Performance Analysis of Data Transmission on a Wireless Sensor Network Using the XBee Pro Series 2B RF Module

https://doi.org/10.22146/ijeis.59899

I Gusti Made Ngurah Desnanjaya(1*), I Nyoman Buda Hartawan(2), Wayan Gede Suka Parwita(3), Ida Bagus Ary Indra Iswara(4)

(1) STMIK STIKOM Indonesia
(2) STMIK STIKOM Indonesia
(3) STMIK STIKOM Indonesia
(4) STMIK STIKOM Indonesia
(*) Corresponding Author

Abstract


Wireless Sensor Network (WSN) is a wireless network technology that is capable of scanning and can be used to monitor environmental conditions, both indoors and outdoors. One of the devices used in data communication at WSN is XBee. XBee is a device in WSN that uses radio frequency as a data transmission path from one device to another. In sending data, Xbee can be affected by the distance and signal strength between devices. In this research, Xbee communication distance analysis is done outdoors and indoors so as to get data in the form of maximum distance vulnerable from Xbee. The results of this study indicate that the Xbee Pro Series 2B that is measured outside the room is capable of sending data up to a distance of 110 meters, while the Xbee Pro Series 2B device that is measured indoors is capable of sending data up to a distance of 20 meters.

Keywords


RSSI; WSN; XCTU; XBee; ZigBee.

Full Text:

PDF


References

[1] P. Rycerski, L. M. Candanedo Ibarra, F. Galatoulas, K. N. Genikomsakis, A. Bagheri, and C. S. Ioakimidis, “Field performance analysis of IEEE 802.15.4 XBee for open field and urban environment applications in Smart Districts,” in Energy Procedia, 2017.

[2] B. RAHMADYA, M. SISKA, and F. AKBAR, “Ubiquitous Sensor Networks: Efisiensi Sistem Kontrol Cairan Infus Pasien Rawat Inap,” ELKOMIKA J. Tek. Energi Elektr. Tek. Telekomun. Tek. Elektron., 2018.

[3] S. Pirbhulal et al., “A novel secure IoT-based smart home automation system using a wireless sensor network,” Sensors (Switzerland), 2017.

[4] K. N. M. Kumar, K. Akhi, S. K. Gunti, M. Sai, and P. Reddy, “Implementing Smart Home Using Firebase,” Int. J. Res. Eng. Appl. Sci., 2016.

[5] Q. N. Cao, C. Liu, and K. Y. Meng, “Design of oilfield wireless monitoring system based on ZigBee and WiFi,” Xi’an Shiyou Daxue Xuebao (Ziran Kexue Ban)/Journal Xi’an Shiyou Univ. Nat. Sci. Ed., 2015.

[6] Y. Zakaria and K. Michael, “An Integrated Cloud-Based Wireless Sensor Network for Monitoring Industrial Wastewater Discharged into Water Sources,” Wirel. Sens. Netw., 2017.

[7] F. Ugm, “Rancang Bangun M2M ( Machine-to- Machine) Communication Berbasis 6LoWPAN,” vol. 7, no. 1, pp. 93–104, 2017.

[8] K. V. De Oliveira, H. M. Esgalha Castelli, S. Jose Montebeller, and T. G. Prado Avancini, “Wireless Sensor Network for Smart Agriculture using ZigBee Protocol,” in 2017 IEEE 1st Summer School on Smart Cities, S3C 2017 - Proceedings, 2018.

[9] M. Pule, A. Yahya, and J. Chuma, “Wireless sensor networks: A survey on monitoring water quality,” J. Appl. Res. Technol., 2017.

[10] D. Y. Kim, S. Kim, H. Hassan, and J. H. Park, “Adaptive data rate control in low power wide area networks for long range IoT services,” J. Comput. Sci., 2017.

[11] R. A. Salam, M. R. F. Islamy, M. M. Munir, E. Yuliza, Khairurrijal, and M. Irsyam, “Design and implementation of wireless sensor network on Ground movement Detection System,” in Proceeding - 2015 International Conference on Computer, Control, Informatics and Its Applications: Emerging Trends in the Era of Internet of Things, IC3INA 2015, 2016.

[12] Digi International, “XBee®/XBee-PRO S2C Zigbee®,” RF Module User Guide. 2018.

[13] J. Tosi, F. Taffoni, M. Santacatterina, R. Sannino, and D. Formica, “Throughput Analysis of BLE Sensor Network for Motion Tracking of Human Movements,” IEEE Sens. J., 2019.

[14] C. Z. Myint, L. Gopal, and Y. L. Aung, “WSN-based reconfigurable water quality monitoring system in IoT environment,” in ECTI-CON 2017 - 2017 14th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology, 2017.

[15] Y. Yuliza, “Komunikasi Antar Robot Menggunakan RF Xbee dan Arduino Microcontroller,” J. Telekomun. dan Komput., 2017.

