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25 results on '"Hoang, Tai"'

1. Geometry-aware RL for Manipulation of Varying Shapes and Deformable Objects

Author

Hoang, Tai, Le, Huy, Becker, Philipp, Ngo, Vien Anh, and Neumann, Gerhard

Subjects
Computer Science - Machine Learning, Computer Science - Robotics
Abstract

Manipulating objects with varying geometries and deformable objects is a major challenge in robotics. Tasks such as insertion with different objects or cloth hanging require precise control and effective modelling of complex dynamics. In this work, we frame this problem through the lens of a heterogeneous graph that comprises smaller sub-graphs, such as actuators and objects, accompanied by different edge types describing their interactions. This graph representation serves as a unified structure for both rigid and deformable objects tasks, and can be extended further to tasks comprising multiple actuators. To evaluate this setup, we present a novel and challenging reinforcement learning benchmark, including rigid insertion of diverse objects, as well as rope and cloth manipulation with multiple end-effectors. These tasks present a large search space, as both the initial and target configurations are uniformly sampled in 3D space. To address this issue, we propose a novel graph-based policy model, dubbed Heterogeneous Equivariant Policy (HEPi), utilizing $SE(3)$ equivariant message passing networks as the main backbone to exploit the geometric symmetry. In addition, by modeling explicit heterogeneity, HEPi can outperform Transformer-based and non-heterogeneous equivariant policies in terms of average returns, sample efficiency, and generalization to unseen objects., Comment: Accepted at ICLR 2025 (Oral)

Published
2025

2. Enhancing Exploration with Diffusion Policies in Hybrid Off-Policy RL: Application to Non-Prehensile Manipulation

Author

Le, Huy, Gabriel, Miroslav, Hoang, Tai, Neumann, Gerhard, and Vien, Ngo Anh

Subjects
Computer Science - Robotics
Abstract

Learning diverse policies for non-prehensile manipulation is essential for improving skill transfer and generalization to out-of-distribution scenarios. In this work, we enhance exploration through a two-fold approach within a hybrid framework that tackles both discrete and continuous action spaces. First, we model the continuous motion parameter policy as a diffusion model, and second, we incorporate this into a maximum entropy reinforcement learning framework that unifies both the discrete and continuous components. The discrete action space, such as contact point selection, is optimized through Q-value function maximization, while the continuous part is guided by a diffusion-based policy. This hybrid approach leads to a principled objective, where the maximum entropy term is derived as a lower bound using structured variational inference. We propose the Hybrid Diffusion Policy algorithm (HyDo) and evaluate its performance on both simulation and zero-shot sim2real tasks. Our results show that HyDo encourages more diverse behavior policies, leading to significantly improved success rates across tasks - for example, increasing from 53% to 72% on a real-world 6D pose alignment task. Project page: https://leh2rng.github.io/hydo, Comment: 8 pages

Published
2024

3. Latent Task-Specific Graph Network Simulators

Author

Dahlinger, Philipp, Freymuth, Niklas, Volpp, Michael, Hoang, Tai, and Neumann, Gerhard

Subjects
Computer Science - Machine Learning
Abstract

Simulating dynamic physical interactions is a critical challenge across multiple scientific domains, with applications ranging from robotics to material science. For mesh-based simulations, Graph Network Simulators (GNSs) pose an efficient alternative to traditional physics-based simulators. Their inherent differentiability and speed make them particularly well-suited for inverse design problems. Yet, adapting to new tasks from limited available data is an important aspect for real-world applications that current methods struggle with. We frame mesh-based simulation as a meta-learning problem and use a recent Bayesian meta-learning method to improve GNSs adaptability to new scenarios by leveraging context data and handling uncertainties. Our approach, latent task-specific graph network simulator, uses non-amortized task posterior approximations to sample latent descriptions of unknown system properties. Additionally, we leverage movement primitives for efficient full trajectory prediction, effectively addressing the issue of accumulating errors encountered by previous auto-regressive methods. We validate the effectiveness of our approach through various experiments, performing on par with or better than established baseline methods. Movement primitives further allow us to accommodate various types of context data, as demonstrated through the utilization of point clouds during inference. By combining GNSs with meta-learning, we bring them closer to real-world applicability, particularly in scenarios with smaller datasets.

Published
2023

4. Ball-and-socket joint pose estimation using magnetic field

Author

Hoang, Tai, Kharchenko, Alona, Trendel, Simon, and Hostettler, Rafael

Subjects
Computer Science - Robotics, Computer Science - Machine Learning
Abstract

Roboy 3.0 is an open-source tendon-driven humanoid robot that mimics the musculoskeletal system of the human body. Roboy 3.0 is being developed as a remote robotic body - or a robotic avatar - for humans to achieve remote physical presence. Artificial muscles and tendons allow it to closely resemble human morphology with 3-DoF neck, shoulders and wrists. Roboy 3.0 3-DoF joints are implemented as ball-and-socket joints. While industry provides a clear solution for 1-DoF joint pose sensing, it is not the case for the ball-and-socket joint type. In this paper we present a custom solution to estimate the pose of a ball-and-socket joint. We embed an array of magnets into the ball and an array of 3D magnetic sensors into the socket. We then, based on the changes in the magnetic field as the joint rotates, are able to estimate the orientation of the joint. We evaluate the performance of two neural network approaches using the LSTM and Bayesian-filter like DVBF. Results show that in order to achieve the same mean square error (MSE) DVBFs require significantly more time training and hyperparameter tuning compared to LSTMs, while DVBF cope with sensor noise better. Both methods are capable of real-time joint pose estimation at 37 Hz with MSE of around 0.03 rad for all three degrees of freedom combined. The LSTM model is deployed and used for joint pose estimation of Roboy 3.0's shoulder and neck joints. The software implementation and PCB designs are open-sourced under https://github.com/Roboy/ball_and_socket_estimator, Comment: Accepted at the International Symposium on Robotics Research (ISRR) 2022

Published
2022

5. Autonomous soft hand grasping -- Literature review

Author

Hoang, Tai

Subjects
Computer Science - Robotics
Abstract

Autonomous grasping remains challenging as unlike humans, robots do not possess a sophisticated sensing nor delicate interaction capability with the real environment. Among other efforts that tried to close the gap between them, anthropomorphic robotic hands is the most prominent direction. However, exactly following human hand design might be unnecessary as it will significantly increase the mechanical complexity and hence make it less economically feasible. Recently, soft robotic hands, a new trend has emerged, aiming to make the design adequately complex and affordable while requiring much less effort to control. In the first part of this article, we will lay out several prominent designs in this direction and their applications in real world scenarios. Having a suitable hardware simplified the complexity of software designing. However, manually controlling the hand for one task requires a significantly large amount of time and effort and doing it repeatedly is unsurprisingly tedious. Therefore, in the second part, we will show some recent techniques for soft hand autonomous control. We start by briefly discussing the analytic methods that mainly exploit the hand dynamic information. Then, data-driven approaches will be our main focus. It is the trending research topic for soft hand grasping in recent years as it has shown a high performance when dealing with a large number of various objects., Comment: 10 pages

Published
2022

6. Bayes-Adaptive Deep Model-Based Policy Optimisation

Author

Hoang, Tai and Vien, Ngo Anh

Subjects
Computer Science - Robotics, Computer Science - Machine Learning
Abstract

