCATION:Harvey R. Bright Building GEO:30.619039;-96.338788 SUMMARY:Using deep learning to accelerate sparse recovery DESCRIPTION:Abstract\n Optimization has been used to determine the parameters in deep learning. We use deep learning to accelerate the optimization algorithm for the recovery of sparse signals. Specifically\, we extend LISTA (learned iterative shrinkage-thresholding algorithm) to obtain ALISTA or Analytic-LISTA. ALISTA uses only 16 iterations and has only 32 parameters to train. When we know the distributions of sparse signals\, it is enough to train with only synthetic samples\; no real samples are needed. ALISTA is much easier to train than LISTA and is two order-of-magnitude faster than the optimization based algorithm ISTA (or FPC). The recovery quality is also better than ISTA. This work is published in ICLR 2019 (as one of the highest scored papers among all submissions)\, jointly with Xiaohan Chen and Zhangyang Wang (Texas A&M) and Jialin Liu (UCLA).\nBiography\n Professor Wotao Yin received his Ph.D. in Operations Research from Columbia University in 2006. He is currently a Professor with the Department of Mathematics\, UCLA. During 2006-2013\, he was with Rice University. He developed many optimization algorithms and operator splitting methods for signal processing\, machine learning\, and other data science problems. He was the NSF CAREER award in 2008\, the Alfred P. Sloan Research Fellowship in 2009\, the Morningside Gold Medal in 2016\, 2018 highly cited researcher by Clarivate Analytics\, and has coauthored five papers receiving best paper-type awards. X-ALT-DESC;FMTTYPE=text/html:

Abstract
\n Optimization has been used to determine the parameters in deep learning. We use deep learning to accelerate the optimization algorithm for the recovery of sparse signals. Specifically, we extend LISTA (learned iterative shrinkage-thresholding algorithm) to obtain ALISTA or Analytic-LISTA. ALISTA uses only 16 iterations and has only 32 parameters to train. When we know the distributions of sparse signals, it is enough to train with only synthetic samples; no real samples are needed. ALISTA is much easier to train than LISTA and is two order-of-magnitude faster than the optimization based algorithm ISTA (or FPC). The recovery quality is also better than ISTA. This work is published in ICLR 2019 (as one of the highest scored papers among all submissions), jointly with Xiaohan Chen and Zhangyang Wang (Texas A&M) and Jialin Liu (UCLA).\n

Biography
\n Professor Wotao Yin received his Ph.D. in Operations Research from Columbia University in 2006. He is currently a Professor with the Department of Mathematics, UCLA. During 2006-2013, he was with Rice University. He developed many optimization algorithms and operator splitting methods for signal processing, machine learning, and other data science problems. He was the NSF CAREER award in 2008, the Alfred P. Sloan Research Fellowship in 2009, the Morningside Gold Medal in 2016, 2018 highly cited researcher by Clarivate Analytics, and has coauthored five papers receiving best paper-type awards.\n

UID:20190220T221000Z-75751@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/75429-using-deep-learning-to-accelerate-sparse-recovery CATEGORIES:Speakers, Forums, and Conferences LAST-MODIFIED:20190201T143549Z ATTACH:https://calendar.tamu.edu/live/image/gid/53/width/80/height/80/crop/1/src_region/0,0,600,600/1440_csce_1x1-primary.png X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:75751 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/53/width/80/height/80/crop/1/src_region/0\,0\,600\,600/1440_csce_1x1-primary.png X-LIVEWHALE-COST:Free X-LIVEWHALE-CONTACT-INFO:Zhangyang (Atlas) Wang
\natlaswang@tamu.edu X-LIVEWHALE-SUMMARY:A Computer Science and Engineering 681 Graduate Seminar discussing LISTA vs ALISTA. END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190221T155500 DTEND;TZID=America/Chicago:20190221T165500 LOCATION:Emerging Technologies Building SUMMARY:BMEN 681 Seminar Series: Dr. Shreya Raghavan DESCRIPTION:Dr. Shreya Raghavan for the University of Michigan will present a seminar as part of the BMEN 681 Seminar Series. More details to come. X-ALT-DESC;FMTTYPE=text/html:

\n Dr. Shreya Raghavan for the University of Michigan will present a seminar as part of the BMEN 681 Seminar Series. More details to come.\n

