Navigational reference dislodgement detection method and system

What is claimed is: 1. A method of measuring electrophysiology information using multiple electrodes, comprising: providing a localization system that determines locations of objects within a 3-D space and generates location information data comprising position information; securing a local reference at an internal reference location within a patient's body, said local reference comprising a first measurement electrode; providing a second measurement electrode within the patient's body; using the localization system to determine a location of the second measurement electrode and providing location information data for the second measurement electrode, said location information data comprising position information determined relative to the internal reference location as a reference point; taking electrophysiology measurements using each of the first and second measurement electrodes and adjusting the output of the second measurement electrode by compensating for at least one signal that is common to each of the first and second measurement electrodes; monitoring for a dislodgement of the local reference from the internal reference location; and generating a signal indicating that the local reference has dislodged from the internal reference location. 2. The method of claim 1 , wherein the electrophysiology measurements are simultaneously taken using each of the first and second measurement electrodes. 3. The method of claim 1 , further comprising: determining a dislodged location of the local reference after it has dislodged from the internal reference location; and calculating an adjustment to compensate for a change in locations between the internal reference location and the dislodged location. 4. The method of claim 3 , further comprising: determining a location of the second measurement electrode and generating location information data for the second measurement electrode, said location information data comprising position information determined relative to the internal reference location as a reference point, said position information being generated based on the local reference having changed positions from the internal reference location to the dislodged location of the local reference. 5. The method of claim 1 , further comprising: providing guidance to a user to help re-position and secure the first measurement electrode to the internal reference location. 6. The method of claim 1 , wherein the step of monitoring for a dislodgement comprises: providing a far field reference outside the patient's body at an external reference location; coupling the local reference and the far field reference to a circuit to generate an output signal; filtering the output signal with a high pass filter and a low pass filter to create a filtered output signal; and monitoring the filtered output signal for a signal that is indicative of the local reference having dislodged from the internal reference location. 7. The method of claim 6 , wherein the high pass filter blocks signal components with frequencies below about 0.001 Hz and the low pass filter blocks signal components with frequencies above about 0.15 Hz, and wherein the step of monitoring the filtered output signal comprises: monitoring the filtered output signal for a signal with an absolute amplitude that is above a dislodgement threshold.