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1. Safety-critical Control with Control Barrier Functions: A Hierarchical Optimization Framework

Author

Xie, Junjun, Hu, Liang, Qin, Jiahu, Yang, Jun, and Gao, Huijun

Subjects
Mathematics - Optimization and Control, Computer Science - Robotics
Abstract

The control barrier function (CBF) has become a fundamental tool in safety-critical systems design since its invention. Typically, the quadratic optimization framework is employed to accommodate CBFs, control Lyapunov functions (CLFs), other constraints and nominal control design. However, the constrained optimization framework involves hyper-parameters to tradeoff different objectives and constraints, which, if not well-tuned beforehand, impact system performance and even lead to infeasibility. In this paper, we propose a hierarchical optimization framework that decomposes the multi-objective optimization problem into nested optimization sub-problems in a safety-first approach. The new framework addresses potential infeasibility on the premise of ensuring safety and performance as much as possible and applies easily in multi-certificate cases. With vivid visualization aids, we systematically analyze the advantages of our proposed method over existing QP-based ones in terms of safety, feasibility and convergence rates. Moreover, two numerical examples are provided that verify our analysis and show the superiority of our proposed method.

Published
2024

3. Characterising User Transfer Amid Industrial Resource Variation: A Bayesian Nonparametric Approach

Author

Lei, Dongxu, Lin, Xiaotian, Yu, Xinghu, Li, Zhan, Sun, Weichao, Qiu, Jianbin, Zhuang, Songlin, and Gao, Huijun

Subjects
Computer Science - Machine Learning
Abstract

In a multitude of industrial fields, a key objective entails optimising resource management whilst satisfying user requirements. Resource management by industrial practitioners can result in a passive transfer of user loads across resource providers, a phenomenon whose accurate characterisation is both challenging and crucial. This research reveals the existence of user clusters, which capture macro-level user transfer patterns amid resource variation. We then propose CLUSTER, an interpretable hierarchical Bayesian nonparametric model capable of automating cluster identification, and thereby predicting user transfer in response to resource variation. Furthermore, CLUSTER facilitates uncertainty quantification for further reliable decision-making. Our method enables privacy protection by functioning independently of personally identifiable information. Experiments with simulated and real-world data from the communications industry reveal a pronounced alignment between prediction results and empirical observations across a spectrum of resource management scenarios. This research establishes a solid groundwork for advancing resource management strategy development.

Published
2023

4. Representation Separation for Semantic Segmentation with Vision Transformers

Author

Hong, Yuanduo, Pan, Huihui, Sun, Weichao, Yu, Xinghu, and Gao, Huijun

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

Vision transformers (ViTs) encoding an image as a sequence of patches bring new paradigms for semantic segmentation.We present an efficient framework of representation separation in local-patch level and global-region level for semantic segmentation with ViTs. It is targeted for the peculiar over-smoothness of ViTs in semantic segmentation, and therefore differs from current popular paradigms of context modeling and most existing related methods reinforcing the advantage of attention. We first deliver the decoupled two-pathway network in which another pathway enhances and passes down local-patch discrepancy complementary to global representations of transformers. We then propose the spatially adaptive separation module to obtain more separate deep representations and the discriminative cross-attention which yields more discriminative region representations through novel auxiliary supervisions. The proposed methods achieve some impressive results: 1) incorporated with large-scale plain ViTs, our methods achieve new state-of-the-art performances on five widely used benchmarks; 2) using masked pre-trained plain ViTs, we achieve 68.9% mIoU on Pascal Context, setting a new record; 3) pyramid ViTs integrated with the decoupled two-pathway network even surpass the well-designed high-resolution ViTs on Cityscapes; 4) the improved representations by our framework have favorable transferability in images with natural corruptions. The codes will be released publicly., Comment: 17 pages, 13 figures. This work has been submitted to the IEEE for possible publication

Published
2022

7. Practical Fractional-Order Variable-Gain Super-Twisting Control with Application to Wafer Stages of Photolithography Systems

Author

Kuang, Zhian, Sun, Liting, Gao, Huijun, and Tomizuka, Masayoshi

Subjects
Electrical Engineering and Systems Science - Systems and Control, Computer Science - Robotics
Abstract

