The Visualization of the Batik Cloth Stamping Machine Using Augmented Reality at the Yogyakarta City Crafts and Batik Center
DOI:
https://doi.org/10.14421/jiehis.4948Keywords:
The Batik Stamp Machine, Augmented Reality, VisualizationAbstract
The batik stamp machine is one of the machines used by the Center for Crafts and Batik to make batik cloth. This machine has been automated using PLC (Programmable Logic Controler) which makes machine can be controlled by computer. The batik products produced are 15 page/month. From the results of the production carried out, it has not met the production target which is targeted to reach 50 page/month, so there is a need for innovation in the machine which will increase production. The redesign of this stamp machine using technology Augmented Reality namely visualizing a 3D image to be object 3D so that it can evaluate the object to be made before it reaches the development machine stage so as to reduce costs. The process that must be carried out is to make a drawing of a batik stamp machine including: machine size, and machine specifications, make a license on Vuvoria Engine to making markers on software unity. The method used in the development of Augmented Reality is single marker method i.e. one image marker can only display single objects, so the method cannot display multi object. From the results of making Technology Augmented Reality is a redesign carried out on the stamping machine for batik at the Center for Crafts and Batik is a rare step that can be done to increase the productivity of making batik so that it meets the production targets expected by the Center for Crafts and Batik. So it is necessary to visualize the machine with AR technology so that it becomes an evaluation material for batik cloth stamping machines and reduces the cost of the development of machines which in the future will be able to increase batik production.
References
Agustina, V., Sinurat, R., & Ali, M. M. (2020). Analysis of E-Service Quality and Quality Information on Trust and Impact on Purchase Decision on Consumer Tokopedia (Case Study of Tokopedia Customers in Tangerang City). International Journal of Innovative Science and Research Technology, 5(3), 538–548.
Ali, M. (2011). Modul Kuliah Manajemen Industri.
Assauri, S. (2004). Manajemen Produksi dan Operasi. Edisi Revisi. Lembaga Penerbit FE-UI, Jakarta.
Creighton, R. 2010. Unity 3D Game Development by Example Begginer’s Guide. Packt Publishing Ltd.32 Lincoln Road 32: Birmingham, B27 6PA, UK.
Diana, D., Rama, A. D., & Asa, R. F. (2020). Pemanfaatan Augmented Reality Sebagai Media Pengenalan Flora Khas Bengkulu Dengan Metode Single Marker Berbasis Android. Pseudocode, 7(1), 51–58. https://doi.org/10.33369/pseudocode.7.1.51-58
Diaz-Andrade, A., Alvarez-Cedilli, J., Herrera-Lozada, J., & Rivera-Zarate, I. (2013).Robotic Arm Control With Blender. Journal of Emerging Trends in Computing and Information Sciences, 4(4), 382–386
Dieter, G. E., & Schmidt, L. C. (2013). Engineering Design. Singapore: McGrawHill.
Elvrilla, S., 2011, Augmented Reality Panduan Belajar Sholat Berdasarkan Buku Teks Belajar Sholat Menggunakan Android, Universitas Gunadarma.
Elvrilla, S., 2011, Augmented Reality Panduan Belajar Sholat Berdasarkan Buku Teks Belajar Sholat Menggunakan Android, Universitas Gunadarma
Evan, F H. 2012. Pemodelan 3-Dimensi Menggunakan Teknologi Augmented Reality Pada Bangunan Bersejarah Di Yogyakarta. Tugas Akhir Universitas Atma Jaya Yogyakarta.
Feigenbaum, A. (1992). Kendali Mutu Terpadu. Edisi Ketiga. Jakarta: Erlangga
Feiner, StevenK., Anthony C. Webster, Theodore E. Krueger III, Blair MacIntyre, and Edward J. Keller. ArchitecturalAnatomy. Presence: Teleoperators and Virtual Environments 4, 3 (Summer 1995), 318-325.