UID:20190221T215500Z-75305@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/75290-bmen-681-seminar-series-dr-shreya-raghavan CATEGORIES:General Interest LAST-MODIFIED:20190131T221606Z ATTACH:https://calendar.tamu.edu/live/image/gid/26/width/80/height/80/crop/1/src_region/0,0,600,601/3089_BMEN_1x1-primary.png X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:75305 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/26/width/80/height/80/crop/1/src_region/0\,0\,600\,601/3089_BMEN_1x1-primary.png X-LIVEWHALE-IMAGE-CAPTION:BMEN logo X-LIVEWHALE-CONTACT-INFO:Jennifer Reiley
\njreiley@tamu.edu X-LIVEWHALE-SUMMARY:Dr. Shreya Raghavan for the University of Michigan will present a seminar as part of the BMEN 681 Seminar Series. END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190222T135000 DTEND;TZID=America/Chicago:20190222T144000 LOCATION:Emerging Technologies Building GEO:30.622704;-96.339193 SUMMARY:Seminar: Dr. Wotao Yin\, UCLA UID:20190222T195000Z-74620@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/70689-seminar-dr-wotao-yin-ucla LAST-MODIFIED:20190130T134425Z ATTACH:https://calendar.tamu.edu/live/image/gid/83/width/80/height/80/crop/1/src_region/0,0,880,880/3485_ISEN.jpg X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:74620 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/83/width/80/height/80/crop/1/src_region/0\,0\,880\,880/3485_ISEN.jpg X-LIVEWHALE-IMAGE-CAPTION:Industrial &\; Systems Engineering logo END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190225T161000 DTEND;TZID=America/Chicago:20190225T172500 LOCATION:Harvey R. Bright Building GEO:30.619039;-96.338788 SUMMARY:Trusted execution on untrusted platforms DESCRIPTION:Abstract\n Execution environments for applications have become too complex to be considered trustworthy for users. Vulnerable operating systems and malicious devices are constantly exploited by attackers to gain root privileges to platforms. Trusted execution hardware\, such as Intel SGX\, is invented to isolate an application in a bare-metal context\, which cannot be pried by OS\, BIOS\, or devices. Trusted execution also enables the concept of untrusted cloud\, where classified or private information can be computed at scale without granting cloud providers access to the data. This talk describes the recent research and challenges on building and deploying trusted execution hardware\, including the design of trusted runtimes for commodity software.\nBiography\n Chia-Che Tsai received his Ph.D. from Stony Brook University in 2017 and worked as a postdoctoral researcher in the RISE Lab of UC Berkeley. His research interests include operating systems\, language runtimes\, security hardware\, and cloud computing.  He is also the main maintainer of Graphene library OS (https://github.com/oscarlab/graphene)\, an open-source Linux compatibility layer for Intel SGX and non-POSIX platforms. X-ALT-DESC;FMTTYPE=text/html:

Abstract
\n Execution environments for applications have become too complex to be considered trustworthy for users. Vulnerable operating systems and malicious devices are constantly exploited by attackers to gain root privileges to platforms. Trusted execution hardware, such as Intel SGX, is invented to isolate an application in a bare-metal context, which cannot be pried by OS, BIOS, or devices. Trusted execution also enables the concept of untrusted cloud, where classified or private information can be computed at scale without granting cloud providers access to the data. This talk describes the recent research and challenges on building and deploying trusted execution hardware, including the design of trusted runtimes for commodity software.\n

Biography
\n Chia-Che Tsai received his Ph.D. from Stony Brook University in 2017 and worked as a postdoctoral researcher in the RISE Lab of UC Berkeley. His research interests include operating systems, language runtimes, security hardware, and cloud computing.  He is also the main maintainer of Graphene library OS (https://github.com/oscarlab/graphene), an open-source Linux compatibility layer for Intel SGX and non-POSIX platforms.\n

UID:20190225T221000Z-77196@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/77195-trusted-execution-on-untrusted-platforms CATEGORIES:Speakers, Forums, and Conferences LAST-MODIFIED:20190206T202827Z ATTACH:https://calendar.tamu.edu/live/image/gid/53/width/80/height/80/crop/1/src_region/0,0,600,600/1440_csce_1x1-primary.png X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:77196 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/53/width/80/height/80/crop/1/src_region/0\,0\,600\,600/1440_csce_1x1-primary.png X-LIVEWHALE-COST:Free X-LIVEWHALE-CONTACT-INFO:Ricardo Gutierrez-Osuna
\nrgutier@cse.tamu.edu X-LIVEWHALE-SUMMARY:A Computer Science and Engineering 681 Graduate Seminar discussing \;recent research and challenges on building and deploying trusted execution hardware. END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190227T150000 DTEND;TZID=America/Chicago:20190227T160000 LOCATION:Jack E. Brown Chemical Engineering Building GEO:30.620858;-96.341812 SUMMARY:Dr. Richard B. Dickson\, "Models For Force Generation By Dynamic Biopolymers During Cell Motility" DESCRIPTION:Dr. Richard B. Dickson\, Professor at the University of Florida and Chemical\, Bioengineering\, Environmental\, and Transport Systems Division Director at the National Science Foundation\, will give a talk as part of the J.D. Lindsay Lecture Series. Dr. Dickson's talk is entitled:\n\n "Models For Force Generation By Dynamic Biopolymers During Cell Motility" X-ALT-DESC;FMTTYPE=text/html:

