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DTSTART:20190310T030000
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DTSTAMP:20190216T020444Z
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DTSTART;TZID=PST8PDT:20190201T123000
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DESCRIPTION:CSULB Systems Council Chapter presents\n\nIEEE Distinguished Le
 cture Series on\n\nDigital Beam Forming in K-space for Self-Driving Cars.\
 n\nSpeaker(s): Dr. Donald Chang\, \n\nAgenda: \nAbstract: Thinned arrays a
 re cost-effective implementations of imaging radars in autonomous-driving 
 cars to achieve good angular/spatial resolutions. They feature reduced pow
 er\, weights\, processing loads\, and overall production cost. The present
 ation relates to architectures and designs of imaging radars with thinned 
 arrays via K-space measurements from radar returns concurrently. The imagi
 ng radars feature correlating interferometers made by elements of a thinne
 d array\, and digital beam forming (DBF) networks to put the K-space frequ
 ency components together properly. These DBF techniques are used in genera
 ting shaped beams such as low sidelobe spot beams\, shaped area coverage b
 eams\, orthogonal beams\, multiple hopping beams\, and others.\n\nBldg: VE
 C-424\, California State University\, Long Beach\, California\, United Sta
 tes\, 90840
LOCATION:Bldg: VEC-424\, California State University\, Long Beach\, Califor
 nia\, United States\, 90840
ORGANIZER:sean.kwon@csulb.edu
SEQUENCE:1
SUMMARY:IEEE Distinguished Lecture Series
URL;VALUE=URI:https://events.vtools.ieee.org/m/189833
X-ALT-DESC:Description: <br /><p>CSULB Systems Council Chapter presents</p>
 \n<p>IEEE Distinguished Lecture Series on</p>\n<p>Digital Beam Forming in 
 K-space for Self-Driving Cars.</p><br /><br />Agenda: <br /><p>Abstract: T
 hinned arrays are cost-effective implementations of imaging radars in auto
 nomous-driving cars to achieve good angular/spatial resolutions. They feat
 ure reduced power\, weights\, processing&nbsp\;loads\, and overall product
 ion cost. The presentation relates to architectures and designs of imaging
  radars with thinned arrays via K-space measurements from radar returns co
 ncurrently. The imaging&nbsp\;radars feature correlating interferometers m
 ade by elements of a thinned array\, and digital beam&nbsp\;forming (DBF) 
 networks to put the K-space frequency components together properly. These 
 DBF techniques are used in generating shaped beams such as low sidelobe sp
 ot beams\, shaped area coverage beams\, orthogonal beams\, multiple hoppin
 g beams\, and others.</p>
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