Difference between revisions of "Building Mobile and Wireless Networks Compendium"

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;title: nSHIELD meeting Barcelona
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;title: Building Mobile and Wireless Networks
;author: Cecilia Coveri, Ignasi Barri
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;subtitle: Table-of-Content
;subfooter: nSHIELD progress meeting
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;author: Josef Noll
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;subfooter: UNIK4700/UNIK9700
 
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=⌘ History and Future =
 
=⌘ History and Future =
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* [[AA1-History|History of wireless communications]]
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* [[AA1-History|Maxwell, Hertz, Marconi and other pioneers]]
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* [[AA2-Mobile Generations|1G, 2G ... 5G networks]]
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* [[AA2-Mobile Generations|Frequencies and Standards]]
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* [[AA3-Future Challenges|Future Challenges]]
  
=⌘TOC - Basics of communication=
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=⌘ TOC - Basics of Communication=
* Electromagnetic signals
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* [[A1-Electromagnetic signals|Electromagnetic Signals]]
* Nyquist Theorem
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* [[A2-Radio Communication principles|Radio Communication Principles]]
* Signal/noise ratio
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* [[A3-Digital Communication principles|Digital communication: Nyquist, Signal/Noise Ratio]]
* Shannon Theorem
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* [[A4-Signal Strength and Capacity|Signal strength and Capacity: Shannon]]
* Signal strength  
+
  
== ⌘TOC - Signal propagation ==
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= ⌘TOC - Antennas and Propagation =
* Antenna types
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* [[B1-Free Space Propagation|Free Space Propagation]]
* Radiation patterns
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* [[B2-Antennas|Antennas, Gain, Radiation Pattern]]
* Antenna gain
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* [[B3-Multipath Propagation|Multipath Propagation, Reflection, Diffraction]]
* basic propagation models (ground wave, sky wave and line of sight (LoS) propagation)
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* [[B4-Attenuation and Scattering|Attenuation, Scattering]]
* optical vs radio LoS
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* [[B5-Fading|Interference and Fading (Rayleigh, Rician, …)]]
* attenuation (free space)
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* [[B6-Mobile Communication Dependencies|Mobile Communication dependencies]]
* Noise (thermal, intermodulation, crosstalk, impulse noise)
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* Atmospheric absorption
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* Multipath propagation
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* refraction, reflection, diffraction and scattering
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* fading (fast, slow, flat, selective, Rayleigh, Rician, …)
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==⌘Wireless Communication==
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=== What have we learned?===
* electromagnetic wave
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* <span style="color:#000B80"> antenna characteristics and gain</span>
* wave propagation
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* <span style="color:#000B80"> what happens if I double the frequency (900 - 1800 - 2400 MHz)?</span>
* attenuation, scattering
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* <span style="color:#000B80"> minimum GSM receiver sensitivity</span>
*  
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* <span style="color:#000B80"> typical receiver power at 900 MHz (GSM channel sounder - rural)</span>
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* <span style="color:#000B80"> typical received power at 1800 MHz (GSM channel sounder - rural)</span>
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* <span style="color:#000B80"> difference City - rural - indoor</span>
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* <span style="color:#000B80"> principal operation of MIMO</span>
  
== ⌘TOC - Propagation models ==
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= ⌘TOC - Propagation models =
* Environments (indoor, outdoor to indoor, vehicular)
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* [[C1-Environments|Environments (indoor, outdoor to indoor, vehicular)]]
* outside (Lee, Okumura, Hata, COST231-Hata, COST231-Walfish-Ikegami)
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* [[C2-Outdoor|Outdoor (Lee, Okumura, Hata, COST231 models)]]
* inside (One-slope, multiwall, linear attenuation)  
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* [[C3-Indoor|Indoor (One-slope, multiwall, linear attenuation)]]
  
