Circulatory support systems including controller and plurality of sensors and methods of operating same

What is claimed is: 1. A circulatory support system comprising: an implantable blood pump comprising: a housing defining an inlet, an outlet, a flow path extending from the inlet to the outlet, and an internal compartment separated from the flow path; a rotor positioned within the flow path and operable to pump blood from the inlet to the outlet; a stator positioned within the internal compartment and operable to drive the rotor; a plurality of sensors comprising at least two of the following: a current sensor configured to detect a current provided to the stator; a rotor position sensor configured to detect a position of the rotor relative to the housing; an accelerometer configured to detect acceleration of the blood pump in at least one direction; and a pressure sensor positioned between the inlet and the outlet and configured to detect a pressure of blood flowing through the flow path; a controller connected to the plurality of sensors and including a signal-processing module and at least one of an operator interface module and a pump control module, wherein the signal-processing module is configured to: receive, from each of the plurality of sensors, a data stream; filter the data streams received from the plurality of sensors; assign a statistical weight to each of the filtered data streams; determine at least one of a pump operating parameter, a cardiac characteristic, and a pump control parameter based on at least two of the filtered data streams with the statistical weights applied to each of the filtered data streams; and output a statistically weighted value for the at least one of the pump operating parameter, the cardiac characteristic, and the pump control parameter to at least one of the operator interface module and the pump control module. 2. The circulatory support system of claim 1 , wherein the controller is configured to determine a signal quality parameter for each data stream received at the signal-processing module. 3. The circulatory support system of claim 1 , wherein, for each data stream received from the plurality of sensors, the controller is configured to determine a cardiac characteristic based on the data stream, and compare the determined cardiac characteristics to each other. 4. The circulatory support system of claim 3 , wherein the controller is configured to associate each data stream with a quality rating based on the comparison of the determined cardiac characteristics. 5. The circulatory support system of claim 1 , wherein the controller includes the pump control module, and wherein the pump control module is configured to: receive the at least one of the pump operating parameter, the cardiac characteristic, and the pump control parameter from the signal-processing module; and control operation of the implantable blood pump based on the at least one of the pump operating parameter, the cardiac characteristic, and the pump control parameter. 6. The circulatory support system of claim 1 , wherein the accelerometer is configured to detect acceleration of the pump in a first direction, a second direction, and a third direction, and wherein the controller is configured to determine a patient's activity level based on acceleration in at least one of the first direction, the second direction, and the third direction. 7. The circulatory support system of claim 1 , wherein the controller is configured to generate a supplemental data stream based on data streams received from the current sensor and the pressure sensor, wherein the supplemental data stream includes a pressure of blood flowing out of the implantable blood pump through the outlet. 8. The circulatory support system of claim 1 , wherein the controller includes the operator interface module, and wherein the operator interface module is configured to display the at least one of the pump operating parameter, the cardiac characteristic, and the pump control parameter. 9. The circulatory support system of claim 1 , wherein the controller includes the operator interface module and the pump control module, wherein the operator interface is configured to receive at least one operator input relating to a patient's clinical condition and provide the operator input to the pump control module, and wherein the pump control module is configured to control operation of the pump based on the operator input and the at least one of the pump operating parameter, the cardiac characteristic, and the pump control parameter. 10. A method of operating an implantable blood pump, the blood pump including a housing defining an inlet, an outlet, a flow path extending from the inlet to the outlet, and an internal compartment separated from the flow path, a rotor positioned within the flow path and operable to pump blood from the inlet to the outlet, and a stator positioned within the internal compartment and operable to drive the rotor, the method comprising: detecting, using a plurality of sensors, at least two of the following: a current provided to the stator; a position of the rotor relative to the housing; an acceleration of the blood pump in at least one direction; and a pressure of blood flowing through the flow path; receiving, at a signal-processing module of a controller connected to the plurality of sensors, a data stream from each of the plurality of sensors; filtering, by the controller, the data streams received from the plurality of sensors; assigning a statistical weight to each of the filtered data streams; determining, by the controller, at least one of a pump operating parameter, a cardiac characteristic, and a pump control parameter based on at least two of the filtered data streams with the statistical weights applied to each of the filtered data streams; and outputting a statistically weighted value for the at least one of the pump operating parameter, the cardiac characteristic, and the pump control parameter from the signal-processing module to at least one of an operator interface module and a pump control module. 11. The method of claim 10 further comprising generating a supplemental data stream based on the current provided to the stator and the pressure of the blood flowing through the flow path, wherein the supplemental data stream includes a pressure of the blood flowing out of the blood pump through the outlet. 12. The method of claim 11 , wherein determining at least one of a pump operating parameter, a cardiac characteristic, and a pump control parameter based on at least two of the filtered data streams comprises determining at least one of a pump operating parameter, a cardiac characteristic, and a pump control parameter based on at least two of the filtered data streams and the supplemental data stream. 13. The method of claim 10 further comprising determining a signal quality parameter for each data stream received at the signal-processing module. 14. The method of claim 10 further comprising determining, for each data stream received from the plurality of sensors, a cardiac characteristic based on the data stream, and comparing the determined cardiac characteristics. 15. The method of claim 14 further comprising associating each data stream with a quality rating based on the comparison of the determined cardiac characteristics. 16. The method of claim 10 further comprising adjusting a set point of the blood pump based on the at least one of the pump operating parameter, the cardiac characteristic, and the pump control parameter. 17. The method of claim 10 , wherein determining at least one of a pump operating parameter, a cardiac characteri