DocumentCode
3131858
Title
Multi-Path QoS Routing with estimating the interference between the communication paths in the TDMA-based wireless mesh networks
Author
Saito, Kentaro ; Nakayama, Masaya
Author_Institution
Grad. Sch. of Frontier Sci., Univ. of Tokyo, Tokyo
fYear
2008
fDate
22-24 April 2008
Firstpage
229
Lastpage
234
Abstract
With the wide spread of broadband wireless communication devices such as wireless LAN and UWB, the wireless mesh network becomes common. As the mobile terminalpsilas ability is getting advance in recent time, wireless mesh network is expected to support QoS for the multimedia applicationpsilas traffic. in the QoS Routing technique using TDMA-based bandwidth reservation, each communication flow searches the path that satisfies the applicationpsilas bandwidth requirement and reserves the time slots for the route to guarantee the QoS of the flow. However, in the current Multi-Path QoS Routing, communication path candidates are not utilized and the flow consumes other flowpsilas available time slots because interferences among the communication paths arenpsilat estimated. In this paper, we propose ldquoMulti Route Discovery with Cumulative Broadcastingrdquo (MRD-CB) and ldquoSpatial Reuse Slot Allocation with Reallocating Neighbor Linksrdquo (SRSA-RNL). In MRD-CB, the flow finds more available path candidates by estimating the interference extent among the paths by using the neighbor node list of each hop in the paths. In SRSA-RNL, each flow gathers the neighbor linkpsilas slot information and reallocates the slots of these links by considering the spatial reuse among these links. We showed that our proposal improved the data transmission in the network by 16% in the simulation.
Keywords
data communication; multimedia communication; multipath channels; quality of service; radio networks; telecommunication network routing; time division multiple access; TDMA; UWB; bandwidth reservation; broadband wireless communication devices; communication paths; data transmission; mobile terminal ability; multimedia application´s traffic; multipath QoS routing; multiroute discovery with cumulative broadcasting; spatial reuse slot allocation with reallocating neighbor links; wireless LAN; wireless mesh networks; Bandwidth; Broadband communication; Broadcasting; Interference; Mobile communication; Routing; Telecommunication traffic; Wireless LAN; Wireless communication; Wireless mesh networks;
fLanguage
English
Publisher
ieee
Conference_Titel
Information and Telecommunication Technologies, 2008. APSITT. 7th Asia-Pacific Symposium on
Conference_Location
Bandos Island
Print_ISBN
978-4-88552-226-0
Type
conf
DOI
10.1109/APSITT.2008.4653570
Filename
4653570
Link To Document