Media type: E-Article Title: A multiple relay‐based medium access control protocol in multirate wireless ad hoc networks with multiple beam antennas Contributor: Chen, Yuh‐Shyan; Hsu, Chih‐Shun; Chen, Po‐Ta imprint: Wiley, 2010 Published in: International Journal of Communication Systems Language: English DOI: 10.1002/dac.1094 ISSN: 1074-5351; 1099-1131 Keywords: Electrical and Electronic Engineering ; Computer Networks and Communications Origination: Footnote: Description: <jats:title>Abstract</jats:title><jats:p>The advanced technique of multiple beam antennas is recently considered in wireless networks to improve the system throughput by increasing spatial reuse, reducing collisions, and avoiding co‐channel interference. The usage of multiple beam antennas is similar to the concept of Space Division Multiple Access (SDMA), while each beam can be treated as a data channel. Wireless networks can increase the total throughput and decrease the transmission latency if the physical layer of a mobile node can support multirate capability. Multirate wireless networks incurs the <jats:italic>anomaly</jats:italic> problem, because low data rate hosts may influence the original performance of high data rate hosts. In this work, each node fits out multiple beam antennas with multirate capability, and a node can either simultaneously transmit or receive multiple data on multiple beams. Observe that the transmitting or receiving operation does not happen at the same time. In this paper, we propose a multiple relay‐based medium access control (MAC) protocol to improve the throughput for low data rate hosts. Our MAC protocol exploits multiple relay nodes and helps the source and the destination to create more than one data channel to significantly reduce the transmission latency. Observe that low data rate links with long‐distance transmission latencies are distributed by multiple relay nodes, hence the anomaly problem can be significantly alleviated. In addition, the ACK synchronization problem is solved to avoid the condition that source nodes do not receive ACKs from destination nodes. An adjustment operation is presented to reduce unnecessary relay nodes during the fragment burst period. Finally, simulation results illustrate that our multiple relay‐based MAC protocol can achieve high throughput and low transmission latency. Copyright © 2009 John Wiley & Sons, Ltd.</jats:p>