Method for improving heart rate estimates by combining multiple measurement modalities

What is claimed is: 1. A method comprising: during a first period of time, detecting a first-sensor signal from a first sensor; determining a pulse rate for the first period of time based on the first-sensor signal detected during the first period of time; during a second period of time, detecting the first-sensor signal from the first sensor and a second-sensor signal from a second sensor, wherein the second period of time is after the first period of time; determining a pulse rate for the second period of time based on the first-sensor signal detected during the second period of time and the second-sensor signal detected during the second period of time; updating the pulse rate for the first period of time based on the determined pulse rate for the second period of time; and providing, via a user interface, an indication of the updated pulse rate for the first period of time. 2. The method of claim 1 , wherein determining the pulse rate for the first period of time based on the first-sensor signal detected during the first period of time comprises: sampling the first-sensor signal during the first period of time to obtain a first set of samples of the first-sensor signal; and determining the pulse rate for the first period of time based on the first set of samples of the first-sensor signal. 3. The method of claim 2 , wherein determining the pulse rate for the second period of time based on the first-sensor signal detected during the second period of time and the second-sensor signal detected during the second period of time comprises: sampling the first-sensor signal during the second period of time to obtain a second set of samples of the first-sensor signal; determining a second-signal pulse rate based on the second-sensor signal detected during the second period of time; and determining the pulse rate for the second period of time based on (i) the second set of samples of the first-sensor signal and (ii) the second-signal pulse rate. 4. The method of claim 3 , wherein determining the pulse rate for the second period of time based on (i) the second set of samples of the first-sensor signal and (ii) the second-signal pulse rate comprises: determining a plurality of potential pulse rates based on the second set of samples of the first-sensor signal; and selecting one of the potential pulse rates as the pulse rate for the second period of time. 5. The method of claim 4 , wherein selecting one of the potential pulse rates as the pulse rate for the second period of time comprises: for each potential pulse rate, determining a respective difference between the potential pulse rate and the second-signal pulse rate; and selecting the potential pulse rate that has the smallest difference as the pulse rate for the second period of time. 6. The method of claim 3 , wherein determining the pulse rate for the second period of time based on (i) the second set of samples of the first-sensor signal and (ii) the second-signal pulse rate comprises: determining a spectral content of the first-sensor signal during the second period of time based on the second set of samples of the first signal; and determining the pulse rate for the second period of time based on the determined spectral content and the second-signal pulse rate. 7. The method of claim 1 , wherein the first-sensor signal is a photoplethysmographic signal. 8. The method of claim 1 , wherein the second-sensor signal is an electrocardiographic signal. 9. The method of claim 1 , further comprising: sampling the second-sensor signal during the second period of time to obtain a set of samples of the second-sensor signal; and determining whether a reliable pulse rate can be determined from the set of samples of the second-sensor signal. 10. The method of claim 9 , wherein determining the pulse rate for the second period of time based on the first-sensor signal detected during the second period of time and the second-sensor signal detected during the second period of time is responsive to a determination that a reliable pulse rate can be determined from the set of samples of the second-sensor signal. 11. A system comprising: a first sensor; a second sensor; a user interface; and a controller operably coupled to the first sensor and the second sensor, wherein the controller comprises a computing device programmed to perform controller operations comprising: during a first period of time, detecting a first-sensor signal from the first sensor; determining a pulse rate for the first period of time based on the first-sensor signal detected during the first period of time; during a second period of time, detecting the first-sensor signal from the first sensor and a second-sensor signal from the second sensor, wherein the second period of time is after the first period of time; determining a pulse rate for the second period of time based on the first-sensor signal detected during the second period of time and the second-sensor signal detected during the second period of time; updating the pulse rate for the first period of time based on the determined pulse rate for the second period of time; and providing, via the user interface, an indication of the updated pulse rate for the first period of time. 12. The system of claim 11 , wherein determining the pulse rate for the first period of time based on the first-sensor signal detected during the first period of time comprises: sampling the first-sensor signal during the first period of time to obtain a first set of samples of the first-sensor signal; and determining the pulse rate for the first period of time based on the first set of samples of the first-sensor signal. 13. The system of claim 12 , wherein determining the pulse rate for the second period of time based on the first-sensor signal detected during the second period of time and the second-sensor signal detected during the second period of time comprises: sampling the first-sensor signal during the second period of time to obtain a second set of samples of the first-sensor signal; determining a second-signal pulse rate based on the second-sensor signal detected during the second period of time; and determining the pulse rate for the second period of time based on (i) the second set of samples of the first-sensor signal and (ii) the second-signal pulse rate. 14. The system of claim 13 , wherein determining the pulse rate for the second period of time based on (i) the second set of samples of the first-sensor signal and (ii) the second-signal pulse rate comprises: determining a plurality of potential pulse rates based on the second set of samples of the first-sensor signal; and selecting one of the potential pulse rates as the pulse rate for the second period of time. 15. The system of claim 14 , wherein selecting one of the potential pulse rates as the pulse rate for the second period of time comprises: for each potential pulse rate, determining a respective difference between the potential pulse rate and the second-signal pulse rate; and selecting the potential pulse rate that has the smallest difference as the pulse rate for the second period of time. 16. The system of claim 13 , wherein determining the pulse rate for the second period of time based on (i) the second set of samples of the first-sensor signal and (ii) the second-signal pulse rate comprises: determining a spectral content of the first-sensor signal during the second period of time based on the second set of samples of the first signal; and determining the pulse rate for the second period of time based on the determined spectral c