Three types of collision-free channel access protocols for ad hoc networks are presented. These protocols are derived from a novel approach to contention resolution that allows each node to elect deterministically one or multiple winners for channel access in a given contention context (e.g., a time slot), given the identiers of its neighbors one and two hops away. The new protocols are shown to be fair and capable of achieving maximum utilization of the channel bandwidth. The delay and throughput characteristics of the contention resolution algorithms are analyzed, and the performance of the three types of channel access protocols is studied by simulations. 1
Abstract — Using two-hop neighborhood information, we present the hybrid activation multiple access ...
Current wireless ad hoc networks suffer from two main performance limitations. First, current ad hoc...
In ad-hoc wireless network, the nodes share a common broadcast radio channel and it may be possible ...
Using two-hop neighborhood information, we develop four approaches for time-division channel access ...
A new channel access protocol for ad-hoc networks based on topology-dependent transmission schedulin...
Abstract — A novel multichannel schedule-based Medium Access Control (MAC) protocol for ad-hoc netwo...
Due to their dynamic topologies, providing Quality of Service (QoS) in wireless ad hoc networks intr...
Abstract—Many contention-based channel access schemes have been proposed for multi-hop ad hoc networ...
CSMA/CA (Carrier Sense Multiple Access/Collision Avoidance) is actually the most used method in ad-h...
Abstract—We investigate distributed channel-aware medium access control for wireless networks with a...
We present the hybrid activation multiple access (HAMA) protocol for ad hoc networks. Unlike previou...
Ad-hoc networks have very unique features, such as dynamic topologies, relatively limited bandwidth ...
Abstract—Many contention-based channel access schemes have been proposed for multi-hop ad hoc networ...
We address the problem of channel-aware scheduling for wireless ad-hoc net-works, where the channel ...
In this paper we present an Improved Contention-Free Multi-Channel Medium Access Control protocol (I...
Abstract — Using two-hop neighborhood information, we present the hybrid activation multiple access ...
Current wireless ad hoc networks suffer from two main performance limitations. First, current ad hoc...
In ad-hoc wireless network, the nodes share a common broadcast radio channel and it may be possible ...
Using two-hop neighborhood information, we develop four approaches for time-division channel access ...
A new channel access protocol for ad-hoc networks based on topology-dependent transmission schedulin...
Abstract — A novel multichannel schedule-based Medium Access Control (MAC) protocol for ad-hoc netwo...
Due to their dynamic topologies, providing Quality of Service (QoS) in wireless ad hoc networks intr...
Abstract—Many contention-based channel access schemes have been proposed for multi-hop ad hoc networ...
CSMA/CA (Carrier Sense Multiple Access/Collision Avoidance) is actually the most used method in ad-h...
Abstract—We investigate distributed channel-aware medium access control for wireless networks with a...
We present the hybrid activation multiple access (HAMA) protocol for ad hoc networks. Unlike previou...
Ad-hoc networks have very unique features, such as dynamic topologies, relatively limited bandwidth ...
Abstract—Many contention-based channel access schemes have been proposed for multi-hop ad hoc networ...
We address the problem of channel-aware scheduling for wireless ad-hoc net-works, where the channel ...
In this paper we present an Improved Contention-Free Multi-Channel Medium Access Control protocol (I...
Abstract — Using two-hop neighborhood information, we present the hybrid activation multiple access ...
Current wireless ad hoc networks suffer from two main performance limitations. First, current ad hoc...
In ad-hoc wireless network, the nodes share a common broadcast radio channel and it may be possible ...