Non-Dominated Quantum Iterative Routing Optimization for Wireless Multihop Networks

Abstract: Routing in wireless multihop networks (WMHNs) relies on a delicate balance of diverse and often conflicting parameters, when aiming for maximizing the WMHN performance. Classified as a non-deterministic polynomial-time hard problem, routing in WMHNs requires sophisticated methods. As a benefit of observing numerous variables in parallel, quantum computing offers a promising range of algorithms for complexity reduction by exploiting the principle of quantum parallelism (QP), while achieving the optimum full-sea… Show more

“…In terms of Pareto optimal routing using universal quantum computing [27], the so-called Non-Dominated Quantum Optimization (NDQO) algorithm proposed in [19] succeeded in identifying the entire set of Pareto-optimal routes at the expense of a complexity, which is on the order of O(N √ N ), relying on QP. As an improvement, the so-called Non-Dominated Quantum Iterative Optimization (NDQIO) algorithm was proposed in [30]. Explicitly, the NDQIO algorithm is also capable of identifying the entire set of Pareto-optimal routes, while imposing a parallel complexity and a sequential complexity defined 1 in [30], which is on the order of O(N OPF √ N ) and O(N 2 OPF √ N ), respectively, by relying on the beneficial synergy between QP and Hardware Parallelism (HP).…”

“…As an improvement, the so-called Non-Dominated Quantum Iterative Optimization (NDQIO) algorithm was proposed in [30]. Explicitly, the NDQIO algorithm is also capable of identifying the entire set of Pareto-optimal routes, while imposing a parallel complexity and a sequential complexity defined 1 in [30], which is on the order of O(N OPF √ N ) and O(N 2 OPF √ N ), respectively, by relying on the beneficial synergy between QP and Hardware Parallelism (HP). Note that N OPF corresponds to the number of Pareto-optimal routes.…”

“…By contrast, the sequential complexity does not consider any kind of parallelism. In [30], they are referred to as normalized execution time and normalized power consumption, respectively.…”

“…In the context of this treatise, the model of the networks considered both in [19] and in [30] has been adopted. To elaborate further, the WMHN considered is a fully connected network and it consists of a single Source Node (SN), a single Destination Node (DN) and a cloud of Relay Nodes (RN).…”

“…Therefore, we should point out that this treatise is focused on a centralized protocol. The presence of a cluster-head in possession of a quantum computer is considered at the DN side as in [19] and in [30]. The interference levels experienced by each node are presented in the legend.…”

A Quantum-Search-Aided Dynamic Programming Framework for Pareto Optimal Routing in Wireless Multihop Networks

“…In terms of Pareto optimal routing using universal quantum computing [27], the so-called Non-Dominated Quantum Optimization (NDQO) algorithm proposed in [19] succeeded in identifying the entire set of Pareto-optimal routes at the expense of a complexity, which is on the order of O(N √ N ), relying on QP. As an improvement, the so-called Non-Dominated Quantum Iterative Optimization (NDQIO) algorithm was proposed in [30]. Explicitly, the NDQIO algorithm is also capable of identifying the entire set of Pareto-optimal routes, while imposing a parallel complexity and a sequential complexity defined 1 in [30], which is on the order of O(N OPF √ N ) and O(N 2 OPF √ N ), respectively, by relying on the beneficial synergy between QP and Hardware Parallelism (HP).…”

“…As an improvement, the so-called Non-Dominated Quantum Iterative Optimization (NDQIO) algorithm was proposed in [30]. Explicitly, the NDQIO algorithm is also capable of identifying the entire set of Pareto-optimal routes, while imposing a parallel complexity and a sequential complexity defined 1 in [30], which is on the order of O(N OPF √ N ) and O(N 2 OPF √ N ), respectively, by relying on the beneficial synergy between QP and Hardware Parallelism (HP). Note that N OPF corresponds to the number of Pareto-optimal routes.…”

“…By contrast, the sequential complexity does not consider any kind of parallelism. In [30], they are referred to as normalized execution time and normalized power consumption, respectively.…”

“…In the context of this treatise, the model of the networks considered both in [19] and in [30] has been adopted. To elaborate further, the WMHN considered is a fully connected network and it consists of a single Source Node (SN), a single Destination Node (DN) and a cloud of Relay Nodes (RN).…”

“…Therefore, we should point out that this treatise is focused on a centralized protocol. The presence of a cluster-head in possession of a quantum computer is considered at the DN side as in [19] and in [30]. The interference levels experienced by each node are presented in the legend.…”

A Quantum-Search-Aided Dynamic Programming Framework for Pareto Optimal Routing in Wireless Multihop Networks

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