If you encapsulate all of your communications code in a subVI or set of subVI's, separate from the code that does the transformation and display part, you can easily substitute test code and test data for the real sensor data. You could write a subVI that generates the test data and replace it with the real sensor comms subVI later, or you could use a case structure in the subVI to choose between communicating with the real sensor and just outputting test data (which, as Moray suggests, you could read in from a file so that you can easily change it).
I would suggest that you write separate subVIs for opening communications to the sensor, getting a data point from it, and closing the comms port when you are finished (though you can probably just use the serial or VISA close function for that). Chain these VIs together using the comms port (aka VISA session) and error wires. The 'open' VI could take an input that specifies whether real/simulated data is to be used and store that choice in a global variable (or a functional global VI) which the 'get data' VI checks each time it is called.
glglgl's suggestion of sending the simulated data from another serial port is also good; all you need to do here is use the serial send and receive functions in some sort of loop to do the same thing as the real sensor would, in terms of receiving commands and sending an output back. This has the advantage that you don't need to make any changes to your main program which should work exactly the same whether it's connected to the real sensor or the simulation program. However, problems with serial comms in the real world often result from instruments or devices that don't do exactly what their specifications claim they do, so just because your program works perfectly with your simulation doesn't guarantee it'll work perfectly with the real sensor if the real sensor does something you didn't expect :-)