PENGIRIMAN DATA NRF24L01+ DENGAN KONDISI LINE OF SIGHT DAN NON LINE OF SIGHT

Authors

  • I Gusti Made Ngurah Desnanjaya STMIK STIKOM Indonesia
  • Mohammad Dwi Alfian STMIK STIKOM Indonesia

DOI:

https://doi.org/10.31598/jurnalresistor.v3i2.663

Keywords:

WSN, nRF24L01 , line of sight, non line of sight

Abstract

Wireless Sensor Network is a wireless network technology that includes sensor nodes and embedded systems. WSN has several advantages: it is cheaper for large-scale applications, can withstand extreme environments, and data transmission is relatively more stable. One of the WSN devices is nRF24L01+. Within the specifications given, the maximum communication distance is 1.1 km. However, the most effective distance for transmitting data in line of sight and non-line of sight is still unknown. Therefore, testing and analysis are needed so that the nRF24L01+ device can be used optimally for communication and data transmission. Through testing analysis on nRF24L01+ line of sight, Kuta beach location in Bali and non-line of sight on the STMIK STIKOM Indonesia campus. The effective communication distance of the nRF24L01+ module in line of sight is between 1 and 1000 meters. The distance of 1000 meters is the limit of the effective distance for sending data, and the packet loss rate is less than 15% which is included in the medium category. Meanwhile, in the non-line of sight, the effective distance of the nRF24L01+ communication module is 20 meters, and the packet loss is close to 15%, which is a moderate level limit. With the analysis module, nRF24L01+ can be a reference in determining the effective distance on WSN nRF24L01+ in determining remote control equipment data communication.

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References

I. P. Agus and E. Pratama, Scientific News Magazine Edisi September 2016 Teknologi Wireless Sensor Network ( WSN ) dan Over The Top ( OTT ) Service Untuk Pertanian di Bali, vol. 2, no. September, pp. 11“15, 2016.

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.

S. Srivastava, M. Singh, and S. Gupta, Wireless Sensor Network: A Survey, in 2018 International Conference on Automation and Computational Engineering, ICACE 2018, 2018.

F. ROFII, F.- HUNAINI, and S. SHOLAWATI, Kinerja Jaringan Komunikasi Nirkabel Berbasis Xbee pada Topologi Bus, Star dan Mesh, ELKOMIKA J. Tek. Energi Elektr. Tek. Telekomun. Tek. Elektron., 2018.

B. Yapar, E. Y. Guven, and M. A. Aydin, Security on Wireless Sensor Network, in UBMK 2019 - Proceedings, 4th International Conference on Computer Science and Engineering, 2019.

U. J. Shobrina, R. Primananda, and R. Maulana, Analisis Kinerja Pengiriman Data Modul Transceiver NRF24l01 , Xbee dan Wifi ESP8266 Pada Wireless Sensor Network, J. Pengemb. Teknol. Inf. dan Ilmu Komput., 2018.

B. FAJRIANSYAH, M. ICHWAN, and R. SUSANA, Evaluasi Karakteristik XBee Pro dan nRF24L01+ sebagai Transceiver Nirkabel, ELKOMIKA J. Tek. Energi Elektr. Tek. Telekomun. Tek. Elektron., 2018.

M. Shadri and W. Wildian, Rancang Bangun Alat Transmisi Data Temperatur Gunung Api Menggunakan Transceiver nRF24L01+, J. Fis. Unand, 2017.

Z. Iqbal and L. Hermanto, Sistem Monitoring Tingkat Pencemaran Udara Berbasis Teknologi Jaringan Sensor Nirkabel, J. Inform. dan Komput., 2017.

Nordic, nRF24L01+ Single Chip 2.4GHz Transceiver Product Specification v1.0, Build. Res., no. 1, p. 78, 2008.

P. Asriya and M. Yusfi, Menggunakan Wireless Sensor Berbasis Arduino Uno, J. Fis. Unand, 2016.

Arduino, ARDUINO UNO REV3, store.arduino.cc, 2018. .

Atmel, ATmega48A/PA/88A/PA/168A/PA/328/P, AVR Microcontrollers, 2015.

I. G. M. N. Desnanjaya and I. B. A. I. Iswara, Trainer Atmega32 Sebagai Media Pelatihan Mikrokontroler Dan Arduino, J. Resist. (Rekayasa Sist. Komputer), 2018.

Atmel, ATmega328/P Datasheet Complete. 2016.

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Published

2020-10-28

How to Cite

Desnanjaya, I. G. M. N., & Alfian, M. D. (2020). PENGIRIMAN DATA NRF24L01+ DENGAN KONDISI LINE OF SIGHT DAN NON LINE OF SIGHT. Jurnal RESISTOR (Rekayasa Sistem Komputer), 3(2), 128-139. https://doi.org/10.31598/jurnalresistor.v3i2.663