Power Efficient Positioning for Visible Light Systems via Chance Constrained Optimization
Artikel i vetenskaplig tidskrift, 2020

The problem of minimizing total power consumption in light-emitting diode (LED) transmitters is investigated for achieving power efficient localization in a visible light communication and positioning (VLCP) system. A robust power allocation approach based on stochastic uncertainties is proposed
for total power minimization in the presence of localization accuracy, power, and illumination constraints. Specifically, the power consumption minimization problem is formulated under a chance constraint on the probability of Cramer-Rao lower bound (CRLB) exceeding a tolerable limit, which is a computationally intractable constraint. The sphere bounding method is used to propose a safe convex approximation to this intractable constraint, which makes the resulting problem suitable for standard convex optimization tools. Numerical results demonstrate the advantages of the proposed robust solution over the nonrobust solution and uniform power allocation in the presence of stochastic uncertainty.

chance constrained programming

power efficiency

Visible light communication and positioning (VLCP)

convex optimization.

robust design


Onurcan Yazar

Bilkent Universitesi

Furkan Keskin

Chalmers, Elektroteknik, Kommunikations- och antennsystem, Kommunikationssystem

Sinan Gezici

Bilkent Universitesi

IEEE Transactions on Aerospace and Electronic Systems

0018-9251 (ISSN)

Vol. 56 5 4124-4131




Annan elektroteknik och elektronik



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