 What we've done was to engineer a flexible imaging platform allowing biologists to capture both slow and fast processes as required. What we've been able to do was to make use of high-speed laser scanning technologies in barcoding and translating that to an imaging system by doing that we are able to both have high resolution and high speed at the same time. A barcoding technology works by scanning a single laser beam with a rotating mirror at a high rate. What we've done here was to convert the same laser scanning technique of the mirror and the scanner and apply it to an imaging. Our lab is here visiting the John Curtin School of Medical Research to tailor our system to answer the problem of biological research. We've introduced an interface between the BioOptics Engineering Lab and the John Curtin School of Medical Research so the researchers are able to have access to cutting-edge instrumentation as literally as Steve develops it. So it's very exciting for us. Unlike commercial systems, what we've produced here allows researchers to have both high speed and high resolution and that is enabled by the laser barcoding technology that we've employed.