Publications

The operation of wireless cellular networks can be efficiently supported by secondary small cells that are deployed on-demand in traffic hotspots within the coverage area of the primary macro cells

The operation of wireless cellular networks can be efficiently supported by secondary small cells that are on-demand deployed in traffic hotspots within the coverage area of the primary macro-cells

There has been a lot of recent interest in the potential of inter-base station cooperation techniques to manage excessive out-of-cell interference in evolving cellular networks.

We have previously proposed a Hardy-type test of local realism that employs continuous variables.

At present there is great interest in modeling the traffic-handling characteristics of computer and communication systems using queueing networks.1"4 The change in cost of electronic solid-state ci

In this paper, we derive upper and lower bounds on the mean of speech corrupted by additive noise. The bounds are derived in the log spectral domain.

In this paper, we consider the estimation of Gallager's random coding exponent (RCE) for a peak power constraint at the transmitter for the two-dimensional fading channel with additive white Gaussi

When a signal is transmitted through a low pass filter, it is desired to recover i at the output. In practice, signals are of compact support, thus have infinite bandwidth.

We consider the situation where a data sequence a0, · · ·, a^-i of ± l ' s is transmitted via pulse amplitude modulation as Y,k=ol h(t -- kT)ak and received in the presence of additive white gaussi

In digital transmission systems, the transmission channel often does not pass dc. This causes the well-known problem of baseline wander.