Electrode harness and method of taking biopotential measurements

What is claimed is: 1. An electrode harness for physiological monitoring of a subject, the electrode harness comprising material operable to interconnect at least two electrodes; and at least two electrode connectors attached to the material wherein the at least two electrode connectors are non-releasable connectors for attaching to electrodes with male connectors. 2. The electrode harness in claim 1 , wherein the electrode harness further includes a wireless transmitter or transceiver, which is electrically connected to the at least two electrode connectors. 3. The electrode harness in claim 1 , wherein the material comprises at least two expandable arms, each of the at least two expandable arms corresponding to the at least two electrodes. 4. The electrode harness in claim 1 , wherein the male connectors are button connectors. 5. The electrode harness in claim 1 , wherein the material comprises an electrical pathway from at least one of the at least two electrode connectors, the electrical pathway being electrically shielded from large defibrillator voltages. 6. The electrode harness in claim 1 , the electrode harness further comprising a marker which can be used to line up the electrode harness with an anatomical feature of the subject. 7. An electrode harness for physiological monitoring of a subject, the electrode harness comprising: at least two electrodes; material operable to mechanically and electrically interconnect the at least two electrodes; and a track system attached or integral to the material wherein at least one of the at least two electrodes is movable along the track system and one of the at least two electrodes is a dry electrode. 8. An electrode harness for physiological monitoring of a subject, the electrode harness comprising at least two dry electrodes; and material operable to mechanically and electrically interconnect the at least two dry electrodes, the material comprising an electrical pathway from at least one of the at least two dry electrodes, the electrical pathway being shielded on a side of the pathway such that the shield is adapted to be positioned between the subject and the electrical pathway from large defibrillator voltages; wherein the at least two dry electrodes are attached to the material, the electrode harness further comprises a track system attached or integral to the material with at least one electrode movable along the track system with a connector, and the electrode movable along the track has a spring type connector, which moves with the electrode along the track and keeps the electrode connected to a conductive layer of the material.