Abstract: Methods and apparatuses for transmitting images captured by first and second image sensors are disclosed. In some embodiments, each image sensor generates a plurality of pixel values each represented by a plurality of data bits having a pixel bit length. In some embodiments, a method involves combining pixel values generated by each of the first and second image sensors into a single image data stream, transforming the single image data stream into a plurality of data words having a word bit length, and encoding the data by selection of one of a plurality of symbols having an encoded bit length that is at least one bit longer than the word bit length to reduce a running disparity. The method also involves serializing the symbols to generate and transmit a DC balanced serial bitstream. Methods for synchronizing a receiver for extracting image data from the serial bitstream are also disclosed.

Abstract: Methods and apparatuses for transmitting images captured by first and second image sensors are disclosed. In some embodiments, each image sensor generates a plurality of pixel values each represented by a plurality of data bits having a pixel bit length. In some embodiments, a method involves combining pixel values generated by each of the first and second image sensors into a single image data stream, transforming the single image data stream into a plurality of data words having a word bit length, and encoding the data by selection of one of a plurality of symbols having an encoded bit length that is at least one bit longer than the word bit length to reduce a running disparity. The method also involves serializing the symbols to generate and transmit a DC balanced serial bitstream. Methods for synchronizing a receiver for extracting image data from the serial bitstream are also disclosed.

Abstract: The present invention provides a communication network for facilitating monitoring of an athletic activity. In one exemplary embodiment, such a communication network includes a base station and a first monitor configured to be coupled to an individual, wherein the base station is configured to transmit a first beacon message, wherein, in response to receipt of the first beacon message, the first monitor is configured to transmit an endpoint message including a characteristic of the individual, and wherein the base station is configured to receive the endpoint message, and, if the base station does not receive the endpoint message by a determined time, the base station is configured to transmit a second beacon signal, the second beacon signal including instructions to a second monitor to transmit the endpoint message (i.e., the same endpoint message transmitted by the first monitor).

Abstract: The present invention provides a communication network for facilitating monitoring of an athletic activity. In one exemplary embodiment, such a communication network includes a base station and a first monitor configured to be coupled to an individual, wherein the base station is configured to transmit a first beacon message, wherein, in response to receipt of the first beacon message, the first monitor is configured to transmit an endpoint message including a characteristic of the individual, and wherein the base station is configured to receive the endpoint message, and, if the base station does not receive the endpoint message by a determined time, the base station is configured to transmit a second beacon signal, the second beacon signal including instructions to a second monitor to transmit the endpoint message (i.e., the same endpoint message transmitted by the first monitor).

Abstract: A direct current voltage to heat the sensor wire for powering and extracting a signal voltage from a thermocouple-type vacuum sensor. The direct current used produces a DC offset in the sensor output where the heating current flow is stopped for a short interval and the unbiased sensor voltage is then sampled and stored.

Abstract: A direct current voltage to heat the sensor wire for powering and extracting a signal voltage from a thermocouple-type vacuum sensor. The direct current used produces a DC offset in the sensor output where the heating current flow is stopped for a short interval and the unbiased sensor voltage is then sampled and stored.

Abstract: A hand held optical fault locator used to determine the distance to a discontinuity in a fiber optic cable, such as a break, nick, cut, scrape, indentation, or the like, a splice, a connector, or the end of the cable. The locator includes an analog front end, a complex programmable logic device (CPLD), a laser diode and drive, a microcontroller, at least one input, and at least one output. The preferred locator allows a user to select a specific index of refraction, to measure the distance to a fault directly in feet or meters, to measure fiber lengths at counting frequencies in the 100KHz range, to determine fiber reflection events in the digital-time domain, and to make accurate measurements without the use of a sensitivity adjustment feature.