System and method for monitoring an industrial vehicle

What is claimed is: 1. A system, comprising: a first imaging subsystem for acquiring a plurality of load-carrying-portion images; a cargo-detection subsystem in communication with the first imaging subsystem, the cargo-detection subsystem configured for analyzing each of the plurality of load-carrying-portion images to determine whether cargo is positioned on a load-carrying portion of an industrial vehicle, the industrial vehicle comprising a driver compartment; a power-detection subsystem for determining when the industrial vehicle is running; a motion-detection subsystem for determining when the industrial vehicle is in motion; and an analytics subsystem in communication with the cargo-detection subsystem, the power-detection subsystem, and the motion-detection subsystem, the analytics subsystem configured for calculating at least one of (i) the amount of time that the industrial vehicle is running; (ii) the amount of time that the industrial vehicle is running while cargo is positioned on the load-carrying portion; (iii) the amount of time the industrial vehicle is in motion; and (iv) the amount of time the industrial vehicle is in motion while cargo is positioned on the load-carrying portion. 2. The system of claim 1 , wherein the cargo-detection subsystem determines whether cargo is positioned on the load-carrying portion by comparing each of the plurality of load-carrying-portion images to a configuration image of the load-carrying portion. 3. The system of claim 2 , wherein the configuration image of the load-carrying portion is an image of the load-carrying portion with no cargo. 4. The system of claim 1 , comprising: a second imaging subsystem for acquiring a plurality of driver compartment images; a driver-detection subsystem for analyzing the plurality of driver compartment images to determine whether a driver is present in the driver compartment; wherein the analytics subsystem is in communication with the driver-detection subsystem and is further configured for calculating the total time that the vehicle is running while a driver is present in the driver compartment. 5. The system of claim 4 , wherein the driver-detection subsystem determines whether a driver is present in the driver compartment by comparing each of the plurality of driver compartment images to a configuration image of the driver compartment. 6. The system of claim 5 , wherein the configuration image of the driver compartment is an image of the driver compartment with no driver present. 7. The system of claim 4 , wherein: the driver-detection subsystem includes a facial recognition module; and the driver-detection subsystem determines that a driver is present in the driver compartment if the facial recognition module detects a human face in a driver compartment image. 8. An industrial vehicle, comprising: a load-carrying portion; a driver compartment; a first imaging subsystem for acquiring a plurality of load-carrying-portion images; a cargo-detection subsystem in communication with the first imaging subsystem, the cargo-detection subsystem configured for analyzing the plurality of load-carrying-portion images to determine whether cargo is positioned on the load-carrying portion; a power-detection subsystem for determining when the industrial vehicle is running; a motion-detection subsystem for determining when the industrial vehicle is in motion; and an analytics subsystem in communication with the cargo-detection subsystem, the power-detection subsystem, and the motion-detection subsystem, the analytics subsystem configured for calculating at least one of (i) the amount of time that the industrial vehicle is running; (ii) the amount of time that the industrial vehicle is running while cargo is positioned on the load-carrying portion; (iii) the amount of time the industrial vehicle is in motion; and (iv) the amount of time the industrial vehicle is in motion while cargo is positioned on the load-carrying portion. 9. The industrial vehicle of claim 8 , wherein the cargo-detection subsystem determines whether cargo is positioned on the load-carrying portion by comparing each of the plurality of load-carrying-portion images to a configuration image of the load-carrying portion. 10. The industrial vehicle of claim 9 , wherein the configuration image of the load-carrying portion is an image of the load-carrying portion with no cargo. 11. The industrial vehicle of claim 8 , comprising: a second imaging subsystem for acquiring a plurality of driver compartment images; a driver-detection subsystem in communication with the second imaging subsystem, the driver-detection subsystem configured for analyzing the plurality of driver compartment images to determine whether a driver is present in the driver compartment; wherein the analytics subsystem is in communication with the driver-detection subsystem and is further configured for calculating the total time that the vehicle is running while a driver is present in the driver compartment. 12. The industrial vehicle of claim 11 , wherein the driver-detection subsystem determines whether a driver is present in the driver compartment by comparing each of the plurality of driver compartment images to a configuration image of the driver compartment. 13. The industrial vehicle of claim 12 , wherein the configuration image of the driver compartment is an image of the driver compartment with no driver present. 14. The industrial vehicle of claim 11 , wherein: the driver-detection subsystem includes a facial recognition module; and the driver-detection subsystem determines that a driver is present in the driver compartment if the facial recognition module detects a human face in a driver compartment image. 15. A method, comprising: acquiring a plurality of load-carrying-portion images of an industrial vehicle; analyzing using a computer the plurality of load-carrying-portion images of the industrial vehicle to determine whether cargo is positioned on a load-carrying portion of the industrial vehicle; determining when the industrial vehicle is running; determining when the industrial vehicle is in motion; calculating using the computer at least one of (i) the amount of time that the industrial vehicle is running; (ii) the amount of time that the industrial vehicle is running while cargo is positioned on the load-carrying portion; (iii) the amount of time the industrial vehicle is in motion; and (iv) the amount of time the industrial vehicle is in motion while cargo is positioned on the load-carrying portion. 16. The method of claim 15 , wherein determining whether cargo is positioning in the load-carrying portion includes comparing each of the plurality of load-carrying-portion images to a configuration image of the load-carrying portion. 17. The method of claim 16 , wherein the configuration image of the load-carrying portion is an image of the load-carrying portion with no cargo. 18. The method of claim 15 , comprising: acquiring a plurality of driver compartment images; analyzing using the computer the plurality of driver compartment images to determine whether a driver is present in a driver compartment of the industrial vehicle; and calculating using the computer the total time that the vehicle is running while a driver is present in the driver compartment. 19. The method of claim 18 , wherein determining of whether a driver is present in the driver compartment includes comparing each of the plurality of driver compartment images to a configuration image of the driver compartment.