System and method for utilizing machine-readable codes for testing a communication network

The invention claimed is: 1. A testing device, comprising: a camera that captures a first image of a first network element and a first machine-readable code; a display device that displays images to a user of the testing device; and a computer configured to: identify the first network element in the first image based on the first machine-readable code in the first image; obtain first network element data for the first network element; generate a second image by integrating the first network element data into the first image with the first network element data being visually associated with the first network element in the second image; and display the second image on the display device. 2. The testing device of claim 1 , wherein the computer is further configured to: identify a second network element in the first image based on a second machine-readable code in the first image; obtain second network element data for the second network element; and prior to the display of the second image on the display device, integrate the second network element data into the second image with the second network element data being visually associated with the second network element in the second image. 3. The testing device of claim 2 , wherein the computer identifies the second network element by being further configured to: determine a spatial relationship between the first network element and the second network element based on the first network element data of the first network element. 4. The testing device of claim 2 , wherein the camera captures a series of images as the camera moves, wherein the computer is further configured to use the first machine-readable code as an image reference point to integrate the first network element data and the second network element data with the series of images using augmented reality. 5. The testing device of claim 1 , wherein the computer is further configured to: determine an identification of a third network element located within a field of view of the camera when capturing the first image; obtain third network element data for the third network element based on the identification; and display the third network element data in the second image. 6. The testing device of claim 1 , wherein the computer is further configured to: obtain a configuration file based on the first machine-readable code; configure the testing device to perform a test procedure on the first network element using the configuration file; and perform the test procedure on the first network element. 7. The testing device of claim 6 , wherein the computer obtains the configuration file by being further configured to: determine a component type of the first network element from the first machine-readable code; and select the configuration file from a plurality of configuration files based on the determined component type of the first network element. 8. The testing device of claim 1 , wherein the computer is further configured to: determine a location of a second network element relative to the first network element based on data associated with the first machine-readable code for the first network element; and provide the location of the second network element to a user of the testing device. 9. The testing device of claim 1 , wherein the computer is further configured to: generate a unique machine-readable code to be associated with a second network element that does not yet have an associated machine-readable code; and output the unique machine-readable code to at least one of a storage device or a printer. 10. The testing device of claim 1 , wherein the first network element is a first end point of a cable that has the first end point and a second end point, wherein the computer is further configured to: identify the second endpoint from the first network element data; determine second network element data associated with the identified second end point; determine a location of the second end point based on the second network element data; and indicate, by providing at least one of a map or navigational directions, the location of the second end point relative to a location of one of a location reference point and the first end point. 11. The testing device of claim 1 , wherein the computer is further configured to: determine an approximate location of the testing device based on a communication that occurred within a threshold time of identifying the first machine-readable code; and update a location in the first network element data based on a statistic that incorporates the approximate location of the testing device. 12. A method, comprising: capturing a first image that includes a first network element and a first machine-readable code; identifying the first network element in the first image based on the first machine-readable code in the first image; accessing a network element data database to obtain first network element data for the first network element; generating a second image to include the first network element data being visually associated with the first network element in the second image; and displaying the second image on a display device. 13. The method of claim 12 , further comprising: identifying a second network element in the first image based on a second machine-readable code in the first image; accessing the network element data database to obtain second network element data for the second network element; and prior to displaying the second image on the display device, including the second network element data being visually associated with the second network element in the second image. 14. The method of claim 13 , wherein identifying the second network element includes: determining a spatial relationship between the first network element and the second network element based on the first network element data of the first network element. 15. The method of claim 13 , further comprising: capturing a series of images as a camera moves; and using the first machine-readable code as an image reference point to integrate the first network element data and the second network element data with the series of images using augmented reality. 16. The method of claim 12 , further comprising: obtaining a configuration file based on the first machine-readable code; configuring a testing device to perform a test procedure on the first network element using the configuration file; and performing the test procedure on the first network element. 17. The method of claim 16 , wherein obtaining the configuration file includes: determining a component type of the first network element from the first machine-readable code; and selecting the configuration file from a plurality of configuration files based on the determined component type of the first network element. 18. The method of claim 13 , further comprising: determining a location of a second network element relative to the first network element based on data associated with the first machine-readable code for the first network element; and providing the location of the second network element to a user. 19. A mobile device, comprising: a testing unit to perform test procedures on network elements of a communication network; a camera that captures a first image of a network element and a machine-readable code; a display device that displays images to a user of the mobile device; and a computer configured to: identify the network element in the first image based on the machine-readable code