Peng Han scite author profile

Aiming at increasing the convergence rate and the accuracy simultaneously, an hp-adaptive Radau pseudospectral method is presented to generate a re-entry launch vehicle's optimal re-entry trajectory. The method determines the number of mesh intervals, the width of the each mesh interval, and the degree of the polynomial in each mesh interval iteratively until a user-specified error tolerance is satisfied. In regions of relatively high curvature, convergence is achieved by dividing a segment into more mesh intervals, while in regions of relatively low curvature, convergence is achieved by increasing the degree of the approximating polynomial within a mesh interval. Simulation results show that the optimized trajectory obtained by the method satisfies the path constraints and the boundary constraints successfully. Moreover, the hp-adaptive Radau pseudospectral method is shown to be more efficient than either a global Radau pseudospectral method or a fixed-low-order Radau pseudospectral method. The results indicate that the hp-adaptive Radau pseudospectral method can be applied for real-time trajectory generation due to its high efficiency and high precision.

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Fall detection system based on inertial mems sensors: Analysis design and realization

Shi

Zhang

Dong

et al. 2015

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A new correlation between Chinese loess and deep-sea δ18O records since the middle Pleistocene

Jin

Liu

et al. 2019

Earth and Planetary Science Letters

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Peng Han

Holocene environmental changes in the central Inner Mongolia, based on single-aliquot-quartz optical dating and multi-proxy study of dune sands

Re-entry trajectory optimization using an hp-adaptive Radau pseudospectral method

Fall detection system based on inertial mems sensors: Analysis design and realization

A new correlation between Chinese loess and deep-sea δ18O records since the middle Pleistocene

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