Abstract — In this paper, we propose an enhancement to the original MAC (multiple access control) protocol in the IEEE 802.11 standard by improving the handshake mechanism and adding one more separate power control channel. With the control channel, the receiver notifies its neighbors about the noise tolerance. Thus, the neighbors can adjust their transmission power levels to avoid packet collision at the receiver. Through extensive simulations on the NS-2 platform, our power control mechanism is found to be effective in that network throughput can be increased by abou
The IEEE 802.11 DCF (Distributed Coordination Function) is based on CSMA/CA (Carrier Sense Multiple ...
In this paper we study the correlations that exist between the required transmission power of RTS, C...
In wireless ad hoc networks, effective spatial channel reuse can maximize the achievable throughput....
In an ad hoc wireless network using IEEE 802.11 as the multiple access control (MAC) protocol, power...
In an ad hoc wireless network using IEEE 802.11 as the multiple access control (MAC) protocol, power...
Abstract—This paper proposes a power control MAC protocol that allows the nodes to vary transmission...
Power control in mobile and wireless ad hoc networks has received increasing research interest in re...
Abstract: Several MAC layer power control protocols have been proposed to address the limited power ...
Abstract—In this paper, we propose a power control MAC protocol that improves the spatial reuse of w...
Wireless ad-hoc networking involves point to point communication in a network. To achieve an energy ...
Abstract — Transmission power control (TPC) has great potential to increase the throughput of a mobi...
Abstract—The IEEE 802.11 [1] provides multiple channels for wireless communications at the Physical ...
The medium access control (MAC) protocol is designed only for single channel in the IEEE 802.11 stan...
Battery energy limitation has become a performance bottleneck for mobile ad hoc networks. IEEE 802....
Power control for mobile ad hoc networks has received an increasing research interests in recent yea...
The IEEE 802.11 DCF (Distributed Coordination Function) is based on CSMA/CA (Carrier Sense Multiple ...
In this paper we study the correlations that exist between the required transmission power of RTS, C...
In wireless ad hoc networks, effective spatial channel reuse can maximize the achievable throughput....
In an ad hoc wireless network using IEEE 802.11 as the multiple access control (MAC) protocol, power...
In an ad hoc wireless network using IEEE 802.11 as the multiple access control (MAC) protocol, power...
Abstract—This paper proposes a power control MAC protocol that allows the nodes to vary transmission...
Power control in mobile and wireless ad hoc networks has received increasing research interest in re...
Abstract: Several MAC layer power control protocols have been proposed to address the limited power ...
Abstract—In this paper, we propose a power control MAC protocol that improves the spatial reuse of w...
Wireless ad-hoc networking involves point to point communication in a network. To achieve an energy ...
Abstract — Transmission power control (TPC) has great potential to increase the throughput of a mobi...
Abstract—The IEEE 802.11 [1] provides multiple channels for wireless communications at the Physical ...
The medium access control (MAC) protocol is designed only for single channel in the IEEE 802.11 stan...
Battery energy limitation has become a performance bottleneck for mobile ad hoc networks. IEEE 802....
Power control for mobile ad hoc networks has received an increasing research interests in recent yea...
The IEEE 802.11 DCF (Distributed Coordination Function) is based on CSMA/CA (Carrier Sense Multiple ...
In this paper we study the correlations that exist between the required transmission power of RTS, C...
In wireless ad hoc networks, effective spatial channel reuse can maximize the achievable throughput....