Abstract: A method and apparatus are described for image sensor optimization. According to an embodiment of the invention, a method comprises capturing an image with an image sensor, the image sensor comprising a plurality of pixels; obtaining an output relating to the image from a first pixel of the plurality of pixels; and normalizing the output from the first pixel to correlate with photon flux striking the image sensor.
Abstract: The present invention concerns methods and compositions relating to matrix arrays. In certain embodiments, the arrays are translucent. In other embodiments, the arrays are reconfigurable. In preferred embodiments, the arrays are translucent and reconfigurable. Reconfigurable arrays may be produced using small linker molecules, such as aptamers or affibodies, attached to the array substrate. Preferably, the small linker molecules bind to an IgG specific portion of antibodies. Such arrays may be used to detect any target that binds selectively or specifically to an IgG, allowing great flexibility of use. Translucent matrix arrays may utilize a translucent, colloidal form of nitrocellulose to coat the array substrate.
Abstract: The present invention concerns a portable, reliable and sensitive biosensor apparatus. In certain embodiments, the apparatus incorporates a fluidic cube, comprising a vent cap, vent cap isolator, cube body, waveguide and stage. In preferred embodiments, the fluidic cube further comprises a fluid manifold. In more preferred embodiments, the fluidic cube comprises one or more sample channels that are designed to increase fluid mixing through the use of baffles. The biosensor is designed to simultaneously process multiple samples for a variety of analytes. In certain embodiments, the biosensor is designed to operate as a compact, stand-alone automated unit that can reliably analyze environmental, clinical, veterinary, pathologic or medical samples under adverse field conditions.