Hongbo, Gao
Office address: Room 1316, West Building, Science and Technology Building,
No.443 Huangshan Road, Shushan District, Hefei City, Anhui Province.
Email: ghb48@ustc.tsg211.com
Ø 09/2012-12/2016:Ph.D., Dept. of Computer Science and Technology, Beihang Univ.,China
Supervisor: Prof. Deyi Li
The Research on Unmanned Vehicle of Drivingby Targets
Ø 09/2008-06/2011:M. S., Dept. of Applied Psychology, Anhui Normal Univ., China
Ø 09/2002-06/2006: B. S., Information Technology, Anhui Normal Univ., China
Ø 09/2012-Present:Associate Prof., Dept. of Automation, Univ. of Science and Technology of China
Research:perception, planning, decision-making and control
Ø 01/2017-06/2019:ResearchFellow(Post-doc), Automotive Engineering, Tsinghua Univ., China
Research: humanized decision-making and control of intelligent driving vehicles,
cloud intelligence and its vehicle applications
Advisor: Prof. Keqiang Li and Prof. Bo Cheng
Ø 09/2014-06/2015:Research Fellow, Baidu Netcom Science Technology Co., Ltd,China
Ø 07/2011-08/2012:Chief Technology Officer (CTO), Zhaoying Science Technology Co., Ltd, China
Ø Research on Perception, Planning, Decision-making and Control of Intelligent Driving Vehicles
Ø Transfer Learning, Uncertain Artificial Intelligence and Its Application in Intelligent Driving Vehicles
Ø Research on Intelligent Test and Evaluation Standard System for Intelligent Driving Vehicles
Honors and Awards
First Prize of Scientific and Technological Award,China Institute of Command and Control | 2021 |
Young Scientist Award,China Institute of Command and Control | 2020 |
Best Paper Award, the 5thARM | 2020 |
Best Conference Paper Award, ICCSIP | 2018 |
First Prize for Excellent Paper, the 6th China Command and Control Conference | 2019&2018 |
Outstanding Ph.D. Graduate, Beihang University | 2017 |
Outstanding Doctoral Thesis Nomination Award, China Command and Control Society | 2017 |
Main Projects
PI,the Joint Funds of NSFC of China: Research on Key Technologies of Autonomous Cooperative Preception and NetworkedSafety Warning for Driverless Vehicles. (2021.1-2024.12)
PI,NSFC-Shenzhen Robot Basic Research Center Project, China: Theory and Method of Cooperative Perception and Intelligent Guidance of Robot in Complex Environment. (2021.1-2024.12)
PI,Key Research and Development Plan of Anhui Province,China: Dynamic Characteristics and Cooperative Control Technology of Man-machine Co-driving Intelligent Vehicle. (2020.1-2021.12)
PI,National Key Research and Development Program, China:Decision-making and Trajectory Planning Technology for Intelligent Driving. (2017.6-2021.6)
Granted Patents, over 30+Papents
1. | Patent No. ZL201910893473.1 | Issued: May 7, 2021 |
2. | Patent No. PCT WO2019/019518A1 | Issued: January 31, 2019 |
3. | Patent No. PCT WO2019/037325A1 | Issued: February 28, 2019 |
4. | Patent No. ZL201710621898.8 | Issued: August 9, 2019 |
5. | Patent No. ZL201510353649.6 | Issued: January 12, 2018 |
6. | Patent No. ZL201410835072.8 | Issued: October 12, 2016 |
7 | Patent No. ZL201310378718.X | Issued: November 4, 2015 |
Publication
2 Books,over 60 Papers
n Selected Papers
[1] Hongbo Gao;Chen Lv;Tong Zhang;Hongfei Zhao;Lei Jiang;Junjie Zhou;Yuchao Liu;Yi Huang;Chao Han.Human Motion Segmentation Based on Structure Constraint Matrix Factorization. SCIENCE CHINA:Information Sciences, 2022,65(1): 119103:1–119103:2.
[3] Hongbo Gao;Chen Lv; Tong Zhang;Hongfei Zhao; Lei Jiang;Yuchao Liu; Chao Han. A Structure Constraint Matrix Factorization Framework for Human Behavior Segmentation. IEEE Trans. on Cybernetics, 2021,DOI: 10.1109/TCYB.2021.3095357.
[4] Hongbo Gao;Zhen Kan;Keqiang Li. Robust Lateral Trajectory Following Control of Unmanned Vehicle Based on Model Predictive Control. IEEE/ASME Trans. on Mechatronics, 2021, DOI: 10.1109/TMECH.2021.3087605.
[5] Hongbo Gao;Wei Bi;Xiaoyu Wu;Zhen Kan;Yu Kang. Adaptive Fuzzy Region-based Control of Euler-Lagrange Systems with Kinematically Singular Configurations. IEEE Trans. on Fuzzy Systems, 2021, 29(8):2169-2179. DOI: 10.1109/TFUZZ.2020.2994991.
[6] Hongbo Gao;Ling Luo;Ming Pi;Qinjian Li;Kuankuan Zhao;Junliang Huang.EEG-Based Volitional Control of Prosthetic Legs for Walking in Different Terrains. IEEE Trans.on Automation Science and Engineering, 2021,18(2):530-540.
