Abstract: Method, apparatus, and computer program product are provided for anonymized diagnosis using lateral flow assays. In some embodiments, a test card includes one or more lateral flow assay (LFA) with one or more test patterns (e.g., full line, partial line, dot), one or more dummy patterns, and one or more control patterns. To visually encode LFA results, at manufacture, one or more lines/dots containing true results of the LFA(s) each has a position mixed with other “dummy” lines/dots, in randomized position patterns selected from among a plurality of possible position patterns. An optical machine-readable representation of data (e.g., QR code) is attached to the test card and encodes test card identification information (e.g., lot number, serial number, test type) associated with the test card. In some embodiments, a passcode card having a scrapeable coating that conceals a passcode associated with the test card is removably attached to the test card.

Abstract: A system is provided for performing metal trace analysis on a liquid sample. A sample holder holds an analysis substrate that includes a reference region and at least one test region. An ultraviolet (UV) light source emits ultraviolet light illuminating the liquid sample. An optical sensor detects radiation emanating from the liquid sample and converting the detected radiation into an electrical signal. A microcontroller processes the electrical signal. An external interface transmits the processed electrical signal to an external device. The analysis substrate is configured for manual movement by a user. A tracking system detects a sample scanning location for the metal trace analysis, and includes a light source, other than the UV light source, and another optical sensor. The other optical sensor detects light emitted by the light source.

Abstract: Method, apparatus, and computer program product are provided for anonymized diagnosis using lateral flow assays. In some embodiments, a test card includes one or more lateral flow assay (LFA) with one or more test patterns (e.g., full line, partial line, dot), one or more dummy patterns, and one or more control patterns. To visually encode LFA results, at manufacture, one or more lines/dots containing true results of the LFA(s) each has a position mixed with other “dummy” lines/dots, in randomized position patterns selected from among a plurality of possible position patterns. An optical machine-readable representation of data (e.g., QR code) is attached to the test card and encodes test card identification information (e.g., lot number, serial number, test type) associated with the test card. In some embodiments, a passcode card having a scrapeable coating that conceals a passcode associated with the test card is removably attached to the test card.

Abstract: A system is provided for performing metal trace analysis on a liquid sample. A sample holder holds an analysis substrate that includes a reference region and at least one test region. An ultraviolet (UV) light source emits ultraviolet light illuminating the liquid sample. An optical sensor detects radiation emanating from the liquid sample and converting the detected radiation into an electrical signal. A microcontroller processes the electrical signal. An external interface transmits the processed electrical signal to an external device. The analysis substrate is configured for manual movement by a user. A tracking system detects a sample scanning location for the metal trace analysis, and includes a light source, other than the UV light source, and another optical sensor. The other optical sensor detects light emitted by the light source.

Abstract: A portable optical measurement system is provided for performing metal trace analysis on a liquid sample. The system includes a sample holder for holding an analysis substrate that includes the liquid sample during the metal trace analysis. The system further includes an ultraviolet (UV) light source for emitting ultraviolet light illuminating the liquid sample. The system also includes an optical sensor for detecting radiation emanating from the liquid sample and converting the detected radiation into an electrical signal. The system additionally includes a microcontroller for processing the electrical signal. The system further includes an external interface for transmitting the processed electrical signal to an external device.

Abstract: A portable optical measurement system is provided for performing metal trace analysis on a liquid sample. The system includes a sample holder for holding an analysis substrate that includes the liquid sample during the metal trace analysis. The system further includes an ultraviolet (UV) light source for emitting ultraviolet light illuminating the liquid sample. The system also includes an optical sensor for detecting radiation emanating from the liquid sample and converting the detected radiation into an electrical signal. The system additionally includes a microcontroller for processing the electrical signal. The system further includes an external interface for transmitting the processed electrical signal to an external device.

Abstract: A hybrid microfluidics device includes a substrate having a base region with a width and a length. A paper has testing regions disposed along the width of the base region. A cover has an angled relationship with the base region to form a wedge profile to provide a length-wise droplet pump effect to separately maintain channel-less regions for the testing regions.

Abstract: People sensing reports are applied to support video surveillance allowing for assigning priority rating in the processing of video and image produced by a video surveillance system based on crowdsensing reports. The present invention addresses a challenge faced by organizations, such as public agencies and/or private companies that employ surveillance systems in order to capture surveillance media.