International audienceWith the continuous evolution of wireless technologies, there is today a plethora of access networks ranging from wireless hotspots to high speed cellular networks. Within this rich environment and with multimodal terminals that are able to connect to different wireless technologies at once, users are expecting to benefit from higher throughput and enhanced QoS. However, the coexistence of several wireless systems rises different technical challenges including interface selection, packet scheduling, multi-path routing and mobility management. At the network level, recent protocols such as MTCP and mSCTP allow session continuity and offer the possibility of seamlessly adapting IP routing during a transmission session. T...
In this paper we present a QoS scheduler that assigns the bandwidth over the wireless channel such t...
One of the major concern for 802.11b wireless local area network is energy efficiency. In fact, mobi...
In many portable devices, wireless network interfaces consume upwards of 30% of scarce system energy...
Cross-layer scheduling can significantly improve the performance of conventional cellular systems by...
Abstract — Efficient use of energy while providing an adequate level of connection to individual ses...
In recent years, it has become common consensus that independent consideration of communication laye...
Quality of service (QoS) for a network is characterized in terms of various parameters specifying pa...
Energy is a critical resource in the design of Ad-hoc and multi-hop wireless networks, since wireles...
With the increasing consumer demand for high-speed wireless access to the Internet, new technologies...
Abstract: Realizing a communication system over wireless links that simultaneously offers QoS guaran...
International audienceGuaranteeing high system capacity while offering low system energy consumption...
In this thesis we considered minimizing energy consumption with and providing QoS in WSN which is ve...
International audienceAs a result of the increasing number of machine-type devices connected through...
The growing prevalence of wireless ad hoc networks calls for an innovative design to support Quality...
Traditional communication systems are designed using a layered approach based on the open system int...
In this paper we present a QoS scheduler that assigns the bandwidth over the wireless channel such t...
One of the major concern for 802.11b wireless local area network is energy efficiency. In fact, mobi...
In many portable devices, wireless network interfaces consume upwards of 30% of scarce system energy...
Cross-layer scheduling can significantly improve the performance of conventional cellular systems by...
Abstract — Efficient use of energy while providing an adequate level of connection to individual ses...
In recent years, it has become common consensus that independent consideration of communication laye...
Quality of service (QoS) for a network is characterized in terms of various parameters specifying pa...
Energy is a critical resource in the design of Ad-hoc and multi-hop wireless networks, since wireles...
With the increasing consumer demand for high-speed wireless access to the Internet, new technologies...
Abstract: Realizing a communication system over wireless links that simultaneously offers QoS guaran...
International audienceGuaranteeing high system capacity while offering low system energy consumption...
In this thesis we considered minimizing energy consumption with and providing QoS in WSN which is ve...
International audienceAs a result of the increasing number of machine-type devices connected through...
The growing prevalence of wireless ad hoc networks calls for an innovative design to support Quality...
Traditional communication systems are designed using a layered approach based on the open system int...
In this paper we present a QoS scheduler that assigns the bandwidth over the wireless channel such t...
One of the major concern for 802.11b wireless local area network is energy efficiency. In fact, mobi...
In many portable devices, wireless network interfaces consume upwards of 30% of scarce system energy...