Abstract: A time of flight camera system resolves the direct path component or the multi-path component of modulated radiation reflected from a target. The camera system includes a time of flight transmitter arranged to transmit modulated radiation at a target, and at least one pattern application structure operating between the transmitter and the target, the pattern application structure operating to apply at least one structured light pattern to the modulated transmitter radiation, and an image sensor configured to measure radiation reflected from a target. The time of flight camber is arranged to resolve from the measurements received the contribution of direct source reflection radiation reflected from the target.

Abstract: In one aspect the invention provides a fluid temperature modification apparatus which includes at least one temperature modification element s associated with a fluid conduit. This temperature modification element or elements are located adjacent to an outlet of the fluid conduit. The apparatus also includes at least one energy storage capacitor, and at least one trigger switch which when operated connects one or more energy storage capacitors to a temperature modification element. The operation of a trigger switch at least partially discharges at least one energy storage capacitor to energise a temperature modification element which modifies the temperature of fluid in the conduit adjacent to the outlet port of the conduit.

Abstract: A bone matrix, including: a bone matrix material, which has had organic material removed, and a replacement material that has replaced the organic material, the bone matrix characterised in that the bone matrix is formed from a single piece of bone.

Abstract: The present invention relates to a method and apparatus used to calculate at least one velocity component for a target within the region. The invention employs an energy source which is activated using an activation system in a cyclic pattern with a selected source frequency. A receiver is also employed in conjunction with a shielding system where this shielding system is configured to block the sensing of reflected energy from the target in a cyclic pattern with a selected receiver frequency. The invention operates through measuring a frequency change in the source frequency of the energy source signal when received by the receiver and determines a velocity component for a target based on a measured frequency change for a known direction of travel. The invention may also be extended to provide a two or three dimensional velocity vector through the addition of further energy sources.

Abstract: The present invention relates to a method and apparatus used to calculate at least one velocity component for a target within the region. The invention employs an energy source which is activated using an activation system in a cyclic pattern with a selected source frequency. A receiver is also employed in conjunction with a shielding system where this shielding system is configured to block the sensing of reflected energy from the target in a cyclic pattern with a selected receiver frequency. The invention operates through measuring a frequency change in the source frequency of the energy source signal when received by the receiver and determines a velocity component for a target based on a measured frequency change for a known direction of travel. The invention may also be extended to provide a two or three dimensional velocity vector through the addition of further energy sources.

Abstract: The invention relates to a solid-state range sensing system. As with previous solid-state range sensing systems, an energy source is activated and deactivated in a cyclic pattern with a selected source frequency. A receiver is adapted to sense the reflection of emitted energy from the target. The receiver includes a shielding system to block the sensing of the reflected energy from the target in a cyclic pattern with a selected receiver frequency. Unlike the prior art, the frequency of the source and receiver are offset by a small frequency. The resulting output signal of the receiver is a further cyclic pattern beat signal of frequency equal to the difference between the source activation and receiver shielding modulation frequencies. The best signal is effectively a down-converted version of the source modulation frequency and, unlike the prior art, is compared with a reference beat signal whereby the phase difference between the two beat signals is used to determine a range value.

Abstract: The present invention relates to a method, system and apparatus for encoding audio visual media signals sourced from preferably a video conference transmission. The technology provided is adapted to receive a video conference transmission from a computer network where this video conference transmission includes at least one audio visual signal and at least one protocol signal. One or more protocol signals are then read from the transmission received with the technology provided applying a selected encoding process to a received audio visual signal, wherein the encoding process selected depends on the contents of a read protocol signal.