Implementasi VoIP Sebagai Media Komunikasi pada Dinas Perhubungan Komunikasi Informasi dan Telematika Aceh

Main Article Content

Syafrinal Syafrinal

Abstract

The purpose of this study is to design and build voice communication over IP networks using the Briker operating system. The use of VoIP Server to make calls from VoIP clients to fellow VoIP clients, and from people's VoIP numbers to one of the VoIP clients, and also looking for a comparison of public IP client and local IP voice delay at Dishubkomintel Aceh. The research method consisted of several stages namely; 1) System Design, 2) Network Topology, 3) Server-Side Design, 4) Client-Side Design, 5) Operating System and Application Installation, 6) Configuration, 7) VoIP Network Connectivity Testing, and 8) VoIP Work Observation. From the test results, several conclusions can be drawn namely; 1) VoIP Server Briker has a role in handling SIP calls from all registered clients into the Briker Server, 2) Between VoIP clients can communicate two ways with each other when registered into the Briker Server, 3) Calls to public VoIP are made by pressing '9' which used as Outbound routes then continued by pressing the destination number, and 4) Calls from VoIP of the people to VoIP are made by pressing the VoIP phone number of the people connected to the VoIP Server and then received by VRR (Voice Response Response) which will be directed to the extension number headed.

Downloads

Download data is not yet available.

Article Details

How to Cite
Syafrinal, S. (2019). Implementasi VoIP Sebagai Media Komunikasi pada Dinas Perhubungan Komunikasi Informasi dan Telematika Aceh. Jurnal JTIK (Jurnal Teknologi Informasi Dan Komunikasi), 3(2), 64–69. https://doi.org/10.35870/jtik.v3i2.88
Section
Articles

References

Aryanta, D., DARLIS, A.R. and PRATAMA, A., 2013. Implementasi Sistem IP PBX menggunakan Briker. ELKOMIKA: Jurnal Teknik Energi Elektrik, Teknik Telekomunikasi, & Teknik Elektronika, 1(2), p.117.

Hohpe, G. and Woolf, B., 2004. Enterprise integration patterns: Designing, building, and deploying messaging solutions. Addison-Wesley Professional.

Kao, F.C., Feng, T.H. and Kuo, C.L., 2006, July. The design of Internet collaborative learning system structure with the integration of 3D virtual instruments. In Fourth IEEE International Workshop on Technology for Education in Developing Countries (TEDC'06) (pp. 71-75). IEEE.

Laurenz, L. and Putro, E., 2012. Perancangan Dan Pembangunan Sistem Voice Over Internet Protocol. Teknik dan Ilmu Komputer, 1(2), pp.231-221.

Prasetyo, E., 2015. Implementasi VoIP (Voice over Internet Protokol) pada Jaringan LAN (Local Area Network) Dinas Kesehatan Kabupaten Musi Banyuasin. Jurnal TIPS: Jurnal Teknologi Informasi dan Komputer Politeknik Sekayu, 2(1), pp.19-27.

Risnandar, M., Hendrawan, A.H., Prakosha, B.A. and Goeritno, A., 2016. Implementasi Voice Over Internet Protocol (VOIP) Berbasis Session Initiation Protocol (SIP) Berbantuan Briker Versi 1.4 Untuk Pengukuran Quality Of Services Pada Jaringan Komputer di Fakultas Teknik UIKA Bogor. Prosiding Semnastek.

Soldatos, J., Vayias, E. and Kormentzas, G., 2005. On the building blocks of quality of service in heterogeneous IP networks. IEEE Communications Surveys & Tutorials, 7(1), pp.69-88.

Tomsovic, K., Bakken, D.E., Venkatasubramanian, V. and Bose, A., 2005. Designing the next generation of real-time control, communication, and computations for large power systems. Proceedings of the IEEE, 93(5), pp.965-979.

Warman, I. and Maknun, J., 2014. Implementasi Voice Over Internet Protocol (Voip) Ip Phone Sebagai Media Komunikasi Pengganti Private Automatic Branch Exchange (Pabx)(Studi Kasus Institut Teknologi Padang). Jurnal Momentum, 16(1).