A novel adaptive pseudospectral method for the optimal control problem of automatic car parking

Chen, Xuesong; Mai, Heng; Zhang, Zemian; Gu, Fangqing

doi:10.1002/asjc.2534

Cited by 12 publications

(10 citation statements)

References 37 publications

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“…There have been a great number of research achievements on using the hp-adaptive pseudospectral method to solve the trajectory planning problem [30][31][32]. The convergence of the Gaussian pseudospectral method has been studied and described in reference [33].…”

Section: τmentioning

confidence: 99%

Boost-Phase Trajectory Planning with the Nonregular Reachable Area Constraints

Diao

Guan

et al. 2022

International Journal of Aerospace Engineering

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During emergency return or mission change, the boost-glide vehicle needs to meet the nonregular reachable area constraints (NRACs). Therefore, this paper introduced NRACs into boost-phase trajectory planning to extend the maneuvering range and enhance the mission adaptability of boost-glide vehicle. Firstly, the library of the reachable area boundaries was constructed with the fast computation method under the deviations of boost terminal states, and the polynomials were used to fit the boundary parameters. Secondly, the nonlinear mapping relationship between the reachable area boundary parameters and the deviations of boost terminal states was obtained by the deep neural networks (DNNs). Then, the new boundary parameters were obtained by the constraint transformation rules under NRACs and the separation window constraints and transformed into the constraints of the boost-phase terminal states by DNNs. Finally, the hp-adaptive pseudospectral method (hpPM) was adopted to complete the trajectory planning considering the path and terminal constraints. The simulation results showed that the proposed trajectory planning method considering NRACs had high trajectory planning accuracy and good deviation adaptability and exhibited excellent performance in the adjustment of reachable area. This study provides theoretical support for integrate mission decisions and trajectory planning of boost-glide vehicles.

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Section: τmentioning

confidence: 99%

Boost-Phase Trajectory Planning with the Nonregular Reachable Area Constraints

Diao

Guan

et al. 2022

International Journal of Aerospace Engineering

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“…After that, the algorithm is judged according to the characteristics of the queue. The main way to adapt to the automatic parking strategy is based on Formula (10). For this process, the weight path of grid map with Manhattan distance is proposed, and a new dynamic transfer equation is designed to complete the calculation operation of the shortest path.…”

Section: Modified Bellman-ford Algorithmmentioning

confidence: 99%

“…The first is the path planning-based method [5][6][7][8][9], which plans the geometric reverse path of the vehicle by referring to the environmental information in the parking space and finally makes the planning and sends control commands to the actuator. The other is the method based on the experience of experts or operators [10][11][12][13]. The automatic parking system collects control information from the body information data and determines the vehicles that achieve automatic parking.…”

Section: Introductionmentioning

confidence: 99%

Research on Automatic Parking System Strategy

Zhang

Zhou

Lei

et al. 2021

WEVJ

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The development of the automobile industry and the increase in car ownership has brought great traffic pressures to the city, among which, the difficulty of parking has become a serious problem to the majority of drivers. An automatic parking system can help drivers to complete parking operation or automatic parking task, and a decision control system is an important part of automatic parking system. In this paper, a strategy for generating the shortest parking path based on a bidirectional breadth-first search algorithm combined with a modified Bellman–Ford algorithm is proposed for automatic parking systems. Experimental results show that this scheme can improve the performance of an automatic parking system, especially in a complex environment.

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“…The time‐optimal control makes the system transfer from the initial state to the target set in the shortest time. For example, the time‐energy optimal control model to minimize the parking time and the energy output of the vehicle 21 was constructed for improving computational efficiency and accuracy. The time optimality and the

{L}^1

‐norm control were considered as the cost function in Reference 22, that is, the time‐optimal

{L}^1

‐optimal control.…”

Section: Introductionmentioning

confidence: 99%

Time‐optimal L¹/L² norms optimal control for linear time‐invariant systems

Mai

Chen

Yin

2022

Optim Control Appl Methods

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The theoretical properties of a novel time-optimal L 1 /L 2 norms optimal control for linear time-invariant systems are investigated. The L 0 -optimal control (or sparsest control) is converted to the time-optimal L 1 /L 2 norms optimal control which can be solved efficiently. The proposed control is obtained via minimization of the time-optimal L 1 /L 2 norms optimal control input along with the constraints on the state variable. Subsequently, by using the nonsmooth maximum principle, the uniqueness and continuity of the optimal solution of the time-optimal L 1 /L 2 norms optimal control are proved. The superiority of the time-optimal L 1 /L 2 norms optimal control is illustrated by numerical examples.

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A novel adaptive pseudospectral method for the optimal control problem of automatic car parking

Cited by 12 publications

References 37 publications

Boost-Phase Trajectory Planning with the Nonregular Reachable Area Constraints

Boost-Phase Trajectory Planning with the Nonregular Reachable Area Constraints

Research on Automatic Parking System Strategy

Time‐optimal L¹/L² norms optimal control for linear time‐invariant systems

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A novel adaptive pseudospectral method for the optimal control problem of automatic car parking

Cited by 12 publications

References 37 publications

Boost-Phase Trajectory Planning with the Nonregular Reachable Area Constraints

Boost-Phase Trajectory Planning with the Nonregular Reachable Area Constraints

Research on Automatic Parking System Strategy

Time‐optimal L1/L2 norms optimal control for linear time‐invariant systems

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Product

Resources

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Time‐optimal L¹/L² norms optimal control for linear time‐invariant systems