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  מבוא לדור החמישי של תקשורת ניידת - (5g)
  Introduction to 5th Generation Cellular Communication  
0510-7117-01
הנדסה | ביה"ס להנדסת חשמל
סמ'  ב'1800-2000438 ולפסון הנדסהשיעור ד"ר שטיין יעקב
ש"ס:  2.0

סילבוס מפורט

הנדסה | ביה"ס להנדסת חשמל
0510-7117-01 מבוא לדור החמישי של תקשורת ניידת - (5g)
Introduction to 5th Generation Cellular Communication
שנה"ל תש"ף | סמ'  ב' | ד"ר שטיין יעקב

סילבוס מפורט/דף מידע

0510.7117    מבוא לדור החמישי של תקשורת ניידת - (5G)

Lecture Schedule

  • Introduction to cellular communications – generations 1 - 4
  • Limitations of 4G and 5G design goals (based on ITU-R M.2083)

Initial deployments

  • Overall 5G architecture (gNb, NR, RAN, NGCN) and co-existence options

3GPP standardization

  • 4G Air Interface and basic improvements (framing, CA, channel coding)
  • MIMO and massive MIMO

New spectral bands and millimeter waves

Innovative coverage strategies (OneWeb, Aquila)

  • 5G Radio Access Network and functional splits
  • Transport options (XGS-PON, 802.3by/cd/bs), FlexE, eCPRI, TSN, DetNet)
  • Cloud RAN (cRAN) and virtual RAN (vRAN)

HetNets

MOCN and MORAN

  • Network slicing
  • 5G core network (NGCN), standalone and non-standalone modes
  • Use case – eMBB (enhanced Mobile BroadBand) and fixed wireless
  • Use case – URLLC (Ultra Reliable Low Latency Communications)

Use case – IoT, CI, and smart city

  • Use cases – V2X, AR/VR

 

  • דרישות הקורס וחובות התלמידים: נוכחות, בחינה סופית
  •  הערכה: בחינה סופית 90%, השתתפות בשיעורים 10%

 

 

 

  • ביבליוגרפיה: חובה

Framework and overall objectives of the future development of IMT for 2020 and beyond

ITU-R Recommendation M.2083-0 09/2015, http://www.itu.int/rec/R-REC-M.2083-0-201509-I

A Survey of 5G Network: Architecture and Emerging Technologies

Akhil Gupta et al, IEEE Access, July 2015, 1206-1232

 

  • ביבליוגרפיה מומלצת
  • GPP Release 15 Specifications, http://www.3gpp.org/specifications/specification-numbering/

METIS-II Project Deliverables, https://metis-ii.5g-ppp.eu/documents/deliverables

Next Generation Mobile Networks

NGMN, March 2015, https://www.ngmn.org/5g-white-paper

  1. G Architecture, 5G-PPP, July 2016, https://5g-ppp.eu/white-papers/

The Requirements, Challenges, and Technologies for 5G of Terrestrial Mobile Telecommunication

Shanzhi Chen and Jian Zhao, IEEE Communications Magazine, May 2014, 36-43

Cellular Architecture and Key Technologies for 5G Wireless Communication Networks

Cheng-Xiang Wang et al, IEEE Communications Magazine, February 2014, 122-130

  1. G End-to-End Architecture Framework

NGMN, February 2018, https://www.ngmn.org/publications/technical-deliverables.html

  1. G Air Interface System Design Principles

Naga Bhushan et al, IEEE Wireless Communications, October 2017, 6-8

Massive MIMO for 5G, Erik G. Larsson, IEEE 5G Tech Focus, March 2017

  1. G Use cases and performance evaluation modeling
  2. G-PPP, April 2016, https://5g-ppp.eu/white-papers/
    1. G Radio Network Design for Ultra-Reliable Low-Latency Communication

Joachim Sachs et al, IEEE Network, March/April 2018, 24-31

  1. G Backhaul Challenges and Emerging Research Directions: A Survey

Mona Jaber et al, IEEE Access vol 4, April 2016

NGMN Overview on 5G RAN Functional Decomposition

NGMN, February 2018, https://www.ngmn.org/publications/technical-deliverables.html

Network Slicing for 5G with SDN/NFV: Concepts, Architectures, and Challenges

Jose Ordonez-Lucena et al, IEEE Communications Magazine, May 2017, 80-87

  1. G-Crosshaul Network Slicing: Enabling Multi-Tenancy in Mobile Transport Networks

Xi Li et al, IEEE Communications Magazine, August 2017, 128-137

  1. G Security Landscape, 5G-PPP, June 2017, https://5g-ppp.eu/white-papers/

 

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