Friday, May 1, 2020

System Analysis and Design Health Monitoring Equipment

Question: Describe about the System Analysis and Design for Health Monitoring Equipment. Answer: Introduction It is observed that remote patient monitoring is one of popular services, which is chosen by most of the patients as well as the service providers. Remote Tele-health is also a type of ambulatory healthcare that allows a patient to use a mobile medical device to conduct a routine test and send the test data to the healthcare professional in real time. It has been observed that in the healthcare service, it is necessary to provide timely treatment and care to the patients, especially to the older people. It is difficult for the older people to pay regular visits to the clinic. However, the timely assistance could help the patients in the course of self-management of the disease. Thus, with the help of advanced technology, Tunstall Tele health monitoring equipment was developed. Problem Health care organizations in the recent time have identified that patients find it difficult to pay an unplanned visit to the healthcare organizations (Nakamura, Koga Iseki, 2014). In such case, it is necessary to plan and develop the remote services assistance for the patients who live in the remote area such as sub-urban region, rural area. Therefore, the healthcare organizations are determined to provide an effective remote healthcare service delivery to the patients. Presently, the organizations in the healthcare sector started using Tablet based web interface for the patients of Tele-Health hardware and software. Nevertheless, it has been found that a large number of the patients of the organization are hailing from rural areas. In addition, a massive number of the services of the healthcare organization is the older people with poor vision and knowledge. Thus, they find it difficult to operate the current communication device, which is developed by the organization. The device is not user-friendly and there are many instructions to form the communication. In addition, as the system is large and heavy, it is annoying to for the older people to carry the device anywhere (Rockwood et al.,2014). Therefore, it is necessary for the organization to develop the system in a way that it becomes easy to operate and carry anywhere. By developing the system, the organization could regularly communicate with the patients and learn their current state of being. Any further health issues can be communicated and resolved through the web interaction with the help of this device. In addition, the organization is planning to develop the features of the device, so that the users do not have go through multiple options to choose the service. Capabilities The current device provides an interface to the end users to monitor their own vital sign sitting at home. Nevertheless, the users find it difficult to understand the instructions given for the chosen service. Therefore, to avoid this issue, the following technology can be implemented to facilitate the service of self-monitoring of the health status of the patients. Wireless Human Health Monitor Health care sensors are paying a crucial role in hospitality. Patient monitoring system is considered as the major improvement in the healthcare sector as it is advanced as well as the developed technology. The features included in this device help to measure the heartbeat as well as the body temperature. There is a computer sensor associated with the device that is useful to monitor the heartbeat in the analog form (Varma et al., 2014). The device has the capability to measure the body temperature as the heartbeat sensor is connected to monitor the present condition of the patients. Blood pressure sensor Blood pressure sensor is device that helps to measure the pressure of the blood in the arteries since it is usually pumped around the body by the heart. When the heart keeps beating, the sensor contract and pushes the blood through the arteries through the body (Boric-Lubecke et al.,2014). There is an external force, which comes from the arteries. Some effective features of this device is the automatic measurement of systolic and diastolic as well as the pulse. Another feature is large LCD black light. Cloud based mobile application In order to effectively serve the purpose of the remote health monitoring of the patients, a cloud based mobile application can be utilized. The app developer in line with the instruction given by the organization need to develop the app. Thus, it becomes easy to operate the device. The current system provided by the organization is time-consuming as it takes time to load the input and provide the output. In addition, due to multiple instructions, the service users lack patience. Therefore, with the help of the mobile-based application, it becomes for the patients to check their health status in lesser time. In this context, (Gudon-Moreau et al.,2014) added that it is necessary to develop the application that is easy to use and less time-consuming. Benefits The patients and the service providers could gain several benefits by using the Wireless Human Health Monitor device such as regular interaction with the healthcare professionals after the check-up through the device. The patients could consul with the community-based nurses and doctors regarding actions for the outcome received from the device. In addition, if the healthcare professionals provide the treatment and care to the patient on a regular basis, it becomes useful to control the health status. Thus, the above-mentioned technology for remote health monitoring. Moreover, the healthcare professionals may find it easy to provide the services to the older people in remote areas as they do not have to spend a lot time in face to face to monitoring. Conclusion On the completion of the report, it can be added that the installation cost of the remote health monitoring system needs to be at low price. Thus, the discussed technology require low price for installation. Thus, the patients could easily afford the price for the system. In addition, the objective of providing the services in the remote areas of the organization could also be fulfilled. In addition, by using the devices, the patients could increase their knowledge in measuring their health status. References Boric-Lubecke, O., Gao, X., Yavari, E., Baboli, M., Singh, A., Lubecke, V. M. (2014, June). E-healthcare: Remote monitoring, privacy, and security. In 2014 IEEE MTT-S International Microwave Symposium (IMS2014) (pp. 1-3). IEEE. Gudon-Moreau, L., Lacroix, D., Sadoul, N., Clmenty, J., Kouakam, C., Hermida, J. S., ... ECOST trial Investigators. (2014). Costs of remote monitoring vs. ambulatory follow-ups of implanted cardioverter defibrillators in the randomized ECOST study. Europace, 16(8), 1181-1188. Nakamura, N., Koga, T., Iseki, H. (2014). A meta-analysis of remote patient monitoring for chronic heart failure patients. Journal of telemedicine and telecare, 20(1), 11-17. Rockwood, M., Joshi, V., Sullivan, K., Goubran, R. (2014, June). Using a real-time operating system for multitasking in Remote Patient Monitoring. In Medical Measurements and Applications (MeMeA), 2014 IEEE International Symposium on (pp. 1-5). IEEE. Varma, N., Michalski, J., Stambler, B., Pavri, B. B., TRUST Investigators. (2014). Superiority of automatic remote monitoring compared with in-person evaluation for scheduled ICD follow-up in the TRUST trial-testing execution of the recommendations. European heart journal, ehu066.

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