Scopes
(Including but not limited to the following topics)
Track 1: Medical Robots
Precision control technology for surgical robots
Soft medical robots, micro robots, and interventional robot systems
Medical robot visual guidance, force feedback, and autonomous decision-making
Multimodal perception and navigation positioning for robot-assisted diagnosis
Human-machine collaboration, safety control, and reliability verification of medical robots
Flexible endoscope robots, intracavitary intervention, and vascular intervention systems
Innovative design of specialized robots
Track 2: Digital Health
Wearable medical devices, continuous health monitoring, and intelligent alerts
Remote medical care, mobile health, and collaborative platforms for hierarchical diagnosis
Medical Internet of Things (IoMT) and intelligent hospital information systems
Data mining of electronic health records (EHR) and clinical decision support
Digital therapeutics, virtual reality rehabilitation, and cognitive training systems
Privacy computing, federated learning, and secure sharing of medical big data
Multimodal health data (images - physiology - omics) fusion analysis
Artificial intelligence-assisted diagnosis and intelligent interpretation of medical images
Track 3: Intelligent Rehabilitation
Rehabilitation robots, exoskeleton robots, and intelligent prosthetic systems
Brain-computer interface (BCI) rehabilitation training and neural function reconstruction
Neuroregulation technologies (TMS, tDCS) and closed-loop rehabilitation systems
Active human-machine interaction, intention understanding, and adaptive rehabilitation strategies
Multimodal biological signals (EEG, EMG, fNIRS) decoding and rehabilitation assessment
Mirror therapy, virtual reality, and augmented reality rehabilitation training
Intelligent rehabilitation technologies for speech, cognition, and swallowing disorders
Community rehabilitation, home-based rehabilitation, and remote rehabilitation management systems
Embodied intelligence, humanoid robots in elderly care and companionship
Explainable artificial intelligence (XAI) in the decision-making of medical robots
Personalized rehabilitation plan design driven by digital twins
Flexible sensing, electronic skin, and bionic perception systems
Rehabilitation for children, the elderly, and major chronic diseases ......
Track 1: Medical Robots
Precision control technology for surgical robots
Soft medical robots, micro robots, and interventional robot systems
Medical robot visual guidance, force feedback, and autonomous decision-making
Multimodal perception and navigation positioning for robot-assisted diagnosis
Human-machine collaboration, safety control, and reliability verification of medical robots
Flexible endoscope robots, intracavitary intervention, and vascular intervention systems
Innovative design of specialized robots
Track 2: Digital Health
Wearable medical devices, continuous health monitoring, and intelligent alerts
Remote medical care, mobile health, and collaborative platforms for hierarchical diagnosis
Medical Internet of Things (IoMT) and intelligent hospital information systems
Data mining of electronic health records (EHR) and clinical decision support
Digital therapeutics, virtual reality rehabilitation, and cognitive training systems
Privacy computing, federated learning, and secure sharing of medical big data
Multimodal health data (images - physiology - omics) fusion analysis
Artificial intelligence-assisted diagnosis and intelligent interpretation of medical images
Track 3: Intelligent Rehabilitation
Rehabilitation robots, exoskeleton robots, and intelligent prosthetic systems
Brain-computer interface (BCI) rehabilitation training and neural function reconstruction
Neuroregulation technologies (TMS, tDCS) and closed-loop rehabilitation systems
Active human-machine interaction, intention understanding, and adaptive rehabilitation strategies
Multimodal biological signals (EEG, EMG, fNIRS) decoding and rehabilitation assessment
Mirror therapy, virtual reality, and augmented reality rehabilitation training
Intelligent rehabilitation technologies for speech, cognition, and swallowing disorders
Community rehabilitation, home-based rehabilitation, and remote rehabilitation management systems
Embodied intelligence, humanoid robots in elderly care and companionship
Explainable artificial intelligence (XAI) in the decision-making of medical robots
Personalized rehabilitation plan design driven by digital twins
Flexible sensing, electronic skin, and bionic perception systems
Rehabilitation for children, the elderly, and major chronic diseases ......
Important Dates/重要日期
- Submission Deadline: 2026.6.15
- Registration Deadline: 2026.6.22
- Conference Date: 2026.6.30
- Notification Date: About a week after the submission
Submission Portal/投稿方式
Mail Address: icmbga_conf@163.com
If you have any question or need any assistance regarding the conference, please feel free to contact our conference specialists:
徐老师
+86-15680829715(微信同号)
1347638002
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