Add to ORKGWireless scheduling algorithm can extract multiuser diversity (MUDiv) via prioritizing the users with best current channel condition. One drawback of MUDiv is the required feedback carrying the instantiations channel rate from all active users to the access point base station. This paper shows that this feedback load is, for the most part, unjustified. To alleviate this problem, we propose an optimal discrete rate switch-based multi-user diversity system (DSMUDiv) that allows reducing the feedback load while preserving the essential of the scheme performance. We examine DSMUDiv scheme using an absolute signal-to-noise ratio (SNR)-based scheduling mechanism, assuming all users are independent identical distributed (i.i.d.). We provide a theo...
Abstract—We propose a feedback quantization scheme for downlink multiuser diversity systems. The sch...
We propose a feedback quantization scheme for downlink multiuser diversity systems. The scheme is de...
A novel approach for implementation of opportunistic scheduling without explicit feedback channels i...
Wireless scheduling algorithm can extract multiuser diversity (MUDiv) via prioritizing the users wit...
Wireless scheduling algorithm can extract multiuser diversity (MUDiv) via prioritizing the users wit...
Wireless scheduling algorithm can extract multiuser diversity (MUDiv) via prioritizing the users wit...
In this paper, we propose an optimal discrete rate switch-based multiuser diversity system (DSMUDiv)...
In this paper, we propose an optimal discrete rate switch-based multiuser diversity (DSMUDiv) schedu...
Opportunistic scheduling can significantly improve wireless network performance by exploiting the un...
Opportunistic scheduling can significantly improve wireless network performance by exploiting the un...
We propose a feedback algorithm for wireless networks that always collects feedback from the user wi...
A multiuser switched diversity scheduling scheme with per-user feedback threshold is proposed and an...
We propose a feedback algorithm for wireless networks that always collects feedback from the user wi...
We study opportunistic feedback of channel state and scheduling of users transmissions at a wireless...
Multiuser diversity (MUD) underlies much of the recent work on scheduling design in wireless network...
Abstract—We propose a feedback quantization scheme for downlink multiuser diversity systems. The sch...
We propose a feedback quantization scheme for downlink multiuser diversity systems. The scheme is de...
A novel approach for implementation of opportunistic scheduling without explicit feedback channels i...
Wireless scheduling algorithm can extract multiuser diversity (MUDiv) via prioritizing the users wit...
Wireless scheduling algorithm can extract multiuser diversity (MUDiv) via prioritizing the users wit...
Wireless scheduling algorithm can extract multiuser diversity (MUDiv) via prioritizing the users wit...
In this paper, we propose an optimal discrete rate switch-based multiuser diversity system (DSMUDiv)...
In this paper, we propose an optimal discrete rate switch-based multiuser diversity (DSMUDiv) schedu...
Opportunistic scheduling can significantly improve wireless network performance by exploiting the un...
Opportunistic scheduling can significantly improve wireless network performance by exploiting the un...
We propose a feedback algorithm for wireless networks that always collects feedback from the user wi...
A multiuser switched diversity scheduling scheme with per-user feedback threshold is proposed and an...
We propose a feedback algorithm for wireless networks that always collects feedback from the user wi...
We study opportunistic feedback of channel state and scheduling of users transmissions at a wireless...
Multiuser diversity (MUD) underlies much of the recent work on scheduling design in wireless network...
Abstract—We propose a feedback quantization scheme for downlink multiuser diversity systems. The sch...
We propose a feedback quantization scheme for downlink multiuser diversity systems. The scheme is de...
A novel approach for implementation of opportunistic scheduling without explicit feedback channels i...