Systems, apparatus, and methods are disclosed comprising receiving temperature information corresponding to a write temperature of at least one of multiple pages of non-volatile memory cells of a group of non-volatile memory cells, determining a statistical measure of temperature information for the group non-volatile memory cells using the received temperature information, and storing the determined statistical measure of temperature information for the group of non-volatile memory cells. The stored determined statistical measure of temperature information can be used to optimize or improve one or more storage system operations.

A temperature monitoring system includes a thermometer and a first communication device. The thermometer counts a monitoring time, executes a measuring procedure to acquire a first temperature value and a second temperature value to determine whether to wirelessly broadcast a temperature information signal, and executes a time interval producing procedure after the measuring procedure to determine a time interval and to determine whether the measuring procedure is terminated. The first communication device receives the temperature information signal from the thermometer. The user may remotely monitor the temperature of a monitored object through the first communication device.

Systems and methods of the invention relate to methods and systems that collect data regarding a keg or container via a sensor, wherein such data collected is used to glean information regarding the container, the contents of the container, a location of the container, or an environment in which the container resides. The sensor can be affixed to a container which communicates wirelessly with a gateway device and the gateway device communicates such collected data to a track component. The track component can be configured to receive data from the sensor(s) and gateway device(s) and identify conditions to improve the quality of the contents of the container, track a location of the container, and among others.

Systems and methods of the present invention allow to determine ambient gas temperature in harsh environments such as in a steam autoclave chamber during a sterilization process. In certain embodiments of the invention, temperature data is gathered using a sensor that is placed in an enclosed electronics-based temperature logging device. A capsule seals the temperature logging device except for a through hole that, during regular operation, allows gas to directly contact a surface of the temperature logging device in order to reduce a time lag between the data logging device and an ambient gas. As a result, the data logging device accurately can track temperature variations when placed, for example, inside a chamber.

A computerized component, designed to be used in a vehicle, is able to detect an ambient environmental variable; determine a memory profile corresponding to the ambient environmental variable; access memory parameters from the memory profile; and configure memory of the computerized component based on the accessed memory parameters. Another computerized component may be used to detect that the computerized component is initiating a shutdown procedure; obtain an ambient environmental variable, the ambient environmental variable indicating a state of an operating environment of the computerized component; identify memory parameters of random access memory integrated with the computerized component; and write the memory parameters to a memory profile stored in non-volatile storage in the computerized component, the memory profile keyed to the ambient environmental variable.

A temperature interpolation device includes: a temperature data reading/writing unit which continues to record both time information and temperature data in a nonvolatile storage medium in the operation of a target device whose temperature data is read, and which checks the time information recorded in the nonvolatile storage medium at predetermined time intervals so as to determine whether or not data is lost in a predetermined time section; and a past temperature estimation unit which uses, when the temperature data reading/writing unit determines that the data is lost, the data recorded in the nonvolatile storage medium and a calculation parameter recorded in a calculation parameter setting unit so as to estimate and interpolate the lost data with a temperature interpolation formula.

A system for monitoring the characteristics of a material by measuring electrical properties of a material uses a material monitoring device and a cloud database that relates electrical properties of a material to characteristics of that material. The aging and fermentation processes of wine and other alcohols can be monitored. The status and decomposition of foodstuffs can be monitored. The progress of chemical reactions in a vessel can be monitored. Water quality of water from a water conduit can be monitored. These characteristics can be indicated on a product monitoring device or can be communicated to an external computing device.

Provided is a sensor package in a refrigerator configured to provide information related to refrigerated food. The sensor package may include a body having a mark classified by a type of food allocated to the sensor package and indicating the type of food of a food to which the sensor package is coupled, a battery, an operation switch, a memory configured to store food information corresponding to the type of food corresponding to the mark, a sensor communication module that communicates with a display provided in the refrigerator, a sensing module that senses state information associated with the food, and a sensor control module that controls the sensor communication module to initiate communication between the sensor package and the display of the refrigerator based on the state information sensed by the sensing module.

Systems and methods for temperature monitoring and environmentally related calculations are disclosed herein. A system according to embodiments herein may include a memory, a network interface, and one or more processors. The system may receive one or more environmental readings from a sensor taking readings at an environmentally controlled area. The system may further determine a timestamp corresponding to each of the one or more readings and calculate, using the one or more readings and their corresponding timestamps, an exposure of a good stored within the temperature controlled area. The system may further determine that the calculated exposure of the good has surpassed a pre-determined exposure threshold for the good and send an electronic message configured to indicate such determination to a user. The system may use a neural network to predict future readings based on current readings and use the predicted future readings in methods described herein.

Methods, systems and computer program products provide for a Risk Assessment Engine that receives body ambient temperature data captured by a sensor in contact with a person. The Risk Assessment Engine characterizes types of activities performed by the person during a time range associated with the body ambient temperature data. The Risk Assessment Engine determines a risk classification individualized for the person based on respective workloads and the corresponding allocations of work and rest experienced by the person during performance of the characterized types of activities.