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DTSTAMP:20221023T153357Z
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DTSTART;TZID=America/New_York:20221019T180000
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DESCRIPTION:The IEEE Montreal Section and Concordia University are inviting
  all interested IEEE Montreal members and other engineers and students to 
 a technical seminar given by: Prof. Kafi Hassan.\n\nRegister to reserve yo
 ur seat. Refreshment will be served.\n\nAbstract:\n\nChannel link‐level 
 and system level modeling played a critical role in proper design and depl
 oyment of all\ngenerations of wireless network systems. Particularly\, sys
 tem level modeling has become an important task for\nnetwork planning\, ne
 twork design\, and network optimization of wireless cellular systems. Syst
 em level\nsimulations allow to evaluate the performance of an entire netwo
 rk containing many Evolved Node B (eNodeB)\nsectors serving a lot of user 
 equipment (UEs) in urban\, suburban\, and rural environments. Design and\n
 performance of new technology features require to be accurately verified a
 nd improved before deployment\ninto commercial systems. Therefore\, real
 ‐world system performance modeling and predictions should be very\nrelia
 ble and should be based on repeatable measurements of how the model behave
 s in the actual\nenvironment. Both the wireless industry and academia have
  made a significant effort developing and defining\nnew and updated channe
 l models such as the 3GPP 3D channel model and the extended 3GPP extended\
 nchannel model for milli‐meter wave. New 3D geodata models with high‐r
 esolution and artificial intelligent (AI)\nalgorithms are greatly enhancin
 g the RF propagation modeling in line of sight (LOS) and non‐line of sig
 ht\n(NLOS) beamformed signals and FD‐MIMO antenna applications of 5G wir
 eless network systems. In this talk\,\nwe will review some of the key 5G w
 ideband wireless channel modeling including the 3rd Generation\nPartnershi
 p Project (3GPP)\, NYU SIM\, and others. We will discuss some of the gener
 al practical use cases of 5G\nnetwork system modeling scenarios. Additiona
 lly\, we will describe some of the practical challenges of channel\nand sy
 stem modeling in 5G wireless systems.\n\nSpeaker(s): Prof. Kafi Hassan\, \
 n\nRoom: 1.162\, Bldg: EV-Building\, 1515 Ste. Catherine West (corner with
  Guy St.)\, Concordia University\, Electrical & Computer Engineering Depar
 tment\, Montreal\, Quebec\, Canada
LOCATION:Room: 1.162\, Bldg: EV-Building\, 1515 Ste. Catherine West (corner
  with Guy St.)\, Concordia University\, Electrical & Computer Engineering 
 Department\, Montreal\, Quebec\, Canada
ORGANIZER:anader.benyamin@ieee.org
SEQUENCE:3
SUMMARY:Practical 5G channel and system modeling techniques
URL;VALUE=URI:https://events.vtools.ieee.org/m/327538
X-ALT-DESC:Description: <br /><p>The IEEE Montreal Section and Concordia Un
 iversity are inviting all interested IEEE Montreal members and other engin
 eers and students to a technical seminar given by: <strong>Prof. Kafi Hass
 an.&nbsp\;</strong></p>\n<p>Register to reserve your seat. Refreshment wil
 l be served.</p>\n<p>&nbsp\;</p>\n<p><strong>Abstract:&nbsp\;</strong></p>
 \n<p>Channel link‐level and system level modeling played a critical role
  in proper design and deployment of all<br />generations of wireless netwo
 rk systems. Particularly\, system level modeling has become an important t
 ask for<br />network planning\, network design\, and network optimization 
 of wireless cellular systems. System level<br />simulations allow to evalu
 ate the performance of an entire network containing many Evolved Node B (e
 NodeB)<br />sectors serving a lot of user equipment (UEs) in urban\, subur
 ban\, and rural environments. Design and<br />performance of new technolog
 y features require to be accurately verified and improved before deploymen
 t<br />into commercial systems. Therefore\, real‐world system performanc
 e modeling and predictions should be very<br />reliable and should be base
 d on repeatable measurements of how the model behaves in the actual<br />e
 nvironment. Both the wireless industry and academia have made a significan
 t effort developing and defining<br />new and updated channel models such 
 as the 3GPP 3D channel model and the extended 3GPP extended<br />channel m
 odel for milli‐meter wave. New 3D geodata models with high‐resolution 
 and artificial intelligent (AI)<br />algorithms are greatly enhancing the 
 RF propagation modeling in line of sight (LOS) and non‐line of sight<br 
 />(NLOS) beamformed signals and FD‐MIMO antenna applications of 5G wirel
 ess network systems. In this talk\,<br />we will review some of the key 5G
  wideband wireless channel modeling including the 3rd Generation<br />Part
 nership Project (3GPP)\, NYU SIM\, and others. We will discuss some of the
  general practical use cases of 5G<br />network system modeling scenarios.
  Additionally\, we will describe some of the practical challenges of chann
 el<br />and system modeling in 5G wireless systems.</p>
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