A geographically pinned QoS routing scheme for mobile ad hoc networks
Proceedings 10th IEEE International Conference on Networks (ICON 2002). Towards Network Superiority (Cat. No.02EX588) - Trang 329-334
Tóm tắt
In this paper, we advocate that quality of service (QoS) routing protocols should use routes that are weaved and/or geographically pinned. This leads to a new paradigm for QoS routing called geographically pinned QoS routing (GPQR). Based on GPQR, we propose the embedded QoS routing (EQR) scheme for scalable routing with support for Differentiated Service and QoS guarantees in mobile ad hoc networks (MANET) and ad hoc cellular networks (ACENET). Due to the QoS routing disciplines proposed for EQR, the philosophy for selecting and provisioning QoS routes in EQR is fundamentally changed. Moreover, EQR combines several important advantages of localized routing and table-driven routing, including scalability and capability for wireless traffic engineering.
Từ khóa
#Mobile ad hoc networks #Quality of service #Parallel processing #Routing protocols #Scalability #Throughput #Concurrent computing #Embedded computing #Telecommunication traffic #Power engineering and energyTài liệu tham khảo
yeh, 0, A versatile wireless network architecture with high throughput, low power, and QoS guarantees, Proc IEEE Real-Time Technologies and Applications Symp May/Jun 2001, 114
10.1109/ICPP.2000.876117
yeh, 0, Optimal sorting algorithms on incomplete meshes with arbitrary fault patterns, Proc 1997 Int l Conf Parallel Processing, 4
10.1109/71.824641
10.1109/12.565594
perkins, 2001, Ad hoc on-demand distance vector (AODV) routing
10.1109/ICPP.2000.876111
10.1109/ICON.2000.875784
10.1145/190314.190336
yeh, 0, Scalable, adaptive, and reliable resource management in high-speed and mobile networks, Proc IEEE Int'l Conf Computer Communications and Networks Oct 2001, 182
yeh, 0, A new network architecture for mobile communications, Proc World Multi-Conference on Systemics Cybernetics and Informatics 2001, 367
10.1142/9789812799562_0019
10.1142/9789812799562_0020
yeh, 0, Wireless tree protocols for QoS guarantees in cellular networks with bursty traffic, Proc European Wireless Conference Feb 2002
yeh, 0, Signaling and QoS guarantees in mobile ad hoc networks, Proc IEEE Int'l Conf Communications (ICC'02) Apr 2002
yeh, 0, ROAD: A class of variable-radius MAC protocols for ad hoc wireless networks, Proc IEEE Vehicular Technology Conf May 2002
yeh, 0, DEAR: An extension of traffic engineering for routing and resource management in ad hoc wireless networks, Proc IEEE Vehicular Technology Conf May 2002
yeh, 0, Ad-hoc MPLS for virtual-connection-oriented mobile ad hoc networks, Proc IEEE Vehicular Technology Conf May 2002
yeh, 0, Code division multiple access with adaptable reservation: A new paradigm for CDMA-based multimedia wireless networks, Proc IEEE Int'l Symp Computer Communications Jul 2002
10.1109/12.46277
10.17487/rfc2205
lin, 1959, QoS routing in ad hoc wireless networks, IEEE J Selected Areas in Communications, 17, 1426
10.17487/rfc2475
yeh, 0, Protection and restoration in ad hoc wireless networks, Proc IEEE Int'l Conf Networks Aug 2002
karn, 1990, MACA - A new channel access method for packet radio, Proc Computer Networking Conf, 134
johnson, 2001, The dynamic source routing protocol for mobile ad hoc networks
yeh, 0, A TCDMA protocol for next-generation wireless cellular networks with bursty traffic and diverse QoS requirements, Proc PIMRC'02 Sep 2002
1999, Part 11 Wireless LAN medium access control (MAC) and physical layer (PHY) specifications
yeh, 0, ACENET: Architectures and Protocols for High Throughput, Low Power, and QoS Provisioning in Next-Generation Mobile Communications, Proc PIMRC'02 Sep 2002
ho, 2000, On-demand QoS-based routing protocol for ad hoc mobile wireless networks, Proc IEEE Symp Computers and Communications, 560
leighton, 1992, Introduction to Parallel Algorithms and Architectures Arrays Trees Hypercubes
lee, 2000, INSIGMA: An IP-based quality of service framework for mobile ad hoc networks, J Parallel and Distributed Computing, 60, 374, 10.1006/jpdc.1999.1613