We extend the proportional fair (PF) scheduling algorithm to systems with multiple antennas. There are K client users (each with a single antenna) and one base station (with n(R) antennas). We focus on the reverse link of the system, and assume a slow-fading channel where clients are moving with pedestrian speed. Qualcomm's original PF scheduling algorithm satisfies the PF criteria only when the communication is constrained to one user at a time with no power waterfilling. However, the original PF algorithm does not generalize easily when we have nR receive antennas at the base station. In this paper, we shall formulate the PF scheduling design as a convex optimization problem. One challenge is in the optimal power allocation over the multi...
In wireless communications, it is of utmost importance to exploit multi-user diversity and at the sa...
This paper provides an analytical evaluation of the performance of proportional fair (PF) scheduling...
[[abstract]]In wireless environment, channel condition varies from time to time. If we can exploit m...
Abstract−The effective applications of the proportional fair scheduling (PFS) scheme are investigate...
This paper deals with the spatio-temporal scheduling of a set of users for downlink transmission in ...
We propose a novel proportional fair space time scheduling algorithm to enhance the reverse link cap...
Channel aware and opportunistic scheduling algorithms exploit the channel knowledge and fading to in...
Nowadays proportional fairness (PF) scheduling has attracted much attention in various wireless syst...
International audienceIn wireless networks, providing a fair bandwidth allocation without too much r...
The proportional fair allocation depends firstly upon the priority weights given to users and second...
The multi-user MIMO space time scheduling problem is the prime focus of the paper. Optimizing the li...
This paper considers the problem of uplink scheduling in wireless networks supporting successive int...
n this paper, we present an uplink scenario where primary and secondary users coexist on the same se...
Abstract — The bandwidth-limited wireless channel can con-siderably improve the performance by explo...
[[abstract]]In wireless environment, channel condition varies from time to time. If we can exploit m...
In wireless communications, it is of utmost importance to exploit multi-user diversity and at the sa...
This paper provides an analytical evaluation of the performance of proportional fair (PF) scheduling...
[[abstract]]In wireless environment, channel condition varies from time to time. If we can exploit m...
Abstract−The effective applications of the proportional fair scheduling (PFS) scheme are investigate...
This paper deals with the spatio-temporal scheduling of a set of users for downlink transmission in ...
We propose a novel proportional fair space time scheduling algorithm to enhance the reverse link cap...
Channel aware and opportunistic scheduling algorithms exploit the channel knowledge and fading to in...
Nowadays proportional fairness (PF) scheduling has attracted much attention in various wireless syst...
International audienceIn wireless networks, providing a fair bandwidth allocation without too much r...
The proportional fair allocation depends firstly upon the priority weights given to users and second...
The multi-user MIMO space time scheduling problem is the prime focus of the paper. Optimizing the li...
This paper considers the problem of uplink scheduling in wireless networks supporting successive int...
n this paper, we present an uplink scenario where primary and secondary users coexist on the same se...
Abstract — The bandwidth-limited wireless channel can con-siderably improve the performance by explo...
[[abstract]]In wireless environment, channel condition varies from time to time. If we can exploit m...
In wireless communications, it is of utmost importance to exploit multi-user diversity and at the sa...
This paper provides an analytical evaluation of the performance of proportional fair (PF) scheduling...
[[abstract]]In wireless environment, channel condition varies from time to time. If we can exploit m...