We consider the medium access control (MAC) layer for very high-speed Wireless LANs, which is designed to support rich multimedia applications such as highdefinition television. In such networks, the physical (PHY) layer data rate is proposed to exceed 216Mbps. The legacy MAC layer, however, greatly restricts the performance improvement due to its overhead. It has been shown that MAC utilizes less than 20% of the transportation ability provided by the PHY layer. To mitigate this inefficiency, we propose an Aggregation with Fragment Retransmission (AFR) scheme, which supports transmissions of very large frames and partial retransmissions in the case of errors. Aggregation allows for increased performance despite pertransmission overhead whil...
IEEE 802.11n is a developing next-generation standard for wireless local area network (LAN). Seamles...
This research considered the efficient transmission of data within a wireless local area network (WL...
The main goal of the IEEE 802.11n standard is to achieve a minimum throughput of 100 Mbps at the MAC...
We consider the medium access control (MAC) layer for very high-speed Wireless LANs, which is design...
We consider the medium access control (MAC) layer for very high-speed Wireless LANs, which is design...
Abstract—In upcoming very high-speed wireless LANs (WLANs), the physical (PHY) layer rate may reach ...
IEEE 802.11n is an ongoing next-generation wireless LAN standard that supports a very highspeed conn...
Abstract-The latest generation of Wireless Local Area Networks (WLANs) is based on IEEE 802.11n-2009...
In this document we propose a scheme of packet Aggregation with Fragment-Retransmission (AFR) for th...
IEEE 802.11n is an ongoing next-generation wireless LAN standard that supports a very highspeed conn...
Abstract Recent developments on the IEEE 802.11 family of standards promise significant increases in...
The exploitation of the 60 GHz band is a very promising approach to fulfill the rapidly increasing d...
Recently, the very high throughput (VHT) IEEE 802.11ac amendment has emerged as the fifth generation...
AbstractIEEE 802.11n standard is introduced to enhance the throughput to more than 100Mbps at the MA...
textAs the data rates supported by the physical layer increase, overheads increasingly dominate the ...
IEEE 802.11n is a developing next-generation standard for wireless local area network (LAN). Seamles...
This research considered the efficient transmission of data within a wireless local area network (WL...
The main goal of the IEEE 802.11n standard is to achieve a minimum throughput of 100 Mbps at the MAC...
We consider the medium access control (MAC) layer for very high-speed Wireless LANs, which is design...
We consider the medium access control (MAC) layer for very high-speed Wireless LANs, which is design...
Abstract—In upcoming very high-speed wireless LANs (WLANs), the physical (PHY) layer rate may reach ...
IEEE 802.11n is an ongoing next-generation wireless LAN standard that supports a very highspeed conn...
Abstract-The latest generation of Wireless Local Area Networks (WLANs) is based on IEEE 802.11n-2009...
In this document we propose a scheme of packet Aggregation with Fragment-Retransmission (AFR) for th...
IEEE 802.11n is an ongoing next-generation wireless LAN standard that supports a very highspeed conn...
Abstract Recent developments on the IEEE 802.11 family of standards promise significant increases in...
The exploitation of the 60 GHz band is a very promising approach to fulfill the rapidly increasing d...
Recently, the very high throughput (VHT) IEEE 802.11ac amendment has emerged as the fifth generation...
AbstractIEEE 802.11n standard is introduced to enhance the throughput to more than 100Mbps at the MA...
textAs the data rates supported by the physical layer increase, overheads increasingly dominate the ...
IEEE 802.11n is a developing next-generation standard for wireless local area network (LAN). Seamles...
This research considered the efficient transmission of data within a wireless local area network (WL...
The main goal of the IEEE 802.11n standard is to achieve a minimum throughput of 100 Mbps at the MAC...