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Hybrid channel access scheduling in ad hoc networks

We present the hybrid activation multiple access (HAMA) protocol for ad hoc networks. Unlike previous channel access scheduling protocols that activate either nodes or links only, HAMA is a node-activation channel access protocol that also maximizes the chance of link activations using time- and cod...

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Main Authors:	Lichun Bao, Garcia-Luna-Aceves, J.J.
Format:	Conference Proceeding
Language:	English
Subjects:	Access protocols Ad hoc networks Algorithm design and analysis Analytical models Information analysis Multiaccess communication Scheduling algorithm Spread spectrum communication Throughput Wireless networks
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creator	Lichun Bao Garcia-Luna-Aceves, J.J.
description	We present the hybrid activation multiple access (HAMA) protocol for ad hoc networks. Unlike previous channel access scheduling protocols that activate either nodes or links only, HAMA is a node-activation channel access protocol that also maximizes the chance of link activations using time- and code-division schemes. HAMA only requires identifiers for the neighbors within two hops from each node to schedule channel access. Using this neighborhood information, each node determines whether to transmit in the current time slot on a dynamically assigned spreading code. A neighbor protocol supplements HAMA with up-to-date two-hop neighborhood information by reliably propagating the one-hop neighbor updates through a novel random access technique. The throughput and delay characteristics of HAMA in randomly-generated multihop wireless networks are studied by analyses and simulations. The results of the analyses show that HAMA achieves higher channel utilization in ad hoc networks than a distributed scheduling scheme based on node activation, similar throughput as a well-known scheduling algorithm based on complete topology information, and much higher throughput than the ideal CSMA and CSMA/CA protocols.
doi_str_mv	10.1109/ICNP.2002.1181385
format	conference_proceeding
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Unlike previous channel access scheduling protocols that activate either nodes or links only, HAMA is a node-activation channel access protocol that also maximizes the chance of link activations using time- and code-division schemes. HAMA only requires identifiers for the neighbors within two hops from each node to schedule channel access. Using this neighborhood information, each node determines whether to transmit in the current time slot on a dynamically assigned spreading code. A neighbor protocol supplements HAMA with up-to-date two-hop neighborhood information by reliably propagating the one-hop neighbor updates through a novel random access technique. The throughput and delay characteristics of HAMA in randomly-generated multihop wireless networks are studied by analyses and simulations. 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subjects	Access protocols Ad hoc networks Algorithm design and analysis Analytical models Information analysis Multiaccess communication Scheduling algorithm Spread spectrum communication Throughput Wireless networks
title	Hybrid channel access scheduling in ad hoc networks
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