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ALÇAK VE ORTA YÜKSEKLİKTEKİ BİNALARDA ASANSÖR KAT ÜNİTELERİNİN KONTROLÜ İÇİN YENİ BİR ÇOK ATLAMALI KABLOSUZ AĞ ÖNERİSİ

Year 2019, Volume: 24 Issue: 1, 401 - 414, 30.04.2019
https://doi.org/10.17482/uumfd.534507

Abstract

Asansör kat ünitelerini
kontrol eden kablolu haberleşme sistemlerinde, yüksek miktarlarda kablo
kullanımı, kurulum ve onarım sürelerinin uzun olması, kronik arızalar gibi
sorunlarla karşılaşılmaktadır. Bu makalede, kablosuz kısa paket protokolü (WSP)
kullanarak alçak ve orta yükseklikteki binalarda kat ünitelerini kontrol
edebilecek çift sıçramalı çok atlamalı kablosuz bir ağ önerilmektedir. Önerilen ağ üzerinde, telegram
başarım oranı, telegram yoğunluğu, atlama süresi ve işaret gücü ölçümleri
gerçekleştirilmiştir. Deneysel sonuçlar, yaklaşık 75 telegram/s’lik telegram
yoğunluğunun %100 telegram başarım oranını garanti ettiğini vurgulamaktadır.
Önerilen ağda, birinci ve ikinci atlama için, sırasıyla, 16.1 ms ve 17.5 ms
ortalama atlama süreleri ölçülmüş olup bu sürelerin alçak ve orta yükseklikteki
binalar için yeterli olduğu bulunmuştur. İşaret gücü ölçümleri, önerilen ağın,
iki sıçramalı yerine üç ya da daha fazla sıçramalı kullanımının mümkün
olabileceğini göstermektedir. Bu durum, ağın hızına, telegram yoğunluğuna ve
performansına katkıda bulanacaktır.

References

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  • 3. Crenella, D., Gozzo, M. P., Grzybowski, R. R., Izard, J. M., Morgan, R. G. and Slabinski, C. J. (2003). Two-part wireless communications system for elevator hallway fixtures, USA Patent, US 6601679 B2.
  • 4. Đurišić, M. P., Tafa, Z., Dimić, G. and Milutinović, V. (2012). A survey of military applications of wireless sensor networks, Mediterranean Conference on Embedded Computing (MECO’2012), Bar, Montenegro.
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  • 7. EnOcean GmbH (2017a). EnOcean TCM 300 / TCM 320 (868 MHz), TCM 300U / TCM 320U (902 MHz) Transceiver Module User Manual, Germany. https://www.enocean.com/de/enocean_module/tcm-300/user-manual-pdf/ (Last Access Date: 09.03.2018)
  • 8. EnOcean GmbH (2017b). EnOcean Serial Protocol 3 (ESP3), Germany.
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  • 11. ISO/IEC 14543-3-10 (2012). Information technology -- Home electronic systems (HES) architecture --Part 3-10: Wireless short-packet (WSP) protocol optimized for energy harvesting -- Architecture and lower layer protocols, International Organization for Standardization, Geneva, Switzerland.
  • 12. Motoyama, N., Inaba, H., Kawabata, A., Ohkura, Y. and Yamashita, K. (2002). Elevator system having wireless transmitting/receiving units, USA Patent, US 6446761 B1.
  • 13. Oh, J. H. and Hootsmans, N. A. M. (2012). Elevator system with wireless hall call buttons. USA Patent, US 8253548 B2.
  • 14. Shibata, Y., Sato, Y., Ogasawara, N. and Chiba, G. (2009). A disaster information system by ballooned wireless adhoc network, International Conference on Complex, Intelligent and Software Intensive Systems (CISIS’09), Fukuoka, Japan, 299-304. Doi: 10.1109/CISIS.2009.191
  • 15. Venables, M. (2017). Lifting maintenance to new heights, Plant Engineer, 2017 (5-6), 6-9.
  • 16. Wark, T., Corke, P., Sikka, P., Klingbeil, L., Guo, Y., Crossman, C., Valencia, P., Swain, D., Bishop-Hurley, G. (2007). Transforming agriculture through pervasive wireless sensor networks, IEEE Pervasive Computing, 6 (2), 50-57. Doi: 10.1109/MPRV.2007.47