Fjeld M., Voegtli B. M.. (2002). Augmented chemistry: An interactive educational workbench. Proceedings. International Symposium on Mixed and Augmented Reality (ISMAR), IEEE; pp. 259–321
Hanks, Patrick. 1979. Collins English Dictionary. Glasgow: HarperCollins
Herlandy, P. B., Ismanto, E., & Satria, A. (2019). Simulasi Pengenalan dan Instalasi PC berbasis Augmented Reality dengan Metode Single Marker. Journal of Education Informatic Technology and Science, 1(2), 85–96. https://doi.org/10.37859/jeits.v1i2.1390
Hidayah, A. K., & Amalah, A. N. (2020). Pemanfaatan Augmented Reality Sebagai Media Pengenalan Tabot Di Provinsi Bengkulu Dengan Metode Single Marker Berbasis Android. Pseudocode, 7(1), 59–68. https://doi.org/10.33369/pseudocode.7.1.59-68
Krevelen D. Van, Poelman R.. (2010). A survey of Augmented Reality technologies, applications and limitations. International Journal of Virtual Reality; 9(2): 1
Kurniawan, A., Adnan, R., Aryaputra, P., Sasono, N., Heryana, A. A., Rahman, M. F., … Wirasata, A. 2004. Pengenalan Bahasa C#. Jakarta: Projek Otak.
Livingston M. A., Rosenblum L. J., Julier S. J., Brown D., Baillot Y., Swan II J. E., Gabbard J. L., Hix D. (2002). An Augmented Reality system for military operations in urban terrain. Proceedings of Interservice/Industry Training, Simulation & Education Conference (I/ITSEC) Dec 2-5; (1): 89
Mohajerani, A. A. (2021). Algoritma FCD dan NFT Pada Sistem Pencernaan Berbasis AR Menggunakan Single Marker. JATISI (Jurnal Teknik Informatika Dan Sistem Informasi), 8(3), 1049–1061. https://doi.org/10.35957/jatisi.v8i3.1043
Moleong, L. 2013. Implementasi Cluster Computing Untuk Render Animasi. EJurnal Tenik Elektro dan Komputer Universitas Sam Ratulangi Manado.
Mulyadi, T., H, M. R., & Amiruddin, A. (2020). Penerapan Teknologi Augmented Reality Sebagai Sarana Edukasi Perkenalan Alat Musik Dengan Metode Single Marker. Journal of Information System Management (JOISM), 1(2), 18–21. https://doi.org/10.24076/joism.2020v1i2.26
Mulyadi. 2007. Akuntansi Biaya. Edisi Ke-5. Yogyakarta : UPP STIM YKPN.
Pratama, R., Hidayat, E. W., & Aldya, A. P. (2021). Penerapan MultiMarker Pada Aplikasi Pengenalan Aksara Sunda Kedalam Huruf Latin Dengan Augmented Reality. Scientific Articles of Informatics Student, 4(1), 1–7.
Reinhart G., Patron C.. (2003). Integrating Augmented Reality in the assembly domain - fundamentals, benefits and applications. (CIRP) Annals - Manufacturing Technology; 52(1): 5 – 8
Salim, Peter. 2000. Salim’s Ninth Collegiate English-Indonesian Dictionary. Modern English Press.
Sanders B., Crowe R., Garcia E.. (2004). Defense advanced research projects agency – smart materials and structures demonstration program overview. Journal of Intelligent Material Systems and Structures; 15(4): 227–233
Wahyudi, A. K., & Pangau, I. N. (2017). Visualisasi Perkembangan Janin Manusia menggunakan Augmented Reality dengan teknik Single Marker Multi Object. Techno.Com, 17(1), 23–35. https://doi.org/10.33633/tc.v17i1.1581
Wicaksana, A. (2016). 済無No Title No Title No Title. Https://Medium.Com/, 11(1), 1–9. https://medium.com/@arifwicaksanaa/pengertian-use-case-a7e576e1b6bf
Yon F & Huda, 2012. Autodesk Inventor 2015 Panduan Merancang Mesin, Andi Yogyakarta
Yulianto, N. 2012. Pembuatan Game 3 Dimensi Lost In The Jungle Dengan Menggunakan Unity 3D Game Engine. Naskah Publikasi-Teknik Informatika. Sekolah Tinggi Manajemen Informatika dan Komputer AMIKOM Yogyakarta.
Yusri, 2008. Penerapan Design for Assembly (DFA) untuk mereduksi biaya produksi suatu produk, Politeknik Negeri Padang
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