This paper addresses the problem of power control in wireless networks with elastic traffic and no central network controller, such as ad hoc networks or hybrid mesh networks. We propose a novel power allocation iteration, prove its local quadratic convergence, and design a feedback/handshake scheme for a distributed implementation of the iteration. The combined feature of quadratic convergence and amenability to decentralized realization makes the algorithm suitable for efficient online application and incorporation in multihop policies. To the best of our knowledge, a similarly fast convergence and decentralization are not offered by any known power control algorithm. The proposed power control concept is designed and analyzed using the p...
We present distributed power control algorithms for a wireless peer-to-peer network with multiple ch...
Abstract — This paper presents an algorithm for distributed power control and scheduling over wirele...
In this thesis, we analyze allocation of two separate resources in wireless networks: transmit power...
This paper addresses the problem of incorporating soft and hard QoS support into the traditional uti...
International audienceThis paper aims at developing a power control framework to jointly optimize en...
In wireless cellular or ad hoc networks where Quality of Service (QoS) is interference-limited, a va...
In wireless cellular networks that are interference-limited, a variety of power control problems can...
In wireless cellular networks that are interference-limited, a variety of power control problems can...
This paper presents a new distributed power control algorithm for ad-hoc wireless networks in random...
Abstract—The current optimal joint rate and power control algorithms for wireless networks are mainl...
The power allocation problem for multiuser wireless networks is considered under the assumption of a...
This paper is concerned with the cross-layer control of wireless multihop networks, in particular wi...
This paper deals with the problem of power allocation in heterogeneous wireless networks such as wir...
Ad hoc wireless networks have emerged as a promising communication scheme to meet the ever growing p...
Abstract—We consider the problem of joint congestion control and power control with outage constrain...
We present distributed power control algorithms for a wireless peer-to-peer network with multiple ch...
Abstract — This paper presents an algorithm for distributed power control and scheduling over wirele...
In this thesis, we analyze allocation of two separate resources in wireless networks: transmit power...
This paper addresses the problem of incorporating soft and hard QoS support into the traditional uti...
International audienceThis paper aims at developing a power control framework to jointly optimize en...
In wireless cellular or ad hoc networks where Quality of Service (QoS) is interference-limited, a va...
In wireless cellular networks that are interference-limited, a variety of power control problems can...
In wireless cellular networks that are interference-limited, a variety of power control problems can...
This paper presents a new distributed power control algorithm for ad-hoc wireless networks in random...
Abstract—The current optimal joint rate and power control algorithms for wireless networks are mainl...
The power allocation problem for multiuser wireless networks is considered under the assumption of a...
This paper is concerned with the cross-layer control of wireless multihop networks, in particular wi...
This paper deals with the problem of power allocation in heterogeneous wireless networks such as wir...
Ad hoc wireless networks have emerged as a promising communication scheme to meet the ever growing p...
Abstract—We consider the problem of joint congestion control and power control with outage constrain...
We present distributed power control algorithms for a wireless peer-to-peer network with multiple ch...
Abstract — This paper presents an algorithm for distributed power control and scheduling over wirele...
In this thesis, we analyze allocation of two separate resources in wireless networks: transmit power...