A server device includes a controller. The controller is configured to acquire temperature information that is information associated with a temperature of a predetermined area inside a vehicle, the predetermined area being configured to store a luggage and the predetermined area being configured to be locked and unlocked. The controller is configured to acquire luggage information that is information on the luggage to be stored in the predetermined area, and determine whether the predetermined area is an environment suitable for storage of the luggage at a scheduled storage time of the luggage based on the luggage information and the temperature information.

This invention relates to a method and apparatus for automated measurement of the temperatures of samples on a production line without any human intervention. In one aspect the apparatus has a conveyance system; and a temperature measurement unit having: a first member and a second member which are movable relative to each other between at least a first position in which the first and second members cooperate to form an internal space which is substantially internally reflective of radiofrequency radiation and a second position in which the object can be introduced into said internal space; and a radiometer arranged so that it is coupled to said internal space, wherein the conveyance system is arranged to convey the object to a measurement position in said internal space whilst the first and second members are in the second position, for a measurement of the radiation emitted from the object to be performed by the radiometer when the first and second members are in the first position and to convey the object away from said measurement position once the measurement has been performed and said first and second members have returned to the second position. The apparatus allows for recording and storing of measured temperature information. Embodiments of the invention provide for auto-calibration of the apparatus and automated testing and rejection of samples which do not meet pre-defined criteria.

In some embodiments, systems, apparatuses, and methods are provided herein useful to monitoring condition compliance. In some embodiments, an RFID tag comprises a first chip and a second chip, an antenna, a switch, wherein the switch is configured to switchably connect the first chip and the second chip to the antenna based on occurrence of a condition, a memory device, and a control circuit configured to write, in response to a connection between the first chip and the antenna, a first marker and an indication of a first state to the memory device, write, in response to a connection between the second chip and the antenna, a second marker and an indication of a second state to the memory device, determine an amount of time in which compliance was not met, and transmit, to an RFID reader, an indication of the amount of time in which compliance was not met.

A reading processing apparatus for a temperature display device includes: an obtaining device obtaining an image of the temperature display device; a storage storing color fading information for each temperature; and a temperature estimation device estimating an ambient temperature of the temperature display device. The obtaining device includes a time information image indicating time information and a temperature information image displaying information about a temperature and an elapsed time by a change in color, and to which image pickup time information is added. The color fading information indicates a relation between a color changed by a temperature change, an elapsed time, and a temperature. The temperature estimating unit estimates the temperature to which the temperature display device is exposed by checking color information and elapsed time detected from the image against the color fading information stored in the storage.

A method of estimating a temperature history of a product transported in a shipping enclosure, the method including measuring an actual ending temperature of the product, acquiring ambient temperature data of the shipping enclosure, creating a plurality of simulated trips based in part on the ambient air temperature data of the shipping enclosure, wherein each of the plurality of simulated trips includes an estimated ending product temperature value, and determining whether the difference between the estimated ending product temperature value and the actual temperature of the product is within a temperature threshold.

The present invention relates to the time-temperature indicating module which allows the user to trigger the bursting of the starting member with a simple motion and generate a crack so that the spread material interposed inside spreads via the crack. The present invention also relates to the manufacturing method of the time-temperature indicating module that strengthens a sealed section of the time-temperature indicating module using laminating by heat sealing to prevent the spread material from leaking or flowing out.

A method and system to determine a hot cargo load condition of a cargo load in a refrigerated container includes providing a plurality of sensors disposed within the refrigerated container, operating the refrigeration unit with a set of desired operational parameters corresponding to the cargo load, analyzing a plurality of sensor readings corresponding to the plurality of sensors via a processor, creating a temperature distribution profile of the refrigerated container corresponding to the plurality of sensor readings via the processor, retrieving a historical temperature distribution profile corresponding to the cargo load via a historical database, comparing the temperature distribution profile to the historical temperature distribution profile via the processor, and identifying the hot cargo load condition in response to the temperature distribution profile exceeding the historical temperature distribution profile via the processor.

One variation of a method for tracking temperature exposure of foodstuffs within an automated sandwich assembly apparatus includes: at a topping module, receiving first topping sample and a second topping sample in a column of topping samples; at a first time, determining a first temperature of the first topping sample; in response to the first temperature of the first topping sample exceeding a threshold temperature, setting a first timer assigned to the first topping sample; cutting a slice from the second topping sample; following dispensation of the slice of the second topping sample from the topping module, tracking a position of the first topping sample within the topping module; and in response to expiration of the first timer prior to dispensation of a final portion of the first topping sample from the topping module, disqualifying the final portion of the first topping sample from dispensation onto a topping vehicle.

A system and method for determining and reporting refrigeration equipment operating metrics using only sensed interior air temperature is taught. By repeatedly sensing interior air temperature an average food temperature metric, a runtime metric, a compressor cycle metric, and a door opening count metric is determined and reported.

One variation of a method for tracking temperature exposure of foodstuffs within an automated sandwich assembly apparatus includes: at a topping module, receiving first topping sample and a second topping sample in a column of topping samples; at a first time, determining a first temperature of the first topping sample; in response to the first temperature of the first topping sample exceeding a threshold temperature, setting a first timer assigned to the first topping sample; cutting a slice from the second topping sample; following dispensation of the slice of the second topping sample from the topping module, tracking a position of the first topping sample within the topping module; and in response to expiration of the first timer prior to dispensation of a final portion of the first topping sample from the topping module, disqualifying the final portion of the first topping sample from dispensation onto a topping vehicle.