We introduce a Bayesian (deep) model-based reinforcement learning method (RoMBRL) that can capture model uncertainty to achieve sample-efficient policy optimisation. We propose to formulate the model-based policy optimisation problem as a Bayes-adaptive Markov decision process (BAMDP). RoMBRL maintains model uncertainty via belief distributions through a deep Bayesian neural network whose samples are generated via stochastic gradient Hamiltonian Monte Carlo. Uncertainty is propagated through simulations controlled by sampled models and history-based policies. As beliefs are encoded in visited histories, we propose a history-based policy network that can be end-to-end trained to generalise across history space and will be trained using recurrent Trust-Region Policy Optimisation. We show that RoMBRL outperforms existing approaches on many challenging control benchmark tasks in terms of sample complexity and task performance. The source code of this paper is also publicly available on https://github.com/thobotics/RoMBRL., Comment: Source code https://github.com/thobotics/RoMBRL

Published
2020

7. Ball-and-Socket Joint Pose Estimation Using Magnetic Field

Author

Hoang, Tai, Kharchenko, Alona, Trendel, Simon, Hostettler, Rafael, Siciliano, Bruno, Series Editor, Khatib, Oussama, Series Editor, Antonelli, Gianluca, Advisory Editor, Fox, Dieter, Advisory Editor, Harada, Kensuke, Advisory Editor, Hsieh, M. Ani, Advisory Editor, Kröger, Torsten, Advisory Editor, Kulic, Dana, Advisory Editor, Park, Jaeheung, Advisory Editor, Billard, Aude, editor, and Asfour, Tamim, editor

Published
2023
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8. Towards Autoencoding Variational Inference for Aspect-based Opinion Summary

Author

Hoang, Tai, Le, Huy, and Quan, Tho

Subjects
Computer Science - Computation and Language, Computer Science - Machine Learning
Abstract

Aspect-based Opinion Summary (AOS), consisting of aspect discovery and sentiment classification steps, has recently been emerging as one of the most crucial data mining tasks in e-commerce systems. Along this direction, the LDA-based model is considered as a notably suitable approach, since this model offers both topic modeling and sentiment classification. However, unlike traditional topic modeling, in the context of aspect discovery it is often required some initial seed words, whose prior knowledge is not easy to be incorporated into LDA models. Moreover, LDA approaches rely on sampling methods, which need to load the whole corpus into memory, making them hardly scalable. In this research, we study an alternative approach for AOS problem, based on Autoencoding Variational Inference (AVI). Firstly, we introduce the Autoencoding Variational Inference for Aspect Discovery (AVIAD) model, which extends the previous work of Autoencoding Variational Inference for Topic Models (AVITM) to embed prior knowledge of seed words. This work includes enhancement of the previous AVI architecture and also modification of the loss function. Ultimately, we present the Autoencoding Variational Inference for Joint Sentiment/Topic (AVIJST) model. In this model, we substantially extend the AVI model to support the JST model, which performs topic modeling for corresponding sentiment. The experimental results show that our proposed models enjoy higher topic coherent, faster convergence time and better accuracy on sentiment classification, as compared to their LDA-based counterparts., Comment: 20 pages, 11 figures

Published
2019
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9. Graph-Based Motion Planning Networks

Author

Hoang, Tai, Vien, Ngo Anh, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Hutter, Frank, editor, Kersting, Kristian, editor, Lijffijt, Jefrey, editor, and Valera, Isabel, editor

Published
2021
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15. Land degradation in Vietnam and solutions

Author

Hoang Tai An, Le Do Mai Anh, Kieu Anh, Nguyen Ngoc Minh Anh, null Le Thi Tuyet Anh, Nguyễn Trần Hiệp, Phạm Vân Anh, Phan Thi Mai Anh, Lê Vinh Khánh, Kieu Thi Ngoc Anh, and Nguyễn Thanh Bình

Abstract

Land degradation in Vietnam and solutions

Published
2022
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16. Thực trạng đầu cơ tích trữ, đôn giá sản phẩm trong mùa dịch COVID-19 và một số giải pháp

Author

Hoang Tai An, Le Do Mai Anh, Kieu Anh, Nguyễn Trần Hiệp, null Le Thi Tuyet Anh, and Nguyen Ngoc Minh Anh