A Novel Multi-Hop Wireless Network Proposal to Control Elevator Floor Fixtures in Low-Rise and Medium-Rise Buildings

Year 2019, Volume: 24 Issue: 1, 401 - 414, 30.04.2019
https://doi.org/10.17482/uumfd.534507

Abstract

Wired
communication systems used to control elevator floor fixtures have problems due
to huge amount of cables used in implementation, long installation time, long
troubleshooting time and chronic faults. This paper proposes a double-jump
multi-hop wireless network for low-rise and medium-rise buildings to control
elevator floor fixtures using wireless short packet protocol (WSP). Telegram
success rate, telegram intensity, hop time and signal power measurements have
been performed on the proposed network. Experimental results emphasize that
telegram intensity of about 75 telegram/s guarantees 100 % telegram success
rate. Average hop times of 16.1 ms and 17.5 ms for the first and second hops have
been measured respectively and found to be enough for low-rise and medium-rise
buildings. Signal power measurements show that proposed network may be
capable of performing even triple jumps or more instead of double jumps contributing to the speed, telegram intensity and the
performance of the network.

References

  • 1. Anders, A. (2005). Pushbutton Transmitter Device PTM 200 User Manual V1.1, EnOcean GmbH, Germany.
  • 2. Ansari, I. S. (2009). An implementation of traffic light system using multi-hop ad hoc networks, International Conference on Network-Based Information Systems (NBIS’09), Indianapolis, USA, 177-181. doi: 10.1109/NBiS.2009.8
  • 3. Crenella, D., Gozzo, M. P., Grzybowski, R. R., Izard, J. M., Morgan, R. G. and Slabinski, C. J. (2003). Two-part wireless communications system for elevator hallway fixtures, USA Patent, US 6601679 B2.
  • 4. Đurišić, M. P., Tafa, Z., Dimić, G. and Milutinović, V. (2012). A survey of military applications of wireless sensor networks, Mediterranean Conference on Embedded Computing (MECO’2012), Bar, Montenegro.
  • 5. EnOcean GmbH (2015a) . EnOcean Equipment Profiles EEP Version 2.6.3, Germany. https://www.enocean.com/fileadmin/redaktion/enocean_alliance/pdf/EnOcean_Equipment_ProfilesEEP_V2.6.3_public.pdf (Last Access Date: 09.03.2018)
  • 6. EnOcean GmbH (2015b). EnOcean Developer Kit: EDK 350 User Manual, Germany. https://www.enocean.com/en/enocean_modules/edk-350/user-manual-pdf/ (Last Access Date: 09.03.2018)
  • 7. EnOcean GmbH (2017a). EnOcean TCM 300 / TCM 320 (868 MHz), TCM 300U / TCM 320U (902 MHz) Transceiver Module User Manual, Germany. https://www.enocean.com/de/enocean_module/tcm-300/user-manual-pdf/ (Last Access Date: 09.03.2018)
  • 8. EnOcean GmbH (2017b). EnOcean Serial Protocol 3 (ESP3), Germany.
  • 9. EnOcean GmbH (2017c). USB 300 / USB 300U / USB 400J USB Gateway for EnOcean Radio, Germany. https://www.enocean.com/en/enocean_modules/usb-300-oem/user-manual-pdf/ (Last Access Date: 09.03.2018)
  • 10. Furtado, H. and Trobec, R. (2011). Applications of wireless sensors in medicine, 34th International Convention MIPRO’2011, Opatija, Croatia, 257-261.
  • 11. ISO/IEC 14543-3-10 (2012). Information technology -- Home electronic systems (HES) architecture --Part 3-10: Wireless short-packet (WSP) protocol optimized for energy harvesting -- Architecture and lower layer protocols, International Organization for Standardization, Geneva, Switzerland.
  • 12. Motoyama, N., Inaba, H., Kawabata, A., Ohkura, Y. and Yamashita, K. (2002). Elevator system having wireless transmitting/receiving units, USA Patent, US 6446761 B1.
  • 13. Oh, J. H. and Hootsmans, N. A. M. (2012). Elevator system with wireless hall call buttons. USA Patent, US 8253548 B2.
  • 14. Shibata, Y., Sato, Y., Ogasawara, N. and Chiba, G. (2009). A disaster information system by ballooned wireless adhoc network, International Conference on Complex, Intelligent and Software Intensive Systems (CISIS’09), Fukuoka, Japan, 299-304. Doi: 10.1109/CISIS.2009.191
  • 15. Venables, M. (2017). Lifting maintenance to new heights, Plant Engineer, 2017 (5-6), 6-9.
  • 16. Wark, T., Corke, P., Sikka, P., Klingbeil, L., Guo, Y., Crossman, C., Valencia, P., Swain, D., Bishop-Hurley, G. (2007). Transforming agriculture through pervasive wireless sensor networks, IEEE Pervasive Computing, 6 (2), 50-57. Doi: 10.1109/MPRV.2007.47
There are 16 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Research Articles
Authors

