Rancang Bangun Sistem Untuk Menentukan Jumlah Jam Overtime Pada Produksi Barang Dengan Metode Fuzzy Tsukamoto Di PT BONJU Berbasis Web
Keywords:
Determination of Overtime, Overtime, Fuzzy, Tsukamoto, Fuzzy TsukamotoAbstract
When determining the number of hours of overtime PT Bonju still uses the manual method by only looking at the information on the number of goods obtained (results). This causes the number of hours of overtime that is out of sync, the number of items that are not stable in the warehouse and also causes ineffective production data management. Therefore, the process of determining the amount of overtime is reassessed by the method of calculating the number of requests from buyers, inventory and also the number of goods obtained (results). These 3 variables are used to determine the number of hours of overtime that must be done to cover requests from buyers on one working day. The procedure used in this system is by using the fuzzy tsukamoto method. This method was selected because it has a rule in the form of IF-THEN which is presented on a fuzzy set using a continuous membership function. As a result, the inferred output of each condition is given based on the predicate. Output which is interpreted is the number of hours of overtime that must be done to cover requests from buyers in one day. The application to determine the number of overtime hours by using the Fuzzy Tsukamoto method that the author made turns out not only to be able to calculate the number of overtime hours that will be carried out by the production department but also the amount of inventory needed for the next day and support the running of production.
References
Abidah, Siti. (2016). Analisis Komparasi Metode Tsukamoto dan Sugeno dalam Prediksi Jumlah Siswa Baru, Journal Speed Volume 8 No 2 hal 3:
Afif, M., Haryanto, H., Rahayu, Y., & Mulyanto, E. (2017). Prediksi Jumlah Produksi 62 Tas Pada Home Industri Body Star Kudus Menggunakan Fuzzy Tsukamoto. Sisfotenika, 7(2), 119-130.
Agustini, & Kurniawan, W. J. (2019). Sistem E- Learning Do’a dan Iqro’ dalam Peningkatan Proses Pembelajaran pada TK Amal Ikhlas. Jurnal Mahasiswa Aplikasi Teknologi Komputer Dan Informasi, 1(3), 154–159.
Andini, A., Lestari, G. A., Mawaddah, I., Ahmar, A. S., & Khasanah, K. (2018). Penerapan Sistem Pendukung Keputusan Pemilihan Ban Sepeda Motor Honda Dengan Metode Multi Objective Optimization on The Basic of Ratio Analysis (MOORA). JURIKOM (Jurnal Riset Komputer), 5(1), 29-35.
Anugrahwaty, R., & Azmi, F. (2017). Analisis Prediksi Perencanaan Produksi dengan Fuzzy Logic Tsukamoto. Sinkron: Jurnal dan Penelitian Teknik Informatika, 1(2).
Fitri, A., & Mahmudy, W. F. (2017). Optimasi Keanggotaan Fuzzy TsukamotoMenggunakan Algoritma Genetika pada Penentuan Prioritas Penerima Zakat. Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer Vol. 1, No. 2, 125-138.
Fitria, V. A., & Wasna, P. A. (2021). Prediksi Jumlah Produksi Barang pada UD. Sari Murni Menggunakan Metode Fuzzy Tsukamoto. JMT: Jurnal Matematika Dan Terapan, 3(1), 20-32.
Fridayanthie, E., & Mahdiati, T. (2016). Rancang Bangun Sistem Informasi Permintaan ATK Intranet (Studi Kasus : Kejaksaan Negeri Rangkasbitung). Jurnal Khatulistiwa informatika, Vol IV, No.2.
Hengki, T., S dan Maria, S., S. (2016). “Aplikasi Sistem Pendukung Keputusan Penentuan Siswa Bermasalah Menggunakan Metode SAW pada Sekolah SMP Swasta Mulia Pratama Medan” JIPN (Journal Of Informatics Pelita Nusantara) Volume 1 Nomor 1 ISSN 2541-372.
Ihsanuddin, Hidayatullah, D., & Rosmawarni, N. (2016). Sistem Informasi Masjid Berbasis Web. Jurnal Rekayasa Informasi, Vol. 5, No.1.
Juliana, E., & Kurniawan, R. (2021). Implementasi Metode Fuzzy Tsukamoto Dalam Memprediksi Jumlah Produksi Tmg. Jurnal Ilmiah ILKOMINFO- Ilmu Komputer & Informatika, 4(1), 9-15
Komalasari, R. T. (2021). Aplikasi Pengingat Dan Pendataan Kenaikan Golongan Gaji Berbasis Web Menggunakan Metode White Box Testing dan Black Box Testing. Jurnal Teknologi Informasi, 7(1), 50–57.
L. A. Zadeh and R. A. Aliev. (2018). “Introduction to Fuzzy Logic Control” in Fuzzy Logic Theory and Applications, New Jersey: World Scientific, pp. 327–351.
