Wireless wheel alignment system
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"Computer based wireless automobile wheel alignment system using accelerometer” scientific paper, as published at “The International Journal of Engineering and Science (IJES)”, Volume 4, 2015 by Sonali Chatur
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Wireless wheel alignment system
- 1. COMPUTER BASED WIRELESS AUTOMOBILE WHEEL ALIGNMENT SYSTEM USING ACCELEROMETER Omer Mohammed Omer 125067
- 2. Wheel alignment, sometimes referred to as breaking or tracking, is part of standard automobile maintenance that consists of adjusting the angles of wheels so that they are parallel to each other and perpendicular to the ground In order to study the wireless wheel alignment system a basic understanding of the regular wheel alignment system should be built up
- 3. INFLUENCING PARAMETERS IN WHEEL ALIGNMENT: Caster: If viewed from the side of the vehicle, caster is an imaginary line drawn between the centers of the upper and lower ball joints which forms an angle with true vertical, Caster is important to steering feel and high-speed stability
- 4. INFLUENCING PARAMETERS IN WHEEL ALIGNMENT: Camber: If viewed from the front of the vehicle, camber describes the inward or outward tilt of the tire. Camber adjustment maximizes the tire-to- road contact and takes into account the changes of force when a vehicle is turning. Camber should be set to manufacturer’s specification according to steering geometry.
- 5. INFLUENCING PARAMETERS IN WHEEL ALIGNMENT: Toe: if viewed from the front of the vehicle, toe describes whether the fronts of the tyres are closer (toe-in) of farther apart (toe-out) than the rears of the tyres. Toe is set so that the tyres roll in parallel when your vehicle is in motion.
- 6. FORCES AFFECTING WHEELS: There are several forces, moments and angles that prove to be very important in tire behavior. All these forces can be seen as the forces and moments acting on the tire from the road
- 7. MATHEMATICAL MODEL FOR CAMBER ANGLE & TOE CALCULATION The values of θ and Ф can be obtained as follow:
- 8. DESIGN OF WIRELESS WHEEL ALIGNMENT UNIT: 1. Sensing Unit 2. Processing Unit 3. Trans-Receiver Unit 4. Display Unit
- 9. SENSING UNIT: The ADXL335B accelerometer gives an output as voltage representing the three values of acceleration in (X, Y, Z) which are proportional to the values of alignment angel.
- 10. PROCESSING UNIT: Arduino with built-in Microcontroller ATME328 is used thus it satisfies selection criterion. Output voltage of ADXL335 accelerometer is applied to the analog inputs A0-A2 of Arduino.
- 11. TRANS-RECEIVER UNIT: Available information signal from Arduino is transmitted using (CC250 + PIC F1824 Microcontroller) platform, which is widely available and use for wireless communications techniques
- 12. RECEIVER SECTION: At the receiver side the signal is fed to serial to USB converter. Available signal is concatenated so x, y and z parameters needs to separate so logic is developed and all the three signals and concatenated string is displayed in text boxes as well. Retrieved signal is mathematically processed to obtain phase i.e. angles in degree