Energy-Efficient Resource Allocation and Subchannel Assignment for NOMA-Enabled Multiaccess Edge Computing

In this article, we study an energy-efficient nonorthogonal multiple access (NOMA) enabled multiaccess edge computing (MEC) system with strict latency requirements. We aim to minimize the energy consumption of all users by optimizing the resource allocation (including power and computation resources...

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Published in	IEEE systems journal Vol. 16; no. 1; pp. 1558 - 1569
Main Authors	Liu, Lina, Sun, Bo, Tan, Xiaoqi, Tsang, Danny H. K.
Format	Journal Article
Language	English
Published	New York IEEE 01.03.2022 The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	Algorithms Branch and bound methods Combinatorial analysis Convexity Decomposition Edge computing Energy consumption Energy minimization Integer programming Internet of Things Linear programming Minimization Mobile computing multiaccess edge computing (MEC) NOMA Nonorthogonal multiple access nonorthogonal multiple access (NOMA) Optimization Polynomials Power consumption Resource allocation Resource management Servers subchannel assignment Task analysis
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ISSN	1932-8184 1937-9234
DOI	10.1109/JSYST.2021.3064919

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Abstract	In this article, we study an energy-efficient nonorthogonal multiple access (NOMA) enabled multiaccess edge computing (MEC) system with strict latency requirements. We aim to minimize the energy consumption of all users by optimizing the resource allocation (including power and computation resources) and subchannel assignment, subject to the given latency constraint. The formulated problem, however, is a nonconvex combinatorial optimization problem. Nevertheless, we decompose the problem into a resource allocation subproblem and a subchannel assignment subproblem, and then solve the two subproblems iteratively. On one hand, we investigate the hidden convexity of the resource allocation subproblem under the optimal conditions, and propose an efficient algorithm to optimally allocate the resources by dual decomposition methods. On the other hand, we formulate the subchannel assignment subproblem into an integer linear programming problem and strictly prove that the problem is nondeterministic polynomial-time hard. We then solve it optimally by branch-and-bound methods, which is shown to be efficient in extensive simulations. Moreover, through considerable simulation results, we show that our proposed algorithm helps greatly reduce users' energy consumption when communication resources (e.g., bandwidth) are limited. Additionally, it is verified that NOMA outperforms orthogonal multiple access in multiuser latency-sensitive MEC systems.
AbstractList	In this article, we study an energy-efficient nonorthogonal multiple access (NOMA) enabled multiaccess edge computing (MEC) system with strict latency requirements. We aim to minimize the energy consumption of all users by optimizing the resource allocation (including power and computation resources) and subchannel assignment, subject to the given latency constraint. The formulated problem, however, is a nonconvex combinatorial optimization problem. Nevertheless, we decompose the problem into a resource allocation subproblem and a subchannel assignment subproblem, and then solve the two subproblems iteratively. On one hand, we investigate the hidden convexity of the resource allocation subproblem under the optimal conditions, and propose an efficient algorithm to optimally allocate the resources by dual decomposition methods. On the other hand, we formulate the subchannel assignment subproblem into an integer linear programming problem and strictly prove that the problem is nondeterministic polynomial-time hard. We then solve it optimally by branch-and-bound methods, which is shown to be efficient in extensive simulations. Moreover, through considerable simulation results, we show that our proposed algorithm helps greatly reduce users' energy consumption when communication resources (e.g., bandwidth) are limited. Additionally, it is verified that NOMA outperforms orthogonal multiple access in multiuser latency-sensitive MEC systems.
Author	Sun, Bo Liu, Lina Tan, Xiaoqi Tsang, Danny H. K.
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SubjectTerms	Algorithms Branch and bound methods Combinatorial analysis Convexity Decomposition Edge computing Energy consumption Energy minimization Integer programming Internet of Things Linear programming Minimization Mobile computing multiaccess edge computing (MEC) NOMA Nonorthogonal multiple access nonorthogonal multiple access (NOMA) Optimization Polynomials Power consumption Resource allocation Resource management Servers subchannel assignment Task analysis
Title	Energy-Efficient Resource Allocation and Subchannel Assignment for NOMA-Enabled Multiaccess Edge Computing
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