Container Refrigeration Monitoring Systems And Methods

What is claimed is: 1 . A system for monitoring health of refrigerated storage containers, comprising: an instantaneous health module configured to determine instantaneous health values for a refrigerated storage container based on parameters measured by sensors of a refrigeration system of the refrigerated storage container during a trip of the refrigerated storage container; a statistics module configured to, after completion of the trip of the refrigerated storage container, determine statistical values based on the instantaneous health values determined for the trip; and a health module configured to: determine an overall health value for the refrigerated storage container at the completion of the trip based on the statistical values; and store the overall health value for the refrigerated storage container in memory in association with a unique identifier of the refrigerated storage container. 2 . The system of claim 1 where the parameters measured by the sensors include at least two of: a condenser temperature measured by a condenser temperature sensor of the refrigeration system; a discharge line temperature measured by a discharge line temperature sensor of the refrigeration system; a return air temperature measured by a return air temperature sensor of the refrigeration system; a supply air temperature measured by a supply air temperature sensor of the refrigeration system; an evaporator temperature measured by an evaporator temperature sensor of the refrigeration system; a suction temperature measured by a suction temperature sensor of the refrigeration system; a suction pressure measured by a suction pressure sensor of the refrigeration system; a discharge pressure measured by a discharge pressure sensor of the refrigeration system; a line current input to the refrigeration system; a voltage input to the refrigeration system; and a frequency of a voltage input to the refrigeration system. 3 . The system of claim 1 where the parameters measured by the sensors include all of: a condenser temperature measured by a condenser temperature sensor of the refrigeration system; a discharge line temperature measured by a discharge line temperature sensor of the refrigeration system; a return air temperature measured by a return air temperature sensor of the refrigeration system; a supply air temperature measured by a supply air temperature sensor of the refrigeration system; an evaporator temperature measured by an evaporator temperature sensor of the refrigeration system; a suction temperature measured by a suction temperature sensor of the refrigeration system; a suction pressure measured by a suction pressure sensor of the refrigeration system; a discharge pressure measured by a discharge pressure sensor of the refrigeration system; a line current input to the refrigeration system; a voltage input to the refrigeration system; and a frequency of a voltage input to the refrigeration system. 4 . The system of claim 3 wherein the instantaneous health module is configured to determine the instantaneous health values further based on an ambient temperature outside of the refrigerated storage container. 5 . The system of claim 4 wherein the instantaneous health module is configured to determine the instantaneous health values further based on a setpoint temperature within the refrigerated storage container. 6 . The system of claim 1 wherein the statistical values include: a standard deviation of the instantaneous health values; a geometric mean of the instantaneous health values; a median absolute deviation of the instantaneous health values; and a winsorized standard deviation of the instantaneous health values. 7 . The system of claim 1 wherein the statistical values include at least two of: a standard deviation of the instantaneous health values; a median of the instantaneous health values; a geometric mean of the instantaneous health values; a harmonic mean of the instantaneous health values; a kurtosis of the instantaneous health values; a skewness of the instantaneous health values; a median absolute deviation of the instantaneous health values; a mean of the instantaneous health values; a variance of the instantaneous health values; a winsorized mean of the instantaneous health values; a winsorized standard deviation of the instantaneous health values; a pseudo standard deviation of the instantaneous health values; and an inner quartile range of the instantaneous health values. 8 . The system of claim 1 further comprising a recommendation module configured to: set a recommendation for whether to perform a pre-trip inspection of the refrigerated storage container based on the overall health value of the refrigerated storage container; and store the recommendation in the memory in association with the unique identifier of the refrigerated storage container. 9 . The system of claim 8 wherein the recommendation module is configured to: set the recommendation to a first state when the overall health value of the refrigerated storage container is greater than a predetermined value; and set the recommendation to a second state when the overall health value of the refrigerated storage container is less than the predetermined value. 10 . The system of claim 9 further comprising a communication module configured to: receive a request including the unique identifier of the refrigerated storage container from a user device via a network; based on the unique identifier included in the request, retrieve the overall health value of the refrigerated storage container and the recommendation for the refrigerated storage container from the memory; and transmit the overall health value and the recommendation to the user device via the network. 11 . The system of claim 10 further comprising the user device, wherein the user device is configured to display on a display at least one of (i) the overall health value of the refrigerated storage container and (ii) the recommendation. 12 . The system of claim 1 further comprising a communication module configured to: receive a request including the unique identifier of the refrigerated storage container from a user device via a network; based on the unique identifier included in the request, retrieve the overall health value of the refrigerated storage container from the memory; and transmit the overall health value to the user device via the network. 13 . The system of claim 12 further comprising the user device, wherein the user device is configured to display the overall health value of the refrigerated storage container on a display. 14 . A method for monitoring health of refrigerated storage containers, the method comprising: determining instantaneous health values for a refrigerated storage container based on parameters measured by sensors of a refrigeration system of the refrigerated storage container during a trip of the refrigerated storage container; after completion of the trip of the refrigerated storage container, determining statistical values based on the instantaneous health values determined for the trip; determining an overall health value for the refrigerated storage container at the completion of the trip based on the statistical values; and storing the overall health value for the refrigerated storage container in memory in association with a unique identifier of the refrigerated storage container. 15 . The method of claim 14 further comprising receiving the parameters measured by the sensors, the parameters including at least two of: