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Perancangan Alat Uji Speedometer Portable Berbasis Arduino Guna Menunjang Pengujian Kendaraan Bermotor Keliling Budi Sulistyo, Aris; Widiangga Gautama, Nengah; Dwifa, M. Beny; Dewa Punia Asa, I Putu
Jurnal Keselamatan Transportasi Jalan (Indonesian Journal of Road Safety) Vol. 9 No. 1 (2022): JURNAL KESELAMATAN TRANSPORTASI JALAN (INDONESIAN JOURNAL OF ROAD SAFETY)
Publisher : Pusat Penelitian dan Pengabdian Masyarakat (P3M)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.46447/ktj.v9i1.428

The death rate on the highway is increasing every year. One of the factors that adds to the death toll on the highway is the driver of a motorized vehicle driving more than the permitted speed. Speedometer is an important device in vehicles related to safety factors, because a good driver always pays attention to the speed of the vehicle he is driving with the condition of the road or terrain traversed. Therefore, in the kir test according to article 53 paragraph (1) of the LLAJ Law, there is a speedometer testing section. However, the implementation of portable vehicle speed measurement has not yet been implemented. The purpose of this study was to produce a prototype of a portable motorized vehicle speed measuring instrument based on Arduino. The output of this prototype design was the result of the vehicle speed reading that was carried out during the roving test. The main components of the prototype consisted of the Arduino Uno Microcontroller as the main control system, proximity sensor as a reader, bluetooth HC-05 as a data sender to Android, an AMOLED LCD display and an Android application via a smartphone to display the speed reading results. The prototype test gives a slight difference in the results with the speedometer in the vehicle and the speed on the Muller Bem. In this case, the speed shown by the prototype is still within the permissible limits, namely -10% to +15% of the Muller Bem tool.

Pedestrian User-Friendly Intelligent Crossing Advance For Improved Safety Ahmad, Rahmat; Wahyu Hidayat, Dwi; Oktavianus Sasue, Riz Rifai; Soimun, Ahmad; Prima Gilang Rupaka, Anggun; Oktopianto, Yogi; Budi Sulistyo, Aris
Jurnal Keselamatan Transportasi Jalan (Indonesian Journal of Road Safety) Vol. 9 No. 1 (2022): JURNAL KESELAMATAN TRANSPORTASI JALAN (INDONESIAN JOURNAL OF ROAD SAFETY)
Publisher : Pusat Penelitian dan Pengabdian Masyarakat (P3M)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.46447/ktj.v9i1.430

The habit of pedestrians in using the road when crossing the road is in the spotlight because it will cause traffic jams so that they are prone to accidents. No road user wants to experience such an accident, whether it is a minor accident or an accident that is fatal and leads to death. Pelican crossings are made to minimize pedestrian accidents, but this facility does not guarantee that accidents will not occur. Problems arise when pressing the crossing button will create congestion and noise due to the notification sound of the crossing. When someone wants to cross it will result in the accumulation of vehicles around because they are waiting for irregular pedestrians to cross. The purpose of this research is to design a pedestrian Puffin Crossing advance simulation that is more adaptive and safe. The research was conducted by making a prototype using a microcontroller and several sensors which will later be used as a medium for interaction between drivers and pedestrians. The results of the prototype research can work well and in accordance with the function of each component. The recommended minimum number of pedestrians is 4 waders, the minimum required waiting time is 5 seconds, while the crossing time is conditioned based on pedestrian sensor readings at the zebra cross.

Peningkatan Kinerja Simpang Tiga Bersinyal (Studi Kasus Simpang Tiga Purin Kendal) Hidayat, Dwi Wahyu; Oktopianto, Yogi; Budi Sulistyo, Aris
Jurnal Keselamatan Transportasi Jalan (Indonesian Journal of Road Safety) Vol. 7 No. 2 (2020): JURNAL KESELAMATAN TRANSPORTASI JALAN (INDONESIAN JOURNAL OF ROAD SAFETY)
Publisher : Pusat Penelitian dan Pengabdian Masyarakat (P3M)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.46447/ktj.v7i2.289

Salah satu persimpangan yang ada di Kabupaten kendal adalah Simpang Tiga Purwokerto Indah (Purin). Pada persimpangan ini merupakan simpang bersinyal, persimpangan ini terdapat kawasan Pendidikan dan Pemukiman yang berada di Persimpangan yang merupakan simpang tiga yang mana simpang tiga ini menghubungkan Jalan Tentara Pelajar dan Jalan Soekarno-Hatta yang mana jalan ini merupakan jalan Pantura. Jumlah kendaraan yang melewati persimpangan tersebut arus lalu lintas yang melewati Simpang Tiga Purin Kendal pada hari minggu atau libur sebesar 45.208 Kendaraan. Untuk hari senin jumlah kendaraan yang lewat sebesar 84.364 kendaraan. Untuk hari rabu jumlah kendaraan yang lewat sebesar 83.386 kendaraan. Dengan demikian hari yang paling padat dari ketiga hari yang diambil sebagai sampel penelitian adalah hari senin dengan jumlah kendaraan yang lewat sebesar 84.364 kendaraan. Kinerja simpang dapat ditunjukan dengan tingkat kapsitas jalan masing-masing pendekat pada simpang yang diteliti. Untuk Simpang Tiga Purin Kendal pada masing-masing pendekat mempunyai derajat kejenuhan (DS) untuk pendekat selatan sebesar 0,90, pendekat barat 0,90, pendekat 0,90, dengan demikian nilai derajat kejenuhan pada Simpang Tiga Purin Kendal >0,85, ini berarti tingkat kapasitas jalan sudah berada pada tingkat kejenuhan yang merupakan tingkat pelayanan simpang D, dengan tundaan simpang rata-rata 34, 27 det/smp. Untuk meningkatkan kapasitas simpang dapat digunakan beberapa alternative yang dapat digunakan adalah pelebaran geometrik jalan dan perubahan kebijakan arus lalulintas dari 2 arah 1 jalur menjadi 1 arah 1 jalur. Simulasi peningkatan kapasitas simpang dengan dua alternatif tersebut menghasilkan yaitu untuk alternatif pelebaran geomatrik jalan menhasilkan tundaan 24,58 det/smp masuk dalam tingkat pelayan simpang C, untuk alternatif perubahan kebijakan arus lalulintas dari 2 arah 1 jalur menjadi 1 arah 1 jalur menghasilkan tundaan 17, 39 det/smp masuk dalam tingkat pelayanan simpang C.