Muhammed Macit Lajin This is me

Sait Eser Karlık

Publication Date April 30, 2019
Submission Date March 1, 2019
Acceptance Date April 5, 2019
Published in Issue Year 2019 Volume: 24 Issue: 1

Cite

APA Lajin, M. M., & Karlık, S. E. (2019). A Novel Multi-Hop Wireless Network Proposal to Control Elevator Floor Fixtures in Low-Rise and Medium-Rise Buildings. Uludağ Üniversitesi Mühendislik Fakültesi Dergisi, 24(1), 401-414. https://doi.org/10.17482/uumfd.534507
AMA Lajin MM, Karlık SE. A Novel Multi-Hop Wireless Network Proposal to Control Elevator Floor Fixtures in Low-Rise and Medium-Rise Buildings. UUJFE. April 2019;24(1):401-414. doi:10.17482/uumfd.534507
Chicago Lajin, Muhammed Macit, and Sait Eser Karlık. “A Novel Multi-Hop Wireless Network Proposal to Control Elevator Floor Fixtures in Low-Rise and Medium-Rise Buildings”. Uludağ Üniversitesi Mühendislik Fakültesi Dergisi 24, no. 1 (April 2019): 401-14. https://doi.org/10.17482/uumfd.534507.
EndNote Lajin MM, Karlık SE (April 1, 2019) A Novel Multi-Hop Wireless Network Proposal to Control Elevator Floor Fixtures in Low-Rise and Medium-Rise Buildings. Uludağ Üniversitesi Mühendislik Fakültesi Dergisi 24 1 401–414.
IEEE M. M. Lajin and S. E. Karlık, “A Novel Multi-Hop Wireless Network Proposal to Control Elevator Floor Fixtures in Low-Rise and Medium-Rise Buildings”, UUJFE, vol. 24, no. 1, pp. 401–414, 2019, doi: 10.17482/uumfd.534507.
ISNAD Lajin, Muhammed Macit - Karlık, Sait Eser. “A Novel Multi-Hop Wireless Network Proposal to Control Elevator Floor Fixtures in Low-Rise and Medium-Rise Buildings”. Uludağ Üniversitesi Mühendislik Fakültesi Dergisi 24/1 (April 2019), 401-414. https://doi.org/10.17482/uumfd.534507.
JAMA Lajin MM, Karlık SE. A Novel Multi-Hop Wireless Network Proposal to Control Elevator Floor Fixtures in Low-Rise and Medium-Rise Buildings. UUJFE. 2019;24:401–414.
MLA Lajin, Muhammed Macit and Sait Eser Karlık. “A Novel Multi-Hop Wireless Network Proposal to Control Elevator Floor Fixtures in Low-Rise and Medium-Rise Buildings”. Uludağ Üniversitesi Mühendislik Fakültesi Dergisi, vol. 24, no. 1, 2019, pp. 401-14, doi:10.17482/uumfd.534507.
Vancouver Lajin MM, Karlık SE. A Novel Multi-Hop Wireless Network Proposal to Control Elevator Floor Fixtures in Low-Rise and Medium-Rise Buildings. UUJFE. 2019;24(1):401-14.

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