Fundamentals of Heterogeneous Cellular Networks
Wednesday, March 5, 2014 - 8:45am - 9:45am
KEC 1007
Harpreet S. Dhillon
Postdoctoral Research Associate
Department of Electrical Engineering
University of Southern California
Abstract:
The increasing complexity of heterogeneous cellular networks (HetNets) due to
the irregular deployment of small cells demands significant rethinking in the
way cellular networks are perceived, modeled and analyzed. In addition to
threatening the relevance of classical models, this new network paradigm also
questions the feasibility of state-of-the-art simulation-based approach for
system design. In this talk, I will discuss an alternate approach based on
random spatial models that is not only tractable but also captures current
deployment trends fairly accurately.
First, I will present a general baseline model consisting of K different types of base
stations (BSs) that may differ in terms of transmit power, deployment density and target
rate. Modeling the locations of each class of BSs as an independent Poisson Point Process
(PPP) allows the derivation of surprisingly simple expressions for key performance
metrics. One interpretation of these results is that adding more BSs or tiers does not
necessarily change the coverage probability, which indicates that the fears of
"interference overload" in HetNets are probably overblown.
Second, I will discuss how the baseline model can be generalized to study
self-powered HetNets, where each BS is powered solely by a self-contained
energy harvesting module that may differ across tiers in terms of the energy
harvesting rate and energy storage capacity. Since a BS may not always have
sufficient energy, it may not always be available to serve users. This leads to
a notion of Âavailability regionÂ, which characterizes the fraction of time
each type of BS can be made available under a variety of operational
strategies. The availability region also provides a way to quantify performance
degradation due to the unreliability associated with energy harvesting.
Time permitting, I will also discuss a few more topics of current interest,
most notably: (i) multi-antenna HetNets, and (ii) ongoing work on wireless
backhaul networks.
Biography:
Harpreet S. Dhillon received the B.Tech. in Electronics and Communication Engineering from Indian Institute of Technology (IIT) Guwahati, India, in 2008, the M.S. in Electrical Engineering from Virginia Tech, Blacksburg, VA, in 2010, and the Ph.D. in Electrical Engineering from the University of Texas (UT) at Austin, TX, in 2013. Since Fall 2013, he is a postdoctoral research associate in the Communication Sciences Institute (CSI), Department of Electrical Engineering, University of Southern California (USC), Los Angeles, CA. He has held summer internships at Alcatel-Lucent Bell Labs in Crawford Hill, NJ, Samsung Research America in Dallas, TX, Qualcomm Inc. in San Diego, CA, and Cercom, Politecnico di Torino in Italy.
Dr. Dhillon is a recipient of the IEEE International Conference in
Communications (ICC) 2013 best paper award in Wireless Communications
Symposium, UT Austin's Wireless Networking and Communications Group (WNCG)
leadership award 2013, UT Austin's Microelectronics and Computer Development
(MCD) fellowship, and the Agilent Engineering and Technology Award 2008, a
national award for the best undergraduate research thesis in India. His
research interests are broadly in communication theory, stochastic geometry,
and wireless ad hoc and cellular networks. For more details, please refer to:
https://webspace.utexas.edu/hd3496/www/.
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