Wearable cardioverter defibrillator (wcd) system making shock/no shock determinations by aggregating aspects of multiple patient parameters

1 - 26 . (canceled) 27 . A wearable cardioverter defibrillator (“WCD”) system, comprising: a support structure configured to be worn by a patient; a power source; an energy storage module configured to be coupled to the support structure, to be charged from the power source and to store an electrical charge; a discharge circuit coupled to the energy storage module; one or more transducers configured to render a plurality of physiological inputs from one or more patient parameters that are sensed from different parts of the patient's body; and a processor configured to: detect first aspects from each of at least some of the physiological inputs, generate an aggregated first aspect from at least two of the detected first aspects, determine an aggregate analysis score from the aggregated first aspect, determine whether or not the aggregated first aspect meets an aggregate shock criterion, and if it is determined that the aggregate shock criterion is met control the discharge circuit to discharge the electrical charge through the patient within 6 min from when it is determined that the aggregate shock criterion is met, else control the discharge circuit to not discharge the electrical charge through the patient for at least 19 min from when it is determined that the aggregate shock criterion is not met. 28 . The WCD system of claim 27 , in which the one or more transducers include at least three Electrocardiogram (ECG) electrodes configured to contact the patient so as to define a plurality of vectors, and in which the patient parameters are electrical patient physiological signals measured along the vectors, the transducer further includes a measurement circuit, and the physiological inputs reflect ECG measurements measured along the vectors. 29 . The WCD system of claim 27 , in which the aggregated first aspect is generated from a first statistic of values of the at least two of the detected first aspects. 30 . The WCD system of claim 27 , in which the aggregated first aspect is generated by averaging values of the at least two of the detected first aspects. 31 . The WCD system of claim 27 , in which the aggregated first aspect is generated by choosing a median value of values of at least three of the detected first aspects. 32 . The WCD system of claim 27 , in which the physiological inputs reflect ECG measurements, and the detected first aspects include respective values for a heart rate. 33 . The WCD system of claim 27 , in which the physiological inputs reflect ECG measurements, the detected first aspects include at least two values for a heart rate, and the aggregated first aspect is generated by choosing a minimum value of the at least two values for the heart rate. 34 . The WCD system of claim 27 , in which the physiological inputs reflect ECG measurements, and the detected first aspects include respective values for a width of one or more QRS complexes. 35 . The WCD system of claim 27 , in which the physiological inputs reflect ECG measurements, the detected first aspects include at least two values for a width of one or more QRS complexes, and the aggregated first aspect is generated by choosing a maximum value of the at least two values for the width of the one or more QRS complexes. 36 . The WCD system of claim 27 , in which the physiological inputs reflect ECG measurements, and the detected first aspects include respective values for a measure of QRS organization. 37 . The WCD system of claim 27 , in which the processor is further configured to: detect second aspects from each of at least some of the physiological inputs, and generate an aggregated second aspect from at least one of the detected second aspects, and in which the aggregate analysis score is determined also from the aggregated second aspect. 38 . The WCD system of claim 37 , in which the aggregated second aspect is generated from the at least one of the detected second aspects in a manner different than a manner in which the aggregated first aspect is generated from the at least two of the detected first aspects. 39 . The WCD system of claim 37 , in which the processor is further configured to determine an additional aggregate analysis score after determining the aggregate analysis score, filter at least the aggregate analysis score and the additional aggregate analysis score over time, and the aggregate analysis score is updated by the filtering before determining whether or not the aggregate shock criterion is met. 40 . The WCD system of claim 37 , in which the processor is further configured to: detect third aspects from each of at least some of the physiological inputs, generate an aggregated third aspect from at least some of the detected third aspects, and the aggregate analysis score is determined also from the aggregated third aspect. 41 . The WCD system of claim 27 , further comprising: a memory, and in which the processor is further configured to retain at least some of the detected first aspects over time. 42 . The WCD system of claim 27 , in which the processor is further configured to filter at least some of the detected first aspects over time, and the aggregated first aspect is determined instead from filtered values of the detected first aspects. 43 . The WCD system of claim 27 , in which the discharge circuit is controlled to discharge the electrical charge through the patient within 6 min from when it is determined that the aggregate shock criterion is met, but only if: additional physiological inputs have been rendered from the one or more patient parameters that are sensed from the different parts of the patient's body, additional first aspects and additional second aspects have been detected from each of at least some of the additional physiological inputs, a plurality of characteristic first aspects have been determined from at least two of the additional detected first aspects for respective ones of the different parts of the patient's body, a plurality of characteristic second aspects have been determined from at least two of the additional detected second aspects for respective ones of the different parts of the patient's body, and in which the aggregated first aspect has been determined from at least two of the characteristic first aspects, and the aggregated second aspect has been determined from at least two of the characteristic second aspects. 44 . The WCD system of claim 43 , in which one of the characteristic first aspects is determined as a value from a statistic of values of the least two of the additional detected first aspects from which it is determined. 45 . The WCD system of claim 43 , in which the processor is further configured to filter at least some of the additional detected first aspects over time, and the characteristic first aspect is determined instead from filtered values of the detected first aspects. 46 - 79 . (canceled)