\n Dr. Richard B. Dickson, Professor at the University of Florida and Chemical, Bioengineering, Environmental, and Transport Systems Division Director at the National Science Foundation, will give a talk as part of the J.D. Lindsay Lecture Series. Dr. Dickson's talk is entitled:\n

\n "Models For Force Generation By Dynamic Biopolymers During Cell Motility"\n

UID:20190227T210000Z-74642@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/69343-dr-richard-b-dickson-models-for-force-generation CATEGORIES:Speakers, Forums, and Conferences LAST-MODIFIED:20190130T135522Z ATTACH:https://calendar.tamu.edu/live/image/gid/40/width/80/height/80/crop/1/src_region/0,0,338,338/3663_Dickinson_web.jpg X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:74642 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/40/width/80/height/80/crop/1/src_region/0\,0\,338\,338/3663_Dickinson_web.jpg X-LIVEWHALE-IMAGE-CAPTION:Richard Dickson X-LIVEWHALE-COST:Free X-LIVEWHALE-SUMMARY:Part of the Lindsay Lecture Series END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190301T135000 DTEND;TZID=America/Chicago:20190301T144000 LOCATION:Emerging Technologies Building GEO:30.622704;-96.339193 SUMMARY:Operations Research Seminar: Dr. Jan Shi\, Georgia Tech UID:20190301T195000Z-74643@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/70691-operations-research-seminar-dr-jan-shi-georgia LAST-MODIFIED:20190130T135627Z ATTACH:https://calendar.tamu.edu/live/image/gid/83/width/80/height/80/crop/1/src_region/0,0,880,880/3485_ISEN.jpg X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:74643 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/83/width/80/height/80/crop/1/src_region/0\,0\,880\,880/3485_ISEN.jpg X-LIVEWHALE-IMAGE-CAPTION:Industrial &\; Systems Engineering logo END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190308T135000 DTEND;TZID=America/Chicago:20190308T144000 LOCATION:Emerging Technologies Building GEO:30.622704;-96.339193 SUMMARY:Operations Research Seminar: Dr. Alex Belloni\, Duke University UID:20190308T195000Z-74644@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/70693-operations-research-seminar-dr-alex-belloni-duke LAST-MODIFIED:20190130T135703Z ATTACH:https://calendar.tamu.edu/live/image/gid/83/width/80/height/80/crop/1/src_region/0,0,880,880/3485_ISEN.jpg X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:74644 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/83/width/80/height/80/crop/1/src_region/0\,0\,880\,880/3485_ISEN.jpg X-LIVEWHALE-IMAGE-CAPTION:Industrial &\; Systems Engineering logo END:VEVENT BEGIN:VEVENT DTSTART;VALUE=DATE:20190322 DTEND;VALUE=DATE:20190323 LOCATION:Jack E. Brown Chemical Engineering Building GEO:30.620858;-96.341812 SUMMARY:Inaugural Dr. M. Naz Karim Distinguished Lecture DESCRIPTION:In 2018\, the Artie McFerrin Department of Chemical Engineering Advisory Council and M. Nazmul Karim\, department head and holder of the T. Michael O'Connor Chair II\, established the Naz Karim Distinguished Lecture Series.\n\n Karim has been the head of the of chemical engineering department since 2012. He has more than 30 years of experience in advanced process control and biotechnology research. His research interests are in model based control\, nonlinear control\, data-based control and optimization\, and bioprocess modeling\, analysis\, and control. According to his Google Scholar profile\, Karim has authored more than 250 refereed publications and has made over 400 technical invited and contributed presentations in national and international conferences. He is the co-author of the textbook\, Chemical and Bioprocess Control\, which is used in over 50 universities worldwide. He has graduated more than 30 doctoral students\, and is an AIChE fellow.\n2019 Dr. M. Naz Karim Distinguished LectureDr. Eleftherios PapoutsakisUnidel Eugene DuPont Professor\, Dept. of Chem. & Biomolecular Engineering Dept. of Biological Sciences at the University of Delaware\n Lecture Title - "Direct cell-to-cell exchange of matter in a synthetic Clostridium syntrophy enables CO2 fixation\, superior metabolite yields\, and an expanded metabolic space" X-ALT-DESC;FMTTYPE=text/html:

\n In 2018, the Artie McFerrin Department of Chemical Engineering Advisory Council and M. Nazmul Karim, department head and holder of the T. Michael O'Connor Chair II, established the Naz Karim Distinguished Lecture Series.\n

\n Karim has been the head of the of chemical engineering department since 2012. He has more than 30 years of experience in advanced process control and biotechnology research. His research interests are in model based control, nonlinear control, data-based control and optimization, and bioprocess modeling, analysis, and control. According to his Google Scholar profile, Karim has authored more than 250 refereed publications and has made over 400 technical invited and contributed presentations in national and international conferences. He is the co-author of the textbook, Chemical and Bioprocess Control, which is used in over 50 universities worldwide. He has graduated more than 30 doctoral students, and is an AIChE fellow.\n

