Distributed Scheduling Schemes in Energy Harvesting Multiple Access

We consider a time-slotted distributed multiple access channel model with energy harvesting transmitters, where each transmitter is equipped with a battery of finite capacity. At the start of each time slot, a random amount of harvested energy is available from an exogenous energy source. Each transmitter only knows its own arrival process, and is unaware of the energy arrival processes at the other terminals, leading to a distributed access system. For this set up, we design efficient rate and power scheduling policies to maximize the average throughput (sum-rate) under slot-wise coding and decoding requirements. We show that the proposed policies achieve the same gap to optimality as the recently proposed ergodic averaging schemes which require coding and decoding over a large number of slots in our setting.

[1]  Luigi Grippof,et al.  Globally convergent block-coordinate techniques for unconstrained optimization , 1999 .

[2]  Kaibin Huang,et al.  Energy Harvesting Wireless Communications: A Review of Recent Advances , 2015, IEEE Journal on Selected Areas in Communications.

[3]  Sreejith Sreekumar,et al.  Distributed Rate Adaptation and Power Control in Fading Multiple Access Channels , 2014, IEEE Transactions on Information Theory.

[4]  Prasanna Chaporkar,et al.  Optimal power allocation for a renewable energy source , 2011, 2012 National Conference on Communications (NCC).

[5]  Patrick Mitran,et al.  On Online Energy Harvesting in Multiple Access Communication Systems , 2013, IEEE Transactions on Information Theory.

[6]  Ayfer Özgür,et al.  Online power control for the energy harvesting multiple access channel , 2016, 2016 14th International Symposium on Modeling and Optimization in Mobile, Ad Hoc, and Wireless Networks (WiOpt).

[7]  Jing Yang,et al.  Optimal packet scheduling in a multiple access channel with energy harvesting transmitters , 2012, Journal of Communications and Networks.

[8]  Wei Chen,et al.  On Throughput Maximization of Time Division Multiple Access With Energy Harvesting Users , 2016, IEEE Transactions on Vehicular Technology.

[9]  Ayfer Özgür,et al.  Universally near-optimal online power control for energy harvesting nodes , 2015, 2016 IEEE International Conference on Communications (ICC).