Abstract
The influence of recent health care reform efforts is extensive, which perhaps one of the biggest moves occurring in the junction of clinical care delivery and consumer health. The proposed application is intended to be the driving force and the technology architect that empowers patients to be more protruding participants in their own health care management. It aims at catering online health care services to the customers –such as health checkers to gauge hearing and vision measurements which also include the personality assessment test to gauge one’s personality to one’s environment, text-to-speech and speech-to-text convertors which will be used by the challenged people for conversion of speech to the text on the application and vice-versa, a suicidal awareness platform with a feed of moral inspirational photos and videos, local maps section to prompt the user with the nearest hospitals and medical centers in the vicinity of 10 km. It is designed with an aim to enable the user to conveniently monitor their health conditions pertaining to multiple aspects. The proposed application is deployed on mobile devices based on android that use GPS network for communication purposes.
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References
Murphy, M.L.: The Busy Coder’s Guide to Android Programming (2008)
Headfirst Android Development: A Brain-Friendly Guidebook (2017)
Prakash, M., Gowshika, U., Ravichandran, T.: A smart device integrated with an android for alerting a person’s health condition: internet of things. Indian J. Sci. Technol. 9, 1–6 (2016)
Mahmud, M.S., Wang, H., Esfar-E-Alam, A.M., Fang, H.: A wireless health monitoring system using mobile phone accessories. IEEE Internet Things J. 4(6), 2009–2018 (2017)
Kundi, F.M., Habib, A., Habib, A.: Android-based health care management system. Int. J. Comput. Sci. Inf. Secur. (IJCSIS) 14(7), 77 (2016)
Elasayed, A.E., Albashir, Z.A., Taha, K.A., Abdelrahman, A.: Implementation of mobile application for testing hearing and vision: studycase. In: International Conference on Computer, Control, Electrical, and Electronics Engineering (2018)
Prudtipongpun, V., Buakeaw, W., Rattanapongsen, T., Sivaraksa, M.: Indoor navigation system for vision-impaired individual an application on android devices. In: 11th International Conference on Signal-Image Technology & Internet-Based Systems (2015)
Tanno, H., Adachi, Y.: Support for finding presentation failures by using computer vision techniques. In: IEEE International Conference on Software Testing, Verification and Validation Workshops (2018)
Bert, F., Giacometti, M., Gualano, M.R., Siliquini, R.: Smartphones and health promotion: a review of the evidence. J. Med. Syst. 38(1), 9995 (2014)
Solanas, A., et al.: Smart health: a context-aware health paradigm within smart cities. IEEE Commun. Mag. 52(8), 74–81 (2014)
Yusuf, A.N.A., Zulkifli, F.Y., Mustika, I.W.: Development of monitoring and health service information system to support smart health on android platform. IEEE (2018)
Tartan, E.O., Ciflikli, C.: An android application for geolocation based health monitoring, consultancy and alarm system. In: IEEE International Conference on Computer Software & Applications (2018)
Bajaj, D., Yadav, A., Jain, B., Sharma, D., Tewari, D., Saxena, D.: Android based nutritional intake tracking application for handheld systems. In: 8th ICCCNT (2017)
Jasim, A.D., Marza, H.H.: Design and implementation of an android system for indoor positioning using WLAN finger print scheme. IJSET 6(1), 18–22 (2017)
Banos, O., Villalonga, C., Garcia, R.: Design, implementation and validation of a novel open framework for agile development of mobile health application (2015)
Mukhopadhyay, S.C.: Wearable sensors for human activity monitoring: a review. IEEE Sens. J. 15(3), 1321–1330 (2015)
Valanarasu, R.: Smart and secure IoT and AI integration framework for hospital environment. J. ISMAC 1(03), 172–179 (2019)
Lee, K., Gelogo, Y.E.: Mobile gateway System for ubiquitous system and internet of things, application. Int. J. Smart Home 8(5), 279–286 (2014)
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Chalumuru, S., Geethika Choudary, P., Itabada, P.S., Bolla, V. (2020). “Health Studio” – An Android Application for Health Assessment. In: Pandian, A., Palanisamy, R., Ntalianis, K. (eds) Proceeding of the International Conference on Computer Networks, Big Data and IoT (ICCBI - 2019). ICCBI 2019. Lecture Notes on Data Engineering and Communications Technologies, vol 49. Springer, Cham. https://doi.org/10.1007/978-3-030-43192-1_57
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