Abstract: An item monitoring system including a bladder having a body with a hollow interior configured to be filled with a fluid is described. The system includes an indicator fluidly connected to the hollow interior of the body of the bladder, the indicator including a movable component configured to visually indicate a fullness of the shelf with one or more items in a non-electrical manner. The connection between the indicator and the bladder defines a closed system. Displacement of the fluid from the bladder into the indicator moves the movable component of the indicator to indicate the fullness of the shelf.

Abstract: Provided is a wearable navigation device, comprising a band portion positioned at a portion of a human body; a location device that receives navigation data regarding a destination location for an item and determines a distance and orientation with respect to a current position of the wearable navigation device to the destination location; and a plurality of tactile feedback emitters that provide tactile feedback to the portion of the human body in a predetermined sequential order to direct a wearer of the band portion to the destination location having a point of intersection of a length, width, and height.

Abstract: Described in detail herein are methods and systems for dynamically transmitting alerts. Sensors disposed in a facility can detect mobile devices roaming around the facility when they are within range of the sensor. The sensor can transmit the location an identification information of the mobile devices to a computing system. The computing system can determine physical objects disposed within a predetermined distance to the mobile devices. The computing system can determine if at least one physical object is of interest to the users of the mobile devices. The computing system can transmit an alert including information associated with the physical object and generate a messaging interface on the mobile devices. The computing system can prompt the users of the mobile devices to input information associated with the physical object. The computing system can dynamically update the database based on the information input associated with the physical object.

Abstract: A task-indicating shelf that includes a supporting surface for supporting one or more physical objects and one or more visual indicators associated with the shelf and indicative of a task to be performed with respect to the one or more physical objects is described. The task-indicating shelf includes a docking station electrically coupled to the one or more visual indicators and configured to receive a handheld device. Docking the handheld device within the docking station powers an electric circuit between the handheld device and the one or more visual indicators to selectively energize or de-energize the one or more visual indicators.

Abstract: A monitoring system for items in a delivery vehicle is described. Sensors disposed in the delivery vehicle are configured to sense data indicative of a current quality of items stored in the delivery vehicle. A computing device calculates navigation routes for the items in the vehicle and selects among the delivery routes at least partly based on sensor data relating to the monitored quality of the items.

Abstract: Described in detail herein are methods and systems for identifying locations of objects based on detected sounds. In exemplary embodiments, a support structure can generate a sound, via a passive sound emitter, in response to a physical object being placed onto or removed from the support structure. An array of audio sensors disposed in a facility can detect sounds generated by the support structure and can encode the sounds into electrical signals. The audio sensors can output the electrical signals to a computing system. The computing system can identify the sounds encoded in the electrical signals which were detected by the audio sensors and can identify the location of the physical object on the support structure based on the identification of the sound.

Abstract: Systems, methods and apparatuses for monitoring the activity temperature controlled compartments of a refrigeration system by monitoring the activity of the compressor as the compressor changes between the ON or OFF state. In particular, the disclosure describes systems methods and tools for measuring the electrical loads drawn by the compressor for the purpose of predicting and determining the occurrence of unknown events from the energy profile of the compressors. One or more specialized computer systems may be connected between the compressor circuit and an energy source in order to monitor and track the amounts of energy being delivered to the compressor. The specialized computer systems measuring and tracking the electrical load supplied to the compressor may characterize the electrical load supplied as having one or more energy profiles. Each of the energy profiles may correspond to different types of events resulting in the consumption of energy by the compressor.

Abstract: Systems, methods and tools for tracking the amounts of merchandise being displayed or available for sale in a retail environment using measurements of air displacement caused by the movement of customers, employees and shopping carts throughout a retail environment. The disclosed embodiments may position air displacement sensors throughout a store and near the products being offered for sale. As the merchandise is removed by customers, a greater amount of air may be measured. Embodiments of each sensor device may be calibrated with a maximum threshold measurement of air displacement corresponding to the amount of merchandise surrounding the sensor. After enough of the products have been removed from the surrounding proximity of the sensor, the maximum threshold of air displacement may be reached, wherein upon exceeding the maximum threshold of air displacement a signal may be sent alerting employees to restock the specified merchandise proximate to the sensor's location.

Abstract: Methods, systems, and machine readable medium are provided for a detection system for identifying unsafe activity occurring at a shelving unit. A plurality of distance sensors are disposed at a top end of the shelving unit and point downwards towards a bottom end of the shelving unit. The plurality of sensors are configured to detect presence of a person near the shelving unit. An initial height of the person is determined, and a change in height of the person is detected. A processor determined whether the change in height indicates unsafe activity at the shelving unit. If unsafe activity is determined, then an alert is generated.

Abstract: Methods, systems, and apparatuses are provided for sorting mechanisms at a POS terminal. A POS terminal in a secondary mode of operation, receives input of categories. Information of items received by the POS terminal is used to sort the items into the categories.

