Zeyu Zhou scite author profile

Zeyu Zhou

3Publications

1Citation Statement Received

50Citation Statements Given

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Affiliations

Nanjing University of Aeronautics and Astronautics, Mayo Clinic

Publications

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Integrated fire/flight control coupler design for armed helicopters based on improved non-monotone adaptive trust region algorithm with distributionally robust optimization

Zhou

Wang

2023

Proceedings of the Institution of Mechanical Engineers, Part G:

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Aiming at enhancing the extent of military automatization and the effectiveness of armed helicopters in complex battlefield environment, integrated fire/flight control (IFFC) coupler connects the fire control system and the flight control system which is used to generate the optimal flight command signals. However, it is difficult to obtain satisfactory flight command signals within a certain firing accuracy due to the unavoidable uncertain information in battlefield environment. In this paper, a new IFFC scheme is proposed for armed helicopters against complex combat by using the idea of distributionally robust optimization combined with the framework of trust region. Initially, a vector equation and coordinate transformation are employed to acquire the relative motion model of the IFFC coupler problem in complex battlefield environment. Moreover, an improved performance index is designed according to the constraints, and the original non-convex problem is handled by the Taylor formula combined with an improved BFGS (Broyden–Fletcher–Goldfard–Shanno) algorithm. Considering the uncertain parameters during optimization, the non-linear distributionally robust optimization is transformed into a linear matrix inequality optimization problem based on the worst-case conditional value-at-risk (WC-CVaR) approximation. Then, an algorithmic framework with a non-monotone adaptive trust region algorithm is given to obtain the optimal flight command signals. Finally, a simulation example is given to illustrate the effectiveness of the proposed approach.

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Improving Particle Thompson Sampling through Regenerative Particles

Zhou

Hajek

2023

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Particle Thompson Sampling with Static Particles

Zhou

Hajek

2023

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Zeyu Zhou

Integrated fire/flight control coupler design for armed helicopters based on improved non-monotone adaptive trust region algorithm with distributionally robust optimization

Improving Particle Thompson Sampling through Regenerative Particles

Particle Thompson Sampling with Static Particles

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