We consider a single-antenna broadcast block fading channel with n users where the transmission is packetbased. We define the (packet) delay as the minimum number of channel uses that guarantees all n users successfully receive m packets. This is a more stringent notion of delay than average delay and is the worst case (access) delay among the users. A delay optimal scheduling scheme, such as round-robin, achieves the delay of mn. For the opportunistic scheduling (which is throughput optimal) where the transmitter sends the packet to the user with the best channel conditions at each channel use, we derive the mean and variance of the delay for any m and n. For large n and in a homogeneous network, it is proved that the expected delay in r...
In this paper, we study a distributed opportunistic scheduling problem to exploit the channel fluct...
In this paper, we provide theoretical and simulation-based study of the delivery delay performance o...
High demands on the quality of service (QoS), in terms of throughput, delay, and packet loss, in wir...
We consider a single-antenna broadcast fading channel with n backlogged users. Assuming the transmis...
Abstract- We consider a single-antenna broadcast block fad-ing channel (downlink scheduling) with TL...
Throughput and per-packet delay can present strong trade-offs that are important in the cases of del...
textWe investigate in detail two multiuser opportunistic scheduling problems in centralized wireless...
In this paper, we study opportunistic multicast scheduling (OMS) in a wireless network with a centra...
Characterization of the delay profile of systems employing random linear network coding is important...
This work addresses opportunistic distributed multiuser scheduling in the presence of a fixed packet...
In this paper, a single-antenna broadcast channel with large (K) number of users is considered. It i...
Abstract — In this paper, we focus on a packet scheduling algorithm exploiting multiuser diversity i...
In multiple-user communications, the bursty nature of the packet arrival times cannot be divorced fr...
Abstract — In this paper, we focus on a packet scheduling algorithm exploiting multiuser diversity i...
Next generation wireless and mobile communication systems are rapidly evolving to satisfy the demand...
In this paper, we study a distributed opportunistic scheduling problem to exploit the channel fluct...
In this paper, we provide theoretical and simulation-based study of the delivery delay performance o...
High demands on the quality of service (QoS), in terms of throughput, delay, and packet loss, in wir...
We consider a single-antenna broadcast fading channel with n backlogged users. Assuming the transmis...
Abstract- We consider a single-antenna broadcast block fad-ing channel (downlink scheduling) with TL...
Throughput and per-packet delay can present strong trade-offs that are important in the cases of del...
textWe investigate in detail two multiuser opportunistic scheduling problems in centralized wireless...
In this paper, we study opportunistic multicast scheduling (OMS) in a wireless network with a centra...
Characterization of the delay profile of systems employing random linear network coding is important...
This work addresses opportunistic distributed multiuser scheduling in the presence of a fixed packet...
In this paper, a single-antenna broadcast channel with large (K) number of users is considered. It i...
Abstract — In this paper, we focus on a packet scheduling algorithm exploiting multiuser diversity i...
In multiple-user communications, the bursty nature of the packet arrival times cannot be divorced fr...
Abstract — In this paper, we focus on a packet scheduling algorithm exploiting multiuser diversity i...
Next generation wireless and mobile communication systems are rapidly evolving to satisfy the demand...
In this paper, we study a distributed opportunistic scheduling problem to exploit the channel fluct...
In this paper, we provide theoretical and simulation-based study of the delivery delay performance o...
High demands on the quality of service (QoS), in terms of throughput, delay, and packet loss, in wir...