Insertion force measurement system

What is claimed is: 1. A measurement device comprising: an actuator module including an actuator; a control module including one or more actuator controllers configured to control the actuator, the control module further comprising a plurality of displacement rods and a rotating appendage configured to rotate over both an x-axis and a y-axis; a load cell module comprising one or more motors configured to set orientation of attachments points for the actuator with respect to a component relative to a location of a user, wherein the load cell module and the rotating appendage are configured to allow the attachment points to be set at different locations from a position of the user in x,y, and z coordinates and at different angles from a hand of the user in x, y, and z coordinates for different movements of an arm of the user; a processing module comprising a processor configured to receive and analyze information from the load cell module pertaining to an insertion force for the component as the component is inserted into a receptacle; and a notification module comprising a lighting device configured to provide a color lighting notification based on the analyzing performed by the processing module. 2. The measurement device of claim 1 , wherein the component comprises a component for installation in a vehicle. 3. The measurement device of claim 1 , wherein the actuator comprises a pneumatic linear actuator with position feedback control. 4. The measurement device of claim 3 , wherein the pneumatic linear actuator controls a position of the component in a z-axis. 5. The measurement device of claim 1 , wherein the one or more motors of the load cell module comprise one or more step motors. 6. The measurement device of claim 5 , wherein the one or more step motors comprise one or more three step motors. 7. The measurement device of claim 1 , wherein the lighting device of the notification module comprises a traffic light device that displays one of a plurality of colors based on a comparison with results of the information with acceptance criteria, such that: (i) a first color is displayed when the insertion force is less than a predetermined maximum value by at least a predetermined amount; (ii) a second color, different from the first color, is displayed when the insertion force is less than the predetermined maximum value but not be at least the predetermined amount and (iii) a third color, different from both the first color and the second color, is displayed when the insertion force is greater than the predetermined maximum value. 8. The measurement device of claim 1 , wherein the processor is configured to translate the information from the load cell into digital data, plot and analyze the digital data, and transform the information to the step motors to locate the control module at a desired position. 9. The measurement device of claim 1 , wherein the user may utilize the measurement device by merely using or “playing” with the component being examined, via the measurement device, in a common way in which the user would ordinarily perform in a working environment. 10. The measurement device of claim 1 , wherein the measurement device is embedded as a controller box within a housing as part of a larger implantation system that includes the component for installation in a vehicle and that is experienced by an occupant of the vehicle. 11. A measurement device comprising: a pneumatic linear actuator; one or more actuator controllers configured to control the pneumatic linear actuator; a plurality of displacement rods and a rotating appendage configured to rotate over both an x-axis and a y-axis; one or more step motors configured to set orientation of attachments points for the pneumatic linear actuator with respect to a component relative to a location of a user, wherein the load cell module and the rotating appendage are configured to allow the attachment points to be set at different locations from a position of the user in x,y, and z coordinates and at different angles from a hand of the user in x, y, and z coordinates for different movements of an arm of the user; a processor configured to receive and analyze information from the one or more step motors as to an insertion force of the component as the component is inserted into a receptacle; and a lighting device configured to provide lighting with one of a plurality of different light colors based on the analyzing performed by the processor. 12. The measurement device of claim 11 , wherein the component comprises a component for installation in a vehicle. 13. The measurement device of claim 11 , wherein the pneumatic linear actuator with position feedback control includes pneumatic linear actuator controls a position of the component in a z-axis. 14. The measurement device of claim 11 , wherein the one or more step motors comprise one or more three step motors. 15. The measurement device of claim 11 , wherein the lighting device comprises a traffic light device that displays one of a plurality of colors based on a comparison with results of the information with acceptance criteria, such that: (i) a first color is displayed when the insertion force is less than a predetermined maximum value by at least a predetermined amount; (ii) a second color, different from the first color, is displayed when the insertion force is less than the predetermined maximum value but not be at least the predetermined amount and (iii) a third color, different from both the first color and the second color, is displayed when the insertion force is greater than the predetermined maximum value. 16. The measurement device of claim 11 , wherein the processor is configured to translate the information from the one or more step motors into digital data, plot and analyze the digital data, and transform the information to the step motors to locate the control module at a desired position. 17. The measurement device of claim 11 , wherein the user may utilize the measurement device by merely using or “playing” with the component being examined, via the measurement device, in a common way in which the user would ordinarily perform in a working environment. 18. The measurement device of claim 11 , wherein the measurement device is embedded as a controller box within a housing as part of a larger implantation system that includes the component for installation in a vehicle and that is experienced by an occupant of the vehicle. 19. A system comprising: a housing; and a measurement system comprising: a pneumatic linear actuator; a plurality of displacement rods and a rotating appendage configured to rotate over both an x-axis and a y-axis; one or more actuator controllers configured to control the pneumatic linear actuator; one or more step motors configured to set orientation of attachments points for the pneumatic linear actuator with respect to a component relative to a location of a user, wherein the load cell module and the rotating appendage are configured to allow the attachment points to be set at different locations from a position of the user in x,y, and z coordinates and at different angles from a hand of the user in x, y, and z coordinates for different movements of an arm of the user; a processor configured to receive and analyze information from the one or more step motors as to an insertion force of the component as the component is inserted into a receptacle; and a lighting device configured to provide lighting with one of a plurality of different light colors based on the analyzing