Method to Identify Right and Left Impact during Running using a Single Sacrum-Mounted IMU

1 . A method for biomechanical motion tracking, the method comprising: a) recording accelerometer and rate gyroscope data from an inertial measurement unit mounted on the sacrum of a runner, wherein the accelerometer data comprises resultant linear acceleration measurements and the rate gyroscope data comprises angular velocity measurements about the anterior-posterior axis; b) processing the recorded accelerometer data to identify right foot impact events and left foot impact events, wherein the processing comprises identifying impact events using the third derivative of the resultant linear acceleration measurements, and distinguishing between left and right impact events using the angular velocity measurements about the anterior-posterior axis, wherein the processing uses acceleration and angular velocity data from only the inertial measurement unit mounted on the sacrum of the runner. 2 . The method of claim 1 wherein identifying impact events using the third derivative of the resultant linear acceleration measurements comprises using maxima of the third derivative of the resultant linear acceleration measurements to determine locations of impact peaks in the resultant linear acceleration that are closest temporally to the locations of the crackle maxima. 3 . The method of claim 1 wherein distinguishing between left and right impact events comprises searching for extrema in the frontal plane angular velocity within a window of 5 ms around an identified impact event, and identifying the impact event as a right foot impact or left foot impact depending on whether the angular velocity peak is positive or negative. 4 . The method of claim 1 wherein the recording and processing steps are performed by a single portable electronic device. 5 . The method of claim 1 wherein the recording and processing steps are performed by two distinct portable electronic devices, and wherein the method further comprises communicating the recorded accelerometer and rate gyroscope data between the two distinct portable electronic devices. 6 . The method of claim 1 further comprising processing the recorded accelerometer and rate gyroscope data, right foot impact events, and left foot impact events to provide analysis of gait patterns. 7 . The method of claim 1 further comprising processing the recorded accelerometer and rate gyroscope data, right foot impact events, and left foot impact events to provide analysis of athletic technique.