DIANTA, I MADE RICKY WIRA (2025) RANCANG BANGUN ALAT BANTU PENGUKURAN DIMENSI PADA SEPEDA MOTOR BERBASIS MIKROKONTROLER DI BALAI PENGUJIAN LAIK JALAN DAN SERTIFIKASI KENDARAAN BERMOTOR. Diploma thesis, POLITEKNIK TRANSPORTASI DARAT BALI.
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Abstract
Pengukuran dimensi kendaraan bermotor, khususnya sepeda motor,
merupakan aspek penting dalam proses uji laik jalan dan sertifikasi kendaraan di
Indonesia. Namun, proses pengukuran yang masih dilakukan secara manual di Balai
Pengujian Laik Jalan dan Sertifikasi Kendaraan Bermotor. Penelitian ini bertujuan
untuk mengatasi permasalahan pengukuran dimensi sepeda motor yang masih
dilakukan secara manual di Balai Pengujian Laik Jalan dan Sertifikasi Kendaraan
Bermotor (BPLJSKB), yang sering kali menghadapi kendala seperti keterbatasan
akurasi, human error, dan proses pengukuran yang cukup panjang. Sebagai solusi,
dikembangkan sebuah alat bantu berbasis mikrokontroler Arduino Uno yang
dipadukan dengan sensor TF Mini LiDAR serta LCD I2C untuk menampilkan hasil.
Penelitian ini menggunakan pendekatan Research and Development (R&D) dengan
model 4D (Define, Design, Develop, Disseminate). Alat ini dirancang untuk
mengukur panjang dan lebar kendaraan secara otomatis dan akurat, dengan fokus
pada efisiensi dan ketelitian dalam mendukung proses sertifikasi kendaraan
bermotor.
Hasil pengujian menunjukkan bahwa alat bantu ini mampu mengukur
dimensi kendaraan seperti ROH, FOH, wheelbase, dan lebar dengan tingkat
kesalahan di bawah 3%, serta meningkatkan efisiensi waktu pengukuran lebih cepat
satu menit dibandingkan metode manual. Rata-rata ketelitian alat mencapai 99,08%
dan ketepatan 97,74%, menandakan bahwa alat ini sangat layak digunakan sebagai
alternatif alat ukur di lingkungan pengujian BPLJSKB. Dampak dari alat ini adalah
meningkatnya akurasi, efektivitas, dan kecepatan proses sertifikasi.
Kata kunci: alat bantu pengukuran, dimensi sepeda motor, TF Mini LiDAR,
Arduino Uno, BPLJSKB
| Item Type: | Thesis (Diploma) |
|---|---|
| Contributors: | Contribution Name Email Thesis advisor SULISTYO,. IR,. ST, M.T, ARIS BUDI UNSPECIFIED Thesis advisor DWIFA,. S.Pd. M.T, M. BENNY UNSPECIFIED |
| Uncontrolled Keywords: | Measuring the dimensions of motor vehicles, especially motorcycles, is an important aspect of the roadworthiness and vehicle certification process in Indonesia. However, the measurement process is still carried out manually at the Roadworthiness Testing and Motor Vehicle Certification Center. This study aims to overcome the problem of measuring motorcycle dimensions that are still carried out manually at the Roadworthiness Testing and Motor Vehicle Certification Center (BPLJSKB), which often faces obstacles such as limited accuracy, human error, and a fairly long measurement process. As a solution, an Arduino Uno microcontroller-based tool was developed combined with a TF Mini LiDAR sensor and an I2C LCD to display the results. This research uses a Research and Development (R&D) approach with a 4D model (Define, Design, Develop, Disseminate). This tool is designed to measure the length and width of vehicles automatically and accurately, with a focus on efficiency and precision in supporting the motor vehicle certification process. The test results show that this tool is able to measure vehicle dimensions such as ROH, FOH, wheelbase, and width with an error rate of less than 3%, and increase the efficiency of measurement time one minute faster than the manual method. The average accuracy of the tool reaches 99.08% and the accuracy is 97.74%, indicating that this tool is very feasible to use as an alternative measuring tool in the BPLJSKB testing environment. The impact of this tool is an increase in the accuracy, effectiveness, and speed of the certification process. Keywords: measuring aid, motorcycle dimensions, TF Mini LiDAR, Arduino Uno, BPLJSKB |
| Subjects: | T Technology > T Technology (General) |
| Depositing User: | - Poltrada Bali Kemenhub |
| Date Deposited: | 13 Aug 2025 07:19 |
| Last Modified: | 13 Aug 2025 07:19 |
| URI: | https://digilib.poltradabali.ac.id/id/eprint/332 |
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