Dimensioning system for, and method of, dimensioning freight in motion along an unconstrained path in a venue

1 . A dimensioning system for dimensioning a moving freight in motion along an uninterrupted path in a venue, the dimensioning system comprising: a ranging system configured to capture a plurality of successive point clouds representative of the moving freight; a tracking system configured to track a plurality of successive positions and orientations of the moving freight; and a computing device in communication with the ranging system and the tracking system, the computing device configured to: correlate each of the successive point clouds with each of the successive positions and orientations of the moving freight; combine the correlated point clouds to obtain a composite point cloud representative of the moving freight; and process the composite point cloud to dimension the moving freight. 2 . The dimensioning system of claim 1 , wherein a freight mover is to move the freight along the uninterrupted path past the ranging and tracking systems. 3 . The dimensioning system of claim 2 , wherein the composite point cloud includes data points corresponding to the freight and the freight mover, and the computing device is configured to: remove the data points corresponding to the freight mover from the composite point cloud; enclose the data points of the composite point cloud with a bounding box having dimensions; and dimension the moving freight from the dimensions of the bounding box. 4 . The dimensioning system of claim 2 , wherein the tracking system includes a detector mounted on one of the freight mover and the venue, and configured to detect each of the successive positions and orientations of the moving freight. 5 . The dimensioning system of claim 4 , wherein: the tracking system includes an emitter configured to emit a signal; the detector is to detect the emitted signal; one of the emitter and the detector is mounted on the freight mover for joint movement therewith; and the other of the emitter and the detector is mounted in the venue remotely from the freight mover. 6 . The dimensioning system of claim 5 , wherein: the emitter includes at least one light emitting diode (LED) mounted on the freight mover configured to emit light in a predetermined light pattern; and the detector includes at least one camera stationarily mounted in the venue for detecting the predetermined light pattern. 7 . The dimensioning system of claim 5 , wherein the detector includes a camera mounted on the freight mover, and configured to image at least one feature arranged at a known, fixed location in the venue to locate each of the successive positions and orientations of the moving freight. 8 . The dimensioning system of claim 1 , wherein the ranging system includes at least one three-dimensional (3D) camera deployed at a location through which the freight is moved. 9 . The dimensioning system of claim 8 , wherein the at least one 3D camera is stationarily mounted in the venue, and the 3D camera includes a sensor pointed at an area of expected travel associated with the moving freight. 10 . The dimensioning system of claim 1 , wherein the tracking system is configured to: assign a time stamp to each of the successive positions and orientations of the moving freight; and correlate each of the successive point clouds with each of the successive time-stamped positions and orientations of the moving freight. 11 . A method of dimensioning a moving freight in motion along an uninterrupted path in a venue, the method comprising: capturing a plurality of successive point clouds representative of the moving freight; tracking a plurality of successive positions and orientations of the moving freight; correlating each of the successive point clouds with each of the successive positions and orientations of the moving freight; combining the correlated point clouds to obtain a composite point cloud of the moving freight; and processing the composite point cloud to dimension the moving freight. 12 . The method of claim 11 , wherein a freight mover moves the freight along the uninterrupted path in the venue. 13 . The method of claim 12 , wherein: the composite point cloud includes data points representative of the freight and the freight mover; the processing is performed by: removing the data points corresponding to the freight mover from the composite point cloud; enclosing the composite point cloud with a bounding box having dimensions; and dimensioning the moving freight from the dimensions of the bounding box. 14 . The method of claim 12 , further comprising detecting each of the successive positions and orientations of the moving freight with a detector mounted on one of the freight mover and the venue. 15 . The method of claim 14 , wherein: the tracking is performed by emitting a signal from an emitter mounted on one of the freight mover and the venue; and the detector detects the emitted signal, the detector mounted on the other one of the freight mover and the venue. 16 . The method of claim 15 , further comprising configuring the emitter with at least one light emitting diode (LED) mounted on the freight mover to emit light in a predetermined light pattern, and configuring the detector with at least one camera stationarily mounted in the venue to detect the predetermined light pattern. 17 . The method of claim 14 , further comprising configuring the detector with a camera mounted on the freight mover to image at least one feature arranged at a known, fixed location in the venue to locate each of the successive positions and orientations of the moving freight. 18 . The method of claim 11 , wherein the capturing is performed by deploying at least one three-dimensional (3D) camera at a location through which the freight is moved. 19 . The method of claim 18 , further comprising stationarily mounting the at least one 3D camera in the venue an area of expected travel associated with the moving freight. 20 . The method of claim 11 , further comprising assigning a time stamp to each of the successive positions and orientations of the moving freight, and correlating each of the successive point clouds with each of the successive time-stamped positions and orientations of the moving freight.