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DTSTART:20200308T030000
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DTSTAMP:20200724T205104Z
UID:16A9F7D3-C522-4F2D-B6FD-44A9669C8E9E
DTSTART;TZID=US/Central:20200723T160000
DTEND;TZID=US/Central:20200723T170000
DESCRIPTION:Abstract: The coming decades may see the large scale deployment
  of networked cyber–physical systems to address global needs in areas su
 ch as energy\, water\, health care\, and transportation. However\, as rece
 nt events have shown\, such systems are vulnerable to cyber attacks. We be
 gin by revisiting classical linear systems theory\, developed in more inno
 cent times\, from a security-conscious\, even paranoid\, viewpoint. Then w
 e present a general technique\, called “dynamic watermarking\,” for de
 tecting any sort of malicious activity in networked systems of sensors and
  actuators. We present a field test on an automobile\, experimental demons
 tration of this technique on an automobile on a test track\, a process con
 trol system\, and a simulation study of defense against an attack on Autom
 atic Gain Control (AGC) in a synthetic four area power system.\n\nCo-spons
 ored by: Rice Univ. ECE Distinguished Speaker Series\n\nSpeaker(s): P.R. K
 umar\, \n\nAgenda: \nhttps://riceuniversity.zoom.us/j/92503741547\n\nhttps
 ://events.rice.edu/#!view/event/event_id/95186\n\nWebinar via Zoom\, Houst
 on\, Texas\, United States\, 77005
LOCATION:Webinar via Zoom\, Houston\, Texas\, United States\, 77005
ORGANIZER:cavallar@rice.edu
SEQUENCE:3
SUMMARY:Security of Networked Cyberphysical Systems (Webinar)
URL;VALUE=URI:https://events.vtools.ieee.org/m/233607
X-ALT-DESC:Description: &lt;br /&gt;&lt;p&gt;&lt;strong&gt;Abstract:&amp;nbsp\;&lt;/strong&gt;The comin
 g decades may see the large scale deployment of networked cyber&amp;ndash\;phy
 sical systems to address global needs in areas such as energy\, water\, he
 alth care\, and transportation. However\, as recent events have shown\, su
 ch systems are vulnerable to cyber attacks. We begin by revisiting classic
 al linear systems theory\, developed in more innocent times\, from a secur
 ity-conscious\, even paranoid\, viewpoint. Then we present a general techn
 ique\, called &amp;ldquo\;dynamic watermarking\,&amp;rdquo\; for detecting any sor
 t of malicious activity in networked systems of sensors and actuators. We 
 present a field test on an automobile\, experimental demonstration of this
  technique on an automobile on a test track\, a process control system\, a
 nd a simulation study of defense against an attack on Automatic Gain Contr
 ol (AGC) in a synthetic four area power system.&lt;/p&gt;&lt;br /&gt;&lt;br /&gt;Agenda: &lt;br
  /&gt;&lt;p&gt;&lt;a href=&quot;https://riceuniversity.zoom.us/j/92503741547&quot;&gt;https://riceu
 niversity.zoom.us/j/92503741547&lt;/a&gt;&lt;/p&gt;\n&lt;p&gt;&lt;a href=&quot;https://events.rice.e
 du/#!view/event/event_id/95186&quot;&gt;https://events.rice.edu/#!view/event/event
 _id/95186&lt;/a&gt;&lt;/p&gt;
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