Pradono, Rian Adi Putra (2018) Sistem Peringatan Jarak Aman Berbasis Efek Doppler Menggunakan Arduino Due. Undergraduate thesis, Institute Teknologi Sepuluh Nopember.
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Abstract
Kecelakaan berkendara menyebabkan banyak kerugian bahkan korban jiwa. Kecelakaan sering terjadi karena pengemudi kurang konsentrasi, lengah, atau mengantuk dalam menjaga jarak aman dengan kendaraan di depannya sehingga tidak mampu berhenti saat kendaraan di depannya mengalami perubahan kecepatan atau mengerem mendadak. Pada penelitian ini dilakukan pembuatan desain dan realisasi suatu alat yang mampu mengukur jarak kendaraan di depan dan mendeteksi perubahan kecepatan. Sistem juga dapat memberikan peringatan dini apabila di depan terdapat halangan atau kendaraan lain yang berhenti mendadak sehingga terhindar dari tabrakan. Untuk menjaga jarak aman secara otomatis, maka sistem ini dilengkapi dengan sensor microwave HB100 berfrekuensi 10.525 GHz yang dapat mengukur perubahan kecepatan objek dengan menggunakan prinsip efek doppler. Pengukuran juga menggunakan sensor ultrasonik SR04 yang dapat digunakan untuk mengukur jarak dengan objek di depannya sampai sejauh 2 meter dengan %error terbesar 0.1 %. Pengkondisi sinyal Intermediate Frequency dari sensor HB100 terdiri dari rangkaian preamp, dan band pass filter sebesar 12500× pada pita frekuensi 1-100 Hz. Perubahan kecepatan objek akibat pengereman mendadak dapat menghasilkan perubahan frekuensi doppler pada penerima yang berkesesuaian dengan kecepatannya yaitu 0 Hz pada keadaan diam dan bertambah sekitar 7 Hz tiap 0.1 m/s. Perubahan frekuensi ini kemudian diproses secara digital menggunakan mikrokontroller arduino due memanfaatkan frekuensi counter. Kemudian mikrokontroller akan memberikan peringatan berupa LED dan buzzer atau bahkan aktuator untuk melakukan pengereman secara otomatis apabila jarak aman terlalu dekat. Pengereman motor dilakukan dengan kontrol proporsional yang mengatur besarnya PWM pada motor dc agar motor dapat berhenti tanpa menabrak objek di depan.
================ Driving accidents cause many losses and even casualties. Accidents often occur because the driver is less concentrated, careless, or drowsy in keeping a safe distance with the vehicle in front of it so unable to stop when the vehicle in front of him experienced a change of speed or braked suddenly. In this research, the design and realization of a tool that can measure the distance of the vehicle in front and detect the speed change. The system can also provide early warning if in front of obstacles or other vehicles that stop suddenly so avoid the collision. To maintain a safe distance automatically, the system is equipped with microwave sensors HB100 10,525 GHz frequency that can measure changes in the speed of the object by using the principle of doppler effect. The measurement also uses SR04 ultrasonic sensors that can be used to measure the distance to the object in front of it up to 2 meters with the biggest error% 0.1%. The Intermediate Frequency signal conditioner of the HB100 sensor consists of a preamp circuit, and a band pass filter of 12500 × in the band 1 to 100 Hz.The change in object velocity due to sudden braking can result in a change of doppler frequency at the receiver corresponding to its velocity of 0 Hz at rest and increasing by about 7 Hz per 0.1 m / s. These frequency changes are then digitally processed using the arduino due to use the frequency counter microcontroller. Then the microcontroller will give a warning in the form of LEDs and buzzers or even actuators to brake automatically when the safe distance is too close. Motor braking is done with a proportional control that regulates the magnitude of PWM on the dc motor so that the motor can stop without crashing the object in front.
Item Type: | Thesis (Undergraduate) |
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Uncontrolled Keywords: | arduino due, efek doppler, perubahan frekuensi, sensor microwave HB100, doppler effect, ultrasonic sensor, frequency shift, arduino due |
Subjects: | Q Science > QC Physics > QC221 Acoustics. Sound T Technology > TA Engineering (General). Civil engineering (General) > TA1573 Detectors. Sensors T Technology > TL Motor vehicles. Aeronautics. Astronautics > TL152.8 Vehicles, Remotely piloted. Autonomous vehicles. T Technology > TL Motor vehicles. Aeronautics. Astronautics > TL521.3 Automatic Control |
Divisions: | Faculty of Electrical Technology > Electrical Engineering > 20201-(S1) Undergraduate Thesis |
Depositing User: | Pradono Rian Adi Putra |
Date Deposited: | 24 Oct 2018 02:10 |
Last Modified: | 24 Oct 2018 02:10 |
URI: | http://repository.its.ac.id/id/eprint/52429 |
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