# Angular Velocity from dual tri axial accelerometers

Can anyone throw some light on using accelerometers to measure angular acceleration and hence angular velocity. This approach is to avoid gyroscopes due to drifting errors. Any links for this also would be very helpful.

Thank you.

An accelerometer triad measures the non-field specific force vector ($\mathbf{f}$) at it's location. If it is located at the centre of mass of the body, it will measure $$\mathbf{f} = \mathbf{\dot{v}} - \mathbf{g}$$ where $\mathbf{\dot{v}}$ is the translational acceleration of the body and $\mathbf{g}$ is the acceleration due to gravity.
To be able to measure angular acceleration around the centre of mass, the accelerometer triad needs to be displaced a distance $\mathbf{\rho}$ from the centre of mass. In that case it will measure $$\mathbf{f'} = \mathbf{f} + \mathbf{\dot{\omega}\times\rho} +\mathbf{\omega\times}(\mathbf{\omega\times\rho})$$ where $\mathbf{\omega}$ is the angular velocity of the body. So, to be able to use the accelerometer to (indirectly) measure angular acceleration, you will need to measure the acceleration of the centre of mass as well. This can be done by having two accelerometer triads mounted to the body. Then, you have to solve the equation given above to obtain $\mathbf{\dot{\omega}}$ and integrate it to obtain $\mathbf{\omega}$.