Joint Routing, Scheduling And Power Control For Multihop Wireless Networks With Multiple Antennas
@article{Vangala2011JointRS,
title={Joint Routing, Scheduling And Power Control For Multihop Wireless Networks With Multiple Antennas},
author={Harish Vangala and Rahul Meshram and Vinod Sharma},
journal={ArXiv},
year={2011},
volume={abs/1110.0310}
}We consider the problem of Joint Routing, Scheduling and Power-control (JRSP) problem for multihop wireless networks (MHWN) with multiple antennas. We extend the problem and a (sub-optimal) heuristic solution method for JRSP in MHWN with single antennas. We present an iterative scheme to calculate link capacities(achievable rates) in the interference environment of the network using SINR model. We then present the algorithm for solving the JRSP problem. This completes a feasible system model…
One Citation
Joint routing, scheduling and power control in multihop MIMO networks with MAC and broadcast links
- Business, Computer Science2012 IEEE Wireless Communications and Networking Conference (WCNC)
- 2012
This work uses multiple antennas at each node to form multiple access and broadcast links in the network rather than just point to point links, and shows that such a generic transmission model improves the system performance significantly.
References
SHOWING 1-10 OF 11 REFERENCES
Power control and transmission scheduling for network utility maximization in wireless networks
- Business, Computer Science2007 46th IEEE Conference on Decision and Control
- 2007
A network utility optimization problem involving time-sharing across different "transmission modes," where each mode corresponds to the set of power levels used in the network, which provides a tool for wireless network planning.
Joint power control, scheduling and routing for multihop energy harvesting sensor networks
- Computer SciencePM2HW2N '09
- 2009
A computationally efficient suboptimal approach to obtain good solutions to the problem of obtaining jointly optimal power control, routing and scheduling policies that ensure a fair utilization of network resources is developed.
Engineering Wireless Mesh Networks: Joint Scheduling, Routing, Power Control, and Rate Adaptation
- Computer Science, BusinessIEEE/ACM Transactions on Networking
- 2010
This work develops efficient and exact computational tools using column generation with greedy pricing that allow for exact solutions for networks significantly larger than what has been possible so far and develops very fast approximations that compute nearly optimal solutions for even larger cases.
MIMO-Pipe Modeling and Scheduling for Efficient Interference Management in Multihop MIMO Networks
- Computer Science, BusinessIEEE Transactions on Vehicular Technology
- 2010
A cross-layer optimization framework for effective interference management toward understanding fundamental tradeoffs among possible MIMO gains in multihop networks is developed.
A Tractable and Accurate Cross-Layer Model for Multi-Hop MIMO Networks
- Business, Computer Science2010 Proceedings IEEE INFOCOM
- 2010
A simple model for MIMO channel capacity computation that captures the essence of spatial multiplexing and transmit power limit without involving complex matrix operations and the water-filling algorithm is developed and it is shown that the approximation gap in this model is negligible.
Joint congestion control, routing, and MAC for stability and fairness in wireless networks
- Computer ScienceIEEE Journal on Selected Areas in Communications
- 2006
The main contribution is to prove the asymptotic optimality of a primal-dual congestion controller, which is known to model different versions of transmission control protocol well.
MIMO Channel Capacity in Co-Channel Interference
- Business, Computer Science
- 2002
The results show that MIMO capacity is larger with fewer high-data-rate interferers and the impact of an estimated channel and/or interference on capacity is smaller than expected.
Joint rate control and scheduling in multihop wireless networks
- Business, Computer Science2004 43rd IEEE Conference on Decision and Control (CDC) (IEEE Cat. No.04CH37601)
- 2004
This work proposes a dual optimization based approach through which the rate control problem and the scheduling problem can be decomposed and demonstrates via both analytical and numerical results that the proposed mechanism can fully utilize the capacity of the network, maintain fairness, and improve the quality of service to the users.
CVX: Matlab Software for Disciplined Convex Programming, Version 1
- CVX: Matlab Software for Disciplined Convex Programming, Version 1
- 2011
CVX: Matlab Software for Disciplined Convex Programming, Version 1.21 (April 2011, Build 808), http://cvxr.com/cvx/ This paper is submitted to NCC-2012 conference proceedings
- 2012