Body-worn sensor for characterizing patients with heart failure

What is claimed is: 1. A system worn entirely on a body of a patient for measuring heartbeat-induced impedance pulses, ECG signals, and motion signals exclusively from the patient's chest, comprising: a monitoring system comprising both rigid and flexible substrates supporting electrical circuit components, the monitoring system configured to rest on the patient's chest and not wrap around the patient's chest; an impedance-measuring system integrated within the monitoring system, the impedance-measuring system comprising an analog impedance circuit in electrical contact with at least two electrodes and configured to receive a first set of electrical signals from the patient's chest and process them to determine the heartbeat-induced impedance pulses exclusively from the patient's chest; an ECG-measuring system integrated within the monitoring system, the ECG-measuring system comprising an analog ECG circuit in electrical contact with at least two electrodes and configured to receive a second set of electrical signals from the patient's chest and process them to determine the ECG signals; a motion-measuring system connected to the monitoring system, the motion-measuring system comprising a motion-detecting circuit and configured to generate a set of motion signals in response to the patient's movements; a data-processing system connected to the monitoring system and in electrical contact with the impedance-measuring system, the ECG-measuring system, and the motion-measuring system, the data-processing system comprising a microprocessor configured to operate a set of computer algorithms configured to process the heartbeat-induced impedance pulses, the ECG signal, and the motion signal; a wireless transmitter integrated connected to the monitoring system and in electrical contact with the data-processing system, the wireless transmitter configured to transmit processed values of the heartbeat-induced impedance pulses, the ECG signal, and the motion signal; and a battery system comprising a battery in electrical contact with and configured to power the impedance-measuring system, the ECG-measuring system, the motion-measuring system, the data-processing system, and the wireless transmitter. 2. The system of claim 1 , wherein the continuous monitoring system comprises at least one rigid circuit board electrically connected to a flexible substrate comprising an electrical system. 3. The system of claim 2 , wherein the flexible substrate supports the electrical system. 4. The system of claim 3 , wherein the flexible circuit comprises Kapton®. 5. The system of claim 1 , wherein the monitoring system comprises at least two rigid circuit boards connected by a flexible substrate. 6. The system of claim 5 , wherein the flexible substrate supports an electrical system. 7. The system of claim 6 , wherein the flexible substrate comprises Kapton®. 8. The system of claim 5 , wherein the flexible substrate comprises a flexible wire harness. 9. A system worn entirely on a body of a patient for measuring heartbeat-induced impedance pulses, ECG signals, and motion signals from the patient, comprising: a monitoring system comprising both rigid and flexible substrates supporting electrical circuit components, the monitoring system configured to rest on the patient's chest but not wrap around the patient's chest; an impedance-measuring system integrated within the monitoring system, the impedance-measuring system comprising an analog impedance circuit in electrical contact with at least two electrodes and configured to receive a first set of electrical signals from the patient's chest and process them to determine the heartbeat-induced impedance pulses exclusively from the patient's chest; an ECG-measuring system integrated within the monitoring system, the ECG-measuring system comprising an analog ECG circuit in electrical contact with at least two electrodes and configured to receive a second set of electrical signals from the patient's chest and process them to determine an ECG signal; a motion-measuring system integrated within the monitoring system, the motion-measuring system comprising a motion-detecting circuit and configured to generate a set of motion signals in response to the patient's movements; and, a data-processing system connected to the monitoring system and in electrical contact with the impedance-measuring system, the ECG-measuring system, and the motion-measuring system, the data-processing system comprising a microprocessor configured to operate a set of computer algorithms configured to process the impedance signal, the ECG signal, and the motion signal. 10. The system of claim 9 , wherein the monitoring system comprises at least one rigid circuit board electrically connected to a flexible substrate. 11. The system of claim 10 , wherein the flexible substrate supports an electrical system. 12. The system of claim 11 , wherein the flexible circuit comprises Kapton®. 13. The system of claim 10 , wherein the flexible substrate comprises a wire harness. 14. A system worn entirely on a body of a patient for measuring heartbeat-induced impedance pulses, ECG signals, and motion signals from the patient, comprising: a monitoring system comprising both rigid and flexible substrates supporting electrical circuit components, the monitoring system configured to rest on the patient's chest but not wrap around the patient's chest; an impedance-measuring system integrated within the monitoring system, the impedance-measuring system comprising an analog impedance circuit in electrical contact with at least two electrodes and configured to receive a first set of electrical signals from the patient's chest and process them to determine heartbeat-induced impedance pulses; an ECG-measuring system integrated within the monitoring system, the ECG-measuring system comprising an analog ECG circuit in electrical contact with at least two electrodes and configured to receive a second set of electrical signals from the patient's chest and process them to determine an ECG signal; a motion-measuring system integrated within the monitoring system, the motion-measuring system comprising a motion-detecting circuit and configured to generate a set of motion signals in response to the patient's movements; a location-measuring system integrated within the monitoring system, the location-measuring system configured to wirelessly receive signals and, in response, determine a set of location coordinates describing the patient's geographic location; a data-processing system integrated within the monitoring system and in electrical contact with the impedance-measuring system, the ECG-measuring system, the motion-measuring system, and the location-measuring system, the data-processing system comprising a microprocessor configured to operate a set of computer algorithms configured to process the heartbeat-induced impedance pulses, the ECG signal, the set of location coordinates, and the motion signal; a wireless transmitter integrated within the monitoring system and in electrical contact with the data-processing system, the wireless transmitter configured to transmit processed values of the impedance signal, the ECG signal, the set of location coordinates, and the motion signal; and a battery system comprising a battery in electrical contact with and configured to power the impedance-measuring system, the ECG-measuring system, the motion-measuring system, the data-processing system, and the wireless transmitter.