Affiliation:
1. Schoolof Aerospace Engineering, Sapienza University of Rome, Via Salaria 851, 00138 Rome, Italy
Abstract
This paper introduces an innovative approach to explore the capabilities of Quantum Annealing (QA) for trajectory optimization in dynamic systems. The proposed method involves transforming trajectory optimization problems into equivalent binary optimization problems using Quadratic Unconstrained Binary Optimization (QUBO) representation. The procedure is general and adaptable, making it applicable to a wide range of optimal control problems that entail the satisfaction of dynamic, boundary, and path constraints. Specifically, the trajectory is discretized and approximated using polynomials. In contrast to the conventional approach of determining the polynomial degree (n) solely based on the number of boundary conditions, a specific factor is introduced in our method to augment the polynomial degree. As a result, the ultimate polynomial degree is calculated as a composite of two components: n = l + (m−1), where m denotes the count of boundary conditions and l signifies the number of independent variables. By leveraging inverse dynamics, the control required to follow the approximated trajectory can be determined as a linear function of independent variables l. As a result, the optimization function, which is represented by the integral of the square of the control, can be formulated as a QUBO problem and the QA is employed to find the optimal binary solutions.
Subject
Fluid Flow and Transfer Processes,Computer Science Applications,Process Chemistry and Technology,General Engineering,Instrumentation,General Materials Science
Reference41 articles.
1. Satellite Constellation Orbit Design Optimization with Combined Genetic Algorithm and Semianalytical Approach;Savitri;Int. J. Aerosp. Eng.,2017
2. Rughani, R., and Barnhart, D. (2020, January 6–10). Using genetic algorithms for safe swarm trajectory optimization. Proceedings of the AIAA Scitech 2020 Forum, Orlando, FL, USA.
3. D’Ambrosio, A., Carbone, A., Spiller, D., and Curti, F. (2021). PSO-Based Soft Lunar Landing with Hazard Avoidance: Analysis and Experimentation. Aerospace, 8.
4. Carbone, A., Agostinelli, I., D’Ambrosio, A., and Curti, F. (2021, January 25–29). Optimization of Hopping Trajectories for Asteroids Surface Exploration. Proceedings of the 72nd International Astronautical Congress (IAC), Dubai, United Arab Emirates.
5. A review on genetic algorithm: Past, present, and future;Katoch;Multimed. Tools Appl.,2021