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DTSTAMP:20161221T223322Z
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DTSTART;TZID=US/Eastern:20161006T103000
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DESCRIPTION:Overview\n\nPhased arrays have been traditionally the specialty
  for Radar and EW systems. But with the advent of 5G and IOT they are beco
 ming more common and in a few years they will become a commodity. Phased a
 rray techniques have evolved over long period of time and newer techniques
  are being invented to drive the cost of design as well cost of operation.
  This presentation will introduce various aspects of Phased array design a
 nd the challenges. While in the past they used to be designed only by RF b
 eamforming techniques\, the digital beam forming techniques brought a lot 
 of enhancement. Adaptive beamforming would not have been possible without 
 the baseband algorithms. The modern phased array design needs harnessing v
 arious domains of Based band\, RF\, antenna and thermal. The presentation 
 will show how these are brought together to facilitate an efficient design
 .\n\nDr. Murthy Upmaka has been with hp\, Agilent Technologies and Keysigh
 t technologies for the past 18 years working both in R&D and field as a sy
 stem architect and a senior application engineer. He received his Ph.D fro
 m Indian Institute of Technology\, Madras\, India and conducted post-docto
 ral research at Trinity College Dublin on Far Infrared Studies as a visiti
 ng Leverhulme Trust fellow. He published several papers in reputed journal
 s including IEEE transactions. He holds two patents on base station amplif
 ier test system. He was selected for the Agilent Technologies President Cl
 ub in 2011 which is given to the top 1% of the best performing employees. 
 He has extensive experience in modeling and simulating communication syste
 ms as well as Radar and EW systems. His current interests are in System le
 vel modeling and simulation and increasing the fidelity of the models thro
 ugh electromagnetic and circuit simulations.\n\nCo-sponsored by: AP/MTT Ch
 apter\n\n E. Hanover\, New Jersey\, United States
LOCATION: E. Hanover\, New Jersey\, United States
ORGANIZER:kdixit@ieee.org
SEQUENCE:0
SUMMARY:[Legacy Report] Critical issues in the development of phased array 
 antenna based systems
URL;VALUE=URI:https://events.vtools.ieee.org/m/167229
X-ALT-DESC:Description: <br /><p><strong>Overview</strong></p>\n<p align="j
 ustify">Phased arrays have been traditionally the specialty for Radar and 
 EW systems. But with the advent of 5G and IOT they are becoming more commo
 n and in a few years they will become a commodity. Phased array techniques
  have evolved over long period of time and newer techniques are being inve
 nted to drive the cost of design as well cost of operation. This presentat
 ion will introduce various aspects of Phased array design and the challeng
 es. While in the past they used to be designed only by RF beamforming tech
 niques\, the digital beam forming techniques brought a lot of enhancement.
  Adaptive beamforming would not have been possible without the baseband al
 gorithms. The modern phased array design needs harnessing various domains 
 of Based band\, RF\, antenna and thermal. The presentation will show how t
 hese are brought together to facilitate an efficient design.</p>\n<p align
 ="justify">Dr. Murthy Upmaka has been with hp\, Agilent Technologies and K
 eysight technologies for the past 18 years working both in R&amp\;D and fi
 eld as a system architect and a senior application engineer. He received h
 is Ph.D from Indian Institute of Technology\, Madras\, India and conducted
  post-doctoral research at Trinity College Dublin on Far Infrared Studies 
 as a visiting Leverhulme Trust fellow. He published several papers in repu
 ted journals including IEEE transactions. He holds two patents on base sta
 tion amplifier test system. He was selected for the Agilent Technologies P
 resident Club in 2011 which is given to the top 1% of the best performing 
 employees. He has extensive experience in modeling and simulating communic
 ation systems as well as Radar and EW systems. His current interests are i
 n System level modeling and simulation and increasing the fidelity of the 
 models through electromagnetic and circuit simulations.&nbsp\;</p>
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