2019 Dr. M. Naz Karim Distinguished Lecture

Dr. Eleftherios Papoutsakis
Unidel Eugene DuPont Professor, Dept. of Chem. & Biomolecular Engineering Dept. of Biological Sciences at the University of Delaware
\n Lecture Title - "Direct cell-to-cell exchange of matter in a synthetic Clostridium syntrophy enables CO2 fixation, superior metabolite yields, and an expanded metabolic space"\n

UID:20190322T050000Z-74639@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/73615-inaugural-dr-m-naz-karim-distinguished-lecture CATEGORIES:Speakers, Forums, and Conferences LAST-MODIFIED:20190130T135216Z ATTACH:https://calendar.tamu.edu/live/image/gid/40/width/80/height/80/crop/1/src_region/0,0,600,600/3732_Papoutsakis_copy.jpg X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:74639 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/40/width/80/height/80/crop/1/src_region/0\,0\,600\,600/3732_Papoutsakis_copy.jpg X-LIVEWHALE-IMAGE-CAPTION:Dr. Eleftherios Papoutsakis X-LIVEWHALE-ALL-DAY:1 X-LIVEWHALE-COST:Free X-LIVEWHALE-SUMMARY:Dr. Eleftherios \;Papoutsakis
Unidel Eugene DuPont Professor \;
\nDept. of Chem. &\; Biomolecular Engineering Dept. of Biological Sciences at the University of Delaware
\nLecture Title - "Direct cell-to-cell exchange of matter in a synthetic Clostridium syntrophy enables CO2 fixation\, superior metabolite yields\, and an expanded metabolic space" 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-75261@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/75258-an-internet-of-things-iot-enabled-wireless-battery LAST-MODIFIED:20190131T170715Z 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:75261 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:20190322T135000 DTEND;TZID=America/Chicago:20190322T144000 LOCATION:Emerging Technologies Building GEO:30.622704;-96.339193 SUMMARY:Seminar: Dr. Panos Pardalos\, University of Florida UID:20190322T185000Z-74645@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/70695-seminar-dr-panos-pardalos-university-of-florida LAST-MODIFIED:20190130T135739Z ATTACH:https://calendar.tamu.edu/live/image/gid/83/width/80/height/80/crop/1/src_region/0,0,880,880/3485_ISEN.jpg X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:74645 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/83/width/80/height/80/crop/1/src_region/0\,0\,880\,880/3485_ISEN.jpg X-LIVEWHALE-IMAGE-CAPTION:Industrial &\; Systems Engineering logo END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190327T161000 DTEND;TZID=America/Chicago:20190327T170000 LOCATION:JCAIN SUMMARY:J. Mike Walker '66 Seminar Series - Dr. Alicia Kim DESCRIPTION:Bio:\n\n Dr. H. Alicia Kim is Jacobs Scholar Chair Professor in the Structural Engineering Department of the University of California\, San Diego and leads the Multiscale Multiphysics Design Optimization (M2DO) lab. Her interests are in level set topology optimization\, multiscale and multiphysics optimization\, modeling and optimization of composite materials and multifunctional structures. She has published around 200 journal and conference papers in these fields including award-winning papers at the AIAA conferences and World Congresses on Structural and Multidisciplinary Optimization. Her research in topology optimization began in the 90's at the University of Sydney\, Australia where she developed one of the first boundary based topology optimization methods. She continued her research at the University of Warwick and the University of Bath\, UK before moving to the current position in 2015.\n\n Abstract:\n\n Topology optimization is able to provide unintuitive and innovative design solutions and a performance improvement (e.g. weight savings) in excess of 50% is not uncommonly demonstrated in a wide range of engineering design problems. With the rise of advance materials and additive manufacturing\, topology optimization is attracting much attention in the recent years. This presentation will introduce some of the latest developments in topology optimization. They will include the recent advances in decades-long challenge problems in topology optimization such as traditional stress constraints as well as the multiscale design optimization breaking down the barrier between material and structural designs. Alternative perspective on multiscale design is to consider it as a single scale with extremely fine mesh and I will discuss the latest efforts in level set topology optimization for large scale problems. These efforts represent a pathway to applying topology optimization for complex multiphysics multifunctional structures\, which may be too complex to rely on designers' intuition. X-ALT-DESC;FMTTYPE=text/html:

\n Bio:\n

\n Dr. H. Alicia Kim is Jacobs Scholar Chair Professor in the Structural Engineering Department of the University of California, San Diego and leads the Multiscale Multiphysics Design Optimization (M2DO) lab. Her interests are in level set topology optimization, multiscale and multiphysics optimization, modeling and optimization of composite materials and multifunctional structures. She has published around 200 journal and conference papers in these fields including award-winning papers at the AIAA conferences and World Congresses on Structural and Multidisciplinary Optimization. Her research in topology optimization began in the 90's at the University of Sydney, Australia where she developed one of the first boundary based topology optimization methods. She continued her research at the University of Warwick and the University of Bath, UK before moving to the current position in 2015.\n

