Blood pressure monitor

What is claimed is: 1. A method for non-invasive determination of a blood pressure of a subject, comprising: sensing, with an electrocardiogram (ECG) sensor operatively coupled to a mobile computing device, an ECG of the subject; sensing, with a first optical sensor operatively coupled to the mobile computing device, concurrently with the ECG sensing, a first photoplethysmogram (PPG) of the subject at a first location on the subject, wherein a distance between a heart of the subject and the first location corresponds to a first distance; determining, from the first PPG and the ECG, a first pulse arrival time (PAT) corresponding to the first location; sensing, with a second optical sensor operatively coupled to the mobile computing device, concurrently with the ECG sensing, a second PPG of the subject at a second location on the subject, wherein a distance between the heart of the subject and the second location corresponds to a second distance; determining, from the second PPG and the ECG, a second pulse arrival time (PAT) corresponding to the second location; determining a third distance as a difference between the first distance and the second distance; determining a pulse wave velocity (PWV) by dividing the third distance by a differential PAT of the first PAT corresponding to the first location and the second PAT corresponding to the second location; and determining, by a processing device of the mobile computing device, the blood pressure of the subject from the PWV. 2. The method of claim 1 , further comprising: determining the blood pressure a plurality of times in accordance with claim 1 ; sensing, at the first location, with the first optical sensor, a PPG at a time t after the plurality of times (PPG A t ); determining, from PPG A t , a PAT corresponding to the first location at the time t (PAT A t ); sensing, at the second location, with the second optical sensor, a PPG at the time t (PPG B t ); determining, from PPG B t , a PAT corresponding to the second location at the time t (PAT B t ); determining a PAT differential at the time t from the PAT A t and the PAT B t ; and determining the blood pressure of the subject at the time t based on the relationship that the blood pressure is inversely proportional to the PAT differential. 3. The method of claim 1 , wherein the first and the second optical sensors each comprise a camera that operates at a minimum speed of 30 frames per second. 4. The method of claim 1 , wherein the mobile computing device comprises first and second electrodes of the ECG sensor, the first optical sensor, and the second optical sensor. 5. The method of claim 4 , wherein the first and the second electrodes are removable from the mobile computing device. 6. The method of claim 1 , further comprising providing the blood pressure of the subject to be displayed on the mobile computing device. 7. The method of claim 1 , further comprising providing the blood pressure of the subject to be displayed on a device in communication with the mobile computing device. 8. The method of claim 1 , wherein the mobile computing device comprises one of: a smart watch, a wristlet, a smart phone, or a tablet. 9. A smartwatch or a wristlet, comprising: a processor; an electrocardiogram (ECG) sensor configured to sense electrical signals of a heart, wherein the ECG sensor comprises a first electrode and a second electrode, the ECG sensor coupled to the processor; a first optical sensor and a second optical sensor, the first and second optical sensors operatively coupled to the processor; a non-transitory computer readable storage medium encoded with a computer program including instructions executable by the processor to cause the processor to: sense, with the ECG sensor, an ECG of the subject; sense, with the first optical sensor, concurrently with the ECG sensing, a first photoplethysmogram (PPG) of the subject at a first location on the subject, wherein a distance between a heart of the subject and the first location corresponds to a first distance; determine, from the first PPG and the ECG, a first pulse arrival time (PAT) corresponding to the first location; sense, with the second optical sensor, concurrently with the ECG sensing, a second PPG of the subject at a second location on the subject, wherein a distance between the heart of the subject and the second location corresponds to a second distance; determine, from the second PPG and the ECG, a second pulse arrival time (PAT) corresponding to the second location; determine a third distance as a difference between the first distance and the second distance; determine a pulse wave velocity (PWV) by dividing the third distance by the differential PAT of the first PAT corresponding to the first location and the second PAT corresponding to the second location; and determine the blood pressure of the subject from the PWV. 10. The smartwatch or the wristlet of claim 9 , the processor further to: determine the blood pressure a plurality of times in accordance with claim 9 ; sense, at the first location, with the first optical sensor, a PPG at a time t after the plurality of times (PPG A t ); determine, from PPG A t , a PAT corresponding to the first location at the time t (PAT A t ); sense, at the second location, with the second optical sensor, a PPG at the time t (PPG B t ); determine, from PPG B t a PAT corresponding to the second location at the time t (PAT B t ); determine a PAT differential at the time t from PAT A t and PAT B t ; and determine the blood pressure of the subject at the time t based on the relationship that the blood pressure is inversely proportional to the PAT differential. 11. The smartwatch or the wristlet of claim 9 , wherein the first and the second optical sensors each comprise a camera that operates at a minimum speed of 30 frames per second. 12. The smartwatch or the wristlet of claim 9 , wherein the first and the second electrodes are removable from the smartwatch or wristlet. 13. The smartwatch or the wristlet of claim 9 , the processor further to provide the blood pressure of the subject to be displayed on the smartwatch or the wristlet. 14. The smartwatch or the wristlet of claim 9 , the processor further to provide the blood pressure of the subject to be displayed on a device in communication with the smartwatch or the wristlet. 15. A non-transitory computer-readable storage medium including instructions that, when executed by a processing device, cause the processing device to: sense, with an electrocardiogram (ECG) sensor operatively coupled to a mobile computing device, an ECG of the subject; sense, with a first optical sensor operatively coupled to the mobile computing device, concurrently with the ECG sensing, a first photoplethysmogram (PPG) of the subject at a first location on the subject, wherein a distance between a heart of the subject and the first location corresponds to a first distance; determine, from the first PPG and the ECG, a first pulse arrival time (PAT) corresponding to the first location; sense, with a second optical sensor operatively coupled to the mobile computing device, concurrently with the ECG sensing, a second PPG of the subject at a second location on the subject, wherein a distance between the heart of the subject and the second location corresponds to a second distance; determine, from the second PPG and the ECG, a second pulse arrival time (PAT) corresponding to the second location; determine a third distance as a difference between the first distance and the second distance; determine a pulse wave