We consider the following queueing system which arises as a model of a wireless link shared by multiple users. Multiple flows must be served by a "channel" (server).
This paper considers the multi-user scheduling algorithms for mixed streaming and best-effort service scenario over wideband frequency-selective and time varying channel in cellular network such as
We consider the following queuing system which arises as a model of a wireless link shared by multiple users. There is a finite number N of input flows served by a server.
Effective scheduling in Heterogenous Networks is key to realising the benefits from enhanced Inter-Cell Interference Coordination.
Large-scale data processing needs of enterprises today are primarily met with distributed and parallel computing in data centers.
Synchronous networks-on-chip (NoC) require tailored schedulers achieving low latency, high throughput, and fairness while avoiding packet collisions.
We study the problem of efficiently scheduling users in a Gaussian broadcast channel with M transmit antennas and K independent receivers, each with a single antenna.
In 1920 only ten per cent of the 14 million poles in line owned wholly or in part by the Bell System were treated full-length with preservatives.
In prior works [1,2] we proposed optimal algorithms for uplink scheduling in a CDMA cell that does not employ any form of intereference cancellation.
Uplink scheduling in wireless systems is gaining importance due to arising uplink intensive data services (ftp, image uploads etc.