Fast trajectory planning for Dubins vehicles under cumulative probability of radar detection

Zhuo Li; Keyou You; Jian Sun; Shiji Song

doi:10.1016/j.sigpro.2023.109085

Fast trajectory planning for Dubins vehicles under cumulative probability of radar detection

Zhuo Li, Keyou You, Jian Sun^*, Shiji Song

^*Corresponding author for this work

School of Automation

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

This paper studies a minimum-time trajectory planning problem under radar detection, where a Dubins vehicle aims to approach a target under a limited probability of being detected. Since the probability is accumulated along the vehicle's trajectory in an integral form, we have to address a non-convex constrained functional optimization problem. To this end, Pontryagin's minimum principle is adopted to derive the optimality conditions, based on which we obtain a set of parameterized trajectories that contain all optimal ones. By leveraging the design of intermediate points, fast algorithms are proposed to approximately compute a minimum-time trajectory among the set. Simulations are performed to validate the effectiveness and efficiency of the proposed algorithms.

Original language	English
Article number	109085
Journal	Signal Processing
Volume	210
DOIs	https://doi.org/10.1016/j.sigpro.2023.109085
Publication status	Published - Sept 2023

Keywords

Cumulative probability
Dubins vehicle
Minimum-time trajectory planning
Pontryagin's minimum principle
Radar detection

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10.1016/j.sigpro.2023.109085

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title = "Fast trajectory planning for Dubins vehicles under cumulative probability of radar detection",

abstract = "This paper studies a minimum-time trajectory planning problem under radar detection, where a Dubins vehicle aims to approach a target under a limited probability of being detected. Since the probability is accumulated along the vehicle's trajectory in an integral form, we have to address a non-convex constrained functional optimization problem. To this end, Pontryagin's minimum principle is adopted to derive the optimality conditions, based on which we obtain a set of parameterized trajectories that contain all optimal ones. By leveraging the design of intermediate points, fast algorithms are proposed to approximately compute a minimum-time trajectory among the set. Simulations are performed to validate the effectiveness and efficiency of the proposed algorithms.",

keywords = "Cumulative probability, Dubins vehicle, Minimum-time trajectory planning, Pontryagin's minimum principle, Radar detection",

author = "Zhuo Li and Keyou You and Jian Sun and Shiji Song",

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T1 - Fast trajectory planning for Dubins vehicles under cumulative probability of radar detection

AU - Li, Zhuo

AU - You, Keyou

AU - Sun, Jian

AU - Song, Shiji

PY - 2023/9

Y1 - 2023/9

N2 - This paper studies a minimum-time trajectory planning problem under radar detection, where a Dubins vehicle aims to approach a target under a limited probability of being detected. Since the probability is accumulated along the vehicle's trajectory in an integral form, we have to address a non-convex constrained functional optimization problem. To this end, Pontryagin's minimum principle is adopted to derive the optimality conditions, based on which we obtain a set of parameterized trajectories that contain all optimal ones. By leveraging the design of intermediate points, fast algorithms are proposed to approximately compute a minimum-time trajectory among the set. Simulations are performed to validate the effectiveness and efficiency of the proposed algorithms.

AB - This paper studies a minimum-time trajectory planning problem under radar detection, where a Dubins vehicle aims to approach a target under a limited probability of being detected. Since the probability is accumulated along the vehicle's trajectory in an integral form, we have to address a non-convex constrained functional optimization problem. To this end, Pontryagin's minimum principle is adopted to derive the optimality conditions, based on which we obtain a set of parameterized trajectories that contain all optimal ones. By leveraging the design of intermediate points, fast algorithms are proposed to approximately compute a minimum-time trajectory among the set. Simulations are performed to validate the effectiveness and efficiency of the proposed algorithms.

KW - Cumulative probability

KW - Dubins vehicle

KW - Minimum-time trajectory planning

KW - Pontryagin's minimum principle

KW - Radar detection

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DO - 10.1016/j.sigpro.2023.109085

M3 - Article

AN - SCOPUS:85158815126

SN - 0165-1684

VL - 210

JO - Signal Processing

JF - Signal Processing

M1 - 109085

ER -

Fast trajectory planning for Dubins vehicles under cumulative probability of radar detection

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Keywords

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