 +
=⌘TOC System Comparison =
 +
* [[D1-Proximity Systems|Proximity: RFID, NFC]]
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* [[D2-Short Range Systems|Short Range:  ZigBee, Bluetooth, ANT+,...]]
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* [[D3-WLAN Systems|WLAN/Wifi/802.11...]]
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* [[D4-Mobile Systems|Mobile: GSM, UMTS, IMT-A (WiMAX, LTE)]]
  
==⌘TOC Comparison of access technologies==
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=⌘TOC - Mobility =
* proximity: RFID and NFC
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* [[E1-Mobile Network mobility|Mobile Network mobility]]
* short range:  ZigBee, Bluetooth and Wibree
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* [[E2-IP Mobility|IP mobility]]
* local: Wireless LAN,...
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* mobile: GSM, UMTS, IMT-A (WiMAX, LTE)
+
  
 
+
=⌘TOC - Network Building =
 
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* [[F1-Future Networks|Future Networks: Heterogeneity, Basic Internet, Video Distribution Networks]]
==⌘TOC - Mobility ==
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* [[F2-Coverage simulations|Coverage simulations]]
* Mobility challenges for existing systems
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* [[F3-Traffic simulations|Traffic simulations]]
* WLAN Mobile Network
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* [[F4-Network Capacity simulations|Network Capacity simulations]]
  
 
[[Category:Compendium]]
 
[[Category:Compendium]]

Latest revision as of 09:08, 28 August 2015

Wiki for ITS
ITS wiki WNaS@ITS Master/PhD Courses Master Thesis Research Areas
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Building .... Networks
History, Now and Future
History
Pioneers: Maxwell, Hertz,...
1G, 2G,... 5G networks
Frequencies and Standards
Future Challenges
A-Basics of Communication
Electromagnetic Signals
Radio Communication Principles
Digital communication: Signal/Noise Ratio
Signal strength and Capacity: Shannon
B-Antennas and Propagation
Free Space Propagation
Antennas, Gain, Radiation Pattern
Multipath Propagation, Reflection, Diffraction
Attenuation, Scattering
Interference and Fading (Rayleigh, Rician, …)
Mobile Communication dependencies
C-Propagation models
Environments (indoor, outdoor to indoor, vehicular)
Outdoor (Lee, Okumura, Hata, COST231 models)
Indoor (One-slope, multiwall, linear attenuation)
D-System Comparison
Proximity: RFID, NFC
Short Range: ZigBee, Bluetooth, ANT+,...
WLAN/Wifi/802.11...
Mobile: GSM, UMTS, IMT-A (WiMAX, LTE)
E-Mobility
Mobile Network mobility
IP mobility
F-Network Building
5G and Future Networks
5G Heterogeneous Networks
Basic Internet
Video Distribution Networks
Coverage simulations
Coverage simulations
Traffic simulations
Network Capacity simulations
Building .... Networks

Disclaimer: This compendium provides information on aspects of radio wave propagation, antennas, system aspects, and handover schemes for mobile and wireless systems. The compendium is foreseen for the UNIK4700 course on Building Mobile and Wireless Networks, and is kept on the system aspects level. UNIK has several courses on Radio and Network technologies as part of the Wireless Networks and Security (WNaS) research area.

UNIK 4700 Building Mobile and Wireless Networks

Slide Show
Slide Show

Title
Building Mobile and Wireless Networks
Subtitle
Table-of-Content
Author
Josef Noll
Footer
Building Mobile and Wireless Networks Compendium
Subfooter
UNIK4700/UNIK9700



⌘ History and Future

⌘ TOC - Basics of Communication

⌘TOC - Antennas and Propagation

What have we learned?

  • antenna characteristics and gain
  • what happens if I double the frequency (900 - 1800 - 2400 MHz)?
  • minimum GSM receiver sensitivity
  • typical receiver power at 900 MHz (GSM channel sounder - rural)
  • typical received power at 1800 MHz (GSM channel sounder - rural)
  • difference City - rural - indoor
  • principal operation of MIMO

⌘TOC - Propagation models

⌘TOC System Comparison

⌘TOC - Mobility

⌘TOC - Network Building

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