\n Abstract:\n

\n Topology optimization is able to provide unintuitive and innovative design solutions and a performance improvement (e.g. weight savings) in excess of 50% is not uncommonly demonstrated in a wide range of engineering design problems. With the rise of advance materials and additive manufacturing, topology optimization is attracting much attention in the recent years. This presentation will introduce some of the latest developments in topology optimization. They will include the recent advances in decades-long challenge problems in topology optimization such as traditional stress constraints as well as the multiscale design optimization breaking down the barrier between material and structural designs. Alternative perspective on multiscale design is to consider it as a single scale with extremely fine mesh and I will discuss the latest efforts in level set topology optimization for large scale problems. These efforts represent a pathway to applying topology optimization for complex multiphysics multifunctional structures, which may be too complex to rely on designers' intuition.\n

UID:20190327T211000Z-75234@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/70608-j-mike-walker-66-seminar-series-dr-alicia-kim LAST-MODIFIED:20190131T155158Z ATTACH:https://calendar.tamu.edu/live/image/gid/72/width/80/height/80/crop/1/src_region/0,0,1000,1000/3502_MEEN-social-profile-pic.jpg X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:75234 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/72/width/80/height/80/crop/1/src_region/0\,0\,1000\,1000/3502_MEEN-social-profile-pic.jpg X-LIVEWHALE-IMAGE-CAPTION:J. Mike Walker ’\;66 Department of Mechanical Engineering X-LIVEWHALE-COST:Free X-LIVEWHALE-CONTACT-INFO:Sandra Havens
\n
\nshavens@tamu.edu
X-LIVEWHALE-SUMMARY:Dr. Alicia Kim\, Jacobs Scholar Chair Professor in the Structural Engineering Department at the University of California\, San Diego\, will be featured in a seminar titled\, "Multiscale Multiphysics Topology Optimization (M2DO). END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190328T155500 DTEND;TZID=America/Chicago:20190328T165500 LOCATION:Emerging Technologies Building SUMMARY:BMEN 681 Seminar Series: Dr. Alan Lumsden DESCRIPTION:Dr. Alan Lumsden from the Houston Methodist Research Institute will present a seminar as part of the BMEN 681 Seminar Series. More details to come. X-ALT-DESC;FMTTYPE=text/html:

\n Dr. Alan Lumsden from the Houston Methodist Research Institute will present a seminar as part of the BMEN 681 Seminar Series. More details to come.\n

UID:20190328T205500Z-75304@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/75292-bmen-681-seminar-series-dr-alan-lumsden CATEGORIES:General Interest LAST-MODIFIED:20190131T221604Z ATTACH:https://calendar.tamu.edu/live/image/gid/26/width/80/height/80/crop/1/src_region/0,0,600,601/3089_BMEN_1x1-primary.png X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:75304 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/26/width/80/height/80/crop/1/src_region/0\,0\,600\,601/3089_BMEN_1x1-primary.png X-LIVEWHALE-IMAGE-CAPTION:BMEN logo X-LIVEWHALE-CONTACT-INFO:Jennifer Reiley
\njreiley@tamu.edu X-LIVEWHALE-SUMMARY:Dr. Alan Lumsden from the \;Houston Methodist Research Institute will present a seminar as part of the BMEN 681 Seminar Series. END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190329T135000 DTEND;TZID=America/Chicago:20190329T144000 LOCATION:Emerging Technologies Building GEO:30.622704;-96.339193 SUMMARY:Seminar: Dr. Enlu Zhou\, Georgia Tech UID:20190329T185000Z-74646@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/70697-seminar-dr-enlu-zhou-georgia-tech LAST-MODIFIED:20190130T135802Z ATTACH:https://calendar.tamu.edu/live/image/gid/83/width/80/height/80/crop/1/src_region/0,0,880,880/3485_ISEN.jpg X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:74646 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/83/width/80/height/80/crop/1/src_region/0\,0\,880\,880/3485_ISEN.jpg X-LIVEWHALE-IMAGE-CAPTION:Industrial &\; Systems Engineering logo END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190401T135000 DTEND;TZID=America/Chicago:20190401T144000 LOCATION:Emerging Technologies Building GEO:30.622704;-96.339193 SUMMARY:Operations Research Seminar: Dr. Stephen J. Wright\, University of Wisconsin at Madison UID:20190401T185000Z-74647@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/70699-operations-research-seminar-dr-stephen-j-wright LAST-MODIFIED:20190130T135830Z ATTACH:https://calendar.tamu.edu/live/image/gid/83/width/80/height/80/crop/1/src_region/0,0,880,880/3485_ISEN.jpg X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:74647 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/83/width/80/height/80/crop/1/src_region/0\,0\,880\,880/3485_ISEN.jpg X-LIVEWHALE-IMAGE-CAPTION:Industrial &\; Systems Engineering lgoo END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190404T155500 DTEND;TZID=America/Chicago:20190404T165500 LOCATION:Emerging Technologies Building SUMMARY:BMEN Distinguished Lecturer Series: Stan Rowe DESCRIPTION:Stan Rowe\, founder and CEO of NXT Biomedical\, will present a seminar as part of the BMEN Distinguished Lecturer Series. More details to come. X-ALT-DESC;FMTTYPE=text/html:

