Abstract:In the absence of physical movement, the dynamic process of rehearsing specific actions in the mind based on memory is called motor imagination (MI). Motor imaging brain-computer interface (BCI) refers to communicating with a computer or controlling external devices by imagining specific movements in the brain, while the Internet of health things technology helps to convey the rehabilitation of the limbs of patients with paralysis and stroke in time. Studies have shown that with the increase of motor imaging t… Show more
“…It can be seen from Figure 7 that although the error convergence curve has a downward trend when using the system in reference [ 1 ], the overall decline is not obvious. When using the system in reference [ 2 ], although the error convergence curve decreases, it fluctuates greatly and has poor stability.…”
Section: Analysis Of Experimental Resultsmentioning
confidence: 99%
“…The national physical education curriculum standard requires the combination of information technology and physical education teaching, which is the general trend of physical education teaching reform. I do not think physical education teachers should conduct in-depth research and practice in this direction [ 1 ]. At present, information technologies closely related to physical education include Internet of things technology, wearable intelligent technology, VR technology, and sports feedback system.…”
The current sports feedback system has high application value and is widely used in physical education courses, but it has problems such as large feedback error, long response time, and incomplete data, leading to poor effect of sports feedback system. In order to improve the effectiveness of sports feedback system, a sports feedback system based on video digital processing is designed. By constructing the overall architecture of video digital sports feedback system, the positioning module, interface module, power supply circuit module, sampling module, input module, signal extraction module, and video digital processing module are designed. Using information communication mechanism, TCP/IP network protocol, serial communication, and shared memory to improve video digital processing, experimental results show that the designed system has good error convergence of 0.1, short response time of 32 s, and high data integrity of 94%, which has strong practicability.
“…It can be seen from Figure 7 that although the error convergence curve has a downward trend when using the system in reference [ 1 ], the overall decline is not obvious. When using the system in reference [ 2 ], although the error convergence curve decreases, it fluctuates greatly and has poor stability.…”
Section: Analysis Of Experimental Resultsmentioning
confidence: 99%
“…The national physical education curriculum standard requires the combination of information technology and physical education teaching, which is the general trend of physical education teaching reform. I do not think physical education teachers should conduct in-depth research and practice in this direction [ 1 ]. At present, information technologies closely related to physical education include Internet of things technology, wearable intelligent technology, VR technology, and sports feedback system.…”
The current sports feedback system has high application value and is widely used in physical education courses, but it has problems such as large feedback error, long response time, and incomplete data, leading to poor effect of sports feedback system. In order to improve the effectiveness of sports feedback system, a sports feedback system based on video digital processing is designed. By constructing the overall architecture of video digital sports feedback system, the positioning module, interface module, power supply circuit module, sampling module, input module, signal extraction module, and video digital processing module are designed. Using information communication mechanism, TCP/IP network protocol, serial communication, and shared memory to improve video digital processing, experimental results show that the designed system has good error convergence of 0.1, short response time of 32 s, and high data integrity of 94%, which has strong practicability.
“…The advantage of the application of the internet of things in clinical nursing lies in that the information receiver with sensors replaces people to “perceive” the information of human body, facilities, and environment and is not limited by time and space [ 7 ]. It can automatically collect, transmit, and process real-time information comprehensively, efficiently, dynamically, continuously, and conveniently and synchronously realize the functions of real-time analysis and decision support [ 8 ]. This has become an opportunity for the innovative development of clinical nursing.…”
Internet of things technology began to spread to all industries of our lives; the application of medical internet of things in many hospitals highlighted its advantages and brought a lot of convenience to patients and medical staff. With the continuous progress of China’s medical reform and the continuous improvement of patients’ requirements for medical service quality, this paper discusses the application of medical internet of things in clinical nursing in ward, and the basic information collection, infusion, and mobile nursing were discussed and studied. Through the parallel control study of the laboratory itself, this paper evaluates whether the two different clinical measurement methods of medical internet of things technology and traditional technology are consistent in body temperature, pulse, respiration, and blood oxygen saturation. At the same time, it also deeply studies the value and advantages of internet of things technology in the application of other monitoring indicators in clinical nursing and analyses the problems in its application. The experimental data show that the two measurement methods with different principles can be completely replaced in clinical application, and the time efficiency of the new clinical nursing method under the medical internet of things technology in mapping body temperature, pulse, and respiration has been improved by 76.20% and 72.02%, respectively, surpassing the traditional information technology and realizing the intelligent, automatic, and standardized data acquisition method. It ensures the authenticity of data and the real-time of information flow and meets the needs of resource sharing and medical regional interconnection.
“…Notably, in the 12th Five-Year Plan for the Internet of Things released by the Ministry of Industry and Information Technology, the development of mobile health has been placed among the nine key points. It can be seen that the Chinese government attaches great importance to the development of telemedicine [ 2 , 3 ]. In recent years, domestic scientific research institutions, colleges, and enterprises have actively and extensively researched smartphones' mobile monitoring and diagnosis systems.…”
To realize the remote monitoring design in the process of rehabilitation training for athletes after an injury using computer technology, using Visual Studio 2010 development platform, and using ASP as the development language, NET as the development framework, the injury rehabilitation of injured athletes for dynamic monitoring of information management system, and its functions, system architecture and other detailed design. This article identified six laboratory workers outside the sample as experimental subjects. The experimental subjects’ blood oxygen flow, degree, and rate were measured in the normal condition, and the pulse wave was recorded. Then, the upper and lower limbs rehabilitation training robot developed by the laboratory was used for about 15 minutes of rehabilitation training with 3-gear difficulty. The results show that the data measured by the system are the same as the data measured by the Lu Yue brand finger clip type YX301 blood oxygen saturation detector and meet the design requirements. Conclusion. The monitoring accuracy of the system is high, the resistance signal waveform is basically consistent with the actual waveform, and the monitoring effect is good.
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