Abstract: Aspects of the disclosure provide a display system. The display system can include a display module having a configurable optical characteristic that varies from substantially transmissive to substantially reflective, at least one data capturing device configured to capture data to form a display image, and at least a first projector configured to project the display image to the display module. Therefore, the display image can be overlaid with a real image according to an optical configuration of the display module.

Abstract: A multi-channel swept wavelength optical interrogation system and a method are described herein that enable the interrogation of one or more biosensors which for example could be located within the wells of a microplate. In one embodiment, the optical interrogation system comprises: (a) a tunable laser that emits an optical beam which has a predetermined sequence of distinct wavelengths over a predetermined time period; (b) a distribution unit that splits the optical beam into a plurality of interrogation beams; (c) an array of optical interrogation units that receive and direct the interrogation beams towards an array of biosensors; (d) the array of optical interrogation units receive a plurality of reflected interrogation beams from the array of biosensors; (e) a data processing device that receives and processes information associated with the reflected interrogation beams to determine for example whether or not there was a biochemical interaction on anyone of the biosensors.

Abstract: An optical interrogation system and method are described herein that are capable of detecting and correcting a positional misalignment of a label independent detection (LID) microplate so that the LID microplate can be properly interrogated after being removed from and then re-inserted back into a microplate holder/XY translation stage.

Abstract: A multi-channel swept wavelength optical interrogation system and a method are described herein that enable the interrogation of one or more biosensors which for example could be located within the wells of a microplate. In one embodiment, the optical interrogation system comprises: (a) a tunable laser that emits an optical beam which has a predetermined sequence of distinct wavelengths over a predetermined time period; (b) a distribution unit that splits the optical beam into a plurality of interrogation beams; (c) an array of optical interrogation units that receive and direct the interrogation beams towards an array of biosensors; (d) the array of optical interrogation units receive a plurality of reflected interrogation beams from the array of biosensors; (e) a data processing device that receives and processes information associated with the reflected interrogation beams to determine for example whether or not there was a biochemical interaction on anyone of the biosensors.

Abstract: Aspects of the disclosure provide a display system. The display system can include a display module having a configurable optical characteristic that varies from substantially transmissive to substantially reflective, at least one data capturing device configured to capture data to form a display image, and at least a first projector configured to project the display image to the display module. Therefore, the display image can be overlaid with a real image according to an optical configuration of the display module.

Abstract: An optical interrogation system and method are described herein that are capable of detecting and correcting a positional misalignment of a label independent detection (LID) microplate so that the LID microplate can be properly interrogated after being removed from and then re-inserted back into a microplate holder/XY translation stage.

Abstract: An component upgradable optical communications routing system using a base module and detachable opto-electronic modules for use in processing and directing optical signals in an optical communications system.

Abstract: A gauging system is provided for measuring glass flatness and thickness, in which a glass sheet is accurately supported on a reference plane, and fiber optic sensors are lowered toward the glass to sense the location of the upper and lower surfaces of the glass sheet. The sensors send signals, which are representative of the locations of the surfaces, to a central processing unit which is used to calculate thickness and/or flatness of the glass sheet.