Rancang Bangun Alat Pencahayaan Terkontrol Berbasis Motor Stepper Dan Railing untuk Studio Fotografi

Christiand; Djoko  Setyanto; Anthon  De Fretes; Joseph Prabaswara Astadiningrat; Feryandinata  Indrajaya; Rangga  Dewata Putra

doi:10.25170/charitas.v5i02.7380

Authors

Christiand Program Studi Teknik Mesin, Fakultas Biosains Teknologi dan Inovasi, Universitas Katolik Indonesia Atma Jaya
Djoko Setyanto Program Studi Teknik Mesin, Fakultas Biosains Teknologi dan Inovasi, Universitas Katolik Indonesia Atma Jaya
Anthon De Fretes Program Studi Teknik Mesin, Fakultas Biosains Teknologi dan Inovasi, Universitas Katolik Indonesia Atma Jaya
Joseph Prabaswara Astadiningrat Program Studi Teknik Mesin, Fakultas Biosains Teknologi dan Inovasi, Universitas Katolik Indonesia Atma Jaya
Feryandinata Indrajaya Program Studi Teknik Mesin, Fakultas Biosains Teknologi dan Inovasi, Universitas Katolik Indonesia Atma Jaya
Rangga Dewata Putra Program Studi Teknik Mesin, Fakultas Biosains Teknologi dan Inovasi, Universitas Katolik Indonesia Atma Jaya

DOI:

https://doi.org/10.25170/charitas.v5i02.7380

Keywords:

Pencahayaan, Fotografi, Railing, Motor, Otomatisasi

Abstract

Photography studios often require various lighting arrangements for different photo and video shooting themes. Lighting in a studio environment is critical to producing high-quality images and videos. However, conventional lighting sources, such as lamps or other lighting equipment, are often inflexible to reposition according to the photographer’s desired thematic setup. Manual lighting adjustments can be time-consuming, mainly when automated positioning features are unavailable. This inefficiency hampers the photo and video shooting process. In the community service program discussed in this article, the team from the Mechanical Engineering Department at Atma Jaya Catholic University of Indonesia developed a motorized stepper-based lighting system with railing to address the inefficiencies in studio lighting adjustments. The team partnered with Kolaborasi Berkat Kreasindo (KBK) studio. The developed lighting system can be controlled remotely, eliminating the need for direct manual adjustments. This solution has assisted the partner studio in enhancing the lighting setups for photography sessions.

References

1. Alnaib, A. M. I., Altaee, O. T. M., & Al-jawady, N. A. A. B. (2018, May). Plc controlled multiple stepper motors using various excitation methods. In 2018 International Conference on Engineering Technology and their Applications (IICETA) (pp. 54-59). IEEE.

2. González-Lezcano, R. A. (Ed.). (2021). Advancements in sustainable architecture and energy efficiency. IGI Global.

3. Ismail, A. H., Azmi, M. M., Hashim, M. A., Ayob, M. N., Hashim, M. M., & Hassrizal, H. B. (2013, April). Development of a webcam based lux meter. In 2013 IEEE Symposium on Computers & Informatics (ISCI) (pp. 70-74). IEEE.

4. Lutfiyana, L., Hudallah, N., & Suryanto, A. (2017). Rancang bangun alat ukur suhu tanah, kelembaban tanah, dan resistansi. Jurnal Teknik Elektro, 9(2), 80-86.

5. Melo, J., Fidelis, M., Alves, S., Freitas, U., & Dantas, R. (2020, November). A comprheensive review of visual programming tools for arduino. In 2020 Latin American Robotics Symposium (LARS), 2020 Brazilian Symposium on Robotics (SBR) and 2020 Workshop on Robotics in Education (WRE) (pp. 1-6). IEEE.

6. Rinaldy, R., Christianti, R. F., & Supriyadi, D. (2013). Pengendalian Motor Servo yang terintegrasi dengan webcam berbasis internet dan arduino. Jurnal infotel, 5(2), 17-23

7. Syahrul, M. (2011). Motor Stepper: Teknologi, Metoda dan Rangkaian Kontrol. UNIKOM. Volume 6, 3.

8. Wahyuni, D., Tambunan, M., Panjaitan, N., & Budiman, I. (2018, February). Re-designing illumination level in printing working area. In IOP Conference Series: Materials Science and Engineering (Vol. 309, No. 1, p. 012058). IOP Publishing.

9. Yuhana, Y., Zuandi, W., & Tohari, S. A. I. (2024). Analisis Intensitas Kebisingan Sebagai Upaya Peningkatan Keselamatan dan Kesehatan Kerja (K3). ARMADA: Jurnal Penelitian Multidisiplin, 2(3), 231-238.