In this paper, a practical fractional-order variable-gain super-twisting algorithm (PFVSTA) is proposed to improve the tracking performance of wafer stages for semiconductor manufacturing. Based on the sliding mode control (SMC), the proposed PFVSTA enhances the tracking performance from three aspects: 1) alleviating the chattering phenomenon via super-twisting algorithm and a novel fractional-order sliding surface~(FSS) design, 2) improving the dynamics of states on the sliding surface with fast response and small overshoots via the designed novel FSS and 3) compensating for disturbances via variable-gain control law. Based on practical conditions, this paper analyzes the stability of the controller and illustrates the theoretical principle to compensate for the uncertainties caused by accelerations. Moreover, numerical simulations prove the effectiveness of the proposed sliding surface and control scheme, and they are in agreement with the theoretical analysis. Finally, practice-based comparative experiments are conducted. The results show that the proposed PFVSTA can achieve much better tracking performance than the conventional methods from various perspectives., Comment: This paper has been accepted by IEEE Trans. Mechatronics

Published
2021

8. Feedback-based Digital Higher-order Terminal Sliding Mode for 6-DOF Industrial Manipulators

Author

Kuang, Zhian, Zhang, Xiang, Sun, Liting, Gao, Huijun, and Tomizuka, Masayoshi

Subjects
Computer Science - Robotics, Electrical Engineering and Systems Science - Systems and Control
Abstract

The precise motion control of a multi-degree of freedom~(DOF) robot manipulator is always challenging due to its nonlinear dynamics, disturbances, and uncertainties. Because most manipulators are controlled by digital signals, a novel higher-order sliding mode controller in the discrete-time form with time delay estimation is proposed in this paper. The dynamic model of the manipulator used in the design allows proper handling of nonlinearities, uncertainties and disturbances involved in the problem. Specifically, parametric uncertainties and disturbances are handled by the time delay estimation and the nonlinearity of the manipulator is addressed by the feedback structure of the controller. The combination of terminal sliding mode surface and higher-order control scheme in the controller guarantees a fast response with a small chattering amplitude. Moreover, the controller is designed with a modified sliding mode surface and variable-gain structure, so that the performance of the controller is further enhanced. We also analyze the condition to guarantee the stability of the closed-loop system in this paper. Finally, the simulation and experimental results prove that the proposed control scheme has a precise performance in a robot manipulator system., Comment: This paper has been accepted by American Control Conference 2021

Published
2021

9. Precise Motion Control of Wafer Stages via Adaptive Neural Network and Fractional-Order Super-Twisting Algorithm

Author

Kuang, Zhian, Sun, Liting, Gao, Huijun, and Tomizuka, Masayoshi

Subjects
Electrical Engineering and Systems Science - Systems and Control, Computer Science - Robotics
Abstract

To obtain precise motion control of wafer stages, an adaptive neural network and fractional-order super-twisting control strategy is proposed. Based on sliding mode control (SMC), the proposed controller aims to address two challenges in SMC: 1) reducing the chattering phenomenon, and 2) attenuating the influence of model uncertainties and disturbances. For the first challenge, a fractional-order terminal sliding mode surface and a super-twisting algorithm are integrated into the SMC design. To attenuate uncertainties and disturbances, an add-on control structure based on the radial basis function (RBF) neural network is introduced. Stability analysis of the closed-loop control system is provided. Finally, experiments on a wafer stage testbed system are conducted, which proves that the proposed controller can robustly improve the tracking performance in the presence of uncertainties and disturbances compared to conventional and previous controllers., Comment: Published in IFAC World Congress 2020

Published
2021

10. Two haplotype-resolved genome assemblies for AAB allotriploid bananas provide insights into banana subgenome asymmetric evolution and Fusarium wilt control

Author

Xie, Wen-Zhao, Zheng, Yu-Yu, He, Weidi, Bi, Fangcheng, Li, Yaoyao, Dou, Tongxin, Zhou, Run, Guo, Yi-Xiong, Deng, Guiming, Zhang, Wenhui, Yuan, Min-Hui, Sanz-Jimenez, Pablo, Zhu, Xi-Tong, Xu, Xin-Dong, Zhou, Zu-Wen, Zhou, Zhi-Wei, Feng, Jia-Wu, Liu, Siwen, Li, Chunyu, Yang, Qiaosong, Hu, Chunhua, Gao, Huijun, Dong, Tao, Dang, Jiangbo, Guo, Qigao, Cai, Wenguo, Zhang, Jianwei, Yi, Ganjun, Song, Jia-Ming, Sheng, Ou, and Chen, Ling-Ling