[7] Hongbo Gao;Fei Chen;Zhengyuan Hao;Xi He;Hang Su;keqiang Li;Zhen Kan. Adaptive Finite Time Trajectory Tracking Control of Autonomous Vehicles with Disturbance and Actuator Saturation. IEEE Intelligent Transportation Systems Magazine,2021,DOI: 10.1109/MITS.2021.3080075
[8] Hongbo Gao;Chuan Hu;GuotaoXie;Chao Han. Discretionary Cut-in Driving Behavior RiskAssessment based on Naturalistic Driving Data. IEEE Intelligent Transportation Systems Magazine,2021, DOI:10.1109/MITS.2021.3093349.
[9] Huanjie Wang;HongboGao(*);Shihua Yuan;Hongfei Zhao;Kelong Wang;Xiulai Wang;Keqiang Li; and DeyiLi.Interpretable Decision-Making for Autonomous Vehicles at Highway On-Ramps with Latent Space Reinforcement Learning. IEEE Trans. on Vehicular Technology, 2021, DOI:10.1109/TVT.2021.3098321.
[10] Yingfeng Cai;Tianyu Luan;Hongbo Gao;Hai Wang(*);Long Chen;Yicheng Li; Miguel Angel Sotelo;Zhixiong Li.YOLO-5D: An Effective and Efficient Object Detector for Autonomous Driving. IEEE Trans. on Instrumentation and Measurement, 2021, DOI:10.1109/TIM.2021.3065438.
[11] Hongbo Gao;Juping Zhu;TongZhang;GuotaoXie;Zhen Kan;Zhengyuan Hao;Kang Liu.Situational Assessment for Intelligent Vehicles based on Stochastic Model and Gaussian Distributions in Typical Traffic Scenarios.IEEE Trans. on Systems Man Cybernetics-Systems, 2020, DOI: 10.1109/TSMC.2020.3019512.
[12] Hongbo Gao;Juping Zhu;Xinde Li;Yu Kang;Jiehao Li;Hang Su. Automatic Parking Control of Unmanned Vehicle Based on Switching Control Algorithm and Backstepping. IEEE/ASME Trans. on Mechatronics, 2020, DOI :10.1109/TMECH.2020.3037215.
[13] Chuan HuHongbo GaoJinghua GuoHamid TaghavifarYechenQin(*)Jing NaChongfeng Wei. RISE-Based Integrated Lane-Keeping and Roll Control of Autonomous Ground Vehicles with Asymptotic Prescribed Performance. IEEE Trans. on Systems Man Cybernetics-Systems, 2020, 51(9):5336-5348.
[14] Hongbo Gao;Huilong Yu;GuotaoXie;Haitong Ma;Youchun Xu;Deyi Li. Hardware and Software Architecture of Intelligent Vehicles and Road Verification in Typical Traffic Scenarios. IET Intelligent Transport Systems, 2019, 13(6): 960-966.
[15] Zhenyu Wu;Kai Qiu;HongboGao(*).Driving polices of V2X autonomous vehicles based on reinforcement learning methods. IET Intelligent Transport Systems, DOI: 10.1049/iet-its.2019.0457.
[16] Manjiang Hu;GuotaoXie;HongboGao(*);Dongpu Cao;Keqiang Li. Maneuver Prediction and Planning for automated and connected vehicles based on Interaction and Gaming Awareness under uncertainty.IET Intelligent Transport Systems, 2019, 13(6): 933-941.
[17] Hongbo Gao;Bo Cheng;Jianqiang Wang;Keqiang Li;Jianhui Zhao;Deyi Li. Object Classification using CNN-Based Fusion of Vision and LIDAR in Autonomous Vehicle Environment. IEEE Trans. on Industrial Informatics, 2018, 14(9):4224-4231.
[18] Deyi Li;HongboGao(*). A Hardware Platform Framework for an Intelligent Vehicle Based on a Driving Brain. Engineering, 2018, 4(2018):464-470.
[19] XunjiaZheng;DiZhang; HongboGao(*);Zhiguo Zhao;Heye Huang; Jianqiang Wang. A Novel Framework for Road Traffic Risk Assessment with HMM-based Prediction Model. Sensors, 2018, 18(12):4313-4327.
[20] GuotaoXie;HongboGao(*);Bin Huang;Lijun Qian;Jianqiang Wang. A Driving Behavior Awareness Model based on a Dynamic Bayesian Network and Distributed Genetic Algorithm. International Journal of Computational Intelligence Systems, 2018, 11(1):469-482.
[21] GuotaoXie;HongboGao(*);Lijun Qian;Bin Huang;Keqiang Li;Jianqiang Wang. Vehicle Trajectory Prediction by Integrating Physics-and Maneuver-based Approaches Using Interactive Multiple Models. IEEE Trans. on Industrial Electronics, 2017, 56(7):5999-6008.
[22] XinyuZhang; HongboGao(*); GuopengLi; JianhuiZhao; JianghaoHuo; JialunYin; YuchaoLiu; LiZheng. Multi-View Clustering based on Graph Regularized Nonnegative Matrix Factorization for object recognition. Information Science, 2017, 432(2018):463-478.
[23] Hongbo Gao; Xinyu Zhan; Tianlei Zhang; Yuchao Liu; Deyi Li.Research of Intelligent Vehicle Variable Granularity Evaluation Based on Cloud Model. ACTA Electronica Sinica, 2016, 44(2):365-374.