Welcome to JENT its Friday 19th of January 2018

Journal of Environmental Nanotechnology

(A Quarterly Peer-reviewed and Refereed International Journal)
ISSN(Print):2279-07 48; ISSN(Online):2319-5541

Geographical Location Tracking using Skytraq 96 GPS Module


GPS is an electronic circuit, which captures satellite signals and calculates current location. The GPS signals are transmitted to Ubuntu System, which will be the Base Station. The experiment uses Skytraq-96 GPS chip and ZigBee technology to transmit signals wireless. XGPS software installed at the Ubuntu laptop will calculate and display following informations - Latitude, Longitude of current location and satellite position at the Sky, when the experiment is conducted. The results are displayed graphically for Tumkur, where experiments are conducted.

Article Type: Research Article

Corresponding Author: M. Raghavendra 3  

Email: rag.sit.tumkur@gmail.com

This article has not yet been cited.

Sheeba Farheen 1,  D. R. Aishwarya 2,  M. Raghavendra 3*.  

1, 2, 3. Department of CSE, SIT, Tumkur, Karnataka, India.

J. Environ. Nanotechnol., Volume 6, No. 1 pp.67-70
ISSN: 2279-0748 eISSN: 2319-5541
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[1] Meng-Shiuan Pan and Yu-Chee Tseng, ”Communication Protocols and Applications for ZigBee-Based Wireless Sensor Networks”,Taiwan-French Conf. on Information , 2006 , Web : people.cs.nctu.edu.tw [2] Rohitha, P., Ranjeet Kumar, P., Adinarayana, N. and Venkat Narayana Rao, T., Wireless Mala et al. / J. Environ. Nanotechnol., Vol. 6(1), 44-50, (2017) 50 Networking Through ZigBee Technology, International Journal of Advanced Research in Computer Science and Software Engineering, 2(7), (2012) online at: www.ijarcsse.com [3] Michal Kochla, Michal Hodon, Lukas Cechovi, ”WSN for Traffic Monitoring using Raspberry Pi Board”, Pro-ceedings of the 2014 Federated Conference on Computer Science and Information Systems, 2, 10231026, doi: 10.15439/2014F310ACSIS. [4] Gopinath Shanmuga Sundaram, Bhanuprasad Patiban-dala, Harish Santhanam, Sindhura Gaddam, Vamsi Kr-ishna Alla, Gautham Ravi Prakash, Shiva Chaitanya Vishwakarma Chandracha, Sindhu Boppana and James M. Conrad, ”Bluetooth Communication using a Touch-screen Interface with the Raspberry Pi”,Southeastcon, Jacksonville, FL, 4-7 April 2013 , Proceedings of IEEE , pages 1 - 4 , DOI:10.1109/SECON.2013.6567448. [5] Adafruit Python DHT Sensor Library , https://github.com/adafruit/Adafruit Python DHT [6] DHT Humidity Sensing on Raspberry Pi or Beaglebone Black with GDocs Logging , https://learn.adafruit.com/dht-humidity-sensingon- raspberry-pi-with-gdocs-logging/overview [7] DHT-xx Sensors - Overview , https://learn.adafruit.com/dht/overview [8] Ankur Tomar, ”Introduction to Zibgbee Technology”, Global Technology Centre , Volume 1, July 2011 [9] DHT Humidity Sensing on Raspberry Pi or Beaglebone Black with GDocs Logging , Created by lady ada, adafruit learning system, https://learn.adafruit.com/dht-humidity-sensingon- raspberry-pi-with-gdocs-logging/overview [10] Meng-Shiuan Pan and Yu-Chee Tseng, ”ZigBee Wireless Sensor Networks and Their Applications” [11] Akiba, ”Zigbee Network Layer Tutorial- Part1: The TxData Path, http://freaklabs.org/index.php/Blog/Zigbee/Zigbee -Network-Layer-Tutorial-Part-1.html, (2009), Network Tutorial [12] Adafruit’s Raspberry Pi Lesson 4., GPIO Setup, Created by Simon Monk, adafruit learning system [13] CC2500 RF Module - Zig Bee Data Sheet , http://www.nskelectronics.com/files/cc2500 rf module.pdf [14] Adafruit’s Raspberry Pi Lesson 5., Using a Console Cable Created by Simon Monk, adafruit learning system, https://learn.adafruit.com/adafruits-raspberry-pilesson- 5-using-a-console-cable/overview [15] Prodigy Productions, LLC Add XBee to Raspberry Pi with Python, July 17, 2013, in Programming, Python, Raspberry Pi, Software Development, by LuCuS [16] DHT Humidity Sensing on Raspberry Pi or Beaglebone Black with GDocs Logging, Created by lady ada [17] Temperature and humidity module DHT11 Product Manual, www.aosong.com [18] Sheikh Ferdoush, Xinrong Li, Wireless sensor network system desigh using raspberry Pi and Arduiro for environmental monitoring applications, Procedia Computer Science, 34, 103-110(2014). [19] RASPBERRY PI 2 MODEL B” , https://www.raspberrypi.org/products/raspberrypi- 2-model-b/ [20] DHT11 BASIC TEMPERATURE-HUMIDITY SEN-SOR, https://www.adafruit.com/product/386 [21] RASPBERRY PI Python-blog, https://www.raspberrypi.org/documentation/usage /python/ [22] How to Write and Run a Python Program on the Rasp-berry Pi, http://www.circuitbasics.com/howto- write-and-run-a-python-program-on-theraspberry- pi/ [23] Rasperry-GPIO-Python – A Python module to control the GPIO on a Raspberry Pi, http://sourceforge.net/p/raspberry-gpiopython/ wiki/BasicUsage/ [24] Kristian Hentschel, Dejice Jacob, Jeremy Singer and Matthew Chalmers, Supersensors: Raspberry Pi Devices for smart campus infrastructure, IEEE 4th International conference on future internet of things and cloud, 2016. [25] Grove-PIR Motion sensor, http://www.crazypi.com/buy-grove-pir-motionsensor? search=motion%20sensor [26] http://www.nskelectronics.com/motion sensor.html [27] http://www.alldatasheet.com/view.jsp?Searchwor d=LM303-