Published
2024
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11. High-quality genome assemblies for two Australimusa bananas (Musa spp.) and insights into regulatory mechanisms of superior fiber properties

Author

Zhou, Run, Wang, Shuo, Zhan, Ni, He, Weidi, Deng, Guiming, Dou, Tongxin, Zhu, Xi-Tong, Xie, Wen-Zhao, Zheng, Yu-Yu, Hu, Chunhua, Bi, Fangcheng, Gao, Huijun, Dong, Tao, Liu, Siwen, Li, Chunyu, Yang, Qiaosong, Wang, Lingqiang, Song, Jia-Ming, Dang, Jiangbo, Guo, Qigao, Yi, Ganjun, Chen, Ling-Ling, and Sheng, Ou

Published
2024
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12. Monocular 3D Object Detection with Sequential Feature Association and Depth Hint Augmentation

Author

Gao, Tianze, Pan, Huihui, and Gao, Huijun

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Monocular 3D object detection, with the aim of predicting the geometric properties of on-road objects, is a promising research topic for the intelligent perception systems of autonomous driving. Most state-of-the-art methods follow a keypoint-based paradigm, where the keypoints of objects are predicted and employed as the basis for regressing the other geometric properties. In this work, a unified network named as FADNet is presented to address the task of monocular 3D object detection. In contrast to previous keypoint-based methods, we propose to divide the output modalities into different groups according to the estimation difficulty of object properties. Different groups are treated differently and sequentially associated by a convolutional Gated Recurrent Unit. Another contribution of this work is the strategy of depth hint augmentation. To provide characterized depth patterns as hints for depth estimation, a dedicated depth hint module is designed to generate row-wise features named as depth hints, which are explicitly supervised in a bin-wise manner. The contributions of this work are validated by conducting experiments and ablation study on the KITTI benchmark. Without utilizing depth priors, post optimization, or other refinement modules, our network performs competitively against state-of-the-art methods while maintaining a decent running speed., Comment: 11 pages, 11 figures. This paper has been accepted by IEEE Transactions of Intelligent Vehicles. Digital Object Identifier: 10.1109/TIV.2022.3143954

Published
2020
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13. A CRF-based Framework for Tracklet Inactivation in Online Multi-Object Tracking

Author

Gao, Tianze, Pan, Huihui, Wang, Zidong, and Gao, Huijun

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Online multi-object tracking (MOT) is an active research topic in the domain of computer vision. Although many previously proposed algorithms have exhibited decent results, the issue of tracklet inactivation has not been sufficiently studied. Simple strategies such as using a fixed threshold on classification scores are adopted, yielding undesirable tracking mistakes and limiting the overall performance. In this paper, a conditional random field (CRF) based framework is put forward to tackle the tracklet inactivation issue in online MOT problems. A discrete CRF which exploits the intra-frame relationship between tracking hypotheses is developed to improve the robustness of tracklet inactivation. Separate sets of feature functions are designed for the unary and binary terms in the CRF, which take into account various tracking challenges in practical scenarios. To handle the problem of varying CRF nodes in the MOT context, two strategies named as hypothesis filtering and dummy nodes are employed. In the proposed framework, the inference stage is conducted by using the loopy belief propagation algorithm, and the CRF parameters are determined by utilizing the maximum likelihood estimation method followed by slight manual adjustment. Experimental results show that the tracker combined with the CRF-based framework outperforms the baseline on the MOT16 and MOT17 benchmarks. The extensibility of the proposed framework is further validated by an extensive experiment., Comment: 13 pages, 8 figures. This work has been accepted by IEEE Transactions on Multimedia. (DOI: 10.1109/TMM.2021.3062489)

Published
2020
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14. Adaptive Fast Smooth Second-Order Sliding Mode Control for Attitude Tracking of a 3-DOF Helicopter

Author

Wang, Xidong, Li, Zhan, He, Zhen, and Gao, Huijun

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

This paper presents a novel adaptive fast smooth second-order sliding mode control for the attitude tracking of the three degree-of-freedom (3-DOF) helicopter system with lumped disturbances. Combining with a non-singular integral sliding mode surface, we propose a novel adaptive fast smooth second-order sliding mode control method to enable elevation and pitch angles to track given desired trajectories respectively with the features of non-singularity, adaptation to disturbances, chattering suppression and fast finite-time convergence. In addition, a novel adaptive-gain smooth second-order sliding mode observer is proposed to compensate time-varying lumped disturbances with the smoother output compared with the adaptive-gain second-order sliding mode observer. The fast finite-time convergence of the closed-loop system with constant disturbances and the fast finite-time uniformly ultimately boundedness of the closed-loop system with the time-varying lumped disturbances are proved with the finite-time Lyapunov stability theory. Finally, the effectiveness and superiority of the proposed control methods are verified by comparative simulation experiments., Comment: 10 pages,11 figures

