4. References:

Load balancing in dense wireless multihop networks:
  1. P. P. Pham and S. Perreau. Performance analysis of reactive shortest path and multi-path routing mechanism with load balance. In Proc. of IEEE Infocom, San Francisco, USA, March-April 2003.
  2. Y. Ganjali and A. Keshavarzian. Load balancing in ad hoc networks: Single-path routing vs. multi-path routing. In Proc. of IEEE Infocom, Hong Kong, March 2004.
  3. M. Kalantari and M. Shayman. Routing in wireless ad hoc networks by analogy to electrostatic theory. In Proc. of IEEE ICC, Paris, France, June 2004.
  4. P. Jacquet. Geometry of information propagation in massively dense ad hoc networks. In ACM MobiHoc, Roppongi Hills, Japan, 2004, pp. 157-162.
  5. Esa Hyytiä and Jorma Virtamo. On load balancing in a dense wireless multihop network. In Proc. of IEEE NGI 2006, Valéncia, Spain, April 2006.
  6. S. Toumpis and L. Tassiulas, Optimal deployment of large wireless sensor networks, IEEE Trans. Information Theory, vol. 52, no. 7, pp. 2935-2953, 2006.
  7. R. Catanuto and G. Morabito. Optimal routing in dense wireless multihop networks as a geometrical optics solution to the problem of variations. In Proc. of IEEE ICC, Istanbul, Turkey, June 2006.
  8. R. Catanuto, S. Toumpis and G. Morabito. Optical Routing in Massively Dense Networks: Practical Issues and Dynamic Programming Interpretation. In Proc. of IEEE ISWCS, Valencia, Spain, Sep. 2006.
  9. S. Toumpis. Optimal design and operation of massively dense wireless networks. In Proc. of ACM Inter-Perf, Oct. 2006.
  10. R. Catanuto, S. Toumpis, and G. Morabito. Opti{c,m}al: Optical/optimal routing in massively dense wireless networks. In Proc. of IEEE Infocom, Anchorage, Alaska, May 2007.
  11. S. Kwon and N. Shroff. Paradox of shortest path routing for large multi-hop wireless networks. In Proc. of IEEE Infocom Anchorage, Alaska, May 2007.
  12. Esa Hyytiä and Jorma Virtamo. On traffic load distribution and load balancing in dense wireless multihop networks. EURASIP Journal on Wireless Communications and Networking, Special Issue on Novel Techniques for Analysis & Design of Cross-Layer Optimized Wireless Sensor Networks, June 2007.
  13. Lucian Popa, Afshin Rostami, Richard M. Karp, Christos Papadimitriou, and Ion Stoica. Balancing the traffic load in wireless networks with curveball routing. In Proc. the 8th ACM MobiHoc, Montréal, Canada, September 2007.
  1. Esa Hyytiä and Jorma Virtamo. On optimality of single-path routes in massively dense wireless multi-hop networks. In Proc. of 10th ACM/IEEE MSWiM, Crete Island, Greece, October 2007.
  2. Stavros Toumpis. Mother Nature Knows Best: A Survey of Recent Results on Wireless Networks Based on Analogies with Physics. Computer Networks, vol. 58, pp. 360-383, 2008.
  3. Esa Hyytiä and Jorma Virtamo. Near-Optimal Load Balancing in Dense Wireless Multi-Hop Networks. In Proc. of NGI 2008, Krakow, Poland, April 2008.
  4. S. Durocher, E. Kranakis, D. Krizanc and L. Narayanan. Balancing Traffic Load Using One-Turn Rectilinear Routing. In Proc. of TAMC, Xi'an, China, April 2008.
  5. Esa Hyytiä and Jorma Virtamo. On The Optimality of Field-Line Routing in Massively Dense Wireless Multi-Hop Networks. Performance Evaluation, vol. 66, 3--5, pp. 158-172, Elsevier, 2009.
Related papers on wireless multihop networks:
  1. D. B. Johnson and D. A. Maltz. Dynamic source routing in ad hoc wireless networks. In Mobile Computing Kluwer, 1996, vol. 353, pp. 153-181, chapter 5.
  2. F. Kuhn, R. Wattenhofer, and A. Zollinger. Asymptotically Optimal Geometric Mobile Ad-Hoc Routing. In Proc. of DIALM, Atlanta, Georgia, September 2002.
  3. F. Kuhn, R. Wattenhofer, Y. Zhang, and A. Zollinger. Geometric ad-hoc routing: Of theory and practice. In In Proc. ACM PODC'03, 2003.
  4. D. Niculescu and B. Nath. Trajectory based forwarding and its applications. In Proc. of MobiCom'03, San Diego, CA, USA, Sep. 2003, pp. 260-272.
  5. H. Frey. Scalable geographic routing algorithms for wireless ad hoc networks. IEEE Network Magazine, vol. 18, no. 4, pp. 18-22, July-Aug. 2004.
Load balancing in fixed networks:
  1. Y. Wang, Z. Wang, and L. Zhang. Internet traffic engineering without full mesh overlaying. In Proc. of IEEE Infocom, Anchorage, Alaska, USA, April 2001.
  2. B. Fortz and M. Thorup. Optimizing OSPF/IS-IS weights in a changing world. IEEE Journal on Selected Areas in Communications, 20(4):756-767, May 2002.
  3. Ashwin Sridharan, Roch Guerin, and Christophe Diot. Achieving near-optimal traffic engineering solutions for current OSPF/IS-IS networks. IEEE/ACM Transaction on Networking, 13(2):234-247, April 2005.
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