FYP S2/2016 : UNIKL BMI: March 2017

Friday, 31 March 2017

WEEK 5

Assalamualaikum,

Today I’m going to show my progress that I’ve to go the halfcut to buy the car component for my project. The component is like the ECU and the car steering wheel for my project. The process is more difficult because the ECU is different for each car. So, i have to find really compatible for my project.

The Electronic Car Unit

Circuit Diagram Electronic Car Unit

After getting the ecu, I need to conduct experiments on my project. This is to determine whether the ecu works well. Besides that, I was going to ask a few workshops on this ecu more. So, the function of the ECU is to control the speed of car after detect the driver is in stress level

Tuesday, 28 March 2017

WEEK 4

In this week, I had been testing the Arduino and Sensor to design the circuit in breadboard

Besides that, i try to build some circuit to display the output on LCD 16x2. The program will teach in arduino website. After the build this circuit i will combine with the galvanic skin resistance to make the complete GSR circuit.

Saturday, 11 March 2017

WEEK 3

Assalamualaikum.

Today I’m going to show my progress that I’ve made which is in Arduino Software. I have build a circuit about my final year project by refereeing internet galvanic skin resistance circuit . The circuit design of my project is shown below in Figure 1.

Besides that, i was learn about the arduino coding for my project. And the coding teach how to measure when the resistance became low. The coding for my circuit design is shown in Figure 2.

Saturday, 4 March 2017

WEEK 2

Assalamualaikum.

In this week, I’ve make a research about the Arduino application to make galvanic skin resistance circuit for my project.

The Arduino microcontroller is an easy to use yet powerful single board computer. It is open-source in which means the price is reasonable along with free development software. The Arduino Uno is a microcontroller board based on the ATmega328. It operates at 5V as well as 2Kb or RAM. There are also 14 digital input/output pins (of which 6 can be used as PWM outputs), 6 analog inputs, a 16 MHz crystal oscillator, a USB connection, a power jack, an ICSP header, and a reset button. Everything needed to support the microcontroller is in the Arduino UNO by connecting it to a USB cable of a personal computer or with an AC-to-DC adapter and also battery to get started.