Your search keyword '"Do, Van-Thach"' showing total 10 results

1. Geometry-Aware Coverage Path Planning for Depowdering on Complex 3D Surfaces

Author

Do, Van-Thach and Pham, Quang-Cuong

Subjects

Computer Science - Robotics, Computer Science - Computational Geometry

Abstract

This paper presents a new approach to obtaining nearly complete coverage paths (CP) with low overlapping on 3D general surfaces using mesh models. The CP is obtained by segmenting the mesh model into a given number of clusters using constrained centroidal Voronoi tessellation (CCVT) and finding the shortest path from cluster centroids using the geodesic metric efficiently. We introduce a new cost function to harmoniously achieve uniform areas of the obtained clusters and a restriction on the variation of triangle normals during the construction of CCVTs. The obtained clusters can be used to construct high-quality viewpoints (VP) for visual coverage tasks. Here, we utilize the planned VPs as cleaning configurations to perform residual powder removal in additive manufacturing using manipulator robots. The self-occlusion of VPs and ensuring collision-free robot configurations are addressed by integrating a proposed optimization-based strategy to find a set of candidate rays for each VP into the motion planning phase. CP planning benchmarks and physical experiments are conducted to demonstrate the effectiveness of the proposed approach. We show that our approach can compute the CPs and VPs of various mesh models with a massive number of triangles within a reasonable time., Comment: 8 pages, 8 figures

Published

2023

2. DFBVS: Deep Feature-Based Visual Servo

Author

Adrian, Nicholas, Do, Van-Thach, and Pham, Quang-Cuong

Subjects

Computer Science - Robotics

Abstract

Classical Visual Servoing (VS) rely on handcrafted visual features, which limit their generalizability. Recently, a number of approaches, some based on Deep Neural Networks, have been proposed to overcome this limitation by comparing directly the entire target and current camera images. However, by getting rid of the visual features altogether, those approaches require the target and current images to be essentially similar, which precludes the generalization to unknown, cluttered, scenes. Here we propose to perform VS based on visual features as in classical VS approaches but, contrary to the latter, we leverage recent breakthroughs in Deep Learning to automatically extract and match the visual features. By doing so, our approach enjoys the advantages from both worlds: (i) because our approach is based on visual features, it is able to steer the robot towards the object of interest even in presence of significant distraction in the background; (ii) because the features are automatically extracted and matched, our approach can easily and automatically generalize to unseen objects and scenes. In addition, we propose to use a render engine to synthesize the target image, which offers a further level of generalization. We demonstrate these advantages in a robotic grasping task, where the robot is able to steer, with high accuracy, towards the object to grasp, based simply on an image of the object rendered from the camera view corresponding to the desired robot grasping pose.

Published

2022

3. Tracking control of uncertain surface vessels with global finite-time convergence

Author

Van, Mien, Do, Van-Thach, Khyam, Mohammad Omar, and Do, Xuan Phu

Published

2021

4. Robust integral backstepping hierarchical sliding mode controller for a ballbot system

Author

Do, Van-Thach, Lee, Soon-Geul, and Kim, Jong-Han

Published

2020

5. Geometry-Aware Coverage Path Planning for Depowdering on Complex 3D Surfaces

Author

Do, Van-Thach, primary and Pham, Quang-Cuong, additional

Published

2023

6. Passivity-based Nonlinear Control for a Ballbot to Balance and Transfer

Author

Do, Van-Thach, Lee, Soon-Geul, and Gwak, Kwan-Woong

Published

2019

7. DFBVS: Deep Feature-Based Visual Servo

Author

Adrian, Nicholas, primary, Do, Van-Thach, additional, and Pham, Quang-Cuong, additional

Published

2022

8. Neural Integral Backstepping Hierarchical Sliding Mode Control for a Ridable Ballbot Under Uncertainties and Input Saturation

Author

Do, Van-Thach, primary and Lee, Soon-Geul, additional

Published

2021

9. Adaptive hierarchical sliding mode control for full nonlinear dynamics of uncertain ridable ballbots under input saturation

Author

Do, Van‐Thach, primary, Lee, Soon‐Geul, additional, and Van, Mien, additional

Published

2021

10. Design of an energy-based controller for a 2D ball segway

Author

Do Van Thach, Soon-Geul Lee, and Pham Dinh Ba

Subjects

Lyapunov function, 0209 industrial biotechnology, Computer science, Underactuation, Ballbot, Passivity, 02 engineering and technology, Energy storage, Computer Science::Robotics, symbols.namesake, 020901 industrial engineering & automation, Control theory, Energy based, 0202 electrical engineering, electronic engineering, information engineering, symbols, Ball (bearing), Robot, 020201 artificial intelligence & image processing

Abstract

A ball segway is a ballbot-type robot that has a car-like structure. It can move with three omnidirectional-wheel mechanisms to drive the ball while maintaining balance. To obtain stable balancing and transferring simultaneously of the 2D ball segway which is an underactuated system, a control law is designed based on energy method. The energy storage function is formulated to prove the passivity property of the system. Simulation results show the effectiveness of our approach.

Published

2017