Abstract: Provided herein are apparatus and methods relating to the development of instrumentation for high throughput network electrophysiology and cellular analysis. More specifically, provided herein are multiwell microelectrode arrays (MEAs) and methods for the development of such an apparatus in an inexpensive fashion with a flexible, ANSI/SBS-compliant (American National Standards Institute/Society for Biomolecular Screening) format. Microelectrode arrays are a grid of tightly spaced microelectrodes useful for stimulating and sensing electrically active cells, networks and tissue. The techniques described herein relate to the use of microfabrication in combination with certain large-area processes that have been employed to achieve multiwell MEAs in ANSI/SBS-compliant culture well formats, which are also transparent for inverted/backside microscopy compatibility.

Abstract: A method for capturing an improved archival image using an electronic image capture device having a flash, comprising: capturing at least two preview images of a scene at different capture times using the image capture device; determining a scene brightness; using a processor to analyze the captured preview images to determine a motion velocity for the scene; determining a flash exposure setting and an ambient exposure setting responsive to a ratio between the determined scene brightness and the determined motion velocity; and capturing an archival image using the determined flash exposure setting and the determined ambient exposure setting.

Abstract: A method for capturing an improved archival image using an electronic image capture device having a flash, comprising: capturing at least two preview images of a scene at different capture times using the image capture device; determining a scene brightness; using a processor to analyze the captured preview images to determine a motion velocity for the scene; determining a flash exposure setting and an ambient exposure setting responsive to a ratio between the determined scene brightness and the determined motion velocity; and capturing an archival image using the determined flash exposure setting and the determined ambient exposure setting.

Abstract: Provided herein are apparatus and methods relating to the development of instrumentation for high throughput network electrophysiology and cellular analysis. More specifically, provided herein are multiwell microelectrode arrays (MEAs) and methods for the development of such an apparatus in an inexpensive fashion with a flexible, ANSI/SBS-compliant (American National Standards Institute/Society for Biomolecular Screening) format. Microelectrode arrays are a grid of tightly spaced microelectrodes useful for stimulating and sensing electrically active cells, networks and tissue. The techniques described herein relate to the use of microfabrication in combination with certain large-area processes that have been employed to achieve multiwell MEAs in ANSI/SBS-compliant culture well formats, which are also transparent for inverted/backside microscopy compatibility.

Abstract: System (10) is disclosed including an acoustic sensor array (20) coupled to processor (42). System (10) processes inputs from array (20) to extract a desired acoustic signal through the suppression of interfering signals. The extraction/suppression is performed by modifying the array (20) inputs in the frequency domain with weights selected to minimize variance of the resulting output signal while maintaining unity gain of signals received in the direction of the desired acoustic signal. System (10) may be utilized in hearing, cochlear implants, speech recognition, voice input devices, surveillance devices, hands-free telephony devices, remote telepresence or teleconferencing, wireless acoustic sensor arrays, and other applications.

Abstract: System (10) is disclosed including an acoustic sensor array (20) coupled to processor (42). System (10) processes inputs from array (20) to extract a desired acoustic signal through the suppression of interfering signals. The extraction/suppression is performed by modifying the array (20) inputs in the frequency domain with weights selected to minimize variance of the resulting output signal while maintaining unity gain of signals received in the direction of the desired acoustic signal. System (10) may be utilized in hearing aids, voice input devices, surveillance devices, and other applications.

Abstract: System (10) is disclosed including an acoustic sensor array (20) coupled to processor (42). System (10) processes inputs from array (20) to extract a desired acoustic signal through the suppression of interfering signals. The extraction/suppression is performed by modifying the array (20) inputs in the frequency domain with weights selected to minimize variance of the resulting output signal while maintaining unity gain of signals received in the direction of the desired acoustic signal. System (10) may be utilized in hearing, cochlear implants, speech recognition, voice input devices, surveillance devices, hands-free telephony devices, remote telepresence or teleconferencing, wireless acoustic sensor arrays, and other applications.

Abstract: A method of setting chromatic correction in exposure determining algorithms of an automatic photographic printer using inferential illuminant detection derived from data recorded at a camera during picture taking. For scenes having a scene light level above a predetermined level, daylight chromatic correction is set at the printer. For scenes having a scene light level below this level, daylight chromatic correction is set at the printer if sufficient flash illuminant is determined from the recorded data to exist in the image otherwise a non-daylight chromatic correction corresponding to a high degree of chromatic correction is set at the printer.

Abstract: A method and apparatus for receiving exposed film, processing the exposed film, printing the processed film so as to produce prints, and dispensing of the prints and processed film to a customer. The apparatus includes a mechanism for delivering to the apparatus an exposed strip of film. The film has a first unexposed area and a second exposed area containing images. A mechanism is also provided for providing a reference exposure onto the first unexposed area. The apparatus also includes a processing section for processing the exposed film so as to develop the images on a second area of the film and the reference exposure on the first area a section for scanning the first and/or second areas so as to obtain information regarding the photometric balance of the film. The apparatus prints the film in accordance with the information data received from the scanner. A storage and dispensing mechanism is provided for each customer order.

Abstract: Winged sanitary napkins are provided which include a release strip disposed over a portion of the undergarment-facing side of the absorbent element and over an adhesive means attached to a body-facing side of at least one of the flaps. These napkins may be produced using a single adhesive applicator subsequent to folding the flaps. The release strip of this invention can be easily removed from the napkin to allow the wearer to wrap the flaps around the undergarment and secure the flaps to one another. These napkins conserve adhesive and release paper, while at same time, facilitating their use.