Using an accelerometer to measure speed

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SUMMARY

This discussion focuses on using a triaxial accelerometer to calculate the speed of a car while addressing the challenge of removing gravitational acceleration from the readings. The user has calibrated the accelerometer to provide accurate values in gs but struggles with the unknown alignment of the sensor. A recommended solution involves integrating an angular rate sensor to determine the angle of the accelerometer, allowing for the subtraction of gravitational acceleration and subsequent integration to find velocity. The discussion also mentions the potential use of a frictionless potentiometer (POT) and ADC for angle measurement.

PREREQUISITES
  • Understanding of triaxial accelerometer calibration
  • Knowledge of angular rate sensors and their integration
  • Familiarity with gravitational acceleration concepts
  • Basic skills in analog-to-digital conversion (ADC)
NEXT STEPS
  • Research the integration of angular rate sensors with accelerometers
  • Learn about filtering techniques to remove gravitational effects from accelerometer data
  • Explore the use of frictionless potentiometers for angle measurement
  • Investigate ADC options suitable for interfacing with potentiometers
USEFUL FOR

Engineers, automotive developers, and hobbyists interested in vehicle dynamics and sensor integration for speed measurement using accelerometers.

lucvh
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Hi,

I am interested in using an accelerometer to calculate the speed of a car. The accelerometer is a triaxial one and gives 3 values of acceleration; x y and z. These can be assumed to be accurate as i have already worked on the calibration of these values so that they come out in gs. Is there a way to calculate the acceleration of the device independent of its alignment to the motion of acceleration?
For example, the accelerometer would be mounted to the dashboard of the car, but as the car accelerates the rear axle of the car dips and therefore the angle of the vector has changed. This is fine to calculate, if it weren't for gravity. I can't understand how to remove the acceleration due to gravity when the exact alignment of the sensor is un known. Does anyone have any ideas?
 
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You need that angle. Try adding an angular rate sensor and integrating to find the angle. Then you can remove the acceleration due to gravity and integrate to find the velocity. http://www.analog.com/UploadedFiles/Data_Sheets/778386516ADXRS150_B.pdf They are about $50 on digikey. However, I know you can find them cheaper.
 
Last edited by a moderator:
Or you could find the angle by having a frictionless POT and using an ADC. I'm not sure a close enough to frictionless POT exists.
 
The idea was to only use the available hardware. Is there no way to do it knowing that the vector i need to resolve it into is at 90 degrees to the acceleration of gravity?
 

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