DocumentCode
3346173
Title
MAC for Networks with Multipacket Reception Capability and Spatially Distributed Nodes
Author
Celik, Guner D. ; Zussman, Gil ; Khan, W.F. ; Modiano, Eytan
Author_Institution
CNRG, MIT, Cambridge, MA
fYear
2008
fDate
13-18 April 2008
Abstract
The physical layer of future wireless networks will be based on novel radio technologies such as UWB and MIMO. One of the important capabilities of such technologies is the ability to capture a few packets simultaneously. This capability has the potential to improve the performance of the MAC layer. However, we show that in networks with spatially distributed nodes, reusing backoff mechanisms originally designed for narrow-band systems (e.g. CSMA/CA) is inefficient. It is well known that when networks with spatially distributed nodes operate with such MAC protocols, the channel may be captured by nodes that are near the destination, leading to unfairness. We show that when the physical layer enables multipacket reception, the negative implications of reusing the legacy protocols include not only such unfairness but also a significant throughput reduction. We present alternative backoff mechanisms and evaluate their performance via Markovian analysis and simulation. We show that our alternative backoff mechanisms can improve both overall throughput and fairness.
Keywords
Markov processes; access protocols; packet radio networks; wireless channels; MIMO; Markovian analysis; UWB; alternative backoff mechanism; multipacket reception; multipacket reception capability; narrow-band system; radio technology; reusing backoff mechanism; wireless network; Access protocols; Communications technology; Media Access Protocol; Multiaccess communication; Peer to peer computing; Physical layer; Throughput; Wireless application protocol; Wireless communication; Wireless networks;
fLanguage
English
Publisher
ieee
Conference_Titel
INFOCOM 2008. The 27th Conference on Computer Communications. IEEE
Conference_Location
Phoenix, AZ
ISSN
0743-166X
Print_ISBN
978-1-4244-2025-4
Type
conf
DOI
10.1109/INFOCOM.2008.202
Filename
4509797
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