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DESCRIPTION:Power-electronic control and modeling have gone through fundame
 ntal shift in its approach with time slowly but surely replacing reduced-o
 rder-manifold-based approaches proposed decades back. With the revolution 
 in embedded processors and advancements in multi-objective optimization\, 
 stability theory\, hybrid systems\, and communication/information theory\,
  radically new multi-scale spatio-temporal approaches are being developed 
 and implemented that are showing unprecedented promise for plurality of po
 wer-electronic applications and changing the mindset regarding the control
  and modeling of such hybrid dynamical switching-power systems. At the act
 uation level\, the advent of rapid switching wide- and ultra-wide-bandgap 
 devices is enabling the accelerated penetration of such next-generation co
 ntrols across plurality of voltage and power levels encompassing radically
  improved\, new\, and complex power-electronic systems. This talk will beg
 in with an outline on the role of control in traditional power-electronic 
 systems and how they shape the behavior of such hybrid dynamical systems. 
 Subsequently\, an overview of the traditional power-electronic control app
 roaches will be provided along with brief discussions on their strengths a
 nd limitations. That leads to the future of controls in power electronics 
 including cyber-resilient control and control for long-term reliability\, 
 and what should and could be done beyond traditional power-electronic cont
 rol that addresses existing\, evolving\, and future applications needs enc
 ompassing wide temporal and spatial scales? This talk will provide some in
 sights on how and what radically new ideas may need to be synthesized that
  reach far beyond historical and conventional power-electronic control nee
 ds with wide power-conversion applications.\n\nSpeaker(s): Sudip Mazumder\
 , \n\nRoom: GC Ball room\, Graham Center-Ball Room\, FIU located at 11200 
  SW 8th St.\, Miami\, Florida 33174\, Miami\, Florida\, United States\, 33
 174
LOCATION:Room: GC Ball room\, Graham Center-Ball Room\, FIU located at 1120
 0  SW 8th St.\, Miami\, Florida 33174\, Miami\, Florida\, United States\, 
 33174
ORGANIZER:Mohammed@fiu.edu
SEQUENCE:10
SUMMARY:Control of Power Electronics: From Performance to Reliability
URL;VALUE=URI:https://events.vtools.ieee.org/m/374405
X-ALT-DESC:Description: &lt;br /&gt;&lt;p&gt;Power-electronic control and modeling have
  gone through fundamental shift in its approach with time slowly but surel
 y replacing reduced-order-manifold-based approaches proposed decades back.
  With the revolution in embedded processors and advancements in multi-obje
 ctive optimization\, stability theory\, hybrid systems\, and communication
 /information theory\, radically new multi-scale spatio-temporal approaches
  are being developed and implemented that are showing unprecedented promis
 e for plurality of power-electronic applications and changing the mindset 
 regarding the control and modeling of such hybrid dynamical switching-powe
 r systems. At the actuation level\, the advent of rapid switching wide- an
 d ultra-wide-bandgap devices is enabling the accelerated penetration of su
 ch next-generation controls across plurality of voltage and power levels e
 ncompassing radically improved\, new\, and complex power-electronic system
 s. This talk will begin with an outline on the role of control in traditio
 nal power-electronic systems and how they shape the behavior of such hybri
 d dynamical systems. Subsequently\, an overview of the traditional power-e
 lectronic control approaches will be provided along with brief discussions
  on their strengths and limitations. That leads to the future of controls 
 in power electronics including cyber-resilient control and control for lon
 g-term reliability\, and what should and could be done beyond traditional 
 power-electronic control that addresses existing\, evolving\, and future a
 pplications needs encompassing wide temporal and spatial scales? This talk
  will provide some insights on how and what radically new ideas may need t
 o be synthesized that reach far beyond historical and conventional power-e
 lectronic control needs with wide power-conversion applications.&lt;/p&gt;
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