Abstract

Tiếp nối phần một về thực trạng đầu cơ tích trữ, đôn giá sản phẩm trong mùa dịch COVID-19, phần hai đưa ra một số giải pháp cho vấn đề. Phần 1: https://osf.io/e6h52/

Published
2022
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19. TÌNH TRẠNG THOÁI HÓA ĐẤT ĐAI

Author

Hoang Tai An, Đỗ Kiều Anh, Le Do Mai Anh, Phan Thi Mai Anh, Nguyễn Thanh Bình, Nguyen Ngoc Minh Anh, null Le Thi Tuyet Anh, Phạm Vân Anh, Nguyen Tran Hiep, Kieu Thi Ngoc Anh, and Lê Vinh Khánh

Abstract

Đất đai ở Việt Nam và trên thế giới đang bị suy thoái nghiêm trọng

Published
2021
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21. Simultaneous Estimation and Planning for Differential Drive Robot - Technical Report

Author

Hoang, Tai

Subjects
artificial_intelligence_robotics
Abstract

Estimation and planning play a vital role in the construction of an autonomous navigation framework. However, these problems are often considered separately, while planning gives robot a free-collision path towards the desired goal, estimation algorithm presents the executed trajectory in the sense that it has to be closed to the ground truth path as much as possible. Recently, a unified probabilistic framework, which supports solving these problems simultaneously, dubbed STEAP has been proposed. Nevertheless, its current version is only designated for an omni wheels robot, which allows robot to move and turn in vertical direction. Differential drive robot, on the other hand, though limited to move along only one direction, has been used in various situations due to its flexibility and lower cost in hardware designing. Thus, in this extension, our aim is to control a differential drive robot via STEAP. Moreover, in a more complicated environment such as labyrinth or maze, the original STEAP sometimes fails to find a path. Indeed, this problem is mainly caused by the poor initialization and the non-linearity in optimizer constraints. In our implementation, instead of dealing with these constraints, we employ a global planner algorithm such as Dijkstra or RRT to treat STEAP as an effective local planner module that focus on following the global path. Consequently, the experimental results show that the extended STEAP not only able to navigate a differential drive robot but also in a more complicated and unstructured environment.

Published
2020

22. P261 The relationship between carotid intime-media thickness and modified gensini score in patients with acute coronary syndrome

Author

Nghia Nguyen Thuong, Phuong Huynh Kim, and M Y Nguyen Hoang Tai

Subjects
Coronary angiography, medicine.medical_specialty, Acute coronary syndrome, business.industry, Internal medicine, cardiovascular system, medicine, Cardiology, In patient, cardiovascular diseases, Cardiology and Cardiovascular Medicine, medicine.disease, business
Abstract

Introduction Detection of extent and severity of atherosclerosis using easy, non-invasive methods is of great importance. Coronary atherosclerotic burden may be evaluated with the modified Gensini score (mGSS) while carotid intima media thickness (CIMT) is well known as a surrogate marker of atherosclerosis. Aim To investigate whether CIMT is a predictor of coronary atherosclerosis in Vietnamese patients. Methods This is a cross-sectional study of 276 patients who was diagnosed index acute coronary syndrome and underwent coronary angiography. mGSS was used to determine the extent and severity of coronary atherosclerosis. CIMT was estimated by carotid duplex ultrasound. Results In 276 patients, there were 192 men and 84 women, with ages ranging from 24 to 90 years. Median CIMT was 0.76mm (IQT 0.26mm); median mGSS was 140 (IQT 70). CIMT and mGSS were correlated with age (r= 0.269, p< 0.001 and r= 0.134, p< 0.001). CIMT were also correlated with vessels score (r= 0.222, p< 0.001), with stenosis score (r= 0.214, p< 0.001) and with the mGSS (r= 0.216, p< 0.001). This correlation were significantly recognized between groups with or without elevated CIMT. Conclusion Our data suggests that CIMT correlates positively with the extent and severity of coronary atherosclerosis. CIMT may be useful as a screening tool for the presence of CAD in Vietnamese population.

Published
2020
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