[16] M. Z. M Zulfitra and P. Gunoto, “PERANCANGAN SISTEM KENDALI GERAK ROBOT BERODA MENGGUNAKAN XBEE PRO REMOTE,” SIGMA Tek., 2018.

[17] M. A. Moridi, Y. Kawamura, M. Sharifzadeh, E. K. Chanda, M. Wagner, and H. Okawa, “Performance analysis of ZigBee network topologies for underground space monitoring and communication systems,” Tunn. Undergr. Sp. Technol., 2018.

[18] D. J. Bora, N. Kumar, and R. Dutta, “Implementation of wireless MEMS sensor network for detection of gait events,” IET Wirel. Sens. Syst., 2019.

[19] H. Fitriawan, M. Susanto, A. S. Arifin, D. Mausa, and A. Trisanto, “ZigBee based wireless sensor networks and performance analysis in various environments,” in QiR 2017 - 2017 15th International Conference on Quality in Research (QiR): International Symposium on Electrical and Computer Engineering, 2017.

[20] M. Bor and U. Roedig, “LoRa transmission parameter selection,” in Proceedings - 2017 13th International Conference on Distributed Computing in Sensor Systems, DCOSS 2017, 2018.

[21] N. Ahmad, A. Hussain, I. Ullah, and B. H. Zaidi, “IOT based wireless sensor network for precision agriculture,” in iEECON 2019 - 7th International Electrical Engineering Congress, Proceedings, 2019.

[22] H. C. Lee and H. H. Lin, “Design and Evaluation of an Open-Source Wireless Mesh Networking Module for Environmental Monitoring,” IEEE Sens. J., 2016.

[23] R. P. Narayanan, T. V. Sarath, and V. V. Vineeth, “Survey on Motes Used in Wireless Sensor Networks: Performance & Parametric Analysis,” Wirel. Sens. Netw., 2016.

[24] S. Sruthy and S. N. George, “WiFi enabled home security surveillance system using Raspberry Pi and IoT module,” in 2017 IEEE International Conference on Signal Processing, Informatics, Communication and Energy Systems, SPICES 2017, 2017.

[25] X. Li and X. Lu, “Design of a ZigBee wireless sensor network node for aquaculture monitoring,” in 2016 2nd IEEE International Conference on Computer and Communications, ICCC 2016 - Proceedings, 2017.

[26] Y. Y. Maulana, G. Wiranto, and D. Kurniawan, “Online Monitoring Kualitas Air Pada Budidaya Udang Berbasis WSN Dan IoT,” INKOM J. Informatics, Control Syst. Comput., 2016.

[27] I. N. B. Hartawan and I. G. M. N. Desnanjaya, “ANALISIS KINERJA PROTOKOL ZIGBEE DI DALAM DAN DI LUAR RUANGAN SEBAGAI MEDIA KOMUNIKASI DATA PADA WIRELESS SENSOR NETWORK,” J. Resist. (Rekayasa Sist. Komputer), 2018.

[28] E. K. Putra and Z. Zaini, “ANALISIS KINERJA PROTOKOL ZIGBEE DENGAN TOPOLOGI STAR PADA BUILDING AUTOMATION SYSTEM (BAS),” J. TEKNOIF, 2017.

[29] S. Ikhwan, R. Farrid Christianti, N. Ardilla, and S. Suryadi, “Analisis Quality Of Service Jaringan Mobile Wiseland Menggunakan DIGI-XCTU,” J. Nas. Teknol. dan Sist. Inf., 2020.

[30] R. Fitriani, “KAJIAN KEKUATAN SINYAL RADIO (RSSI) XBEE DALAM RANGKA PEMASANGAN LANDSLIDE EARLY WARNING SYSTEM (LEWS) DI KABUPATEN GARUT, TASIKMALAYA DAN MAJALENGKA,” J. Alami J. Teknol. Reduksi Risiko Bencana, 2019.



DOI: https://doi.org/10.22146/ijeis.59899

Article Metrics

Abstract views : 3040 | views : 2483

Refbacks

  • There are currently no refbacks.




Copyright (c) 2020 IJEIS (Indonesian Journal of Electronics and Instrumentation Systems)

Creative Commons License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.



Copyright of :
IJEIS (Indonesian Journal of Electronics and Instrumentations Systems)
ISSN 2088-3714 (print); ISSN 2460-7681 (online)
is a scientific journal the results of Electronics
and Instrumentations Systems
A publication of IndoCEISS.
Gedung S1 Ruang 416 FMIPA UGM, Sekip Utara, Yogyakarta 55281
Fax: +62274 555133
email:ijeis.mipa@ugm.ac.id | http://jurnal.ugm.ac.id/ijeis



View My Stats1
View My Stats2