\n Stan Rowe, founder and CEO of NXT Biomedical, will present a seminar as part of the BMEN Distinguished Lecturer Series. More details to come.\n

UID:20190404T205500Z-75303@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/75293-bmen-distinguished-lecturer-series-stan-rowe CATEGORIES:General Interest LAST-MODIFIED:20190131T221601Z ATTACH:https://calendar.tamu.edu/live/image/gid/26/width/80/height/80/crop/1/src_region/0,0,600,601/3089_BMEN_1x1-primary.png X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:75303 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/26/width/80/height/80/crop/1/src_region/0\,0\,600\,601/3089_BMEN_1x1-primary.png X-LIVEWHALE-IMAGE-CAPTION:BMEN logo X-LIVEWHALE-CONTACT-INFO:Jennifer Reiley
\njreiley@tamu.edu X-LIVEWHALE-SUMMARY:Stan Rowe\, founder and CEO of NXT Biomedical\, will present a seminar as part of the BMEN Distinguished Lecturer Series. END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190409T155500 DTEND;TZID=America/Chicago:20190409T165500 LOCATION:Emerging Technologies Building SUMMARY:BMEN 681 Seminar Series: Dr. Rob Keynton DESCRIPTION:Dr. Rob Keynton from the University of Louisville will present a seminar as part of the BMEN 681 Seminar Series. More details to come. X-ALT-DESC;FMTTYPE=text/html:

\n Dr. Rob Keynton from the University of Louisville will present a seminar as part of the BMEN 681 Seminar Series. More details to come.\n

UID:20190409T205500Z-75302@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/75294-bmen-681-seminar-series-dr-rob-keynton CATEGORIES:General Interest LAST-MODIFIED:20190131T221600Z ATTACH:https://calendar.tamu.edu/live/image/gid/26/width/80/height/80/crop/1/src_region/0,0,600,601/3089_BMEN_1x1-primary.png X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:75302 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/26/width/80/height/80/crop/1/src_region/0\,0\,600\,601/3089_BMEN_1x1-primary.png X-LIVEWHALE-IMAGE-CAPTION:BMEN logo X-LIVEWHALE-CONTACT-INFO:Jennifer Reiley
\njreiley@tamu.edu X-LIVEWHALE-SUMMARY:Dr. Rob Keynton from the University of Louisville will present a seminar as part of the BMEN 681 Seminar Series. END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190410T150000 DTEND;TZID=America/Chicago:20190410T160000 LOCATION:Jack E. Brown Chemical Engineering Building GEO:30.620858;-96.341812 SUMMARY:Ravi Kane\, "The Design of Nanoscale Therapeutics and Nanostructured Materials" DESCRIPTION:Dr. Ravi Kane\, Professor\, Garry Betty/V Foundation Chair and GRA Eminent Scholar in Cancer Nanotechnology at Georgia Tech\, will give a talk as part of the J.D. Lindsay Lecture Series. Dr. Kane's talk is entitled:\n\n "The Design of Nanoscale Therapeutics and Nanostructured Materials" X-ALT-DESC;FMTTYPE=text/html:

\n Dr. Ravi Kane, Professor, Garry Betty/V Foundation Chair and GRA Eminent Scholar in Cancer Nanotechnology at Georgia Tech, will give a talk as part of the J.D. Lindsay Lecture Series. Dr. Kane's talk is entitled:\n

