System and method for assigning weighted average quality value to baled plant material

The invention claimed is: 1 . A system comprising: a baler machine configured to receive a plurality of subunits of a plant material, and to aggregate, compress, shape, and secure the plurality of subunits into a plurality of bales; a near-infrared testing system configured to receive near-infrared radiation reflected by the plant material in each subunit of the plurality of subunits in at least one bale of the plurality of bales and, to analyze the near-infrared radiation and generate subunit evaluation data reflecting one or more properties of the plant material in each subunit of the plurality of subunits; and a computer configured to receive and combine the subunit evaluation data of the plant material in each subunit of the plurality of subunits to produce overall evaluation data reflecting one or more overall property values for the at least one bale of the plurality of bales, and assign the overall evaluation data to the at least one bale of the plurality of bales, wherein the subunit evaluation data is selected from the group consisting of a protein content, a fiber content, a nitrate content, an ash content, a moisture content, and a relative feed value for the plant material in each subunit of the plurality of subunits. 2 . The system of claim 1 , wherein combining the subunit evaluation data includes assigning a weight to the subunit evaluation data of the plant material in each subunit of the plurality of subunits to produce a plurality of weighted subunit property values of the plant material in each subunit of the plurality of subunits, and then averaging the plurality of weighted subunit property values of the plant material in each subunit of the plurality of subunit in the at least one bale of the plurality of bales. 3 . The system of claim 2 , wherein the weight assigned to each subunit evaluation data of the plant material in each subunit of the plurality of subunits is based at least on an amount of time the near-infrared testing system is exposed to the plant material in each subunit of the plurality of subunits. 4 . The system of claim 3 , wherein the amount of time the near-infrared testing system is exposed to the plant material in each subunit of the plurality of subunits is determined by a mechanical mechanism which moves as the at least one bale of the plurality of bales moves through the baler machine, and the movement of the mechanical mechanism is used to determine the amount of time. 5 . The system of claim 1 , wherein each subunit of the plurality of subunits is subject to the near infrared testing system. 6 . The system of claim 1 , wherein one of every ten or fewer bales of the plurality of bales is subject to the near-infrared testing system. 7 . A system comprising: a baler machine configured to receive a plurality of subunits of a plant material, and to aggregate, compress, shape, and secure the plurality of subunits into a plurality of bales; a near-infrared testing system configured to receive near-infrared radiation reflected by the plant material in each subunit of the plurality of subunits in at least one bale of the plurality of bales and to analyze the near-infrared radiation and generate subunit evaluation data reflecting one or more properties of the plant material in each subunit of the plurality of subunits; and a computer configured to receive and combine the subunit evaluation data of the plant material in each subunit of the plurality of subunits to produce overall evaluation data reflecting one or more overall property values for the at least one bale of the plurality of bales, and assign the overall evaluation data to the at least one bale of the plurality of bales, wherein the near-infrared testing system is associated with calibration data, and the system further includes a tag securement system configured to physically secure to the at least one bale of the plurality of bales a physical tag configured to associate a unique bale identifier with the at least one bale of the plurality of bales, wherein the unique bale identifier is associated with the calibration data for the near-infrared testing system and the overall evaluation data for the plant material in the at least one bale of the plurality of bales. 8 . A method comprising: receiving, aggregating, shaping, and securing with a baler machine a plurality of subunits of a plant material into a plurality of bales; receiving and analyzing with a near-infrared testing system near-infrared radiation reflected by the plant material in each subunit of the plurality of subunits in at least one bale of the plurality of bales, and generating subunit evaluation data reflecting one or more properties of the plant material in each subunit of the plurality of subunits in the at least one bale of the plurality bales; receiving and combining with a computer the subunit evaluation data of the plant material in each subunit of the plurality of subunits in the at least one bale of the plurality of bales to produce overall evaluation data reflecting one or more overall property values for the at least one bale of the plurality of bales; and assigning with the computer the overall evaluation data to the at least one bale of the plurality of bales, wherein the near-infrared testing system is associated with calibration data, and the method further includes physically securing with an identifying element securement system to the at least one bale of the plurality of bales a physical identifying element configured to associate a unique bale identifier with the at least one bale of the plurality of bales, wherein the unique bale identifier is associated with the calibration data for the near-infrared testing system and the overall evaluation data for the plant material in the at least one bale of the plurality of bales. 9 . The method of claim 8 , wherein combining the subunit evaluation data includes assigning a weight to the subunit evaluation data of the plant material in each subunit of the plurality of subunits to produce a plurality of weighted subunit property values of the plant material in each subunit of the plurality of subunits, and then averaging the plurality of weighted subunit property values of the plant material in each subunit of the plurality of subunit in the at least one bale of the plurality of bales. 10 . The method of claim 9 , wherein the weight assigned to each subunit evaluation data of the plant material in each subunit of the plurality of subunits is based at least on an amount of time the near-infrared testing system is exposed to the plant material in each subunit of the plurality of subunits.