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Eriansyah Saputra Hasibuan
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Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Electrical & Electronics Engineering Mechanical Engineering

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Journal : Journal Of Computer Engineering And Information Technology

 1 
Microcontroller-Based Speed and Overload Detection System for Public Vehicles Indra Irwansyah; Bambang Afriansyah; Steven Christoper Girsang; Taufik Regiwista Ramadhani; Nirwan Sinuhaji; Eriansyah Saputra Hasibuan
JCEIT: Journal of Computer Engineering and Information Technology Vol. 1 No. 2: JCEIT: Journal of Computer Engineering and Information Technology (March 2025)
Publisher : Karya Techno Solusindo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.64810/jceit.v1i2.9

Abstract

The entry speed sensor functions to calculate the speed of a public vehicle, and the Driver LCD display functions to confirm the information that occurs in the system, so the display and the buzzer work together so that if the buzzer sounds the information is on the display All components of the Overload and Detection System can run according to plan. The implementation of a microcontroller-based speed and overload detection system on public vehicles makes it easier for drivers to detect excess speed and overload. This tool uses an Arduino ATmega328 which functions as the main controller of the entire system so that it becomes more efficient. Effectively, this tool is also based on IoT which can emit a beep sound if the specified speed and load exceeds. This tool will convey information in the form of a warning sound produced by the Driver Buzzer. REFERENCES Arifin, N. Y., Borman, R. I., Ahmad, I., Setyaning Tyas, S., Sulistiani, H., Herdiansyah, A., & Suri, G. P. (2021). Analisa Perancangan Sistem Informasi (P. T. Cahyono, Ed.; Pertama). Yayasan Cendikia Mulia Mandiri. Effendy, E., Siregar, E. A., Fitri, P. C., & Damanik, I. A. S. (2023). MENGENAL SISTEM INFORMASI MANAJEMEN DAKWAH (PENGERTIAN SISTEM, KARAKTERISTIK SISTEM). Jurnal Pendidikan Dan Konseling, 5(2). Fahmizal, Mayub, A., Arrofiq, M., & Ruciyanti, F. (2022). Mudah Belajar Arduino dengan Pendekatan Berbasis Fritzing, Tinkercad dan Proteus (Pertama). Deepublish. FIRMANSYAH, T., RIYANDIKA, R., SARASWATI, I., SUPRIYANTO, WILDAN, MUH., SUPRIYANTO, T., & ALAM, S. (2023). Rancang Bangun Doppler X-Band Speed Detector untuk Kendaraan Roda Dua pada Jalan Kelas IIIC. ELKOMIKA: Jurnal Teknik Energi Elektrik, Teknik Telekomunikasi, & Teknik Elektronika, 11(2). Firmawati, N., Farokhi, G., & Wildian, W. (2019). Rancang Bangun Mesin Pembuat Minuman Kopi Otomatis Berbasis Arduino UNO dengan Kontrol Android. JITCE (Journal of Information Technology and Computer Engineering), 3(01), 25–29. https://doi.org/10.25077/jitce.3.01.25-29.2019 Khakim, L. (2023). Buku Ajar Mikrokontroler ATMega 328 (Moh. Nasrudin, Ed.; Pertama). PT. Nasya Expanding Management. Muttaqin, I. R., & Santoso, D. B. (2021). Prototype Pagar Otomatis Berbasis Arduino Uno Dengan Sensor Ultrasonic Hc-SR04. JE-Unisla, 6(2), 41. https://doi.org/10.30736/je-unisla.v6i2.695 Perdana, I. G. I., Wibowo, H., & Ridwan, A. (2021). PENGUKURAN KECEPATAN KENDARAAN BERBASIS MIKROKONTROLER GUNA MENUNJANG KESELAMATAN DALAM BERKENDARAN. Jurnal Penelitian, 6(4). Rinaldi, N., Lestari, F., & Pramita, G. (2022). Identifikasi Kerusakan Jalan dan Alternatif Perbaikan Jalan Pada Ruas Jalan Tegineneng – Gunung Sugih Lampung. Jurnal Teknika Sains, 7(1). Satura, F. R., Chandra, A. A., & Adhinata, F. D. (2021). Pengukur Kecepatan Kendaraan Menggunakan Algoritma Image Subtracting. Journals of Information, Control, Telecommunication and Electrical, 2(2). Sholihin, M., Wibowo, S. A., & Prasetya, R. P. (2021). PENERAPAN IoT (INTERNET of THINGS) TERHADAP RANCANG BANGUN SISTEM PERINGATAN BATASAN KECEPATAN DAN PENDETEKSI LOKASI KECELAKAAN BAGI PENGENDARA SEPEDA MOTOR BERBASIS ARDUINO. JATI (Jurnal Mahasiswa Teknik Informatika), 5(2). Wicaksono, A. (2019). Buku Ajar Microprocessor (S. B. Sartika & M. Tanzil Multazam, Eds.). UMSIDA Press. YOGASARA, D. F. (2023). SISTEM INSTRUMENTASI IOT BERBASIS LOAD CELL UNTUK PEMANTAUAN KESETIMBANGAN BEBAN MUATAN DI KERETA API. Universitas Telkom.
Smart Car Design Using Arduino Uno Based Speech Recognition Application Febri Wiranata; Fitri Artika; Maya Selviana; Suriano; David J.M. Sembiring; Eriansyah Saputra Hasibuan
JCEIT: Journal of Computer Engineering and Information Technology Vol. 1 No. 2: JCEIT: Journal of Computer Engineering and Information Technology (March 2025)
Publisher : Karya Techno Solusindo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.64810/jceit.v1i2.10

Abstract

Designing a smart car using a speech recognition application based on Arduino Uno is an effort to improve vehicle control by utilizing speech recognition technology. Through the implementation of a speech recognition application, drivers can easily control various aspects of the vehicle such as the drive system, brake system, or navigation system, just by using their voice. In the design process, there are several areas that need to be considered, including needs analysis, speech recognition method selection, integration with existing vehicle systems, and intuitive user interface design. The final result of designing a smart car using an Arduino Uno-based speech recognition application is a vehicle system that allows the driver to control the vehicle using voice commands. This design provides a more intuitive driver experience, improves driving safety, and strengthens integration between voice technology and vehicle systems.
Co-Authors Bambang Afriansyah David J.M. Sembiring Febri Wiranata Fitri Artika Indra Irwansyah Maya Selviana Nirwan Sinuhaji Steven Christoper Girsang Suriano Taufik Regiwista Ramadhani