Max-min Fair Rate Allocation and Routing in Energy Harvesting Networks: Algorithmic Analysis

TL;DR

This paper develops optimal algorithms for max-min fair rate allocation and routing in energy harvesting networks, addressing multihop topologies, various routing methods, and the computational complexity of the problem.

Contribution

It introduces new algorithms for max-min fair rate assignment in energy harvesting networks, including solutions for different routing types and complexity analysis.

Findings

Algorithms for max-min fair rate assignment in various routing scenarios.

NP-hardness of finding optimal routing for max-min fairness.

An FPTAS for the time-variable routing case.

Abstract

This paper considers max-min fair rate allocation and routing in energy harvesting networks where fairness is required among both the nodes and the time slots. Unlike most previous work on fairness, we focus on multihop topologies and consider different routing methods. We assume a predictable energy profile and focus on the design of efficient and optimal algorithms that can serve as benchmarks for distributed and approximate algorithms. We first develop an algorithm that obtains a max-min fair rate assignment for any given (time-variable or time-invariable) unsplittable routing or a routing tree. For time-invariable unsplittable routing, we also develop an algorithm that finds routes that maximize the minimum rate assigned to any node in any slot. For fractional routing, we study the joint routing and rate assignment problem. We develop an algorithm for the time-invariable case with constant rates. We show that the time-variable case is at least as hard as the 2-commodity feasible flow problem and design an FPTAS to combat the high running time. Finally, we show that finding an unsplittable routing or a routing tree that provides lexicographically maximum rate assignment (i.e., that is the best in the max-min fairness terms) is NP-hard, even for a time horizon of a single slot. Our analysis provides insights into the problem structure and can be applied to other related fairness problems.