Yue Ronggang scite author profile

Yue Ronggang

4Publications

16Citation Statements Received

57Citation Statements Given

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City College of New York, City University of New York

Publications

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Modeling and path planning of the City-Climber robot part II: 3D path planning using mixed integer linear programming

Ronggang

Xiao

Wang

et al. 2009

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This is the second part of a series papers on modeling and path planning of the City-Climber robot. This paper presents a path planning method for the City-Climber robot using mixed integer linear programming (MILP) in 3D building environments that consist of objects with primitive geometrical shapes. In order to use MILP to solve obstacle avoidance problems, we first simplify and decouple the robot dynamic model by introducing a restricting admissible control. The decoupled model and obstacle can be rewritten as a linear program with mixed integer linear constraints that account for the collision avoidance. A key benefit of this approach is that the path optimization can be readily solved using the AMPL and CPLEX optimization software with a Matlab interface. Simulation results show that the framework of MILP is well suited for path planning and obstacle avoidance problems for the wall-climbing robot in 3D environments.

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Three-Dimensional Path Planning of a Climbing Robot Using Mixed Integer Linear Programming

et al. 2010

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Navigating rigid body objects through crowded environments can be challenging, especially when narrow passages are presented. Existing sampling-based planners and optimization-based methods like mixed integer linear programming (MILP) formulations, suffer from limited scalability with respect to either the size of the workspace or the number of obstacles. In order to address the scalability issue, we propose a three-stage algorithm that first generates a graph of convex polytopes in the workspace free of collision, then poses a large set of small MILPs to generate viable paths between polytopes, and finally queries a pair of start and end configurations for a feasible path online. The graph of convex polytopes serves as a decomposition of the free workspace and the number of decision variables in each MILP is limited by restricting the subproblem within two or three free polytopes rather than the entire free region. Our simulation results demonstrate shorter online computation time compared to baseline methods and scales better with the size of the environment and tunnel width than sampling-based planners in both 2D and 3D environments.

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Image Motion Measurement and Image Restoration System Based on an Inertial Reference Laser

Ronggang

Wang

Jin

et al. 2021

Sensors

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Satellites have many high-, medium-, and low-frequency micro vibration sources that lead to the optical axis jitter of the optical load and subsequently degrade the remote sensing image quality. To address this problem, this paper developed an image motion detection and restoration method based on an inertial reference laser, and describe edits principle and key components. To verify the feasibility and performance of this method, this paper also built an image motion measurement and restoration system based on an inertial reference laser, which comprised a camera (including the inertial reference laser unit and a Hartmann wavefront sensor), an integrating sphere, a simulated image target, a parallel light pope, a vibration isolation platform, a vibration generator, and a 6 degrees of freedom platform. The image restoration principle was also described. The background noise in the experiment environment was measured, and an image motion measurement accuracy experiment was performed. Verification experiments of image restoration were also conducted under various working conditions. The experiment results showed that the error of image motion detection based on the inertial reference laser was less than 0.12 pixels (root mean square). By using image motion data to improve image quality, the modulation transfer function (MTF) of the restored image was increased to 1.61–1.88 times that of the original image MTF. The image motion data could be used as feedback to the fast steering mirror to compensate for the satellite jitter in real time and to directly obtain high-quality images.

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Modeling and path planning of the City-Climber robot part I: Dynamic modeling

Ronggang

Xiao

Wang

et al. 2009

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Yue Ronggang

Modeling and path planning of the City-Climber robot part II: 3D path planning using mixed integer linear programming

Three-Dimensional Path Planning of a Climbing Robot Using Mixed Integer Linear Programming

Image Motion Measurement and Image Restoration System Based on an Inertial Reference Laser

Modeling and path planning of the City-Climber robot part I: Dynamic modeling

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