Hospital Smart Ward
Smart ward construction has gradually become the future development direction of hospitals. It is a comprehensive medical service system centered around patient-oriented data perception, transmission, analysis, and diagnosis. By integrating medical data from the wards and coordinating with IoT devices, data sharing between systems is achieved, which provides accurate diagnosis and recovery for patients.
Development
Future smart wards will make greater use of artificial intelligence technology to process data from multiple dimensions, including patients, ward environment, and diagnosis and treatment. An important feature is the introduction of robots, which can liberate medical staff from many workflows, while improving efficiency and capabilities, and changing the entire hospital management model. The service quality of medical staff will be improved, along with patient satisfaction and experience. The quality of hospital operation will also be enhanced.
New Direction
Intelligent Stereoscopic
• System platformization, mutual communication
• Multi-dimensional data generation (perception)
• Intelligent and edge-oriented data processing
• Practical use of robots
Accumulate valuable data
• Store data in a private and secure manner
• Serve as a carrier for scientific research projects
Promote Medical Technology Innovation
• Establish a benchmark for medical and engineering collaboration in research and development
• Utilize the strengths of both parties to explore scenarios where server robots can be used in hospitals
Improve Hospital Management Efficiency
• Enable medical staff to focus on core diagnosis and treatment tasks by using robots to solve low-risk, repetitive tasks and improve overall service quality
• Improve nursing services and patient satisfaction by using visible robots
Industry Impact
• Demonstrate the application of smart hospitals
• Establish a benchmark for industry development
Project Value
Nursing assistant solution
Focuses on assisting nurses in handling administrative tasks and allowing them to concentrate on more valuable nursing work. The system is centered around the patient and the nurse and involves the use of a robot to provide patient education and reminders, conduct ward rounds, and detect potential risks and irregularities in the ward
Rehabilitation Solution
Focused on the patient and nurse, aiming to analyze rehabilitation training through sensors and create a rehabilitation data platform. It solves the urgent need for basic rehabilitation training for patients and coordinates with the rehabilitation department to provide better rehabilitation for patients. The benefits include increased patient rehabilitation willingness, improved doctor diagnosis and treatment, and controlled and manageable rehabilitation training. The solution includes an assistive robot for postoperative rehabilitation training, customized training packages, a rehabilitation data platform for accurate evaluation and feedback, and integration with hospital business systems.
Ward Transportation
Focuses on the patient and nurse. The solution involves a combination of automatic and manual driving to make patient transportation more efficient. The solution also includes the use of robots for specimen and patient transportation within the hospital. The robot is controlled by an app or cloud platform and has multiple interactive features. It has a stable design with safety features, including a flexible handle, full-wheel drive, and an anti-overturn wheel. It can be operated through a joystick or with voice prompts and button selection.
Smart Access Control System
Focuses on patients and nurses in the hospital. It aims to increase efficiency, reduce risks, and improve management by monitoring and controlling the access of people and devices within the hospital. The system includes features such as smart identification of patients, self-driving robots, touchless door switches, and fine-grained control over visiting and care-taking personnel. The system is divided into detection and control components, with the former triggering functions and the latter executing specific controls based on detected signals.