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Warianty tytułu
Języki publikacji
Abstrakty
This paper presents a concept of a wireless measuring system based on ZigBee modules, and the stages in its implementation. The distinctive feature of the built measuring systems is their high resistance to environmental conditions. To a large extent this was achieved through the use of induction charging. The effectiveness of this solution was determined by comparing it with conventional charging. The measuring modules built in accordance with this concept were tested in the work space of a machine tool during milling. Special attention was paid to the amount of power consumed by the tested modules during different modes of their operation. The response time of the modules during their operation in the work space of the working machine tool and in the case when the modules were completely immersed in water was tested. By comparing the measured response times the effect of the above factors on the correctness of operation of the measuring system was determined.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
133--143
Opis fizyczny
Bibliogr. 7 poz., rys.
Twórcy
autor
- Wroclaw University of Technology, Department of Machine Tools and Mechanical Technologies, Wroclaw, Poland
Bibliografia
- [1] BANGALI J., SHALIGRAM A., 2013, Energy efficient Smart home based on Wireless Sensor Network using LabVIEW, American Journal of Engineering Research, e-ISSN:2320-0847, p-ISSN:2320-0936, 02/12, 409-413.
- [2] SOMANI N.A., PATEL Y., 2012, ZigBee: A Low Power Wireless Technology for Industrial Applications, International Journal of Control Theory and Computer Modelling, 2/3, 27-33.
- [3] MINGMING G., LIANGSHAN S., 2010, The Design of Wireless Smart Home System based on ZigBee, 3rd International Conference on Computer and Electrical Engineering,
- [4] BIJALWAN T., PARVEEN R., UNIYAL P., PANWAR K., BAGWARI A., 2014, Review Paper Based on Wireless Charging, 1st International Conference on Research in Science, Engineering & Management, 212-215.
- [5] Industrial Networks, 2010, The Simplest Wireless Network in the Industry, Practical Electronics, 10, 140-143, (in Polish).
- [6] CASILARI E., CANO-GARCIA J.M., CAMPOS-GARRIDO G., 2010, Modeling of Current Consumption in 802.15.4/ZigBee Sensor Motes, Sensors, 10/6, 5443-5468, doi:10.3390/s100605443.
- [7] SREENIVSA R.P., KOTESWARA R., 2014, Under Water Wireless Control Using ZigBee for Transmissions Systems, Int. Journal of Engineering Research and Applications, 4/7, 113-115.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-de41a783-1aa1-431b-b3ec-6a7f4d1ae63b