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Yusron Rijal
LPPM STMIK YADIKA Bangil
Computer Science & IT

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PENGEMBANGAN SISTEM DETEKSI OVER-HEIGHT VEHICLE BERDASARKAN GEOMETRI KAMERA Yusron Rijal; Himayatul Millah
SPIRIT Vol 11, No 2 (2019): Jurnal SPIRIT
Publisher : STMIK YADIKA BANGIL

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (254.191 KB) | DOI: 10.53567/spirit.v11i2.135

Abstract

 At this time, many Overh-Height Vehicle Detection Systems have been developed to help reduce the risk of road accidents, especially vehicles which exceeds the height limit for the bridge. In the research that the author did was Development of Detection Systems Camera Geometry Based Overh-Height Vehicle, the method developed in this study is the implementation of the camera's geometry position to detect over-height vehicle. Modifications are made by changing the tilt angle camera with a height of 2 meters, 2.5 meters and 3 meters with the choice of ROI area so that it is expected to increase the accuracy of over-height detection vehicle.The detection phase is carried out through the process of motion detection and processing image that is get RGB, RGB2Gray, thresholding, morphology is dilated with 4x4 kernel to detect objects that exceed the limit or touch the ROI line. The results obtained from this study are, data processing uses high a 2.5 meter camera is able to produce more optimal data with a total of 84 frames are saved, 84 frames are detected correctly, 2 frames are detected incorrectly and level 97.67% accuracy. Keywords: Over-Height Vehicle, Detection System, Camera Geometry
OPTIMALISASI PRODUKTIFITAS PROSES PERAKITAN SAXOPHONE DI PT.YAMAHA MUSICAL PRODUCTS INDONESIA MENGGUNAKAN METODE HEIJUNKA Yusron rijal; Moch.Buyung Ilham
SPIRIT Vol 8, No 2 (2016): Jurnal SPIRIT
Publisher : STMIK YADIKA BANGIL

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (170.375 KB) | DOI: 10.53567/spirit.v8i2.45

Abstract

The complexity of the problem as production and customer desires will be good quality, cost efficient, and precise and rapid delivery today, demanding the industrialized world make improvements.PT.YMPI is a manufacturing enterprise field saxophone musical instrument, make improvements to meet consumer demand, and refers to the toyota production system. Repairs carried out the planned production plan according Heijunka method which is the basis for the implementation of the Toyota System. Problems that occur on the saxophone is consumer demand that is always changing and there is no proper control tools. Analysis results suggested a very regular production not only made if there is customer demand can be met quickly.Keywords: Heijunka Methode, PT.YMPI, Saxophone Assembly
Co-Authors Himayatul Millah Moch.Buyung Ilham