Automatic Classification System Color Of Bottle Detection Tool Using Tcs3200 Sensor Based On Arduino

  • Mulia Supiadi Silalahi Universitas Pembangunan Panca Budi, Medan, North Sumatera, Indonesia
  • Solly Aryza Universitas Pembangunan Panca Budi, Medan, North Sumatera, Indonesia
  • Beni Satria Universitas Pembangunan Panca Budi, Medan, North Sumatera, Indonesia
Keywords: Automatic Classification, TCS3200 Sensor, Arduino, Bottle Color Detection,

Abstract

The increasing demand for automation in industries has led to the development of efficient and cost-effective classification systems. This study focuses on designing and implementing an automatic bottle color classification system using the TCS3200 color sensor, integrated with Arduino microcontroller technology. The system aims to detect and classify bottle colors accurately to streamline industrial processes, such as packaging and sorting. The TCS3200 sensor, capable of detecting a wide spectrum of colors, serves as the primary sensing device. It converts light intensity into frequency signals, which are processed by the Arduino microcontroller to determine the color of the bottle. The classification process involves predefined thresholds for Red, Green, and Blue (RGB) components, allowing the system to categorize bottles into specific color groups. Experimental results demonstrate that the system achieves high accuracy in identifying bottle colors under varying lighting conditions. The system is also highly scalable, making it adaptable to different industrial needs. This research concludes that the proposed solution offers a reliable, efficient, and low-cost alternative for bottle color classification in automated industrial applications.

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References

Aryza, S., Wibowo, P., & Saputra, D. (2022, July). Rancang Bangun Alat Pengontrolan Proses Pemanasan Produksi Biodisel Dari Minyak Jelantah Berbasis Arduino Mega. In Prosiding Seminar Nasional Sosial, Humaniora, dan Teknologi (pp. 121-127).
Aryza, S., Wibowo, P., & Saputra, D. (2022). AN ENHANCE DESIGN HEATING BIODIESEL PRODUCTION FROM OIL BASED ON ARDUINO MEGA. INFOKUM, 10(02), 1147-1155.
Aryza, S., & Lubis, Z. (2023). ENHANCE A DESIGN OF A MINI HYDROELECTRIC POWER PLANT BY UTILIZING RICE FIELD IRRIGATION RIVER FLOW. PROSIDING UNIVERSITAS DHARMAWANGSA, 3(1), 537-549.
Anief, A. N. A., & Wirawan, S. (2018). Perancangan 3D Printer Tipe XY Berbasis Fused Deposition Modeling (FDM) Menggunakan Software Autodesk Inventor 2015. Jurnal Dinamika Vokasional Teknik Mesin UNNES Volume 3 Nomor 2 Oktober 2018 Hal 110-115.
Ayi, R,. & Mochammad, A. F. Perancangan Extruder Mesin Rapid Prototyping Berbasis Fused Deposition Modeling (FDM) Untuk Material Filament Polylasctic Acid (PLA) Diameter 1.75 mm
Allegro MicroSystems, LLC. A4988 Microstepping Driver. 2014, pp. 1-22.
Cam, C. A. D,. & Yanbing, W. (2015). Application of Additive Manufacturing on Marine Diesel Industry. 4(6), 8-10.
Deepa, P. (2014). Fused Deposition Modeling – A Rapid Prototyping Technique for Product Cyle Time Reduction Cost Effectively in Aerospace Applications. IOSR journal of Mechanical and Engineering, 5, 62 – 68.
Dede, S. (2012). Peningkatan Kinerja Mesin Rapid Prototyping Berbasis Fused Deposition Modeling (FDM), Universitas Indonesia, Jakarta.
F, L. Pasaribu., & I, Roza,. (2019). Design Control Systlem Expand Valve On Water Heating Process Air Jacket. IOP Conference Series: Materials Science And Engineering.
Hamdani, H., & Anisah, S. (2022). A DETECT PARTIAL DISCHARGE IN ISOLATOR USING A FLUKE ii910 SONIC INDUSTRIAL IMAGER IN PTR 03 FEEDER (SARIBU DOLOK). INFOKUM, 10(02), 1180-1185.
Robitza, W.; Ahmad, A.; Kara, P.A.; Atzori, L.; Martini, M.G.; Raake, A.; Sun, L. Challenges of Future Multimedia QoE Monitoring for Internet Service Providers. Multimed. Tools Appl. 2017, 76, 22243– 22266. Available online: https://link.springer.com/article/10.1007/s11042-017-4870-z (accessed on September 13, 2019).
Rahmaniar, R., Anisah, S., & Junaidi, A. (2021). Peningkatan Pemahaman PUIL 2000 dan Perhitungan Iluminasi pada Museum Deli Serdang. Jurnal Abdidas, 2(3), 646-651.
Salama, A.; Saatchi, R. Probabilistic Classification of Quality of Service in Wireless Computer Networks. In ICT Express; Elsevier: Amsterdam, The Netherlands, 2018; pp. 1–7.
Tarigan, A. D., Muhtadin, I., Yusuf, M., Wardani, D. P., Ginnola, M. D., Dinata, A., & Aryza, S. (2019, February). Analisa Penerapan Fuzzy Logic Di Dalam Proses Kestabilan Kontrol Robot Lengan Berbasis Komputer. In Seminar Nasional Teknologi Komputer & Sains (SAINTEKS) (Vol. 1, No. 1).
Tharo, Z., Hamdani, H., Andriana, M., & Anisah, S. (2022). Perancangan Dan Implementasi Genset 450 Va Berbasis Panel Surya. Journal of Electrical and System Control Engineering, 6(1), 50-58.
Zhang, L.; Wang, S.; Yang, F.; Chang, RN QoECenter: A Visual Platform for QoE Evaluation of Streaming Video Services. In Proceedings of the IEEE 24th International Conference on Web Services, Honolulu, HI, USA, 25–30 June 2017; pp. 212–219, 2019.
Tseng, A.A. 2000. “ Apparatus and method for freeform fabrication of three dimensional object”. US Patent No. 6030199.February 29.
Published
2025-02-04
How to Cite
Mulia Supiadi Silalahi, Solly Aryza, & Beni Satria. (2025). Automatic Classification System Color Of Bottle Detection Tool Using Tcs3200 Sensor Based On Arduino. INFOKUM, 13(02), 452-464. Retrieved from https://infor.seaninstitute.org/index.php/infokum/article/view/2810
Issue
Vol. 13 No. 02 (2025): Engineering,Communication and Social Sciences
Section
Articles

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