Abstract
Remote data acquisition and monitoring have an important role for industry and home appliances to provide real time status of monitored constituent. Nowadays, Wireless Sensor Technology (WST) is one of the common topics for research and development. Advanced technology continuously increases abilities of components related to these types of systems while reducing their sizes and costs. In this study a real-time wireless temperature data monitoring system including four nodes to acquire temperature based data and one base station to monitor these collected data was developed. Communication between remote terminal units (RTU) and base station was implemented using Radio Frequency (RF) transceivers. Time-division multiple access (TDMA) method was established to provide sequential access to each RTU. Developed system could be adequate for continuous communication and also it was able to support additional RTUs. Laboratory tests were conducted to demonstrate developed system’s functionality. During these tests, RTUs placed in standard refrigerators were used to observe temperature differences using wireless sensor network (WSN).
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Dargie W, Poellabauer C (2010) Fundamentals of wireless sensor networks. JohnWiley&Sons
Rashid B, Rehmani MH (2016) Applications of wireless sensor networks for urban areas: a survey. J Netw Comput Appl 60:192–219
Vivoni ER, Camilli R (2002) Real-time streaming of environmental field data. Comput Geosci 29:457–468
Perkins M, Correal N, O’Dea B (2002) Emergent wireless sensor network limitations: a plea for advancement in core technologies. In: 1st IEEE international conference on sensors, pp 1505–1509, June 2002
Rusko M, Buff W, Binhack M, Goroll M, Ehrenpfordt J, Klett S (1999) Passive resonator identification TAG for narrow-band wireless telemetry. In: Proceedings of the IEEE ultrasonics symposium, vol 1, pp 377–380, October 1999
Gomide RL, Inamasu RY, Queiroz DM, Mantovani EC, Santos WF (2001) An automatic data acquisition and control mobile laboratory network for crop production systems data management and spatial variability studies in the Brazilian center-west region. The American Society of Agriculture Engineers, ASAE Paper No.:01-1046
Lee WS, Burks TF, Schueller JK (2002) Silage yield monitoring system. The American Society of Agriculture Engineers, ASAE Paper No.: 02-1165
Mahan J, Wanjura D (2004) Design and construction of a wireless infrared thermometry system. The USDA annual report, Project number: 6208-21000-012-03, September 2004
Damas M, Prados AM, Gómez F, Olivares G (2001) HidroBus® system: fieldbus for integrated management of extensive areas of irrigated land. Microprocess Microsyst 25:177–184
Cugati S, Miller W, Schueller J (2003) Automation concepts for the variable rate fertilizer applicator for tree farming. In: The Proceedings of the 4th european conference in precision agriculture, June 2003
Jensen AL, Boll PS, Thysen I, Pathak BK (2000) Pl@nteInfo: a web-based system for personalized decision support in crop management. Comput Elect Agric 25:271–293
Guo LS, Zhang Q (2002) A wireless LAN for collaborative off-road vehicle automation. In: Proceedings of automation technology for off-road equipment conference, pp 51–58, July 2002
Charles K, Stenz A (2003) Automatic spraying for nurseries. USDA annual report, Project number: 3607-21620-006-03, August 2003
Ribeiro A, Garcia–Perez L, Garcia-Alegre, Guinea MC (2003) A friendly man-machine visualization agent for remote control of an autonomous tractor GPS guided. In: The proceedings of the 4th European conference in precision agriculture, June 2003
Stentz A, Dima C, Wellington C, Herman H, Stager D (2002) A system for semi-autonomous tractor operations. Auton Robots 13:87–104
Chung YC, Olsen SL, Wojcik L, Song Z, He C, Adamson S (2001) Wireless safety personnel radio device for collision avoidance system of autonomous vehicles. In: Digest of 2001 IEEE antennas and propagation society international symposium, pp 121–124, July 2001
Hirakawa AR, Saraiva AM, Cugnasca CE (2002) Wireless robust robot for agricultural applications. In: Proceedings of the world congress of computers in agriculture and natural resources, pp 414–420, March 2002
Heimerdinger U (2000) Wireless probes revolutionize moisture measurement when drying wood. In: Proceedings of the 51st western dry kiln association meeting, pp 63–66, May 2000
Thysen I (2000) Agriculture in the information society. J Agric Eng Res 76:297–303
Sahin E, Dallery Y, Gershwin S (2002) Performance evaluation of a traceability system: an application to the radio frequency identification technology. In: Proceedings of the 2002 IEEE international conference on systems, man and cybernetics, vol 3, pp 647–650, October 2002
Nagl L, Schmitz R, Warren S, Hildreth TS, Erickson H, Andresen D (2003) Wearable sensor system for wireless state-of-health determination in cattle. In: Proceedings of the 25th annual international conference of the IEEE engineering in medicine and biology society, pp 3012–3015, September 2003
Taylor K, Mayer K (2004) TinyDB by remote. In: Presentation in Australian mote users’ workshop, February 2004
Wentworth SM (2003) Microbial sensor tags. In: The 2003 IFT (the institute of food engineering) annual meeting book of abstracts, July 2003
Chandler S (2003) Vision of the future for smart packaging for brand owners. In: Proceedings of the international conference on smart and intelligent packaging, pp 253–269, October 2003
Gebresenbet G, Ljungberg D, Van de Water G, Geers R (2003) Information monitoring system for surveillance of animal welfare during transport. In: Proceedings of the 4th European conference in precision agriculture, June 2003
Geers R, Saatkamp HW, Goossens K, Van Camp B, Gorssen J, Rombouts G, Vanthemsche P (1998) TETRAD: an on-line telematic surveillance system for animal transports. Comput Electron Agric 21:107–116
Najjar LJ, Thompson JC, Ockerman J (1997) Wearable computer for quality assurance inspectors in a food processing plant. In: Proceedings of the 1st IEEE international symposium on wearable computers, pp 163–164, October 1997
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2019 Springer Nature Switzerland AG
About this paper
Cite this paper
Böğrekci, İ., Akkoyun, F., Demircioğlu, P., Vardin, S. (2019). Implementation of a Real-Time Data Acquisition System with Wireless Sensor Network for Temperature Measurement. In: Durakbasa, N., Gencyilmaz, M. (eds) Proceedings of the International Symposium for Production Research 2018. ISPR 2018. Springer, Cham. https://doi.org/10.1007/978-3-319-92267-6_25
Download citation
DOI: https://doi.org/10.1007/978-3-319-92267-6_25
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-92266-9
Online ISBN: 978-3-319-92267-6
eBook Packages: EngineeringEngineering (R0)