Sistem Deteksi Posisi Gajah Berbasis Frekuensi Radio

  • Agus Urip Ari Wibowo Politeknik Caltex Riau
  • Rizki Dian Rahayani Politeknik Caltex Riau
  • Arif Gunawan Politeknik Caltex Riau
  • Wahyuni Khabzli Politeknik Caltex Riau
Keywords: frekuensi radio, KYL-200L, konflik gajah dengan manusia, SMS

Abstract

This paper is motivated by the human-elephant conflict that often occurs due to the narrowing of the elephant habitat caused by industrial and residential interests. In addition, the habitat breadth and the lack of elephant keepers also becomes a consideration. In this paper, we propose an elephant detector using radio frequency. The detector using KYL-200L as transmitter is mounted on the elephant necklace and the sensor nodes as transceivers are installed at some point in the outer boundaries of the elephant habitat. When an elephant is moving within the sensor node radius, the node will send information to the server to be displayed on surveillance computer, and an alert will be sent via SMS to the elephant keeper. The result shows that the maximum communication distance range obtained is 190 m, depending on the propagation and geographical location of the nodes. The average delay of SMS sending is 4.74 seconds depending on providers’traffic service. The differences on the elephant position detection caused by SMS delay are insignificant compared to the radius of the nodes and the elephant habitat.

References

Sains Kompas. (2014). Gajah Sumatera Hampir Punah. http://sains.kompas.com/read/2014/04/14/2120386/.

Okezone. (2015). Gajah Sumatera di Aceh tersisa 530 ekor. http://news.okezone.com/read/2015/12/24/340/1273951/.

Douglas-Hamilton I., The current elephant poaching trend. Pachyderm, 2008.

Lemieux AM, Clarke RV., The international ban on ivory sales and its effects on elephant poaching in Africa, Br J Criminol, 2009.

Hoare RE, Du Toit JD., Coexistence between people and elephants in African Savannas, Conserv Biol., 1999.

Pinter-Wolman N., Human–elephant conflict in Africa: the legal and political viability of translocations, wildlife corridors, and transfrontier parks for large mammal conservation, J Int Wildl Law Policy, 2012.

WWF-Indonesia. (2013). Gajah Sumatera. http://www.wwf.or.id/ program/spesies/ gajah_sumatera/.

Pekanbaru aji. (2015). Populasi Kritis menjadi sangat kritis konflik gajah dan manusia bagian 1. http://pekanbaru.aji.or.id/.

I. Douglas-Hamilton, T. Krink, and F. Vollrath, Movements and corridors of African elephants in relation to protected areas, Naturwissenschaften, 2005.

Renewable Energy Applications & Products. http://www.reap-india.com/elephant-early-warning-system.html.

Xiaolong Li and Qing-An Zeng, “Design and Implementation of a Wireless Security system using RF Technology”, International Journal Of Computing Science, Vol. 1, No. 1, January 2012, ISSN (Online): 2164-1374, ISSN (Print): 2164-1366, Published online January, 2012.

S. J. Sugumar and R. Jayaparvathy, An early warning system for elephant intrusion along the forest border areas, Curr Sci, 2013.

Matthias Zeppelzauer, Angela S. Stöger, and Christian Breiteneder, Acoustic Detection of Elephant Presence in Noisy Environments,, MAED, 2013.

Data Sheet KYL-200L Low Power Wireless Transceiver Data Module, Shenzhen KYL Communication Equipment Co., Ltd.

Okkie Puspitorini, Nur Adi Siswandari, dan Arifin, “Klasifikasi Pathloss Exponent Pada Variasi Lingkungan Propagasi Nirkabel”, Inovtek, Volume 4, Nomor 1, April 2014.

Sudjito dan P. Raharja, “Prospek Aplikasi Teknologi Distilasi Air Laut Tenaga Matahari“, Jurnal Ilmu-ilmu Teknik (Engineering), Universitas Brawijaya, Vol.13-No.2, 2001.

How to Cite
Agus Urip Ari Wibowo, Rizki Dian Rahayani, Arif Gunawan, & Wahyuni Khabzli. (1). Sistem Deteksi Posisi Gajah Berbasis Frekuensi Radio. Jurnal Nasional Teknik Elektro Dan Teknologi Informasi, 5(2), 78-82. Retrieved from https://dev.journal.ugm.ac.id/v3/JNTETI/article/view/2951
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Articles