DEVELOPMENT OF SMART DETACHABLE WIRELESS SENSING SYSTEM FOR ENVIRONMENTAL MONITORING

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International Journal on Smart Sensing and Intelligent Systems

Professor Subhas Chandra Mukhopadhyay

Exeley Inc. (New York)

Subject: Computational Science & Engineering, Engineering, Electrical & Electronic

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VOLUME 7 , ISSUE 3 (September 2014) > List of articles

DEVELOPMENT OF SMART DETACHABLE WIRELESS SENSING SYSTEM FOR ENVIRONMENTAL MONITORING

D. Bhattacharjee * / R. Bera *

Keywords : Smart sensor, IEEE 1451, SDWSS, peripheral interface controller, Detachable smart transducer interface module (DSTIM), distributed monitoring. XBEE.

Citation Information : International Journal on Smart Sensing and Intelligent Systems. Volume 7, Issue 3, Pages 1,239-1,253, DOI: https://doi.org/10.21307/ijssis-2017-703

License : (CC BY-NC-ND 4.0)

Received Date : 05-May-2014 / Accepted: 22-July-2014 / Published Online: 01-September-2014

ARTICLE

ABSTRACT

We present the work on development of Smart Detachable Wireless Sensing System for
environment monitoring (SDWSS) complying with the IEEE 1451 standard. Barometric and alcohol
two different detachable smart sensor have been developed by incorporating generic transducer,
customized peripheral interface controller (PIC) 18LF2550 microcontroller and with other peripherals.
Detachable smart transducer interface module (DSTIM) implemented using centralized PIC 18F4550
microcontroller based embedded platform, and wireless communication is achieved by 2.4 GHZ XBEE,
and CC2500 based wireless module. Various intelligent power management protocols have been
implemented on the detachable sensors. This is a flexible cost effective smart system ideal for
distributed environment monitoring application.