\n "The Design of Nanoscale Therapeutics and Nanostructured Materials"\n

UID:20190410T200000Z-74641@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/69359-ravi-kane-the-design-of-nanoscale-therapeutics-and LAST-MODIFIED:20190130T135449Z ATTACH:https://calendar.tamu.edu/live/image/gid/40/width/80/height/80/crop/1/src_region/0,0,300,386/3665_kane.jpg X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:74641 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/40/width/80/height/80/crop/1/src_region/0\,0\,300\,386/3665_kane.jpg X-LIVEWHALE-IMAGE-CAPTION:Ravi Kane X-LIVEWHALE-COST:Free X-LIVEWHALE-SUMMARY:Part of the Lindsay Lecture Series END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190415T135000 DTEND;TZID=America/Chicago:20190415T144000 LOCATION:Emerging Technologies Building GEO:30.622704;-96.339193 SUMMARY:Seminar: Dr. Angelia Nedich\, Arizona State University UID:20190415T185000Z-74649@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/70701-seminar-dr-angelia-nedich-arizona-state-university LAST-MODIFIED:20190130T135917Z ATTACH:https://calendar.tamu.edu/live/image/gid/83/width/80/height/80/crop/1/src_region/0,0,880,880/3485_ISEN.jpg X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:74649 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/83/width/80/height/80/crop/1/src_region/0\,0\,880\,880/3485_ISEN.jpg X-LIVEWHALE-IMAGE-CAPTION:Industrial &\; Systems Engineering logo END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190415T135000 DTEND;TZID=America/Chicago:20190415T144000 LOCATION:Emerging Technologies Building GEO:30.622704;-96.339193 SUMMARY:Operations Research Seminar: Dr. Katya Scheinberg\, Lehigh University UID:20190415T185000Z-74648@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/70704-operations-research-seminar-dr-katya-scheinberg LAST-MODIFIED:20190130T135856Z ATTACH:https://calendar.tamu.edu/live/image/gid/83/width/80/height/80/crop/1/src_region/0,0,880,880/3485_ISEN.jpg X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:74648 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/83/width/80/height/80/crop/1/src_region/0\,0\,880\,880/3485_ISEN.jpg X-LIVEWHALE-IMAGE-CAPTION:Industrial &\; Systems Engineering logo END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190418T155500 DTEND;TZID=America/Chicago:20190418T165500 LOCATION:Emerging Technologies Building SUMMARY:BMEN Distinguished Lecturer Series: Dr. Juan Lasheras DESCRIPTION:Dr. Juan Lasheras from the University of California\, San Diego\, will present a seminar as part of the BMEN Distinguished Lecturer Series. More details to come. X-ALT-DESC;FMTTYPE=text/html:

\n Dr. Juan Lasheras from the University of California, San Diego, will present a seminar as part of the BMEN Distinguished Lecturer Series. More details to come.\n

UID:20190418T205500Z-75301@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/75295-bmen-distinguished-lecturer-series-dr-juan CATEGORIES:General Interest LAST-MODIFIED:20190131T221558Z ATTACH:https://calendar.tamu.edu/live/image/gid/26/width/80/height/80/crop/1/src_region/0,0,600,601/3089_BMEN_1x1-primary.png X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:75301 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/26/width/80/height/80/crop/1/src_region/0\,0\,600\,601/3089_BMEN_1x1-primary.png X-LIVEWHALE-IMAGE-CAPTION:BMEN logo X-LIVEWHALE-CONTACT-INFO:Jennifer Reiley
\njreiley@tamu.edu X-LIVEWHALE-SUMMARY:Dr. Juan Lasheras from the University of California\, San Diego\, will present a seminar as part of the BMEN Distinguished Lecturer Series. END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190419T135000 DTEND;TZID=America/Chicago:20190419T144000 LOCATION:Emerging Technologies Building GEO:30.622704;-96.339193 SUMMARY:Seminar: Dr. Stephen J. Wright\, University of Cincinnati UID:20190419T185000Z-74650@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/70706-seminar-dr-stephen-j-wright-university-of LAST-MODIFIED:20190130T135939Z ATTACH:https://calendar.tamu.edu/live/image/gid/83/width/80/height/80/crop/1/src_region/0,0,880,880/3485_ISEN.jpg X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:74650 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/83/width/80/height/80/crop/1/src_region/0\,0\,880\,880/3485_ISEN.jpg X-LIVEWHALE-IMAGE-CAPTION:Industrial &\; Systems Engineering logo END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190424T150000 DTEND;TZID=America/Chicago:20190424T160000 LOCATION:Jack E. Brown Chemical Engineering Building GEO:30.620858;-96.341812 SUMMARY:Dr. Akhil Datta-Gupta\, "Towards a Transparent Earth: Subsurface Flow and Transport Tomography" DESCRIPTION:Dr. Akhil Datta-Gupta\, Texas A&M University Distinguished Professor\, Regents Professor Associate Department Head\, Faculty Administration\, L.F. Peterson '36 Chair\, Harold Vance Department of Petroleum Engineering\, and Member National Academy of Engineering\, will give a talk as part of the J.D. Lindsay Lecture Series. Dr. Datta-Gupta's talk is entitled:\n\n "Towards a Transparent Earth: Subsurface Flow and Transport Tomography" X-ALT-DESC;FMTTYPE=text/html:

\n Dr. Akhil Datta-Gupta, Texas A&M University Distinguished Professor, Regents Professor Associate Department Head, Faculty Administration, L.F. Peterson '36 Chair, Harold Vance Department of Petroleum Engineering, and Member National Academy of Engineering, will give a talk as part of the J.D. Lindsay Lecture Series. Dr. Datta-Gupta's talk is entitled:\n

