In a franking system and method for franking of individual items of correspondence by a sender, a weighing device determines the weight of an item of correspondence and determines a postage amount associated with the item of correspondence. A printing device prints a value imprint corresponding to the postage amount and prints a code associated with the item of correspondence that represents a unique identity number onto the item of correspondence. A control computer creates a data set associated with the item of correspondence. A memory is associated with the control computer, in which the data set is stored in a file associated with the sender. The data set includes the identity number of the item of correspondence and the postage amount that is to be debited on the part of the delivery service from the sender using the data set. A registration unit is associated with the control computer, which registers the possibility of the presence of a misprint and, given the presence of a possible misprint, writes to a first data field of the data set with information about the presence of the possible misprint.

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.

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 dynamic scale to achieves a higher throughput, by at least one of a spring steel sheet being installed in the travel direction of the first shaft of the first transport belt, and/or the control of the motors as well as the transmission of the sensor signals taking place via ribbon cables which are arranged parallel to the transport belts, and/or an electronic evaluation of interference oscillations of the signals of the sensors of the weighing cell takes place, within at least one lowpass filter being used, and wherein at least two digital notch filters are used.

In a dynamic scale and a weighing method therefor, an object to be weighed is received on a weighing unit of the dynamic scale and weight information of the object on the weighing unit is detected by the weighing unit. The weight information includes a number of items of weight information, which are supplied to a processor, and a derived weight value is determined in the processor by evaluation of a predetermined number of the items of weight information, and a quality value for the derived weight value is also determined in the processor by evaluation of the predetermined number of items of weight information. Depending on the quality value, it is established, in the processor, that the derived weight value is a valid weight value and, when it is established that the derived weight value is a valid weight value, the weighing unit is then fed with a new object.

Automatic parcel sizing device (10) comprising: a trihedral parcel support (12) having three panels (12A, 12B, 12C) for receiving a parcel (18) to be sized, each panel of which being disposed orthogonal to the other two panels and defining a vertex (20) at an intersection point of said three panels, an optical sensor (14) for obtaining an image of the parcel, and a processor unit (16) in signal communication with said optical sensor for determining from said image of the parcel the respective dimensions of three parcel edges (18A, 18B, 18C) which have a common vertex (18D), wherein said vertex of the trihedral parcel support is disposed upside down such that, thanks to the gravity, the parcel is always correctly placed regarding the trihedral parcel support and said optical sensor is placed below and at a fixed distance from said vertex.

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.

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.

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 weighing and labeling system has an electronic scale, label printer, and at least one controller. The controller stores information about incoming food packages and drives the printer to produce labels based on the stored information and the weight of the food packages. The labels are transferred to the food packages. Some elements of the system are located in sealable cabinets, and further, some of the elements are mounted on the interior surface on doors hinged to the sealable cabinets. This is advantageous in food production environments requiring frequent cleaning of equipment with sprayed water. In some embodiments the sealable cabinets are positioned on vertical masts and rotatable on the masts.