Difference between revisions of "Cell and Cellular Traffic-I"
From its-wiki.no
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|Course=UNIK4230, | |Course=UNIK4230, | ||
|Title=Cell and Cellular Traffic-I | |Title=Cell and Cellular Traffic-I | ||
− | |Lecture date= | + | |Lecture date=2014/03/13 |
|time=13:15 | |time=13:15 | ||
|Lecturer=Abul Kaosher, | |Lecturer=Abul Kaosher, | ||
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* What is outage and how is it rated with fading? | * What is outage and how is it rated with fading? | ||
− | = Lecture = | + | = Lecture 2014= |
+ | * [[Media:UNIK4230-Cell-L6_and_7-2014.pdf]] | ||
+ | * Video: | ||
+ | |||
+ | = Documentation from 2013 = | ||
* [[Media:UNIK4230-Cell-L6_and_7-2013.pdf]] | * [[Media:UNIK4230-Cell-L6_and_7-2013.pdf]] | ||
* Video: | * Video: |
Revision as of 12:41, 14 March 2014
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Cell and Cellular Traffic-I
Course | UNIK4230 |
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Title | Cell and Cellular Traffic-I |
Lecture date | 2014/03/13 13:15 |
presented | by Abul Kaosher |
Objective | Achieve a deeper inside in cellular traffic |
Learning outcomes | Understand the following topics:
|
Pensum (read before) | |
References (further info) | References:
|
Keywords | Cell, Frequency reuse, Co-channel Interference, Cell geometry, Fiber Optic Mobile, Microcell, Macrocell, Picocell |
this page was created by Special:FormEdit/Lecture, and can be edited by Special:FormEdit/Lecture/Cell and Cellular Traffic-I.
Test yourself, answer these questions
- In a cell phone system what is a cell?
- Why does the mobile phone cell have a hexagonal shape?
- What is co-channel interference? How do I reduce it?
- Prove that for a hexagonal geometry, the co-channel reuse ratio is given by Q=sqrt(3N), where N= i^2+ij+j^2.
- A cellular service provider decides to use a digital TDMA scheme which can tolerate a signal-to-interference ratio of 15 dB in the worst case. Find the optimal value of N for omni-directional antennas, 120 degrees sectoring antennas and 60 degrees sectoring antennas. (Path loss exponent v = 4, number of interfering cells I = 6 (omni-directional antennas), I = 2 (120 sectoring) and I = 1 (60 sectoring).
- What is Cell splitting and what benefits it brings? Where we should use smaller cell and where we should use bigger cell and why?
- What is outage and how is it rated with fading?
Lecture 2014
Documentation from 2013
Documentation from 2012
Other info
Evolution of cells
From Macro to micro, pico and femto cells. Macro cells are used for coverage and fast moving objects (cars), micro cells are typically used for capacity, pico cells are cells for hot spots (train station, office building) and femto cells are for home/small office use.
Examples of Pico cells (also called metro cells)
- Nokia Siemens Networks: http://pt.nokiasiemensnetworks.com/news-events/press-room/press-releases/flexi-zone-quenches-thirst-for-mobile-broadband-slashes-cost-per-bit-mwc12
- Alcatel Lucent "lightRadio": http://www.evernote.com/shard/s94/sh/8b44af9f-a498-4d37-87f3-5a9756efb4e7/a401c72384d9440f19e6752510ccf907 (source: Teknisk ukeblad 0812, http://tu.no); http://www.dailywireless.org/2011/02/07/lightradio-mini-modular-cell-infrastructure/
- Ericsson: http://www.lightreading.com/document.asp?doc_id=204190