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REFERENCES

[1] R. K. Pachauri and A. Reisinger, “Climate change 2007–impacts, adaptation and
vulnerability,” Contribution of Working Group II to the Fourth Assessment Report of the IPCC,
Geneva, Switzerland, 2007.
[2] Jos G.J. Olivier (PBL),Greet Janssens-Maenhout (IES-JRC), Marilena Muntean (IES-JRC),
Jeroen A.H.W. Peters (PBL), “Trends in global CO2 emissions” 2013 Report © PBL Netherlands
Environmental Assessment Agency The Hague, 2013 ISBN: 978-94-91506-51-2PBL publication
number: 1148.
[3] The American Heritage® Medical Dictionary Copyright (2007), 2004 by Houghton
Mifflin Company. Published by Houghton Mifflin Company.
[4] J. F. Nicol and M. A. Humphreys, “Adaptive thermal comfort and sustainable thermal
standards for buildings,” Energy and Buildings, vol. 34, no. 6, pp. 563–572, 2002
[5] G. S. Brager and R. J. Dear, “Thermal adaptation in the built environ-ment: A literature
Review”, Energy and Buildings, vol. 27, no. 1, pp.83–96, 1998
[6] D. A. Patterson, Technical perspective: The data center is the computer, Communications of
the ACM, 51(1):105, 2008, pp. 105_105. N. Kularatna and B. H. Sudantha, “An environmental
air pollution monitoring system based on the IEEE 1451 standard for low cost requirements”,
IEEE Sensors Journal, vol. 8, no. 4, pp. 415–422, Apr. 2008.
[7] H. M. G. Ramos, J. M. D. Pereria, V. Viegas, O. Postolache, and P.M. B. S. Girao, “A virtual
instrument to test smart transducer interfacemodules ( STIMs),”IEEE Trans. Instrum. Meas., vol.
53, no. 4, pp 1232–1239, 2004.
[8]D. D. Lee and D. S. Lee, “Environment gas sensors, ”IEEE Sensors Journal, vol. 1, no. 3, pp.
214–215, Oct. 2001.
[9] Jaun A.Lopez, Fulgencio Soto, Pedro Sanchez, Andres Iborra, Juan Suardiaz and Jaun A.
Vera, “Development of a sensor Node for Precision Hortculture”, Sensor 2009,9,pp. 3240-3255.
[10] Nihal Kularatna, Senior Member, IEEE, and B. H. Sudantha, Member, IEEE , “An
Environmental Air Pollution Monitoring System Based on the IEEE 1451 Standard for Low Cost
Requirements”, IEEE SENSORS JOURNAL, VOL. 8, NO.4, pp.415-422, APRIL 2008.
[11] Sukwon Choi , Nakyoung Kim , Hojung Cha and Rhan Ha. “Micro Sensor Node for Air
Pollutant Monitoring: Hardware and Software Issues”, Sensors 2009, 9, 7pp. 970-7987;
[12] Jer Hayes, Stephen Beirne, King-Tong Lau, Dermot Diamond, “Evaluation of a low cost
Wireless Chemical Sensor Network for Environmental Monitoring” IEEE SENSORS 2008
Conference, pp. 530-533.
[13] Sean Dieter Tebje Kelly, Nagender Kumar Suryadevara, and S. C. Mukhopadhyay,
"Towards the Implementation of IoT for Environmental Condition Monitoring in Homes" IEEE
SENSORS JOURNAL, VOL. 13, NO. 10, OCTOBER 2013, pp. 3846-3853.
[14] N.K. Suryadevara and S.C. Mukhopadhyay, “Wireless Sensor Network Based Home
Monitoring System for Wellness Determination of Elderly”, IEEE Sensors Journal, Vol. 12, No.
6, June 2012, pp. 1965-1972.
[15] Mohd. Amri Yunus, S. C. Mukhopadhyay and S. Ibrahim “Planar Electromagnetic Sensors
Based Estimation of Nitrates Contamination in Water Sources Using Independent Component
Analysis”, IEEE Sensors Journal, Vol. 12, No. 6, June 2012, pp. 2024-2033.
[16] Mohd. Amri Yunus and S. C. Mukhopadhyay, “Development of Planar Electromagnetic
Sensors for Measurement and Monitoring of Environmental Parameters”, Meas. Sci. Technol. 22
(2011) 025107 (9pp), doi:10.1088/0957-0233/22/2/025107, January 2011.
[17]Crossbow Technology Company: San Jose, CA, USA; Available online:
http://www.xbow.com/.
[18] Ranch Systems, LLC: Novato, CA, USA; Available online: http://www.ranchsystems.com.
[19]MorpH2O Water Management, LLC: Ogden, Utah, USA; Available online:
http://www.morph2o.com.
[20] Rerkrai, K.; Jardak, C.; Kovacevic, A.; Riihijärvi, J.; Mähönen, P. Demo abstract:
Survivable and scalable WSN solution for environmental monitoring in harsh conditions. In
Proceedings of 6th European Conference on Wireless Sensor Networks, Cork, Ireland, UK,
February 11-13, 2009.
[21] A. M. El-Sayed, F. M. Ismail, M. H. Khder, M. E. M. Hassouna, S. M. Yakout, Effect of
CeO2 Doping on the Structure, Electrical Conductivity and Ethanol Gas Sensing Properties of
Nanocrystalline ZnO Sensors, International Journal on Smart Sensing and Intelligent System,
vol.5, NO.3, pp.606–623,2012.
[22] Dilip Kumar Ghara, Debdulal Saha, Kamalendu Sengupta, ‘Implementation of linear trace
moisture sensor by nano porous thin film moisture sensor and NLAmp’, International journal on
smart sensing and intelligent systems, Vol. 1 No. 4; pp.955-969, December 2008,.
[23] A. Che Soh, K.K.Chow, U. K. Mohammad Yusuf, A.J.Ishak , M. K. Hassan, S.Khamis,
‘DEVELOPMENT OF NEURAL NETWORK-BASED ELECTRONIC NOSE FOR HERBS
RECOGNITION’, International journal on smart sensing and intelligent systems, VOL. 7, NO. 2,
pp.584–609 June 2014.
[24] S. D. Shinde, G. E. Patil, D. D. Kajale, V. G. Wagh, V. B. Gaikwad and G. H. Jain,
“Effect of annealing on gas sensing performance of nanostructured ZnO thick film
resistors”, International journal on smart sensing and intelligent systems, Vol. 5, no. 1,
pp.277–294, 2012.
[25] Zhao Jindong, Fan Baode, Lu Yunhong, Mu Chunxiao,’ N ADAPTIVE CHANNEL
HOPPING ALGORITHM FOR WIRELESS SENSOR NETWORK WITH MESH
STRUCTURE’, International journal on smart sensing and intelligent systems, Vol. 3, no. 1,
pp.377–395, 2011.

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