Title :
Capacity of Gaussian Channels With Energy Harvesting and Processing Cost
Author :
Rajesh, Ramachandran ; Sharma, Vinod ; Viswanath, Pramod
Author_Institution :
Center for Airborne Syst., Defence R&D Organ., Bangalore, India
Abstract :
Energy harvesting sensor nodes are gaining popularity due to their ability to improve the network life time and are becoming a preferred choice supporting green communication. In this paper, we focus on communicating reliably over an additive white Gaussian noise channel using such an energy harvesting sensor node. An important part of this paper involves appropriate modeling of energy harvesting, as done via various practical architectures. Our main result is the characterization of the Shannon capacity of the communication system. The key technical challenge involves dealing with the dynamic (and stochastic) nature of the (quadratic) cost of the input to the channel. As a corollary, we find close connections between the capacity achieving energy management policies and the queueing theoretic throughput optimal policies.
Keywords :
AWGN channels; channel capacity; energy harvesting; environmental factors; fading channels; information theory; queueing theory; telecommunication power management; wireless sensor networks; Gaussian channel capacity; Shannon capacity characterization; additive white Gaussian noise channel; communication system; corollary; energy buffer; energy harvesting; energy harvesting sensor nodes; energy management policies; fading channel; green communication; network life time improvement; processing cost; quadratic cost; queueing theoretic throughput optimal policies; AWGN channels; Buffer storage; Channel capacity; Energy harvesting; Energy management; Sensors; Throughput; Capacity; energy buffer; energy harvesting; fading channel; network life time; sensor networks;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2014.2311822
