Thursday, December 12, 2019

Internet of Things in Wearable Device in Health Care †Free Samples

Question: Discuss about the Internet of Things in Wearable Device in Health Care. Answer: Introduction Internet of Things is a modern technology to control and maintain the internet into devices. The interconnection of the devices with the help of internet can be possible with help of Internet of Things. The role of IoT is allowing the remote devices connected with other devices. This report deals with the use of IoT in the wearable devices in health care industry. The report discusses about various problems faced by the patients in the health care. The use of the IoT has helped in providing a quality care services to the patients in the hospitals and at home. This report outlines about various projects to provide support to the patients in the hospitals. There are various devices discussed in the report used in the health care industry. The problems faced by the patients are focused in the report. People suffering from various health problems are facing problems due to bad services of the hospitals in the local area nearby. They are busy in their daily life for visiting doctor for a daily check up (Batista et al, 2012). This causes a serious condition for the people in the society regarding health care. The fees of the doctors in the clinic is high that is not affordable by people in the society. Due to the busy daily routine, people are not able to avail a quality care services in the hospitals and health care centers. Solution with features The Internet of things has helped in solving the problems faced by the people in the society regarding the health care services. There are various projects initiated in the internet of things to develop wearable devices for monitoring the health condition of human (Bonomi et al., 2012). These wearable devices help in maintaining the health of the human. The wearable devices including smart wristwatch and motion trackers help in monitoring the patients even at their home. The motion tracker device is made by Apple Inc. helps in tracking the motion of the human in the human. This sensor analyses the motion of the human and provide report according to the movement of the human parts (Gubbi et al., 2013). The point of having connected devices is a first step to revolutionize way of operating the devices and to make the human life simpler. Explanation of working The wearable devices are attached with the human body as shown in the figure 1. These motion sensors track the motion of the human body parts and send signals according to the health condition. These devices are connected with the cloud computing over the internet. The reports are stored in the cloud storage services. These wearable can be access by the smart phones and watches. The wearable devices monitor the motion of the human body to analyze the health condition of the person. As commented by Mennicken, Vermeulen Huang, (2014), the internet of things has provided a revolutionary approach to the health care services provided to the persons in the hospitals abs homes. The wearable devices has been able to provide a critical approach towards the fundamental duties of the care providers in the hospitals. These devices produce a report regarding the health condition of the person. These devices work on the rechargeable Li-on battery. Some wearable devices run on the pulse of the hum an body. This helps in checking the pulse rate of the human body (Miorandi et al., 2012). Pros and Cons of the wearable devices in health care industry Wearable devices have following advantages: Accessibility The wearable devices in care can be accessed from anywhere. These wearable devices are worn by an individual and can perform all the daily duties in the society. Therefore, these wearable devices are user-friendly and can be easily accessible by an individual (Tariq et al., 2012). These wearable devices are attractive in visual and can be worn as luxury items. Cost It reduces the cost of fees of the doctor in the clinic for daily check up. Therefore, the cost of treatment is reduced with the use of the wearable devices (Xia et al., 2012). A personal check up is possible with the help of the wearable devices in the health care devices. Security The data regarding the check up of an individual are stored in the cloud-using internet. These wearable devices are connected with the cloud services through internet. This helps in securing the data and statistics report related to the health of an individual. On the other hand, there are some disadvantages of the wearable devices in health care industry. These devices are too much costly initially. These devices are not affordable to all individuals. Individual can damage the devices due to continue use in their daily life (Gubbi et al., 2013). These devices might cause skin allergies as worn all day long by individuals. Though it has some limitations, wearable device concept is accepted all over the world. Conclusion It can be concluded that the internet of things has helped a lot in the health care industry in various ways. The wearable devices can range from various products in the health care industry. These devices are connected with the cloud services to back up the data related to health issues. Thus, it can be concluded from report that IoT integration in health care can effective changes in buildings or in the market itself. The point of having connected devices is a first step to revolutionize way of operating the devices and to make the human life simpler. The operations and interactions are constantly changing leading to operations. References Batista, N. C., Melcio, R., Matias, J. C., Catalo, J. P. (2012, October). ZigBee wireless area network for home automation and energy management: Field trials and installation approaches. InInnovative Smart Grid Technologies (ISGT Europe), 2012 3rd IEEE PES International Conference and Exhibition on(pp. 1-5). IEEE. Bonomi, F., Milito, R., Zhu, J., Addepalli, S. (2012, August). Fog computing and its role in the internet of things. InProceedings of the first edition of the MCC workshop on Mobile cloud computing(pp. 13-16). ACM. Gubbi, J., Buyya, R., Marusic, S., Palaniswami, M. (2013). Internet of Things (IoT): A vision, architectural elements, and future directions.Future generation computer systems,29(7), 1645-1660. Jain, S., Vaibhav, A., Goyal, L. (2014, February). Raspberry Pi based interactive home automation system through E-mail. InOptimization, Reliabilty, and Information Technology (ICROIT), 2014 International Conference on(pp. 277-280). IEEE. Mennicken, S., Vermeulen, J., Huang, E. M. (2014, September). From today's augmented houses to tomorrow's smart homes: new directions for home automation research. InProceedings of the 2014 ACM International Joint Conference on Pervasive and Ubiquitous Computing(pp. 105-115). ACM. Miorandi, D., Sicari, S., De Pellegrini, F., Chlamtac, I. (2012). Internet of things: Vision, applications and research challenges.Ad Hoc Networks,10(7), 1497-1516. Tariq, M., Zhou, Z., Wu, J., Macuha, M., Sato, T. (2012, October). Smart grid standards for home and building automation. InPower System Technology (POWERCON), 2012 IEEE International Conference on(pp. 1-6). IEEE. Xia, F., Yang, L. T., Wang, L., Vinel, A. (2012). Internet of things.International Journal of Communication Systems,25(9), 1101.

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