Outline Introduction Routing in Mobile Ad Hoc Networks

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Presentation transcript:

Outline Introduction Routing in Mobile Ad Hoc Networks Our Contribution: General Scheme DDR - Distributed Dynamic Routing Algorithm HARP - Hybrid Ad Hoc Routing Protocol Mathematical Analysis Conclusion and Future Work Introduction, Routing, Contribution: DDR & HARP, Analysis, Conclusion

Introduction Packet Radio::Multihop::Mobile Ad Hoc Networks. Pros or Cons? Wireless, Mobility, Fully Mobile Infrastructure. Routing Introduction, Routing, Contribution: DDR & HARP, Analysis, Conclusion

Traffic/Application Requirements Routing Traffic/Application Requirements Routing Functionalities: Distributing routing info. Routing discovery/computing Forwarding Maintaining Manet Characteristics: Wireless Link Node Mobility Fully Mobile Infrastructure Routing Network Properties Distributed, Convergent, Dynamic, Loop-free. Scalability (e.g. GPS-based), Fast route establishment, multiple route selection, energy & bandwidth efficiency, fast adaptability to link changes, unidirectional link support. Introduction, Routing, Contribution: DDR & DDRP, Analysis, Conclusion

Contribution Application HARP DDR Network Routing Delay, loss rate, stability, etc. Route Determination With respect to Application Requirements Application HARP DDR Network Routing Topology Creation With respect to Network Properties # of nodes, frequency of E2E connection & of topology changes Introduction, Routing, Contribution: DDR & HARP, Analysis, Conclusion

DDR Basic Idea Network Topology Forest TREE TREE …. TREE BEACON Forest TREE TREE …. TREE DDR BEACON ZONE ZONE …. ZONE TIME Introduction, Routing, Contribution: DDR & HARP, Analysis, Conclusion

HARP Ideas Goal? To establish the most stable path + Zone level routing instead of node level !? Metric: Zone level stability Hybrid: intra-zone forwarding & inter-zone routing Hybrid path maintenance: reactive & proactive Introduction, Routing, Contribution: DDR & HARP, Analysis, Conclusion

Topology Creation Under DDR z2 c h c h d DDR g d g w b w k b k x v z a x v z f a y f z1 y u s t s u i n t e i n e z3 INTRA-ZONE TABLE OF NODES k AND f INTER-ZONE TABLE OF NODE d NID Learned_PN f a, b, s, y, t, x c - d - NID Learned_PN y x, t k c, d b, a, s - NID NZID Z_Stabilit g z2 ++ Introduction, Routing, Contribution: DDR & HARP, Analysis, Conclusion

HARP Routing Model Zone level routing Path Maintenance Inter-zone Intra-zone forwarding Zone Stability Path Discovery FORWARDING FORWARDING Data Delivery Intra-zone table Inter-zone table Introduction, Routing, Contribution:DDR & HARP, Analysis, Conclusion

HARP: Intrazone Forwarding C H G W B D Z2 K V X Z A F Y U T S I N DATA Trans. Z1 Z3 E Introduction, Routing, Contribution: DDR & HARP, Analysis, Conclusion

HARP: Interzone Routing C H G W B N Z2 LEAF NODE K V Selective Filtering X Z A F Y Path Selection U Path Request T S I D Z1 Z3 E Introduction, Routing, Contribution: DDR & HARP, Analysis, Conclusion

HARP: Interzone Routing C H G W B N Z2 K V Selective Filtering X Z A F Y Path Reply U T S I D Z1 Z3 E Introduction, Routing, Contribution: DDR & HARP, Analysis, Conclusion

HARP: Interzone Routing C H G W B N Z2 K V X Z A F Y U T S I D DATA Trans. Z1 Z3 E Introduction, Routing, Contribution: DDR & HARP, Analysis, Conclusion

DDR Complexity ZHLS N2/M+NM ZRP N2 DDR N2/M Protocol Topology Creation ZHLS N2/M+NM ZRP N2 DDR N2/M N: # of nodes M: # of zones : routing zone radius : amount of intra-zone traffic Introduction, Routing, Contribution: DDR & HARP, Analysis, Conclusion

HARP Analysis CO PD = P*(N+Y) The communication overhead (CO) generated to perform path discovery (PD) operation for HARP is: N: # of nodes M: # of zones P = 1 -1 / M Y: # of nodes affected by path reply CO PD = P*(N+Y) Introduction, Routing, Contribution: DDR & HARP, Analysis, Conclusion

Contribution HARP DDR Our contribution aims for scalability under: ! NOTICE: Our contribution aims for scalability under: medium number of nodes in the network!? medium mobility rate!? HARP DDR Introduction, Routing, Contribution: DDR & HARP, Analysis, Conclusion

Outline Mobile Ad Hoc Networks Routing New Architecture: DDR & HARP? DDR- Topology Creation Network Properties HARP- Route Determination Appl. Requirments Mathematical Analysis Introduction, Routing, Contribution: DDR & HARP, Analysis, Conclusion

DDR+HARP Conclusion What we gained: Adaptive Architecture Limited Path Discovery propagation without GPS Dynamic Zones Zone level stability and the tree structure Hybrid path maintenance: Proactive & Reactive Performance Evaluation under various condition Introduction, Routing, Contribution:DDR & HARP, Analysis, Conclusion