Mobile and non-intrusive device for sleep apnea screening and telemedicine

What is claimed is: 1 . A sleep monitoring system comprising: a first component configured to be coupled to a chest of a subject, the first component comprising a chest device housing, a first pair of electrode pads mounted on an underside of the chest device housing, a first electrocardiogram sensor circuit communicatively coupled to the first pair of electrode pads, and a photoplethysmogram sensor, wherein the photoplethysmogram sensor includes at least one light source and at least one photodetector mounted on the underside of the chest device housing at a location between the first pair of electrode pads; and a second component configured to be coupled to an abdomen of the subject, the second component comprising an abdomen device housing, a second pair of electrode pads mounted on an underside of the abdomen device housing, and a second electrocardiogram sensor circuit communicatively coupled to the second pair of electrode pads. 2 . The sleep monitoring system of claim 1 , wherein the first component is communicatively coupled to the second component by a wired communication interface, wherein the first electrocardiogram sensor circuit is synchronized with the second electrocardiogram sensor circuit by a clock signal transmitted from the second component to the first component via the wired communication interface. 3 . The sleep monitoring system of claim 2 , wherein the second component further includes a battery, and wherein the system is configured to provide operating power to the first component from the battery through the wired communication interface. 4 . The sleep monitoring system of claim 1 , wherein the system further includes an electronic controller configured to apply a signal surrogate mechanism to evaluate quality of data signals generated by each of a plurality of measurement units and to calculate a biometric based on different data signals based on a result of the evaluation, wherein the plurality of measurement units includes the first electrocardiogram sensor circuit and the photoplethysmogram sensor. 5 . The sleep monitoring system of claim 4 , wherein the electronic controller is configured to apply the signal surrogate mechanism by determining a primary data signal for a first biometric, wherein the primary data signal is generated by a first measurement unit of the plurality of measurement units, determining a secondary data signal for the first biometric, wherein the secondary data signal is generated by a second measurement unit of the plurality of measurement units, evaluating a signal quality of the primary data signal, calculating the first biometric based on the primary data signal in response to determining that the signal quality of the primary data signal satisfies one or more signal quality criterion for the primary data signal, evaluating a signal quality of the secondary data signal, and calculating the first biometric based on the secondary data signal in response to determining that the signal quality of the primary data signal does not satisfy the one or more signal quality criterion for the primary data signal and that the signal quality of the secondary data signal satisfies one or more signal quality criterion for the secondary data signal. 6 . The sleep monitoring system of claim 5 , wherein the electronic controller is further configured to apply the signal surrogate mechanism by not calculating the first biometric in response to determining that the signal quality of the primary data signal does not satisfy the one or more signal quality criterion of the primary data signal and that the signal quality of the secondary data signal does not satisfy the one or more signal quality criterion for the secondary data signal. 7 . The sleep monitoring system of claim 5 , wherein the primary data signal includes an ECG output signal from at least one selected from the first electrocardiogram sensor circuit and the second electrocardiogram sensor circuit, wherein the secondary data signal includes a PPG output signal from the photoplethysmogram sensor, and wherein the first biometric includes a heart rate metric. 8 . The sleep monitoring system of claim 5 , wherein the plurality of measurement units further includes at least one inertial measurement unit, wherein the primary data signal includes an IMU output signal from at least one inertial measurement unit, wherein the secondary data signal includes an ECG output signal from at least one selected from the first electrocardiogram sensor circuit and the second electrocardiogram sensor circuit, and wherein the first biometric includes a respiratory effort metric. 9 . The sleep monitoring system of claim 1 , wherein the first component further includes a first inertial measurement unit configured to monitor movement of the chest device housing due to movements of the chest of the subject, and wherein the second component further includes a second inertial measurement unit configured to monitor movement of the abdomen device housing due to movements of the abdomen of the subject. 10 . The sleep monitoring system of claim 9 , further comprising an electronic controller configured to monitor a breathing pattern of the subject based at least in part on an output signal of the first inertial measurement unit and an output signal of the second inertial measurement unit. 11 . The sleep monitoring system of claim 10 , wherein the electronic controller is further configured to: automatically detect an apnea event based at least in part on disruptions of the breathing pattern of the subject determined based at least in part on the output signal of the monitoring a breathing pattern of the subject based on the output signal of the first inertial measurement unit and the output signal of the second inertial measurement unit. 12 . The sleep monitoring system of claim 11 , wherein the electronic controller is further configured to: log the detected apnea event in a memory, wherein the logged apnea event includes a time stamp; and analyze biometric data corresponding to the logged apnea event based at least in part on the time stamp for the apnea event, wherein the biometric data is determined based at least in part on at least one selected from a group consisting of the first electrocardiogram sensor circuit, the second electrocardiogram sensor circuit, and the photoplethysmogram sensor. 13 . The sleep monitoring system of claim 10 , wherein the electronic controller is further configured to automatically detect each of a plurality of different types of potential apnea events, wherein the electronic controller is configured to automatically detect each different type of potential apnea event based at least in part on at least one selected from a group consisting of the output signal of the first inertial measurement unit and the output signal of the second inertial measurement unit. 14 . The sleep monitoring system of claim 1 , wherein the first component further includes an electrical impedance plethysmography circuit, wherein the electrical impedance plethysmograph circuit is communicatively coupled to at least one electrode pad of the first pair of electrode pads and at least one electrode pad of the second pair of electrode pads. 15 . The sleep monitoring system of claim 1 , wherein the second component further includes a body temperature sensor and a pressure sensor. 16 . The sleep monitoring system of claim 1 , wherein at least one selected from a group consisting of the first component and the second component includes a memory, wherein the memory is configured to store