This disclosure pertains to weighing a physical item while it is moving in a servo-driven conveyor system for e-commerce, logistics, manufacturing and other applications. The introduction of an unknown mass to an electro-mechanical feedback or filter network controlling a conveyance system will modify the steady state behavior of that system in such a way that measuring the phase or frequency shift of an input signal or oscillation will enable us to infer the magnitude of that mass.

Embodiments of a system and method for automating shipping for a physical object can include an object dimensions measurer (ODM) operable to collect and wirelessly transmit a dimensions dataset for the physical object, an object weight measurer (OWM) operable to collect and wirelessly transmit a weight dataset for the physical object, and a shipping automation system operable to receive datasets from the ODM and the OWM, implement a compatibility rule facilitating standardization of requirements for service levels provided by shipping carriers, determine object characteristics for the physical object, determine object characteristic specifications required by the service levels, and determine a service level for the physical object based on the object characteristics and the object characteristic specifications.

The embodiments of the present disclosure disclose a self-service express cabinet and a package delivery method. The self-service express cabinet may include: a cabinet body including a sending window and a chamber, wherein the sending window may be connected with the chamber, and the sending window may be disposed on a surface of the cabinet body; a human-machine interaction device disposed on the cabinet body for information interaction with a user; an inspection device disposed in the chamber and capable of performing security inspection on a package dropped into the chamber for delivery, wherein the inspection device may have a receiving end and an output end, and at least part of the receiving end may be located within a scope of a forward projection of the sending window; and at least one storage component disposed in the chamber and corresponding to the output end.

A method includes a computer receiving a fulfillment request associated with one or more items. Responsive to receiving the fulfillment request, the computer determines estimated weight data based on the one or more items in the fulfillment request. The computer obtains actual weight data associated with the fulfillment request for one or more items. The computer verifies that the actual weight data corresponds to the estimated weight data. The computer performs additional processing based on verifying.

The package dimensioning device is configured for ascertaining measurements of cuboidal and boxed items to provide data to computer-implemented package management processes. The device has a base and a vertical support member. The base is configured to receive a package thereon and includes a weight sensor. There are multiple space-apart contactless sensors including a top sensor carried by the vertical support member, and side sensors positioned adjacent sides of the base which output dimensional data signals related to a height, length and width of the package. A control unit is communicatively coupled to the weight sensor and multiple spaced apart sensors and configured to calculate weight, height, length and width measurements of the package based upon the weight data signal and dimensional data signals. A communication unit is coupled to the control unit and configured to output the weight, height, length and width measurements to a computer network resource for access and use by the computer-implemented package management processes.

In a dynamic scale and control method for flat goods transported on their sides, use an input-side first assembly for thickness measurement, a transport device having transport belts arranged on a weighing plate. A control processor starts a length measurement and the driving of the transport belts, and starts a thickness measurement and implement a dynamic weighing process during the transport of a first flat good. A next flat good is supplied to the input of the dynamic scale if a valid weight measurement result is present for the predecessor good, and ejection of the predecessor good or end of the weight measurement occur if a third sensor at the input of a takeoff device of the dynamic scale detects the leading edge of the predecessor good, and a check yields that no valid weight measurement result is present for the predecessor good.

Embodiments of a system and method for automating shipping for a physical object can include an object dimensions measurer (ODM) operable to collect and wirelessly transmit a dimensions dataset for the physical object, an object weight measurer (OWM) operable to collect and wirelessly transmit a weight dataset for the physical object, and a shipping automation system operable to receive datasets from the ODM and the OWM, implement a compatibility rule facilitating standardization of requirements for service levels provided by shipping carriers, determine object characteristics for the physical object, determine object characteristic specifications required by the service levels, and determine a service level for the physical object based on the object characteristics and the object characteristic specifications.

Systems, software, and methods for processing a package for shipping to a recipient are described. The system includes a user device and a package intake device. The user device includes software that allows a user to connect with other users to make the user's address available to the other users including any updates due to moves or travel. The user device also features a transmission device for transmitting recipient information of a recipient selected from a list of recipients displayed on the user device. The package intake device includes a computer, a receiving device for receiving the recipient information transmitted by the user device, and a package recognition device for analyzing the package to determine one or more package criteria. The package intake device determines a type for the package and an identity of a shipper selected to deliver the package based on the one or more package criteria.

A UID is utilized as a scale and determine basic intake information for shipping a package in order for an individual to use their UID as a intake information determining device in sending packages. Such a device is intended to be used with unmanned kiosks where the intake information would be transmitted to the shipper and the package deposited for pickup and shipping. Unmanned kiosks of this nature would provide for reduced cost and ease of drop off of packages.

A package dimensioning device is provided. The device may comprise a frame, a weight sensor, contactless sensors, a control unit, and a communication unit. The frame may be configured to receive a package thereon. The weight sensor may be configured to output a weight data signal that may be related to a weight of the package. The contactless sensors may comprise a plurality of contactless sensors. The plurality of contactless sensors may be configured to output a dimensional data signal that may be related to at least one of a height, length and width of the package. The control unit may be communicatively coupled to the weight sensors and the plurality of contactless sensors. The communication unit may be coupled to the control unit. The communication unit may be configured to output measurements of the package to a computer network resource.