A measurement apparatus includes a beta gauge for generating a first sensor response signal from a composite sheet including a sheet material having a coating thereon including a high-z material or the sheet material has particles including the high-z material embedded in the sheet material. A second sensor being an x-ray or an infrared (IR) sensor provides a second sensor response signal from the composite sheet. A computing device is coupled to receive the first and the second sensor response signal that includes a processor having an associated memory for implementing an algorithm that uses the first and the second sensor response signal to simultaneously compute two or more weight measures selected from (i) a weight per unit area of the high-z material, (ii) a weight per unit area of the sheet material, and (iii) a total weight per unit area of the composite sheet.

In one aspect, a method of measuring the weight of material used during a textile manufacturing process comprises positioning material used during the textile manufacturing process on a receiving surface associated with a load cell. A first weight of the material may be measured using the load cell. A textile manufacturing machine may be operated such that at least a portion of the material is used in the process, wherein the material remains disposed on the receiving surface during the process. A second weight of the material may be measured using the load cell.

In one aspect, a method of measuring the weight of material used during a textile manufacturing process comprises positioning material used during the textile manufacturing process on a receiving surface associated with a load cell. A first weight of the material may be measured using the load cell. A textile manufacturing machine may be operated such that at least a portion of the material is used in the process, wherein the material remains disposed on the receiving surface during the process. A second weight of the material may be measured using the load cell.

Disclosed are methods and systems for determining the amount of material contained in a windrow. In particular embodiments, the methods and systems are applicable to agricultural applications, and in particular to hay yield monitoring. Systems include a remote sensing technology to determine windrow height. Remote sensing methods can include ultrasonic sensors, optical sensors, and the like. Systems can provide real time yield data.

Disclosed are methods and systems for determining the amount of material contained in a windrow. In particular embodiments, the methods and systems are applicable to agricultural applications, and in particular to hay yield monitoring. Systems include a remote sensing technology to determine windrow height. Remote sensing methods can include ultrasonic sensors, optical sensors, and the like. Systems can provide real time yield data.

A product inspection apparatus includes a conveyor system for transporting items. The conveyor system includes a weigh conveyor with a load detector for detecting the weight of items transported on the conveyor system and a transport conveyor adjacent the weigh conveyor. The apparatus also includes a support structure with a support beam. The transport conveyor is mounted to the support beam by at least one support column externally mounted to the support beam such that vibrations are suppressed by the at least one externally mounted support column.

A product inspection apparatus includes a conveyor system for transporting items. The conveyor system includes a weigh conveyor with a load detector for detecting the weight of items transported on the conveyor system and a transport conveyor adjacent the weigh conveyor. The apparatus also includes a support structure with a support beam. The transport conveyor is mounted to the support beam by at least one support column externally mounted to the support beam such that vibrations are suppressed by the at least one externally mounted support column.

An apparatus for controlling the printing on wire or cable. The apparatus including a processor, a bus connected to the processor, a user input connected to the bus, a display screen connected to the user input and the bus, a first storage system connected to the bus, data stored in the first storage system and displayable on the display screen, wherein the data includes manufacturing and print information, a printer connected to the bus, wherein the printer prints the data on the wire or cable, a communication device connected to the bus, and an identification device connected to the bus, wherein identification device receives information from a user.

An apparatus for controlling the printing on wire or cable. The apparatus including a processor, a bus connected to the processor, a user input connected to the bus, a display screen connected to the user input and the bus, a first storage system connected to the bus, data stored in the first storage system and displayable on the display screen, wherein the data includes manufacturing and print information, a printer connected to the bus, wherein the printer prints the data on the wire or cable, a communication device connected to the bus, and an identification device connected to the bus, wherein identification device receives information from a user.

A measurement apparatus for weight measuring composite sheet including a sheet material having a second material thereon as a coating and/or as embedded particles therein. The apparatus includes an x-ray sensor for providing an x-ray signal from x-ray irradiating the composite sheet and an infrared (IR) sensor for providing an IR signal from IR irradiating the composite sheet. A computing device is coupled to receive the x-ray signal and the IR signal that includes a processor having an associated memory for implementing an algorithm, where the algorithm uses the x-ray signal and the IR signal to compute a plurality of weights selected from a weight of the sheet material, a weight of the second material, and a total weight of the composite sheet.