Quantum Bridge Analytics II: Network Optimization and Combinatorial Chaining for Asset Exchange

TL;DR

This paper explores a hybrid classical-quantum approach to optimize asset exchanges using network optimization and a novel combinatorial chaining metaheuristic, expanding quantum computing applications in various fields.

Contribution

It introduces the Asset Exchange Problem (AEP) model and demonstrates how combining network optimization with combinatorial chaining enhances asset exchange solutions in quantum computing contexts.

Findings

Development of the AEP model for asset exchanges.

Integration of network optimization and combinatorial chaining.

Application examples across multiple sectors.

Abstract

Quantum Bridge Analytics relates to methods and systems for hybrid classical-quantum computing, and is devoted to developing tools for bridging classical and quantum computing to gain the benefits of their alliance in the present and enable enhanced practical application of quantum computing in the future. This is the second of a two-part tutorial that surveys key elements of Quantum Bridge Analytics and its applications. Part I focused on the Quadratic Unconstrained Binary Optimization (QUBO) model which is presently the most widely applied optimization model in the quantum computing area, and which unifies a rich variety of combinatorial optimization problems. Part II (the present paper) examines an application that augments the use of QUBO models, by disclosing a context for coordinating QUBO solutions through a model we call the Asset Exchange Problem (AEP). Solutions to the AEP enable individuals or institutions to take fuller advantage of solutions to their QUBO models by exchanges of assets that benefit all participants. Such exchanges are generated by a combination of two optimization technologies, one grounded in network optimization and one based on a new metaheuristic optimization approach called combinatorial chaining. This combination provides a flexibility to solve AEP variants that open the door to additional links to quantum computing applications and additional applications via the Quantum Bridge Analytics perspective. We show how this modeling and solution capability gives rise to an Asset Exchange Technology that embraces a broad range of financial, industrial, scientific and social settings. Examples are presented that show the nature of these processes from a tutorial perspective.