Abstract: A motion capture camera or motion capture system having a plurality of such cameras located around a motion capture volume where the camera includes an illuminated color-coded status ring that, under computer and/or manual control, visually communicates at a glance a status of the camera and/or system to an operator within the motion capture volume.

Abstract: A motion capture camera or motion capture system having a plurality of such cameras located around a motion capture volume where the camera includes an illuminated color-coded status ring that, under computer and/or manual control, visually communicates at a glance a status of the camera and/or system to an operator within the motion capture volume.

Abstract: A primary fluid actuated, secondary fluid propelling system, suitable for use, for example, as an implantable, artificial heart device, comprises a unidirectional pump for pumping electrorheological fluid, two return loops connected to the pump, and for each return loop, two electrorheological valves therein in series flow, and a primary fluid actuated, secondary fluid propelling device connected to that loop at a position between the two electrorheologocal valves therein. The primary fluid actuated, secondary fluid propelling devices may comprise a casing having the interior thereof divided by a pressure transmitting flexible diaphragm into a first cavity for receiving electrorheological fluid from that return loop, and a second cavity for propelling the secondary fluid. The electrorheological valves are actuated to pressurize one first cavity while emptying the other and vice versa.

Abstract: An apparatus for measuring the flow rate and/or viscous characteristics of a fluid comprises a casing, having a fluid passage which is elongated in cross-section with two parallel, opposed sides and has a flared entry portion leading to a portion of constant cross-section. Formulae are given, using substantially pure water as a standard, from which a suitable geometry for the flared entry portion can be deduced. Fluid pressure detectors are provided for detecting a fluid pressure differential in the fluid passage such that the fluid characteristic to be measured may be deduced from the pressure differential when laminar flow is maintained in the passage. When laminar flow is maintained the apparatus is capable of measuring a wide range of flow rates and/or viscosities of an extensive variety of fluids in a consistent and deducible manner with minimal pressure loss.

Abstract: An apparatus for regulating the flow rate of a fluid, comprising a casing having an annular or cone-shaped fluid passage, for radial flow (inwardly or outwardly) between an inlet and outlet which are spaced radially and form unobstructed flow paths to the whole of the fluid passage. The geometry of the fluid passage is defined for a compressible and incompressible fluid so that laminar flow is achieved in the fluid passage. The apparatus further provides a very rapid dynamic response, essentially free of hysteresis, and substantially no internal generation of fluid flow turbulence resulting in a minimum of noise and freedom from cavitation. In an adjustable configuration the apparatus provides a proportional fluid valving function. In a nonadjustable configuration the apparatus provides a laminar flow restriction.

Abstract: An antenna system forming a cluster of closely spaced beams filling a desired angular scan sector is disclosed. A transmit signal amplitude applied to each beam is modulated as a function of time to form a composite beam which scans smoothly across the scan sector. The RF transmit signal is initially split into a plurality of equal amplitude signals and fed to a plurality of attenuators by power dividers for selective amplitude modulation of the RF signals. The amplitude modulating signals are supplied the attenuator by a digital controller which also supplies switch control signals to selectively switch amplitude modulating transmit signals of varying amplitude to selected feed elements of an array of radiating elements in a time sequence for feeding an antenna reflector.

Abstract: An apparatus for measuring the flow rate and/or viscous characteristics of a fluid comprising a casing having a fluid passage, a fluid inlet cavity and a fluid outlet cavity, fluid pressure detecting means preferably at spaced positions along the passage, and fluid pressure indicating means for indicating the or each characteristic to be measured in terms of the fluid pressure differential between the detecting means positions. The fluid inlet cavity provides a substantially unobstructed flow path to the fluid passage and the fluid outlet cavity provides a substantially unobstructed flow path therefrom. The fluid passage cross-sectional area decreases in the fluid flow direction in order to maintain laminar flow of the fluid therealong and wall boundary induced viscous shear therealong, over an extended range of Reynolds number within the fluid passage and formulae are given, using substantially pure water as a standard fluid, from which the limits of fluid passage geometry can be defined.