Analisi Kinerja vMix Pro dalam Meningkatkan Efisiensi Produksi dan Kualitas Tayangan di RRI Banten

Agus Gilang Hermawan; Desmira Desmira

doi:10.61132/mars.v3i5.1151

Authors

Agus Gilang Hermawan Universitas Sultan Ageng Tirtayasa
Desmira Desmira Universitas Sultan Ageng Tirtayasa

DOI:

https://doi.org/10.61132/mars.v3i5.1151

Keywords:

Broadcast Production, Digital Technology, Impression Quality, Production Efficiency, vMix Pro

Abstract

The advancement of digital technology has had a significant impact on broadcasting production systems, including at Radio Republik Indonesia (RRI) Banten. This study aims to examine the performance of the vMix Pro application in improving production efficiency and the quality of digital broadcast programs at RRI Banten. The research employed a descriptive qualitative method, with data collected through field observations, interviews with broadcast technicians, and literature studies. The results indicate that the implementation of vMix Pro increased production time efficiency by 50%, reduced operational costs by 40%, and decreased the number of required technical operators from five to three. In terms of quality, both video and audio outputs showed improvement, achieving an average score above 4.6 on a 5-point scale, reflecting more stable, clear, and professional broadcasts. With its user-friendly interface and high device integration capability, vMix Pro has proven effective in streamlining workflows, optimizing resource utilization, and enhancing the overall production quality of broadcasts at RRI Banten

References

Aditya, R. M., Prodi, A., Musik, P., Bahasa, F., & Seni, D. (2020). Peningkatan kompetensi mahasiswa teknologi musik melalui penerapan pembelajaran software Digital Audio Workstation. Jurnal Seni Musik, 9(2), 15–28.

Anas, A. S., Tajuddin, M., & Juliansyah, A. (2023). Model Audio Recording System (ARS) site on site. Prosiding Sains Nasional dan Teknologi, 13(1), 240–245.

Burgess, R. J. (2014). The art of music production: The theory and practice. Oxford University Press.

Chrisanto, K., Safrina, R., & Hardiarini, C. (2022). Konsep pembelajaran DAW (Digital Audio Workstation) dalam mata kuliah teknologi musik. Jurnal Penelitian Musik, 2(1), 1–10.

Dye, C. (2010). The Recording Academy Producers and Engineers Wing: Digital Audio Workstation guidelines for music production. Recording Academy.

Hodgson, J. (2010). Understanding records: A field guide to recording practice. Bloomsbury.

Huber, D. M., & Runstein, R. E. (2017). Modern recording techniques (9th ed.). Routledge.

Irawan, A. (2019). Perbandingan metode Itakura-Saito Distance dan manual statistik (Pitch, Formant, Spectrogram) untuk akurasi identifikasi suara pada audio forensik. Universitas Islam Indonesia.

Juliansyah, A., Putrayadi, W., & Haryanto, E. (2021). Workshop Audio Recording System pada Sekawan Training Center. Jurnal Pengabdian Masyarakat, 1(2), 1–8.

Kana Hebi, D., Ray, F. F., Tamal, C. P., & Program Studi Pendidikan Teknik Elektro Universitas Nusa Cendana. (2020). Rancang bangun pemancar dan penerima wireless tally light kamera menggunakan modul komunikasi NRF24L01. Jurnal Teknik Elektro, 15(1), 45–53.

Mudinillah, A., & Hikmah, D. (2022). Pemanfaatan aplikasi Audacity dalam proses pembelajaran Maharah Istima’ kelas X MAN 1 Solok. Jurnal Teknologi Pendidikan, 15(1), 55–62.

Pratama, M. I., Pane, R. A., & Zakaria, M. (2022). Pengaruh digitalisasi di era 4.0 terhadap para tenaga kerja di bidang logistik. Jurnal Sains Masyarakat, 1(1), 10–18.

Rumsey, F., & McCormick, T. (2009). Sound and recording: An introduction (6th ed.). Focal Press.

Schoeffler, M., & Herre, J. (2020). Audio engineering in the age of streaming: Trends and research directions. Journal of the Audio Engineering Society, 68(9), 680–695.

Sunarsa, A. (2018). Perkembangan software pengolah audio dalam industri musik digital. Jurnal Teknologi Audio, 4(2), 89–97.