\n "Towards a Transparent Earth: Subsurface Flow and Transport Tomography"\n

UID:20190424T200000Z-74623@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/69855-dr-akhil-datta-gupta-towards-a-transparent-earth CATEGORIES:Speakers, Forums, and Conferences LAST-MODIFIED:20190130T134623Z ATTACH:https://calendar.tamu.edu/live/image/gid/40/width/80/height/80/crop/1/src_region/0,0,438,438/3670_datta-gupta_akhil_2012a.jpg X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:74623 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/40/width/80/height/80/crop/1/src_region/0\,0\,438\,438/3670_datta-gupta_akhil_2012a.jpg X-LIVEWHALE-IMAGE-CAPTION:Dr. Akhil Datta-Gupta X-LIVEWHALE-COST:Free X-LIVEWHALE-SUMMARY:Part of the Lindsay Lecture Series END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190425T155500 DTEND;TZID=America/Chicago:20190425T165500 LOCATION:Emerging Technologies Building SUMMARY:BMEN 681 Seminar Series: Dr. Taylor Ware DESCRIPTION:Dr. Taylor Ware from the University of Texas-Dallas will present a seminar as part of the BMEN 681 Seminar Series. More details to come. X-ALT-DESC;FMTTYPE=text/html:

\n Dr. Taylor Ware from the University of Texas-Dallas will present a seminar as part of the BMEN 681 Seminar Series. More details to come.\n

UID:20190425T205500Z-75300@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/75296-bmen-681-seminar-series-dr-taylor-ware CATEGORIES:General Interest LAST-MODIFIED:20190131T221555Z ATTACH:https://calendar.tamu.edu/live/image/gid/26/width/80/height/80/crop/1/src_region/0,0,600,601/3089_BMEN_1x1-primary.png X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:75300 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/26/width/80/height/80/crop/1/src_region/0\,0\,600\,601/3089_BMEN_1x1-primary.png X-LIVEWHALE-IMAGE-CAPTION:BMEN logo X-LIVEWHALE-CONTACT-INFO:Jennifer Reiley
\njreiley@tamu.edu X-LIVEWHALE-SUMMARY:Dr. Taylor Ware from the University of Texas-Dallas will present a seminar as part of the BMEN 681 Seminar Series. END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190426T135000 DTEND;TZID=America/Chicago:20190426T144000 LOCATION:Emerging Technologies Building GEO:30.622704;-96.339193 SUMMARY:Seminar: Dr. Takashi Unayama UID:20190426T185000Z-74651@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/70708-seminar-dr-takashi-unayama CATEGORIES:Speakers, Forums, and Conferences LAST-MODIFIED:20190130T140107Z ATTACH:https://calendar.tamu.edu/live/image/gid/83/width/80/height/80/crop/1/src_region/0,0,880,880/3485_ISEN.jpg X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:74651 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/83/width/80/height/80/crop/1/src_region/0\,0\,880\,880/3485_ISEN.jpg X-LIVEWHALE-IMAGE-CAPTION:Industrial &\; Systems Engineering logo END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20190508T150000 DTEND;TZID=America/Chicago:20190508T160000 LOCATION:Jack E. Brown Chemical Engineering Building GEO:30.620858;-96.341812 SUMMARY:Dr. Howard A. Stone\, "Beauty and Surprises in Fluid Mechanics: Nature\, Research\, and Technology" DESCRIPTION:Dr. Howard A. Stone\, Donald R. Dixon '69 and Elizabeth W. Dixon Professor in Mechanical and Aerospace Engineering at Princeton University\, will give a talk as part of the J.D. Lindsay Lecture Series. Dr. Dickson's talk is entitled:\n\n "Beauty and Surprises in Fluid Mechanics: Nature\, Research\, and Technology" X-ALT-DESC;FMTTYPE=text/html:

\n Dr. Howard A. Stone, Donald R. Dixon '69 and Elizabeth W. Dixon Professor in Mechanical and Aerospace Engineering at Princeton University, will give a talk as part of the J.D. Lindsay Lecture Series. Dr. Dickson's talk is entitled:\n

\n "Beauty and Surprises in Fluid Mechanics: Nature, Research, and Technology"\n

UID:20190508T200000Z-74640@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/69858-dr-howard-a-stone-beauty-and-surprises-in-fluid CATEGORIES:Speakers, Forums, and Conferences LAST-MODIFIED:20190130T135359Z ATTACH:https://calendar.tamu.edu/live/image/gid/40/width/80/height/80/crop/1/src_region/0,27,250,277/3671_howard4.jpg X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:74640 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/40/width/80/height/80/crop/1/src_region/0\,27\,250\,277/3671_howard4.jpg X-LIVEWHALE-IMAGE-CAPTION:Howard A. Stone X-LIVEWHALE-COST:Free X-LIVEWHALE-SUMMARY:A part of the Lindsay Lecture Series END:VEVENT END:VCALENDAR