Publications

Abstract?This paper presents mechanisms that have the potential for dramatically reducing end-to-end delay in mobile networks.

This paper presents mechanisms that have the potential for dramatically reducing end-to-end delay in mobile networks.

This paper presents mechanisms that have the potential for dramatically reducing end-to-end delay in mobile networks.

We study the problem of providing end-to-end delay guarantees in connection-oriented networks. In this environment, multiple-hop sessions coexist and interfere with one another.

The growing end-user demand for video services with superior quality on laptops, tablets, and smartphones spurs the deployment of telco content distribution networks (CDNs).

It is well known that for preemptive scheduling on uniform machines there exist polynomial time exact algorithms, whereas for non-preemptive scheduling there are probably no such algorithms.

We study wavelength assignment in an optical network where each fiber has a fixed capacity of mu wavelengths.

In this paper a new technique of controlling signal trace characteristic impedance by altering the characteristic of a grid-like ground plane is described.

One of the main challenges in all-IP networks is the development of suitable mobility solution. Mobile IP (MIP) presents the standard protocol used to support IP mobility.

We study the problem of scheduling activities of several types under the constraint that, at most, a fixed number of activities can be scheduled in any single time slot An given activity type is as