Sistem Pendeteksi Kebakaran Pada Apron Passenger Bus (APB) Berbasis Mikrokontroler Budi Sulistyo, Aris; Dwifa, Benny; Widiangga, Nengah; Eka Nugraha, Asep
Jurnal Keselamatan Transportasi Jalan (Indonesian Journal of Road Safety) Vol. 8 No. 2 (2021): JURNAL KESELAMATAN TRANSPORTASI JALAN (INDONESIAN JOURNAL OF ROAD SAFETY)
Publisher : Pusat Penelitian dan Pengabdian Masyarakat (P3M)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.46447/ktj.v8i2.314

This research is about constructing a prototype of fire detection warning system on Apron Passenger Bus. The prototype can detect certain possibility of fire and give early warning to the driver. It works automatically based on three sensors used, which are smoke sensor, temperature sensor and flame sensor. The prototype is constructed using these three sensors and combined with Arduino microcontroller. This microcontroller has a role of transmitting information to the alarm system as a fire indicator. Method used in this research begins with simulation of a fire warning system and continued by implementation on hardware. The prototype works successfully on detecting fire both on software and hardware basis.

Perancangan Alat Uji Speedometer Portable Berbasis Arduino Guna Menunjang Pengujian Kendaraan Bermotor Keliling Budi Sulistyo, Aris; Widiangga Gautama, Nengah; Dwifa, M. Beny; Dewa Punia Asa, I Putu
Jurnal Keselamatan Transportasi Jalan (Indonesian Journal of Road Safety) Vol. 9 No. 1 (2022): JURNAL KESELAMATAN TRANSPORTASI JALAN (INDONESIAN JOURNAL OF ROAD SAFETY)
Publisher : Pusat Penelitian dan Pengabdian Masyarakat (P3M)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.46447/ktj.v9i1.428

The death rate on the highway is increasing every year. One of the factors that adds to the death toll on the highway is the driver of a motorized vehicle driving more than the permitted speed. Speedometer is an important device in vehicles related to safety factors, because a good driver always pays attention to the speed of the vehicle he is driving with the condition of the road or terrain traversed. Therefore, in the kir test according to article 53 paragraph (1) of the LLAJ Law, there is a speedometer testing section. However, the implementation of portable vehicle speed measurement has not yet been implemented. The purpose of this study was to produce a prototype of a portable motorized vehicle speed measuring instrument based on Arduino. The output of this prototype design was the result of the vehicle speed reading that was carried out during the roving test. The main components of the prototype consisted of the Arduino Uno Microcontroller as the main control system, proximity sensor as a reader, bluetooth HC-05 as a data sender to Android, an AMOLED LCD display and an Android application via a smartphone to display the speed reading results. The prototype test gives a slight difference in the results with the speedometer in the vehicle and the speed on the Muller Bem. In this case, the speed shown by the prototype is still within the permissible limits, namely -10% to +15% of the Muller Bem tool.

Pedestrian User-Friendly Intelligent Crossing Advance For Improved Safety Ahmad, Rahmat; Wahyu Hidayat, Dwi; Oktavianus Sasue, Riz Rifai; Soimun, Ahmad; Prima Gilang Rupaka, Anggun; Oktopianto, Yogi; Budi Sulistyo, Aris
Jurnal Keselamatan Transportasi Jalan (Indonesian Journal of Road Safety) Vol. 9 No. 1 (2022): JURNAL KESELAMATAN TRANSPORTASI JALAN (INDONESIAN JOURNAL OF ROAD SAFETY)
Publisher : Pusat Penelitian dan Pengabdian Masyarakat (P3M)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.46447/ktj.v9i1.430

The habit of pedestrians in using the road when crossing the road is in the spotlight because it will cause traffic jams so that they are prone to accidents. No road user wants to experience such an accident, whether it is a minor accident or an accident that is fatal and leads to death. Pelican crossings are made to minimize pedestrian accidents, but this facility does not guarantee that accidents will not occur. Problems arise when pressing the crossing button will create congestion and noise due to the notification sound of the crossing. When someone wants to cross it will result in the accumulation of vehicles around because they are waiting for irregular pedestrians to cross. The purpose of this research is to design a pedestrian Puffin Crossing advance simulation that is more adaptive and safe. The research was conducted by making a prototype using a microcontroller and several sensors which will later be used as a medium for interaction between drivers and pedestrians. The results of the prototype research can work well and in accordance with the function of each component. The recommended minimum number of pedestrians is 4 waders, the minimum required waiting time is 5 seconds, while the crossing time is conditioned based on pedestrian sensor readings at the zebra cross.

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