Raspberry pi based data acquisition system using wireless communication

Raspberry pi based data acquisition system using wireless communication

  IJRES-book-cover  International Journal of Recent Engineering Science (IJRES)          
  
© 2016 by IJRES Journal
Volume-3 Issue-2
Year of Publication : 2016
Authors : S.Vaishali, M.Shiny priya, V.Shamini, N.Nanthini
DOI : 10.14445/23497157/IJRES-V3I2P107

How to Cite?

S.Vaishali, M.Shiny priya, V.Shamini, N.Nanthini, "Raspberry pi based data acquisition system using wireless communication," International Journal of Recent Engineering Science, vol. 3, no. 2, pp. 34-43, 2016. Crossref, https://doi.org/10.14445/23497157/IJRES-V3I2P107

Abstract
This paper proposes an advance for process management via a credit card sized single board computer called raspberry pi based multi parameter using wireless communication and microcontroller that measures and controls various parameters in an industry. The system comprises of a single master and multiple slaves with wireless mode of communication and a microcontroller system that can either operate on windows or Linux operating system. The various interesting features are field device communication via USB-OTG enabled Android devices. The objective of the project is monitoring industrial parameters such as water level, temperature, fire detection, gas detection through wireless communication using raspberry pi

Keywords
raspberry pi, USB-OTG, wireless,industry

Reference
[1] H. Ramamurthy, X. Y. Su, B. S. Prabhu, and R. Gadh, “A generic wireless transducer interface,” U.S. Patent Disclosure, UCLA Case No.2005-245-1, (Pending).
[2] H. Ramamurthy, B. S. Prabhu, and R. Gadh, “Application of generic reconfigurbale wireless interface for industrial automation scenarios,”U.S. Patent Disclosure, UCLA Case No. 2006-002-1, (Pending).
[3] U. S. Doe, “Industrial wireless technology for the 21st century,” Rep., Technol. Foresight, Winter 2004/ TF-2004- 1.
[4] R. Wynn, “Plug-and-play sensors,” Mach. Design, vol. 75, no. 10, p. S10, May 2003.
[5] H. Ramamurthy, B. S. Prabhu, R. Gadh, and A. Madni, “Smart sensor platform for industrial monitoring and control,” in Proc. 4th IEEE Sensors, Irvine, CA, Oct. 31– Nov. 3 2005.
[6] OPC HDA Specifications, 2003. [Online]. Available: www.opcfoundation. org, Version 1.20.1.00edition
[7] IEEE Standard for a Smart Transducer Interface for Sensors and Actuators, IEEE 1451.3, 2004.
[8] M. J. Dong, G. Yung, and W. J. Kaiser, “Low power signal processing architectures for network microsensors,” in Proc. Int. Symp. Low Power Electron. Design, Aug. 1997 [Online]. Available:http://www.janet.ucla.edu/WINS
[9] J. M. Kahn, R. H. Katz, and K. S. J. Pister, “Mobile networking for smart dust,” in Proc. ACM/IEEE Int. Conf. Mobile Comput. Networking, Aug. 1999.
[10] J. Rabaey, J. Ammer, T. Karalar, S. Li, B. Otis, M. Sheets, and T. Tuan, “PicoRadios for wireless sensor networks: The next challenge in ultralow- power design,” in Proc. Int. Solid-State Circuits Conf., Feb. 2002, pp. 200– 201.
[11] PicoRadio Research Group, Berkeley Wireless Research Center. [Online]. Available:http://bwrc.eecs.berkeley.edu/Research/Pico_Radio/ Default.htm
[12] W. Heinzelman, A. P. Chandrakasan, and H. Balakrishnan, “An application-specific protocol architecture for wireless microsensor networks,” IEEE Trans. Wireless Commun., vol. 1, pp. 660–670,Oct.2002.
[13] Y. Yu, V. K. Prasanna, and B. Hong, “Communication models for algorithm design in networked sensor systems,” in Proc. 19th Int. Parallel Distrib. Process. Symp., Denver, CO, Apr. 4–8, 2005, p. 207b.
[14] M. Sgroi, A. Wolisz, A. Sangiovanni-Vincentelli, and J. M. Rabaey, “A service-based universal application interface for ad-hoc wireless sensor networks.” [Online]. Available: http://bwrc.eecs.berkeley.edu/ research/Pico_Radio/docs/SensorNetworksServicePlatformv 1.pdf
[15] A. Bonivento, L. P. Carloni, and A. L. S. Vincentelli, “Rialto: A bridge between description and implementation of control algorithms for wireless sensor networks,” in Proc. 5th Int. Conf. Embedded Softw.,2005.
[16] W. B. Heinzelman, A. L. Murphy, H. S. Carvalho, and M. A. Perillo,“Middleware to support sensor network applications,” IEEE Network,vol. 18, no. 1, pp. 6–14, Jan. 2004.
[17] “COUGAR: The network is the database.” [Online]. Available: http://www.cs.cornell.edu/database/cougar/
[18] “TinyDB: A declaritive database for sensor networks.” [Online]. Available: http://telegraph.cs.berkeley.edu/tinydb/
[19] K. Römer,O. Kasten, and F. Mattern, “Middleware challenges for wireless Sensor networks,” ACM SIGMOBILE Mobile Comput. Commun. Rev., vol. 6, no. 4, pp. 59–61, Oct. 2002.
[20] H. Ramamurthy, D. Lal, B. S. Prabhu, and R. Gadh, “ReWINS: A distributed Multi-RF sensor control network for industrial automation,” in Proc. IEEE Wireless Telecommun. Symp., Pomona, California, Apr. 28–30, 2005, pp. 24–33.