Abstract: Methods, systems, and apparatuses are provided for sorting mechanisms at a POS terminal. A POS terminal in a secondary mode of operation, receives input of categories. Information of items received by the POS terminal is used to sort the items into the categories.

Abstract: Provided is a stocking tool. The stocking tool includes a first adjustable rigid side member, a second adjustable rigid side member, and a handle operatively coupled to the first adjustable rigid side member and the second adjustable rigid side member. The first adjustable rigid side member and the second adjustable rigid side member move toward and away from each other to adjust a width defined between the first and second adjustable rigid side members. The handle is moveable between a locked position with the handle activating a locking device and an unlocked position with the handle deactivating the locking device. The width defined between the first and second adjustable rigid side members receives product on the shelf and the first and second adjustable rigid side members align the received product on the shelf.

Abstract: Described in detail herein are methods and systems for dynamically transmitting alerts. Sensors disposed in a facility can detect mobile devices roaming around the facility when they are within range of the sensor. The sensor can transmit the location an identification information of the mobile devices to a computing system. The computing system can determine physical objects disposed within a predetermined distance to the mobile devices. The computing system can determine if at least one physical object is of interest to the users of the mobile devices. The computing system can transmit an alert including information associated with the physical object and generate a messaging interface on the mobile devices. The computing system can prompt the users of the mobile devices to input information associated with the physical object. The computing system can dynamically update the database based on the information input associated with the physical object.

Abstract: Described in detail herein are methods and systems for detecting missing or miss positioned labels. The system can include a portable scanning device to scan machine-readable elements included on labels at a first and second location. The portable scanning device can detect the acceleration and the cumulative change between the first and second location. The portable scanning device or a computing system can determine the distance between the first and second location based on the acceleration data. The computing system can place a data point on a map of an estimated location of the location of the first scan and the location of the second scan.

Abstract: Described in detail herein are methods and systems for a label position determination. A label position determination system can include labels mounted on the front face of the shelving units. The labels can include conductive patterns on the back face of the label. The conductive patterns of the labels can be electrically coupled with electrically conductive wires extending along a front face of a shelf. The system can further include a controller coupled to with electrically conductive wires, configured to transmit electrical pulses through the electrically conductive wires. The controller can determine at least one of: an identity of each of the labels mounted to the front face, whether a label has been mounted at an incorrect location on the front face of the shelf, or whether a label is missing from the front face of the shelf based on a response to the electrical pulse.

Abstract: Disclosed is a system for collecting data and mapping wireless network coverage in a building such as a retail store. A mobile computing device is used by an employee to collect data captures and wireless coverage indicators in the retail store. The wireless coverage indicator includes data on the status of wireless network coverage in the location where the data capture was collected. The data capture and the wireless coverage indicators are wirelessly transmitted to a utility for mapping a building when a wireless network is available. If no wireless network is available, the data is stored in the mobile computing device until a wireless network is available. The utility for mapping a building uses information in the data capture to determine the location where the data capture was collected, and maps the data in the wireless coverage indicator to the location on a map of the building.

Abstract: Provided are a system and method for operating a mobile device, comprising: establishing by a locking mechanism at the mobile device that the mobile device is owned or controlled by a retail establishment at which an operator of the mobile device is an agent; searching, by a mobile device, for a signal from a network; authorizing the mobile device to operate in a vicinity of the network when the signal is detected from the network; and inactivating the mobile device or displaying information where the mobile device can operate in response to a failure by the mobile device to detect the signal.

Abstract: A technique for monitoring the quality of objects is disclosed. A container includes a multiple sensors and is configured to receive an object. The sensors monitor various metrics associated with the quality of the object, and a display is affixed to the container for displaying a visual indication of the quality of the object. The visual indication is based on data collected from the sensors. A quality monitoring module is executed by a processor to control the sensors to switch operation between a first mode of operation and a second mode of operation based on a detected change in one of the metrics monitored by the sensors.

Abstract: An example shelf system and associated methods are described. The shelf system includes a frame with a base member and a vertical member, first and second shelves extending from opposite sides of the vertical member, and first and second pairs of sensors disposed below the base member. In response to positioning a physical object on the first shelf or the second shelf, the physical object applies a torque on the vertical member and each of the sensors output electrical signals corresponding to a change in weight sensed by each of the sensors based on the torque. The shelf system includes a central computing system configured to determine which of the first shelf or the second shelf received the physical object, an estimated location of the physical object on the first or second shelf, and whether the physical object is positioned on the first or second shelf in an expected location.

Abstract: A technique for monitoring objects in a cart is disclosed. A cart is configured to receive an object and includes a plurality of sensors configured to detect a location of the cart and a characteristic of an object in the cart. The cart also includes a docking station that can receive an electronic device and operatively and electrically couple the sensors to the electronic device. A computing system is in communication with the electronic device and configured to access a database containing a stored list generated by the user. The computing can identify the object in the cart based, at least in part, on data received from the plurality of sensors and the location of the cart. The computing system can also determine whether the object in the cart is included on the stored list.