论文信息 - An Alternative Wearable Tracking System Based on a Low-Power Wide-Area Network

An Alternative Wearable Tracking System Based on a Low-Power Wide-Area Network

This work presents an alternative wearable tracking system based on a low-power wide area network. A complete GPS receiver was integrated with a textile substrate, and the latitude and longitude coordinates were sent to the cloud by means of the SIM-less SIGFOX network. To send the coordinates over SIGFOX protocol, a specific codification algorithm was used and a customized UHF antenna on jeans fabric was designed, simulated and tested. Moreover, to guarantee the compliance to international regulations for human body exposure to electromagnetic radiation, the electromagnetic specific absorption rate of this antenna was analyzed. A specific remote server was developed to decode the latitude and longitude coordinates. Once the coordinates have been decoded, the remote server sends this information to the open source data viewer SENTILO to show the location of the sensor node in a map. The functionality of this system has been demonstrated experimentally. The results guarantee the utility and wearability of the proposed tracking system for the development of sensor nodes and point out that it can be a low cost alternative to other commercial products based on GSM networks.

Ignacio Gil | Raúl Fernández-García

[1] Wael Guibène,et al. An evaluation of low power wide area network technologies for the Internet of Things , 2016, 2016 International Wireless Communications and Mobile Computing Conference (IWCMC).

[2] Victor C. M. Leung,et al. Compressive network coding for wireless sensor networks: Spatio-temporal coding and optimization design , 2016, Comput. Networks.

[3] Haim Mazar Madjar,et al. Human radio frequency exposure limits: An update of reference levels in Europe, USA, Canada, China, Japan and Korea , 2016, 2016 International Symposium on Electromagnetic Compatibility - EMC EUROPE.

[4] James W. Moore,et al. Institute of Electrical and Electronics Engineers (IEEE) , 2002 .

[5] P. D. Mitcheson,et al. Ambient RF Energy Harvesting in Urban and Semi-Urban Environments , 2013, IEEE Transactions on Microwave Theory and Techniques.

[6] JeongGil Ko,et al. Wireless Sensor Networks for Healthcare , 2010, Proceedings of the IEEE.

[7] Mahesh Sooriyabandara,et al. Low Power Wide Area Networks: An Overview , 2016, IEEE Communications Surveys & Tutorials.

[8] Carles Gomez,et al. Urban Automation Networks: Current and Emerging Solutions for Sensed Data Collection and Actuation in Smart Cities , 2015, Sensors.

[9] Stefano Chessa,et al. Wireless sensor networks: A survey on the state of the art and the 802.15.4 and ZigBee standards , 2007, Comput. Commun..