System and method for kickback detection in a circular saw

What is claimed: 1. A circular saw comprising: a motor configured to rotate a blade to cut a work piece; a rotational rate sensor configured to identify a rotational speed of the blade; a blade arrest mechanism; and a controller operatively connected to the motor, the rotational rate sensor, the blade arrest mechanism, and a memory device, the controller being configured to: operate the motor to rotate the blade; identify a measured rotational speed of the rotating blade with reference to signals from the rotational rate sensor; identify an estimated rotational speed of the rotating blade with reference to the measured rotational speed, at least one previously measured rotational speed stored in the memory device, and a measurement of a previous change in rotational speed of the rotating blade stored in the memory device; identify an estimated torque for a drive shaft of the motor with reference to a quadratic equation that is dependent upon the measured rotational speed; identify an estimated torque force for the drive shaft of the motor with reference to the estimated torque divided by a predetermined diameter of the drive shaft; and activate the blade arrest mechanism in response to a difference between the measured rotational speed and the estimated rotational speed exceeding a first threshold and the estimated torque force exceeding a second threshold. 2. The circular saw of claim 1 wherein the blade arrest mechanism is a blade brake configured to halt rotation of the saw blade. 3. The circular saw of claim 1 wherein the blade arrest mechanism is a blade retraction mechanism configured to withdraw the blade from contact with the work piece. 4. The circular saw of claim 1 wherein the rotational rate sensor is a Hall Effect sensor. 5. A circular saw comprising: a motor configured to rotate a blade to cut a work piece; a rotational rate sensor configured to identify a rotational speed of the blade; a blade arrest mechanism; an electric current sensor configured to measure a level of current consumed by the motor; and a controller operatively connected to the motor, the rotational rate sensor, the blade arrest mechanism, the electric current sensor, and a memory device, the controller being configured to: operate the motor to rotate the blade; identify a measured rotational speed of the rotating blade with reference to signals from the rotational rate sensor; identify an estimated rotational speed of the rotating blade with reference to the measured rotational speed, at least one previously measured rotational speed stored in the memory device, and a measurement of a previous change in rotational speed of the rotating blade stored in the memory device; identify a first estimated torque force for the drive shaft of the motor in the saw that rotates the blade with reference to the measured rotational speed; identify a second estimated torque force for the drive shaft of the motor with reference to a measurement of current consumed by the motor from the electric current sensor; and identify a third estimated torque force for the drive shaft of the motor with reference to the first estimated torque force and the second estimated torque force; and activate the blade arrest mechanism in response to a difference between the measured rotational speed and the estimated rotational speed exceeding a first threshold and the third estimated torque force exceeding a second threshold. 6. The circular saw of claim 5 , the controller being further configured to: identify an estimated torque for the drive shaft of the motor with reference to a linear equation that is dependent upon a measured current level for the motor from the electrical current measurement sensor; and identify the second estimated torque force with reference to the estimated torque divided by a predetermined diameter of the drive shaft. 7. The circular saw of claim 5 , the controller being further configured to: identify noise associated with rotation of the blade with reference to a variance of the rotational speed of the drive shaft that corresponds to changes in the measured rotational speed of the blade generated from a plurality of measurements of the rotational speed of the blade generated at a plurality of times by the rotational rate sensor; and apply a Kalman filter to the first estimated torque force, the second estimated torque force, and the noise to identify the third estimated torque force. 8. The circular saw of claim 5 wherein the blade arrest mechanism is a blade brake configured to halt rotation of the saw blade. 9. The circular saw of claim 5 wherein the blade arrest mechanism is a blade retraction mechanism configured to withdraw the blade from contact with the work piece. 10. The circular saw of claim 5 wherein the rotational rate sensor is a Hall Effect sensor.