Importing and analyzing external data using a virtual reality welding system

What is claimed is: 1. A system for simulating welding activity, comprising: a welding tool for a selected simulated welding operation; a spatial tracking unit having at least one sensor, which detects movement and orientation of said welding tool during said selected simulated welding operation; a welding coupon; a central processing unit coupled to said spatial tracking unit, where said central processing unit receives information from said spatial tracking unit related to said movement and orientation of said welding tool during said selected simulated welding operation; an input device coupled to said central processing unit, where said input device allows selection of said selected simulated welding operation to be one of a simulated stick welding operation, a simulated GMAW welding operation, or a simulated GTAW welding operation, a first display device operatively coupled to said central processing unit which displays said selected simulated welding operation; wherein during said selected simulated welding operation, said central processing unit models a simulated welding surface for said welding coupon and displays said simulated welding surface on said first display device; wherein during said selected simulated welding operation, said central processing unit models a simulated weld puddle having real-time molten metal fluidity and real-time heat dissipation characteristics based on said movement and orientation of said welding tool during said simulated welding operation; wherein said central processing unit models a simulated weld bead based on a simulation of a solidification of said simulated weld puddle from a molten state to a solid state; wherein said first display device displays each of said simulated welding surface, said simulated weld puddle, said simulated weld bead, and said welding tool during said selected simulated welding operation; and wherein said welding tool is a GMAW welding tool for said simulated GMAW welding operation, a GTAW welding tool for said simulated GTAW welding operation, and a stick welding tool for said simulated stick welding operation, where said stick welding tool comprises a mock stick electrode, a stick electrode holder and an actuator to move said mock stick electrode during said simulated stick welding operation. 2. The system of claim 1 , wherein said at least one sensor is an optical sensor which is mounted to a helmet worn by a user during said selected simulated welding operation. 3. The system of claim 1 , further comprising a helmet which comprises an audio speaker which provides simulated welding sounds in real-time with the selected simulated welding operation, where said first display device is positioned in said helmet. 4. The system of claim 1 , further comprising a second display device coupled to said central processing unit, where said central processing unit generates a plurality of simulated welding parameters based on said movement and orientation of said welding tool and wherein said second display device displays said plurality of simulated welding parameters, in real-time, during said selected simulated welding operation, wherein at least one of said plurality of simulated welding parameters is displayed in graphical form in real time during said selected simulated welding operation, and wherein said plurality of simulated welding parameters include weld angle, travel angle, and travel speed. 5. The system of claim 1 , wherein said central processing unit generates at least one simulated welding parameter during said selected simulated welding operation and compares said at least one simulated welding parameter to a stored value for said at least one simulated welding parameter, and wherein said central processing unit displays said comparison on a second display device in graphical form. 6. The system of claim 1 , wherein said central processing unit generates at least one simulated welding parameter during said selected simulated welding operation and compares said at least one simulated welding parameter to a tolerance window defined by limits around a setpoint for said at least one simulated welding parameter, and wherein said central processing unit displays said comparison on a second display device. 7. The system of claim 1 , wherein said central processing unit generates a plurality of simulated welding parameters during said selected simulated welding operation and provides a score for each of said plurality of simulated welding parameters based on a comparison between said plurality of simulated welding parameters and a desired value for each of said plurality of simulated welding parameters, respectively, wherein each of said scores is a numerical score. 8. The system of claim 1 , wherein said central processing unit generates a plurality of simulated welding parameters during said selected simulated welding operation and determines a presence of a discontinuity within said simulated weld bead, where said discontinuity is a presence of at least one of spatter and porosity, and wherein said first display device displays said discontinuity during said selected simulated welding operation. 9. The system of claim 1 , wherein said first display device displays at least one visual cue during said simulated welding operation, where said at least one visual cue is for a simulated welding parameter, and where said at least one visual cue is displayed based on a deviation of said simulated welding parameter from a desired value for said simulated welding parameter, where said simulated welding parameter is either weld angle, travel speed or travel angle. 10. The system of claim 1 , wherein said central processing unit generates and displays on said first display device at least one welding effect, which can be any one of simulated welding sparks, simulated welding spatter, simulated arc glow and simulated porosity during said selected simulated welding operation, and where said at least one welding effect is displayed, in real time, based on said movement and orientation of said welding tool. 11. The system of claim 1 , wherein said simulation of said solidification from said molten state to said solid state of said weld puddle is based on a cooling threshold value for said simulated weld puddle. 12. The system of claim 1 , wherein said first display device displays a weld bead wake characteristic during creation of said simulated weld bead, where said wake characteristic is generated based on a real time fluidity-to-solidification transition of said simulated weld puddle as said simulated weld puddle is moved. 13. A system for simulating welding activity, comprising: a welding tool for a selected simulated welding operation; a spatial tracking unit having at least one optical sensor, which detects movement and orientation of said welding tool during said selected simulated welding operation; a helmet comprising said at least one optical sensor and an audio speaker which provides simulated welding sounds during said simulated welding operation; a welding coupon; a processor based sub-system having a central processing unit, where said processor based sub-system is operatively coupled to said spatial tracking unit and receives information from said spatial tracking unit related to said movement and orientation of said welding tool during said selected simulated welding operation; a user input device coupled to said processor based sub-system, where said user input device allows selection of said selected simulated welding operation to be one of a simulated stick welding operation, a simulated GMAW welding operation, or a simulated GTAW welding operation, where each of which is availa