Abstract
The introduction of smart phones has redefined the usage of mobile phones in the communications world. Smart phones are now equipped with various sophisticated features such as Wi-Fi, Global Positioning System (GPS) navigation capability, high-resolution camera, touch screen, and broadband access which helps the mobile phone users to stay connected and updated. Many of these features are primarily integrated with the mobile operating system and are out of reach of the public; that is the users can not manipulate these features. However, this situation has changed with the advent of an innovative, user friendly and versatile operating system known as “Android”. It was developed by the Open Handset Alliance, an open source initiative piloted by Google. The open system architecture with customizable third party development and debugging environment features help the users to manipulate the features and create their own customizable applications.
In this chapter, we propose a location-aware remote system using Google’s Andriod mobile platform for safety, emergency and health scenarios and develop an Andriod application for this purpose. Emergency is divided into three categories; heart abnormalities, security threats, and road accidents. The first scenario we investigated is targeted towards heart abnormalities monitoring. The heart rate monitoring device is integrated with the proposed application to measure the heart rate of a user driving a vehicle, and if abnormalities are detected the application performs a dual role. The application uses GPS to track the location information of the user and sends this information via SMS, email and posts it on the user’s Facebook wall. Simultaneously, an emergency signal is sent to an Arduino microcontroller which will in turn trigger an alarm in the vehicle to notify the emergency situation. The second scenario is targeted towards road accidents. The proposed application is designed to detect that an accident has occurred using the sensors in the Andriod mobile phone and, consequently, an action is taken by the application to notify the emergency services that an accident has occurred and its location. Finally, the third scenario we investigated is security threats which can occur anywhere and the proposed application can also offer assistance in personal safety situations. In this case, the user interacts with the application by pressing a designated button and the application will automatically calculate the geographical information and send the location information via SMS and email to a pre-stored emergency contact, and also post the information on the user’s Facebook wall.
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References
Javier, G.: First Google’s Andriod Phone Launched. IEEE Vehicular Technology Magazine 3 (September 2008)
http://www.xcubelabs.com/evolution-of-mobile-operating-systems.php (accessed on June 10, 2011)
Conti, J.P.: The Andriods Are Coming. IEEE Engineering and Technology 3(9), 72–77 (2008)
Open Handset Alliance, Open Handset Announces 14 New Members
http://www.openhandsetalliance.com/Andriod_overview.html (accessed on June 10, 2011)
Shu, X., Du, Z., Chen, R.: Research on Mobile Location Service Design Based on Andriod. In: 5th International Conference on Wireless Communication Networking and Mobile Computing, Beijing, pp. 1–4 (2009)
Whipple, J., Arensman, W., Boler, M.S.: A Public Safety Application of GPS-Enabled Smart Phones and the Andriod Operating System. In: IEEE International Conference on System, Man and Cybernetics, San Antonio, pp. 2059–2061 (2009)
Yang, C.T., Chu, Y.Y., Tsaur, S.C.: Implementation of a Medical Information Service on Andriod Mobile Device. In: 4th International Conference on News Trends in Information Science and Service Science, Gyeongju, pp. 72–77 (2010)
Hou, Q.: Research and Implementation of Remote Heart Rate Monitoring System Based on GSM and MCU. In: 2nd International Conference on Information Science and Engineering, Hangzhou, p. 2293 (2010)
http://developer.Andriod.com/reference (accessed on December 21, 2013)
Dai, J., Teng, J., Bai, X., Shen, Z., Xuan, D.: Mobile Phone Based Drunk Driving Detection. In: 4th International Conference on Pervasive Computing Technologies for Healthcare, pp. 1–8 (2010)
Cheng, Y.H., Kuo, W.K., Su, S.L.: An Andriod System Design and implementation for Telematics Services. In: 5th International Conference on Intelligent Computing and Intelligent Systems, p. 206 (2010)
Yang, S.-Y., Lee, D.-L., Chen, K.-Y.: A New Ubiquitous Information Agent System for Cloud Computing - Example on GPS and Bluetooth Techniques in Google Andriod Platform. In: International Conference on Electric Information and Control Engineering, pp. 1929–1932 (2011)
http://developer.Andriod.com/guide (accessed on December 18, 2013)
Wu, Z., He, J., Zeng, X.: Key Technology Research on Adaptation Layer of Andriod Platform. In: International Conference on Consumer Electronics, Communications and Networks, April 16-18, pp. 4154–4156 (2011)
Kato, Y.: Splish: A Visual Programming Environment for Arduino to Accelerate Physical Computing Experiences. In: 8th International Conference on Creating Connecting and Collaborating through Computing, January 25-28, pp. 3–10 (2010)
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Dorairaj, P., Mohammed, A., Grbic, N. (2015). Location-Aware Services Using Android Mobile Operating Platform for Safety, Emergency and Health Applications. In: Adibi, S. (eds) Mobile Health. Springer Series in Bio-/Neuroinformatics, vol 5. Springer, Cham. https://doi.org/10.1007/978-3-319-12817-7_13
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DOI: https://doi.org/10.1007/978-3-319-12817-7_13
Publisher Name: Springer, Cham
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