Systems, methods, and computer-readable storage media for determining compliance of a container with composite signatures are disclosed. The disclosed techniques utilize a first device (e.g., an edge device) to determine characteristics of a container, such as dimensions, weight, indicia, or a combination thereof. Information indicative of the characteristics is sent to a computing device that determines a composite signature (or parameters) of the container based on the information. The computing device compares the composite signature (or parameters) to one or more stored composite signatures to determine compliance of the composite signature (e.g., of the container) with the one or more stored composite signatures (or stored parameters). The computing device also controls a process of managing a release of the container based on the compliance or non-compliance.

Methods and systems for tracking an object comprise a horizontal surface upon which objects are to be placed, a weight sensor disposed on one side of the horizontal surface, and a processor in communication with the weight sensor. The processor is adapted to detect a change in weight measured by e weight sensor, to associate the detected weight change with an identified object and with a location on the horizontal surface, and to confirm whether a cause of the weight change at the location on the horizontal surface corresponds to a proper handling of the identified object.

Methods and systems for tracking an object comprise a horizontal surface upon which objects are to be placed, a weight sensor disposed on one side of the horizontal surface, and a processor in communication with the weight sensor. The processor is adapted to detect a change in weight measured by the weight sensor, to associate the detected weight change with an identified object and with a location on the horizontal surface, and to confirm whether a cause of the weight change at the location on the horizontal surface corresponds to a proper handling of the identified object.

An automatic packing machine and automatic packing method for express delivery are provided. The automatic packing machine for express delivery includes: a frame; a box discharging mechanism, fixed to the frame; a weighing mechanism, fixed to the frame, the weighing mechanism including a weighing plate and a weighing plate steering engine which are arranged in coordination and an image collecting module, the weighing plate steering engine and the image collecting module being fixed to the frame, and the image collecting module facing the weighing plate; a box body unfolding mechanism; a box closing mechanism; a conveying mechanism; and a controller, connected to all other structures of the automatic packing machine for express delivery. Through the technical solutions of the present invention, multiple functions are integrated, the degree of automation is high, and different items are packaged by using different box bodies.

In a method and apparatus for length measurement of a flat good in a goods processing system having first and second stations, each having a sensor in the transport direction of the flat good, a control processor implements a path control and counts encoder pulses of an encoder in the first station. An event is determined by the sensor of the second station, and an associated numerical value Z1 of the encoder pulses is stored in the control processor, as is a numerical value Z2 for a distance between the two sensors is also stored. An additional event is determined by the sensor of the first station, and an associated numerical value Z3 of the encoder pulses is stored. As soon as both events are present, Z2 and the difference Δ=Z3−Z1 are added by the control processor, and the sum is used to designate the length.

A monitoring system that is configured to monitor a property includes a connected scale device that is configured to receive a package, determine a weight of the package, and after determining the weight of the package, arm the connected scale device, and a monitoring control unit that is configured to receive, from the connected scale device, data indicating that the connected scale device received the package and the connected scale device is armed, and based on receiving the data indicating that the connected scale device received the package and the connected scale device is armed, communicate, to a user device of a resident of the property, a notification indicating that the connected scale device received the package.

A multifunctional handheld scanner includes a scanner main body (100) and a volume measuring module (200). The scanner main body (100) has a work surface (101) and a barcode capturing unit (102) exposed on the work surface (102). The volume measuring module (200) is disposed on the work surface (101) and has: photographic lenses (201a, 201b), an optical distance measuring unit (300) and an optical projection unit (400). The photographic lenses (201a, 201b) define a measuring zone (204). The optical distance measuring unit (300) is disposed corresponding to the measuring zone (204). The optical projection unit (400) projects an aiming indication cursor (410) toward a projection zone (401), wherein the projection zone (401) is located within the measuring zone (204).

Various configurations of picking and packaging carts are disclosed that can be advantageously employed in Ecommerce and retail settings to improve operational efficiency. Examples can preclude the need for a detour from the item retrieval location to a packaging area, prior to delivery to a shipping area, such as a drop-off point. Some examples include a frame; a shelf rack; accessory support units including a printer holder; multiple shipping container support units configured to hold a plurality of shipping containers of a plurality of sizes; and a packaging shelf arrangement comprising a top shelf providing a flat packaging surface.

Systems, methods, and computer-readable storage media for determining compliance of a container with composite signatures are disclosed. The disclosed techniques utilize a first device (e.g., an edge device) to determine characteristics of a container, such as dimensions, weight, indicia, or a combination thereof. Information indicative of the characteristics is sent to a computing device that determines a composite signature (or parameters) of the container based on the information. The computing device compares the composite signature (or parameters) to one or more stored composite signatures to determine compliance of the composite signature (e.g., of the container) with the one or more stored composite signatures (or stored parameters). The computing device also controls a process of managing a release of the container based on the compliance or non-compliance.

A multifunctional handheld scanner includes a scanner main body (100) and a volume measuring module (200). The scanner main body (100) has a work surface (101) and a barcode capturing unit (102) exposed on the work surface (102). The volume measuring module (200) is disposed on the work surface (101) and has: photographic lenses (201a, 201b), an optical distance measuring unit (300) and an optical projection unit (400). The photographic lenses (201a, 201b) define a measuring zone (204). The optical distance measuring unit (300) is disposed corresponding to the measuring zone (204). The optical projection unit (400) projects an aiming indication cursor (410) toward a projection zone (401), wherein the projection zone (401) is located within the measuring zone (204).