Determining onsets and offsets of cardiac depolarization and repolarization waves

The invention claimed is: 1. A method for selecting an implant site for a pacing lead comprising: a) determining a baseline rhythm using a plurality of body-surface electrodes, the baseline rhythm includes an atrial marker and a ventricular marker (Vs); b) defining a pre-specified window between the atrial marker and the ventricular marker; c) applying a low pass filter to a signal within the window; d) determining a rectified slope of the signal; e) determining a time point (t1) in which the rectified slope exceeds 10% of a maximum value of the rectified slope; f) determining a point of onset of a depolarization complex in the signal, wherein the point of onset occurs at a largest curvature in the signal within the pre-specified window from Vs-100 ms to t1; g) determine an electromechanical delay for each of a plurality of candidate cardiac pacing lead sites using the determined point of onset of the depolarization complex; and h) select the implant site for the pacing lead for delivering cardiac pacing based upon the determined electromechanical delays. 2. The method of claim 1 wherein the determination of the point of onset of the depolarization complex is automated and performed without detection of a threshold. 3. The method of claim 1 wherein the largest curvature in the signal is determined from a curvature of the signal defined as r=|y″|/(1+|y′| 2 ) (3/2) in which y″ and y′ are the double and single derivatives of y=f(t), respectively. 4. The method of claim 1 wherein a simplified version of a curvature equation, r≈|y″|/(1+|y′|2), may be used to compute an index that tracks the curvature of the signal, eliminating computation of square roots. 5. The method of claim 2 wherein determining the point of onset of the depolarization complex comprises searching for the largest curvature of the signal or an index tracking a curvature of the signal at a sharp deflection in the curvature of the signal, the sharp deflection being indicative of the onset of the depolarization complex. 6. The method of claim 1 further comprising: searching for the largest curvature within the pre-specified window and ending on a maximum peak or a minimum valley. 7. The method of claim 1 further comprising: removing high-frequency artifacts in the signal through the low pass filter. 8. The method of claim 1 further comprising: receiving an ECG signal by a cardiac resynchronization therapy (CRT) device, wherein determining the point of onset of the depolarization complex comprises determining a point of onset of a QRS complex in the ECG signal received by the CRT device. 9. The method of claim 8 wherein receiving the ECG signal by the CRT device includes receiving one of a leadless ECG signal and a far-field ECG signal. 10. The method of claim 8 further comprising: automating measurements of cardiac electrical activation times with respect to the determined point of onset of the QRS complex. 11. A system method for selecting an implant site for a pacing lead comprising: a) processing means for determining a baseline rhythm using a plurality of body-surface electrodes, the baseline rhythm includes an atrial marker and a ventricular marker (Vs); b) processing means for defining a pre-specified window between the atrial marker and the ventricular marker; c) processing means for applying a low pass filter to a signal within the window; d) processing means for determining a rectified slope of the signal; e) processing means for determining a time point (t1) in which the rectified slope exceeds 10% of a maximum value of the rectified slope; f) processing means for determining a point of onset of a depolarization complex in the signal, wherein the point of onset occurs at a largest curvature in the signal within the pre-specified window from Vs-100 ms to t1; g) processing means for determining an electromechanical delay for each of a plurality of candidate cardiac pacing lead sites using the determined point of onset of the depolarization complex; and h) processing means for selecting the implant site for the pacing lead for delivering cardiac pacing based upon the determined electromechanical delays. 12. The system of claim 11 wherein the determination of the point of onset of the depolarization complex is automated and performed without detection of a threshold. 13. The system of claim 11 wherein the largest curvature in the signal is determined from a curvature in the signal defined as r=|y″|/(1+|y′| 2 ) (3/2) in which y″ and y′ are the double and single derivatives of y=f(t), respectively. 14. The system of claim 11 wherein a simplified version of a curvature equation r≈|y″|/(1+|y′|2), may be used to compute an index that tracks the curvature of the signal thereby eliminating computation of square roots. 15. The system of claim 12 wherein determining the point of onset of the depolarization complex comprises searching for the largest curvature in the signal or an index tracking a curvature of the signal at a sharp deflection in the curvature of the signal, the sharp deflection being indicative of the onset of the depolarization complex. 16. The system of claim 11 further comprising: processing means for searching for the largest curvature within the pre-specified window and ending on a maximum peak or a minimum valley. 17. The system of claim 11 further comprising: removing high-frequency artifacts in the signal through the low pass filter. 18. The system of claim 11 further comprising: receiving means for receiving an ECG signal by a cardiac resynchronization therapy (CRT) device wherein determining the point of onset of the depolarization complex comprises determining a point of onset of a QRS complex in the ECG signal received by the CRT device. 19. The system of claim 18 wherein the receiving means for receiving the ECG signal by the CRT device includes means for receiving one of a leadless ECG signal and a far-field ECG signal. 20. The system of claim 18 further comprising: processing means for automating measurements of cardiac electrical activation times with respect to the determined point of onset of the QRS complex. 21. A non-transitory, computer-readable storage medium comprising instructions that, when executed by a processor to perform a method for selecting an implant site for a pacing lead comprising: a) determining a baseline rhythm using a plurality of body-surface electrodes, the baseline rhythm includes an atrial marker and a ventricular marker (Vs); b) defining a pre-specified window between the atrial marker and the ventricular marker; c) applying a low pass filter to a signal within the window; d) determining a rectified slope of the signal; e) determining a time point (t1) in which the rectified slope exceeds 10% of a maximum value of the rectified slope; f) determining a point of onset of a depolarization complex in the signal, wherein the point of onset occurs at a largest curvature in the signal within the pre-specified window from Vs-100 ms to t1; g) determining an electromechanical delay for each of a plurality of candidate cardiac pacing lead sites using the determined point of onset of the depolarization complex; and h) selecting the implant site for the pacing lead for delivering cardiac pacing based upon the determined electromechanical delays. 22. The medium of claim 21 wherein the determination of the point of onset of the depolarization complex is automated and performed without detection of a threshold.