350 rub
Journal Achievements of Modern Radioelectronics №3 for 2013 г.
Article in number:
Analysis of power consumption of transceivers for ultrawideband wireless sensor networks
Authors:
E.V. Efremova, V.A. Lazarev
Abstract:
Important characteristic of wireless sensor networks is network nodes autonomy: absence of both information and power wired lines. Sensor network nodes must have possibility of working from battery and provide system long life without of network nodes or power elements replacement.
This paper is devoting to energy saving in direct chaotic transceivers meant for using in wireless ultrawideband sensor networks is investigated. Some ways of energy saving to provide long autonomous operation period of the transmitters are proposed: design solutions, using low consumption elements, communication protocol organization and using of sleep modes. Analysis of power consumption as a function of data bit rate is provided. Comparison of characteristics with closest technologies is provided.
Pages: 43-54
References
- Revision of part 15th Commission-s Rules Regarding Ultra-Wideband Transmission Systems, First Report and Order. ET Docket 98-153, FCC 02-48; April 22, 2002. Wash.: Federal Communications Commission (FCC), 2002. http://hraunfoss. fcc.gov/edocs_public/at-tachmatch/FCC-02-48A1.pdf.
- 802.15.4a-2007. IEEE Standard for Information Technology - Telecommunications and Information Exchange Between systems - Local and metropolitan area networks - specific requirement. Part 15.4: Wireless Medium Access Control (MAC) and Physical Layer (PHY) Specifications for Low-Rate Wireless Personal Area Networks (WPANs). N.Y.: IEEE, 2007. http://iee-explore.ieee.org/servlet/opac-punumber = 4299494.
- Win M.Z., Scholtz R.A. // IEEE Commun. Lett. 1998.V. 2. № 2. P. 36.
- Kelly J. Time Domain-s Proposal for UWB Multi-band Alternate PHY Layer for 802.15.3a. // N.Y.: IEEE, 2003. http://grouper.ieee.org/groups/802/15/pub/2003/Mar03/03143r2P802-15_TG3a-TimeDomain-CFP-Presentation.ppt
- A Tutorial on Ultra Wideband Technology // IEEE 802.15 Working Group, submission,Mar. 2000. N.Y.: IEEE, 2000. http://grouper.ieee.org/groups/802/15/pub/2000/Mar00/00082r1P802-15_WG-UWB-Tutorial-1-Xtreme-Spectrum.pdf
- Dmitriev A.S., Kjarginskijj B.E., Maksimov N.A., Panas A.I., Starkov S.O.Perspektivy sozdanija prjamokhaoticheskikh sistem svjazi v radio i SVCH-diapazonakh // Radiotekhnika. 2000. № 3. S. 9 - 20.
- Dmitriev A.S., Kjarginskijj B.E., Panas A.I., Starkov S.O. Prjamokhaoticheskie skhemy peredachi informacii v sverkhvysokochastotnom diapazone // Radiotekhnika i ehlektronika. 2001. T. 46. № 2. 224-233.
- Multi-band OFDM Physical Layer Proposal. IEEE 802.15.3a Working Group submission, Jul. 2003. N.Y. // IEEE. 2003. http://www.ieee802.org/15/pub/2003/Jul03/03268r2P802-15_TG3a-Multi-band-CFP-Document.pdf
- Lampe J. Introduction to Chirp Spread Spectrum (CSS) Technology. July, 2004. N.Y. // IEEE, 2004. http://grouper.ieee.org/groups/802/15/pub/2004/15-04-0353-00-004a-chirp-spread-spectrum-technology.ppt
- Dmitriev A.S., Efremova E.V., Klecov A.V., Kuzmin L.V., Laktjushkin A.M., JUrkin V. JU. Sverkhshirokopolosnaja besprovodnaja svjaz i sensornye seti // Radiotekhnika i ehlektronika. 2008. T. 53. №10.S. 1278 - 1289.
- Yang Yu, Viktor K Prasanna, Bhaskar Krishnamachari Information Processing And Routing In Wireless Sensor Networks, World Scientific Publishing Co. Pte. Ltd. 2006.
- Anastasi G., Conti M., Di Francesco M., Passarella A. Energy Conservation in Wireless Sensor Networks: a Survey. Ad Hoc Networks. 2009. V. 7. № 3. P. 537 - 568.
- Mario Di Francesco, Giuseppe Anastasi, Marco Conti, Sajal K. Das, and Vincenzo Neri Reliability and Energy-efficiency in IEEE 802.15.4/ZigBee Sensor Networks: An Adaptive and Cross-layer Approach, IEEE Journal On Selected Areas In Communications. 2011. V. 29. № 8.
- Dmitriev A.S., Kjarginskijj B.E., Panas A.I., Puzikov D.JU., Starkov S.O. EHksperimenty po sverkhshirokopolosnojj prjamokhaoticheskojj peredache informacii v sverkhvysokochastotnom diapazone // Radiotekhnika i ehlektronika. 2002. T. 47. Vyp. 10. S. 1219 - 1228.
- Dmitriev A.S., Kyarginsky B.Ye., Panas A.I., et al. // Int. J. Bifurcation and Chaos. 2003. V. 13. № 6. P. 1495.
- Dmitriev A.S., Klecov A.V., Laktjushkin A.M., Panas A.I., Starkov S.O. Sverkhshirokopolosnaja besprovodnaja svjaz na osnove dinamicheskogo khaosa // Radiotekhnika i ehlektronika. 2006. T. 51. № 10. S. 1193 - 1209.
- Dmitriev A.S., Klecov A.V., Laktjushkin A.M., Panas A.I., Starkov S.O. Sverkhshirokopolosnye kommunikacionnye sistemy na osnove dinamicheskogo khaosa // Uspekhi sovremennojj radioehlektroniki. 2008. № 1. S. 4 - 16.
- Dmitriev A.S., Klecov A.V., Laktjushkin A.M., Panas A.I., Sinjakin V.JU. Tekhnologicheskaja platforma dlja sozdanija priemoperedatchikov na osnove khaoticheskikh signalov // Uspekhi sovremennojj radioehlektroniki. 2008. №1.S. 77-83.
- IEEE Standard for Local and metropolitan area networks - Part 15.6: Wireless Body Area Networks. 2012.
- Baskakov S.S. Besprovodnye sistemy sbora dannykh na baze radiochastotnykh modulejj ML-Module-Z // Besprovodnye tekhnologii. 2009. №1.
- Bluetooth Module for Mobile Devices MBH7BTZ Series, http:// www.fujitsu.com/downloads/EDG/binary/pdf/find/23-4e/12.pdf