Published
2020

15. Distributed velocity-constrained consensus of discrete-time multi-agent systems with nonconvex constraints, switching topologies, and delays

Author

Lin, Peng, Ren, Wei, and Gao, Huijun

Subjects
Mathematics - Optimization and Control
Abstract

In this paper, a distributed velocity-constrained consensus problem is studied for discrete-time multi-agent systems, where each agent's velocity is constrained to lie in a nonconvex set. A distributed constrained control algorithm is proposed to enable all agents to converge to a common point using only local information. {The gains of the algorithm for all agents need not to be the same or predesigned and can be adjusted by each agent itself based on its own and neighbors' information.} It is shown that the algorithm is robust to arbitrarily bounded communication delays and arbitrarily switching communication graphs provided that the union of the graphs has directed spanning trees among each certain time interval. The analysis approach is based on multiple novel model transformations, proper control parameter selections, boundedness analysis of state-dependent stochastic matrices, exploitation of the convexity of stochastic matrices, and the joint connectivity of the communication graphs. Numerical examples are included to illustrate the theoretical results.

Published
2020

17. High-resolution mapping of significant wave heights in the Northeast Pacific and Northwest Atlantic using improved multi-source satellite altimetry fusion method.

Author

Yang, Hongbin, Liang, Bingchen, Gao, Huijun, and Shao, Zhuxiao

Subjects
WATER depth, SHIPWRECKS, WATER waves, MARINE resources conservation, ENERGY consumption
Abstract

Significant wave height (SWH) is an important parameter to reflect wave state, which is of great significance in ocean engineering. However, the current wave observation methods have limitations in capturing wave field data with high spatial resolution. In this study, to generate the SWHs field over the Northeast Pacific and Northwest Atlantic, multi-source satellite altimeter data (CRYOSAT-2, SARAL, JASON-3, SENTINEL-3A, SENTINEL-3B, HY-2B and CFOSAT) are fused with a spatial resolution of 0.125° x 0.125° and a temporal resolution of 1 day. We employ the Inverse Distance Weighting (IDW) method and the IDW-based spatiotemporal (IDW-ST) method for data fusion. The fusion results exhibit a consistent spatial distribution characteristic, but the results of the IDW method display the visible trajectory. Moreover, the IDW-ST method, which incorporates time factors, shows great agreement between the fused SWH and buoy data. However, when the water depth change near the grid point has a great influence on the fusion, the complexity of bathymetric topography makes the traditional two-dimensional spatial fusion methods inadequate. Therefore, an improved method is proposed based on the IDW-ST fusion method, which introduces the water depth factor and significantly enhances fusion accuracy in regions where bathymetric variations greatly affect fusion results. The proposed method can be used to generate reliable SWH fields, especially in complex bathymetric topography conditions, and provide significant support for marine infrastructure design, ocean energy utilization and marine disaster protection. [ABSTRACT FROM AUTHOR]

Published
2024
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27. Two haplotype-resolved genome assemblies for AAB allotriploid bananas provide insights into banana subgenome asymmetric evolution and Fusarium wilt control

Author

Xie, Wen-Zhao, primary, Zheng, Yu-Yu, additional, He, Weidi, additional, Bi, Fangcheng, additional, Li, Yaoyao, additional, Dou, Tongxin, additional, Zhou, Run, additional, Guo, Yi-Xiong, additional, Deng, Guiming, additional, Zhang, Wenhui, additional, Yuan, Min-Hui, additional, Sanz-Jimenez, Pablo, additional, Zhu, Xi-Tong, additional, Xu, Xin-Dong, additional, Zhou, Zu-Wen, additional, Zhou, Zhi-Wei, additional, Feng, Jia-Wu, additional, Liu, Siwen, additional, Li, Chunyu, additional, Yang, Qiaosong, additional, Hu, Chunhua, additional, Gao, Huijun, additional, Dong, Tao, additional, Dang, Jiangbo, additional, Guo, Qigao, additional, Cai, Wenguo, additional, Zhang, Jianwei, additional, Yi, Ganjun, additional, Song, Jia-Ming, additional, Sheng, Ou, additional, and Chen, Ling-Ling, additional

