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PubMed Publications| Keyword search (4,163 papers available) |  |
"Li P" Authored Publications:
| Title | Authors | PubMed ID | |
|---|---|---|---|
| 1 | Associations between brain and cognitive resilience, tau load and extent in Alzheimer's disease | Mitchell SW; Chan T; Trudel L; Hosseini SA; Macedo AC; Gonçalves MP; Rahmouni N; Hall BJ; Socualaya KMQ; Therriault J; Servaes S; Bezgin G; Zheng Y; Aumont E; Wang YT; Arias JF; Real APB; Jia WL; Hopewell R; Hsiao C; Soucy JP; Vitali P; Pascoal TA; Rosa-Neto P; | 41512332 PERFORM |
| 2 | Alzheimer s Imaging Consortium | Mitchell SW; Chan T; Trudel L; Hosseini SA; Macedo AC; Gonçalves MP; Rahmouni N; Hall BJ; Socualaya KMQ; Therriault J; Servaes S; Bezgin G; Zheng Y; Aumont E; Wang YT; Arias JF; Real APB; Jia WL; Hopewell R; Hsiao C; Soucy JP; Vitali P; Pascoal TA; Rosa-Neto P; | 41433447 PERFORM |
| 3 | Trends in missed paediatric preventive primary care visits during the COVID-19 pandemic using routinely collected electronic medical records in Ontario, Canada (2015-2022) | Bayoumi I; Mcfadden K; Valkanas H; Tu K; Kalia S; Chen T; Christie CD; Rourke J; Rourke L; Greiver M; Leduc D; Li P; | 41290264 CONCORDIA |
| 4 | Investigating the effects of a randomized, double-blinded aerobic, resistance, and cognitive training clinical trial on neurocognitive function in older adults with cardiovascular risk factors: the ACTIONcardioRisk protocol | Bherer L; Vrinceanu T; Dupuy EG; Gayda M; Vincent T; Magnan PO; Mohammadi H; Gauthier C; Gagnon C; Duchesne S; Erickson KI; Gagnon D; Lesage F; Lupien S; Poirier J; Dubé MP; Thorin É; Juneau M; Breton J; Belleville S; Ferland G; Gaudreau-Majeau F; Blanchette CA; Vitali P; Nigam A; | 40625372 PSYCHOLOGY |
| 5 | Adaptive finite-time synchronized control of multi-robotic fiber placement system with model uncertainties and disturbances | Zhang R; Wang Y; Xie W; Li P; Tan H; Jiang Y; | 40461302 ENCS |
| 6 | Dynamic and Reprocessable Fluorinated Poly(hindered urea) Network Materials Containing Ionic Liquids to Enhance Triboelectric Performance | Nellepalli P; Kim MP; Park J; Noh SM; Ye Z; Jung HW; Ko H; Oh JK; | 35385641 CHEMBIOCHEM |
| 7 | Dynamic Covalent Polyurethane Network Materials: Synthesis and Self-healability | Nellepalli P; Patel T; Oh JK; | 34418209 CHEMBIOCHEM |
| 8 | Macromolecularly Engineered Thermoreversible Heterogeneous Self-Healable Networks Encapsulating Reactive Multidentate Block Copolymer-Stabilized Carbon Nanotubes | Zhang G; Patel T; Nellepalli P; Bhagat S; Hase H; Jazani AM; Salzmann I; Ye Z; Oh JK; | 33988899 CHEMBIOCHEM |
| 9 | Self-Healable Reprocessable Triboelectric Nanogenerators Fabricated with Vitrimeric Poly(hindered Urea) Networks. | Patel T, Kim MP, Park J, Lee TH, Nellepalli P, Noh SM, Jung HW, Ko H, Oh JK | 32840992 CHEMBIOCHEM |
| 10 | Hypertension Canada's 2020 Comprehensive Guidelines for the Prevention, Diagnosis, Risk Assessment, and Treatment of Hypertension in Adults and Children. | Rabi DM, McBrien KA, Sapir-Pichhadze R, Nakhla M, Ahmed SB, Dumanski SM, Butalia S, Leung AA, Harris KC, Cloutier L, Zarnke KB, Ruzicka M, Hiremath S, Feldman RD, Tobe SW, Campbell TS, Bacon SL, Nerenberg KA, Dresser GK, Fournier A, Burgess E, Lindsay P, Rabkin SW, Prebtani APH, Grover S, Honos G, Alfonsi JE, Arcand J, Audibert F, Benoit G, Bittman J, Bolli P, Côté AM, Dionne J, Don-Wauchope A, Edwards C, Firoz T, Gabor JY, Gilbert RE, Grégoire JC, Gryn SE, Gupta M, Hannah-Shmouni F, Hegele RA, Herman RJ, H | 32389335 HKAP |
| 11 | Hypertension Canada's 2016 Canadian Hypertension Education Program Guidelines for Blood Pressure Measurement, Diagnosis, Assessment of Risk, Prevention, and Treatment of Hypertension. | Leung AA, Nerenberg K, Daskalopoulou SS, McBrien K, Zarnke KB, Dasgupta K, Cloutier L, Gelfer M, Lamarre-Cliche M, Milot A, Bolli P, Tremblay G, McLean D, Tobe SW, Ruzicka M, Burns KD, Vallée M, Prasad GV, Lebel M, Feldman RD, Selby P, Pipe A, Schiffrin EL, McFarlane PA, Oh P, Hegele RA, Khara M, Wilson TW, Penner SB, Burgess E, Herman RJ, Bacon SL, Rabkin SW, Gilbert RE, Campbell TS, Grover S, Honos G, Lindsay P, Hill MD, Coutts SB, Gubitz G, Campbell NR, Moe GW, Howlett JG, Boulanger JM, Prebtani A, Laroc | 27118291 HKAP |
