A food inventory tracking system within a refrigerated food storage compartment includes cameras configured for capturing images of food, load cell sensors for taking weight measurements of food and a computing system for reading images from the cameras and weight measurements from the load cell sensors, generating a three-dimensional location map of an interior of the refrigerated food storage compartment, mapping the images and weight measurements to segments of the three-dimensional location map, such that each segment of the three-dimensional location map is associated with images and weight measurements, identifying a type of food item within said segments based on the images and weight measurements associated with said segment, calculating a current amount of said food item based reporting to a user the type of said food item and the amount of said food item.

A vehicle weight detection method, system, and non-transitory computer readable medium, include calculating a first difference between a first expected weight of a vehicle and a first current weight of the vehicle based on On-Board Dash (OBD) input data, calculating a second difference between a second expected weight of the vehicle and a second current weight of the vehicle based on a spring-mass-damper mechanical algorithm using vehicle data received from a user device, a comparing circuit configured to compare each of the first difference and the second difference to a predetermined weight difference threshold value, and a location checking circuit configured to checks if a location of the vehicle matches a location in a list of verified weight change locations of a database if the comparing circuit detects at least one of the first difference and the second difference is greater than the predetermined weight difference threshold value.

Disclosed is a monitoring system for a conveyor belt weighing system, the monitoring system comprising: a status page displaying a plurality of calibration status displays for the conveyor belt weighting system, each of the calibration status displays including a reference calibration value and a comparison between the reference calibration value and a calibration value for the conveyor belt weighing system, wherein the reference calibration value is an ideal value for the calibration value.

System, methods, and computer program products are provided for enhanced freight tracking and monitoring. The system may track the location of a freight shipment within a carrier's transportation network from the time it is picked up by a carrier from a consignor until it is delivered to a consignee, provide for weight determinations and shipping re-classifications of the freight shipment during transport, and provide real-time status information and reports to the carrier, consignor, and/or consignee.

Systems and methods for real-time notification and mobile content delivery are provided herein. In one embodiment, a system includes a server that is configured to receive user parameter data of a user, construct a user plan that includes meal and exercise components, perform periodic evaluations of the user based on one or more targets, the one or more targets being based on the meal and exercise components, the evaluations including biometric feedback from biometric tracking devices or the user that are indicative of user performance relative to the one or more targets, and periodically transmit messages to a client device associated with the user to inform the user of any of compliance with or deviations relative to the one or more targets.

A system for facilitating travel includes a handheld device for weighing luggage that is electronically linked with an application server via a smart device. The device includes electronics disposed within a housing configured to conform to a luggage handle. Lifting the luggage with the device disposed against its handle causes the luggage weight to impart a force onto the housing. This force is sensed by the electronics and converted into a weight measurement that is displayed on the smart device and sent to the application server. Weight measurements stored on the application server can be integrated with airline flight information, such as baggage restrictions, to provide certain advantages. For instance, weight measurements can be retrieved by a traveler to ensure baggage compliance. Additionally, historical luggage data can reviewed by an airline on a flight-based level to prepare for atypical cargo loads or on a traveler-basis to incentivize light baggage travel.

A method for dynamically managing power consumption, as well as a wake-up method, is disclosed for a wireless weighing platform. The method is initialized by setting both light and deep sleep period, entering a normal operating state, and starting light sleep timing. As long as no weighing operation is detected and the light sleep period has not expired, the method seeks to detect the weighing operation. If the light sleep period expires with no weighing operation, a light sleep state is entered, by turning off a communication function and starting timing for the deep sleep period. If no weighing is when the deep sleep period has expired, the wireless weighing platform enters a deep sleep state, by turning off power supply other than that for an acceleration sensor. If the acceleration sensor detects an effective vibration while in the deep sleep state, the normal operating state is restarted.

A portable food scale includes: (a) a body portion having an upper body portion and a lower body portion, wherein a cavity is defined between the upper body portion and the lower body portion; (b) a plurality of load cells housed within the cavity; and (c) a plurality of clip portions securing the upper body portion to the lower body portion, each of the clip portions being engaged with at least one of the plurality of load cells.

The present invention generally provides personal health management devices, and corresponding systems and methods. The personal health management device generally include an electronic controller and at least one memory device which cooperate to store at least temporarily weight management data for managing the weight of at least one user, such as a user's weight, a user's body fat percentage, exercise data, food consumption data, or a combination thereof, obtained from at least one component for obtaining such data, such as a keypad, a body fat percentage sensor for measuring a user's body fat percentage, a scale for measuring a user's weight, an exercise machine, a food scale, etc, and a communications unit for communicating the data obtained to a healthcare provider for monitoring progress with respect to a weight management program over a communications network.

A method includes receiving, via an electronic scale device supporting a user thereon, an indication to begin a verified weight sequence. Responsive to the indication to begin, the method includes: (1) determining a body weight of the user supported by the electronic scale device, (2) receiving, via an electronic device, image data that is reproducible as a visual image of at least a portion of the user supported on the housing of the scale, and (3) generating a data file including: (a) weight data that is representative of the determined body weight of the user supported by the housing, (b) the image data, and (c) time data corresponding to a date and time that the body weight of the user was determined.