楊洪波,男,研究(jiu)員,博士生導師(shi)。現任中國科學(xue)院蘇州生物醫學(xue)工程技術研究(jiu)所(簡稱"蘇州醫工所")黨委書記、副所長(chang),蘇(su)州市康復工程(cheng)重點實驗(yan)室主(zhu)任(ren),江(jiang)蘇(su)省產業技(ji)術研究院生物醫(yi)(yi)(yi)(yi)學(xue)工程(cheng)技(ji)術研究所所長(chang),188bet足球生物醫(yi)(yi)(yi)(yi)學(xue)工程(cheng)學(xue)院(蘇(su)州)常務(wu)副院長(chang),中國康復醫(yi)(yi)(yi)(yi)學(xue)會(hui)技(ji)術轉化(hua)與產業促進專業委員會(hui)常委,中科(ke)院蘇(su)州醫(yi)(yi)(yi)(yi)工所康復工程(cheng)學(xue)科(ke)學(xue)術帶頭人,中科(ke)院特(te)聘(pin)研究員核心骨干(gan)人才(cai),國家(jia)科(ke)技(ji)部主(zhu)動健康與老齡化科技應對專家組成(cheng)員。
主(zhu)要學科方(fang)向(xiang)為康(kang)復醫學工程、機(ji)械制(zhi)造及其自(zi)動(dong)化(hua)。長期從事運(yun)動(dong)與(yu)認知功能障礙康(kang)復設(she)備、醫用柔(rou)性傳感器(qi)(qi)、康(kang)復機(ji)器(qi)(qi)人、老(lao)年護(hu)理與(yu)監(jian)測等研發工作。作為項目負責人主(zhu)持和(he)承擔(dan)多模態智能移動(dong)助行器(qi)(qi)、敏捷(jie)型助老(lao)助殘(can)外骨骼機(ji)器(qi)(qi)人、失(shi)能老(lao)人智能輔助護(hu)理與(yu)監(jian)護(hu)系統一體(ti)化(hua)解決方(fang)案及應用示范(fan)、類皮膚(fu)柔(rou)性傳感器(qi)(qi)腦(nao)機(ji)接口關鍵(jian)技術(shu)研究(jiu)、兒童(tong)孤獨癥虛擬現實(VR)康(kang)(kang)復治療(liao)系(xi)統(tong)等多(duo)項國(guo)家(jia)、省部及中科院重點項目。作為康(kang)(kang)復醫學工程技(ji)術專家(jia),參與國(guo)家(jia)中長期科技(ji)發展(zhan)規劃健康(kang)(kang)促進(包括殘疾)領(ling)域戰略研究。在國(guo)內外期刊發表(biao)學術論文100余篇,授權發明專利30余項,PCT專(zhuan)利2項,培(pei)養(yang)碩(shuo)士(shi)、博士(shi)生(sheng)60余名(ming)。
論文專著:
[1]Guo Zhen, Zhou Lianqun, Tang Yuguo, Li Lin,Zhang Zhiqi, Yang Hongbo*, Ma Hanbin, Nathan Arokia, Zhao Dongxu. Surface/Interface Carrier-Transport Modulation for Constructing Photon-Alternative Ultraviolet Detectors Based on Self-Bending-Assembled ZnO Nanowires.[J]. ACS applied materials & interfaces,2017,9(36).
[2]Jiang Quan, Yang Hongbo*. Numerical Analysis of the Water Film Characteristics in the Eccentric State of a Radial Piston Pump[C]. IEEE ACCESS, 2018, 15274-15282.
[3]Jia Zhu, Senhao Zhang, Ning Yi, Chaoyun Song, Donghai Qiu, Zhihui Hu, Bowen Li, Chenghao Xing, Hongbo Yang*, Qing Wang. Strain-Insensitive Hierarchically Structured Stretchable Microstrip Antennas for Robust Wireless Communication[J]. Nano-Micro Letters, 2021, 13(1).
[4]Kai Guo, Chang Liu, Shasha Zhao, Jingxin Lu, Senhao Zhang, Hongbo Yang*. Design of a Millimeter-Wave Radar Remote Monitoring System for the Elderly Living Alone Using WIFI Communication[J]. Sensors, 2021, 21(23).
[5]Bin Liu, Hongbo Yang*, Kai Guo, Caijun Luo, Chang Liu, Senhao Zhang, Yingying Zhang, Zhenlan Li. Development of image-guided puncture robot used in trigeminal neuralgia treatment[J]. International Journal of Ad Hoc and Ubiquitous Computing, 2021, 38(1-3): 141-150.
[6]Benkun Bao, Senhao Zhang, MOSTAFAORBAN,DongHai Qiu, Hongbo Yang*, Xiankai Cheng. Design of Micro-Bluetooth Motion Acquisition System[J]. Shock and Vibration, 2021, 2021: 66047-66047.
[7]Guo K, Zhang S, Zhao S, Yang H*. Design and Manufacture of Data Gloves for Rehabilitation Training and Gesture Recognition Based on Flexible Sensors[J]. Journal of Healthcare Engineering, 2021, vol. 2021, 6359403,1-9, 2021.
[8]Senhao Zhang, Jia Zhu, Yingying Zhang, Zhensheng Chen, Chaoyun Song, Jiuqiang Li, Ning Yi, Donghai Qiu, Kai Guo, Cheng Zhang, Taisong Pan, Yuan Lin, Honglei Zhou, Hao Long, Hongbo Yang*, Huanyu Cheng. Standalone Stretchable RF Systems Based on Asymmetric 3D Microstrip Antennas With on-body Wireless Communication and Energy Harvesting[J]. Nano Energy, 2022.
[9]Orban M, Elsamanty M, Guo K, Zhang S, Yang H*. A Review of Brain Activity and EEG-Based Brain–Computer Interfaces for Rehabilitation Application[J]. Bioengineering, 2022, 9(12): 768.
[10] Wu H, Zhang S, Bao B, Yang H*,et al. A Deep Neural Network Ensemble Classifier with Focal Loss for Automatic Arrhythmia Classification[J]. JOURNAL OF HEALTHCARE ENGINEERING, 2022, 2022.
[11]Liu C., Lu J., Yang H*, Guo K, Current State of Robotics in Hand Rehabilitation after Stroke: A Systematic Review. Applied Sciences, 2022, 12(9), p.4540.
[12]Liu C, Li J, Zhang S, Yang H*,et al. Study on Flexible sEMG Acquisition System and Its Application in Muscle Strength Evaluation and Hand Rehabilitation[J]. MICROMACHINES, 2022, 13(12).
在研項目情況:
2020YFC2007400,多模態(tai)智能移動(dong)助行器研發,2020.12-2024.11,國(guo)家重點(dian)研發(fa),3962萬;
BE2021012,面向(xiang)腦卒中(zhong)功能(neng)促進的雙(shuang)向(xiang)閉環互適(shi)應智能(neng)腦機接口關鍵技術研發,2021.11-2025.06,江蘇省項目,2280萬;
154232KYSB2020016,基于(yu)石墨烯電(dian)化學(xue)傳感陣列的無創血糖(tang)監測系(xi)統研究,2021.01-2023.12,中(zhong)科院(yuan),108萬(wan);