Published
2023
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28. High-quality genome assemblies for two Australimusa bananas (Musa spp.) and insights into regulatory mechanisms of superior fiber properties

Author

Zhou, Run, primary, Wang, Shuo, additional, Zhan, Ni, additional, He, Weidi, additional, Deng, Guiming, additional, Dou, Tongxin, additional, Zhu, Xi-Tong, additional, Xie, Wen-Zhao, additional, Zheng, Yu-Yu, additional, Hu, Chunhua, additional, Bi, Fangcheng, additional, Gao, Huijun, additional, Dong, Tao, additional, Liu, Siwen, additional, Li, Chunyu, additional, Yang, Qiaosong, additional, Wang, Lingqiang, additional, Song, Jia-Ming, additional, Dang, Jiangbo, additional, Guo, Qigao, additional, Yi, Ganjun, additional, Chen, Ling-Ling, additional, and Sheng, Ou, additional

Published
2023
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32. Adaptive Extended State Observer-Based Velocity-Free Servo Tracking Control With Friction Compensation

Author

Lin, Weiyang, Zhang, Zhongjin, Yu, Xinghu, Qiu, Jianbin, Rudas, Imre J., Gao, Huijun, and Qu, Dongsheng

Abstract

In this article, a velocity-free adaptive controller is proposed for the tracking control of servo mechanisms with friction compensation. A continuously differentiable friction model is employed to compensate for the dominant friction nonlinearity of servo mechanisms. Besides, a projection-type adaptive law is applied to handle parameter uncertainties in the system model. Since only the output position signal is directly measurable, an adaptive extended state observer (AESO) is constructed to estimate the indeterminate velocity state, which can also provide an estimation of unmodeled dynamics. Moreover, the dynamic gain switching of AESO can effectively suppress the peaking phenomenon at the motion beginning. Specifically, the parameter adaptation law utilizes the desired velocity state instead of the estimated value, avoiding the coupling problem between parameter and state estimation. The proposed control strategy theoretically demonstrates the transient performance and boundedness of the error in output tracking. Asymptotic stabilization of the system can also be implemented when only parameter uncertainty exists. Comparative experiments are conducted on a linear motor platform to demonstrate the effectiveness of the proposed control scheme.

Published
2024
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33. Increasing the Robustness of Deep Learning Models for Object Segmentation: A Framework for Blending Automatically Annotated Real and Synthetic Data

Author

Karoly, Artur Istvan, Tirczka, Sebestyen, Gao, Huijun, Rudas, Imre J., and Galambos, Peter

Abstract

Recent problems in robotics can sometimes only be tackled using machine learning technologies, particularly those that utilize deep learning (DL) with transfer learning. Transfer learning takes advantage of pretrained models, which are later fine-tuned using smaller task-specific datasets. The fine-tuned models must be robust against changes in environmental factors such as illumination since, often, there is no guarantee for them to be constant. Although synthetic data for pretraining has been shown to enhance DL model generalization, there is limited research on its application for fine-tuning. One limiting factor is that the generation and annotation of synthetic datasets can be cumbersome and impractical for the purpose of fine-tuning. To address this issue, we propose two methods for automatically generating annotated image datasets for object segmentation, one for real-world and another for synthetic images. We also introduce a novel domain adaptation approach called filling the reality gap (FTRG), which can blend elements from real-world and synthetic scenes in a single image to achieve domain adaptation. We demonstrate through experimentation on a representative robot application that FTRG outperforms other domain adaptation techniques, such as domain randomization or photorealistic synthetic images, in creating robust models. Furthermore, we evaluate the benefits of using synthetic data for fine-tuning in transfer learning and continual learning with experience replay using our proposed methods and FTRG. Our findings indicate that fine-tuning with synthetic data can produce superior results compared to solely using real-world data.

Published
2024
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35. Genome-wide analysis of the polyphenol oxidase gene family reveals that MaPPO1 and MaPPO6 are the main contributors to fruit browning in Musa acuminate

Author

Qin, Fei, primary, Hu, Chunhua, additional, Dou, Tongxin, additional, Sheng, Ou, additional, Yang, Qiaosong, additional, Deng, Guiming, additional, He, Weidi, additional, Gao, Huijun, additional, Li, Chunyu, additional, Dong, Tao, additional, Yi, Ganjun, additional, and Bi, Fangcheng, additional

Published
2023
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