| 12 | Hypertension Canada's 2017 Guidelines for Diagnosis, Risk Assessment, Prevention, and Treatment of Hypertension in Adults. | Leung AA, Daskalopoulou SS, Dasgupta K, McBrien K, Butalia S, Zarnke KB, Nerenberg K, Harris KC, Nakhla M, Cloutier L, Gelfer M, Lamarre-Cliche M, Milot A, Bolli P, Tremblay G, McLean D, Tran KC, Tobe SW, Ruzicka M, Burns KD, Vallée M, Prasad GVR, Gryn SE, Feldman RD, Selby P, Pipe A, Schiffrin EL, McFarlane PA, Oh P, Hegele RA, Khara M, Wilson TW, Penner SB, Burgess E, Sivapalan P, Herman RJ, Bacon SL, Rabkin SW, Gilbert RE, Campbell TS, Grover S, Honos G, Lindsay P, Hill MD, Coutts SB, Gubitz G, Campbell | 28449828 HKAP |
| 13 | Hypertension Canada's 2018 Guidelines for Diagnosis, Risk Assessment, Prevention, and Treatment of Hypertension in Adults and Children. | Nerenberg KA, Zarnke KB, Leung AA, Dasgupta K, Butalia S, McBrien K, Harris KC, Nakhla M, Cloutier L, Gelfer M, Lamarre-Cliche M, Milot A, Bolli P, Tremblay G, McLean D, Padwal RS, Tran KC, Grover S, Rabkin SW, Moe GW, Howlett JG, Lindsay P, Hill MD, Sharma M, Field T, Wein TH, Shoamanesh A, Dresser GK, Hamet P, Herman RJ, Burgess E, Gryn SE, Grégoire JC, Lewanczuk R, Poirier L, Campbell TS, Feldman RD, Lavoie KL, Tsuyuki RT, Honos G, Prebtani APH, Kline G, Schiffrin EL, Don-Wauchope A, Tobe SW, Gilbert RE, | 29731013 NA |
| Title: | Adaptive finite-time synchronized control of multi-robotic fiber placement system with model uncertainties and disturbances | ||||
| Authors: | Zhang R, Wang Y, Xie W, Li P, Tan H, Jiang Y | ||||
| Link: | https://pubmed.ncbi.nlm.nih.gov/40461302/ | ||||
| DOI: | 10.1016/j.isatra.2025.05.022 | ||||
| Publication: | ISA transactions | ||||
| Keywords: | Disturbances; Fiber placement; Finite-time control; Model uncertainties; Multi-robots; Synchronization control; | ||||
| PMID: | 40461302 | Category: | Date Added: | 2025-06-04 | |
| Dept Affiliation: |
ENCS
1 College of Electrical and Information Engineering, Hunan University, Changsha, 410082, Hunan, China; National Engineering Laboratory of Robot Visual Perception and Control Technology, Hunan University, Changsha, 410082, Hunan, China. 2 Department of Mechanical, Industrial and Aerospace, Concordia University, Montreal, H3G2W1, Quebec, Canada. 3 College of Mechanical and Electrical Engineering, Nanjing University of Aeronautics and Astronautics, Nanjing, 210016, Jiangsu, China. 4 College of Electrical and Information Engineering, Hunan University, Changsha, 410082, Hunan, China; National Engineering Laboratory of Robot Visual Perception and Control Technology, Hunan University, Changsha, 410082, Hunan, China. Electronic address: tanhaoran@hnu.edu.cn. 5 School of Robotics, Hunan University, Changsha, 410082, Hunan, China; National Engineering Laboratory of Robot Visual Perception and Control Technology, Hunan University, Changsha, 410082, Hunan, China. |
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Description: |
The use of multiple robots to manufacture composite components represents a critical development direction for fiber placement systems (FPSs). In multi-robotic fiber placement systems (MRFPSs) with heterogeneous mechanical structures, robots collaborate to perform fiber placement tasks. Consequently, robot synchronization emerges as a primary factor in determining the performance of the fiber placement process. However, the difficulty in establishing accurate system models and the presence of disturbances are two significant challenges to achieving precise robot synchronization. Additionally, the system is expected to exhibit desirable dynamic characteristics, such as finite-time error convergence. To address these issues and requirements, we propose a novel adaptive finite-time synchronization control (AFSC) algorithm for the system. Specifically, a finite-time sliding mode observer is developed to handle kinematic uncertainty. A novel fast non-singular terminal sliding mode (FNTSM) manifold is constructed in the AFSC algorithm. Moreover, the control algorithm integrates an adaptive law to handle dynamic uncertainty and an adaptive term to counteract disturbances. Performance analysis demonstrates that the AFSC ensures that the coupled, synchronization, and tracking errors converge to zero within finite time. Furthermore, simulations and experiments are conducted to validate the effectiveness of the AFSC algorithm. |
