Abstract: A landing zone indicator system which includes a battery that is configured to power a controller and a human vision output device, a controller that is configured to control human-visible light that is output by the human vision output device, and a human vision output device where the human-visible light output by the human vision output device generates an illuminated landing zone for a vertical takeoff and landing (VTOL) vehicle.

Abstract: An antenna windsock assembly for indication wind direction to a driver of a vehicle includes a windsock that is comprised of an air impermeable material for capturing wind. The windsock is elongated such that the windsock can be elongated by the wind to indicate the direction of the wind. A ring is integrated into the windsock such that the ring retains the windsock in an open position to facilitate the wind to flow into the windsock. A pair of clips is each coupled to the ring and each of the clips is attachable to a radio antenna of a vehicle. In this way the windsock is visible to a driver of the vehicle thereby facilitating the driver to determine the direction of the wind.

Abstract: A vane for dynamic flow angle measurements may have improved performance for time lag responsiveness over a prior art delta-shaped vane. In various embodiments, a gust sensing vane may have a cropped-delta shape and configured to align to a fluid flow direction, where the gust sensing vane comprises a forward portion having a leading edge and an aft portion having a first trailing edge and a second trailing edge. A cross-sectional area of the forward portion may have a triangular shape. Furthermore, a cross-sectional area of the aft portion has two substantially parallel sides to form the cropped-delta shape of the gust sensing vane. The gust sensing vane may be coupled to, and extend away from, a rotary hub.

Abstract: The invention relates to an optical detector for determining the relative wind direction (attack angle) relative to a rotating or stationary wind turbine rotor. The optical detector comprises an output part which transmits distinguishable light beams out from a rotor blade in different predetermined directions. The beams may be distinguishable by light color, by the time the individual beams are emitted and/or by different amplitude modulation frequencies or other modulations of the individual beams. By determining pulse times of scattered light from wind borne particles moving in or through the different distinguishable beams, or determining the number of pulses within a period, it is possible to determine the relative wind direction or angle of attach as the predetermined direction of a beam which has the longest pulse times or the fewest number of pulses within a given period of time.

Abstract: Wind detection apparatus which comprises: a fixed support structure (2) provided with a support rod (3) to which a rotatable frame (4) is pivoted in an idle manner; a signaling body (8) with tubular form fixed to the rotatable frame (4) and on which the wind is susceptible of acting in order to rotate the rotatable frame (4) until the signaling body (8) is aligned with the direction of the wind; an illuminating device (17) fixed to the rotatable frame (4) and actuatable to illuminate the signaling body (8); at least one transformer (19), which comprises a primary winding (21) fixed to the support rod (3) and a secondary winding (23) fixed to the rotatable frame (4), and is adapted to transfer the electrical energy between power supply means (18) fixed to the support structure (2) and control means (20) mounted on the rotatable frame (4) and adapted to control the operation of the illuminating device (17).

Abstract: An illuminated windsock, including a windsock assembly coupled to a windsock. The windsock assembly may comprise a base in which a windsock ring is attached. The windsock ring is coupled to the windsock, attaching the windsock to the windsock assembly. A housing provides for the rotation of the ring and base around a vertical axis. The windsock assembly may further include a mount to secure the windsock assembly to a structure and a light shade to house an illumination device. Solar panels or cells may be present to provide energy for the illumination device.

Abstract: The invention comprises a wind turbine having an optical wind sensor 10. The optical wind sensor generates one or more multiple beams of light 42, each of which forms a sensor beam pointing along a sensor axis. Where more than one sensor beam is used the beams are arranged so that the different sensor axes lie at least partly orthogonal to each other, allowing the wind direction 40 to be detected for any direction of wind. Each multiple sensor beam comprises at least two individual sensor beams having different respective wavelengths of light. The different color of the individual light beams allows the sensor system to detect which of the light beams is triggered first when matter in the wind passes through the beam and reflects light back to light collecting device.

Abstract: A method for the operation of a navigation device, and a corresponding navigation device are provided. Multiple route elements are received which each have at least one parameter. The route elements characterize a route. Each of the route elements are assigned to local route elements which are stored in a digital memory card stored in the navigation device. A quality coefficient for the assignability to a local route element is determined for each of the route elements depending on at least one of the at least one parameters. A route reconstruction quality coefficient is determined depending on the respective quality coefficients of the route elements.

Abstract: A system for displaying information obtained along the direction of flight of an aircraft is provided. The system includes a vane assembly pivotally mounted to the aircraft having a sensor mounted thereto. The vane comprises a pointing axis configured to continuously align with the direction of the flight path of the aircraft. A display device is operatively connected to the output of the sensor for providing a display along the actual flight path of the aircraft.

Abstract: A powder dispenser useable as a golf accessory includes a body of flexible material for housing a quantity of powder and a cap for controlling discharge of the powder. The cap includes an orifice for discharging the powder and a gate controlled by rotating the cap relative to the body to provide selective fluid communication with the powder within the body.

Abstract: The invention comprises a wind turbine having an optical wind sensor 10. The optical wind sensor generates one or more multiple beams of light 42, each of which forms a sensor beam pointing along a sensor axis. Where more than one sensor beam is used the beams are arranged so that the different sensor axes lie at least partly orthogonal to each other, allowing the wind direction 40 to be detected for any direction of wind. Each multiple sensor beam comprises at least two individual sensor beams having different respective wavelengths of light. The different colour of the individual light beams allows the sensor system to detect which of the light beams is triggered first when matter in the wind passes through the beam and reflects light back to light collecting device.

Abstract: In order to provide a robust, weather resistant, portable, low-noise, relatively inexpensive, wind direction detection device, disclosed herein is a method and device for detecting fluid flow direction based on sensing a temperature variation transmitted from a temperature variation source to one or more temperature sensors. One or more indicators are utilized to communicate the measured fluid flow direction to a user. An implementation of the fluid flow direction detection device utilizes a resistance heater as the temperature variation source, thermistors as the temperature sensors, and light emitting diodes (LEDs) corresponding to each thermistor as the indicators. The thermistors and LEDs are arranged in a circular fashion around the resistance heater to accurately detect the direction of a thermal plume generated by the resistance heater.

Abstract: The masthead wind direction indicator illuminator of the present invention provides three significant improvements over the prior art including elimination of wiring and switches, greatly extended lighting element life and automatic on/off control. Elimination of wiring and switches greatly reduces the complexity of the illuminator system, use of LED light source elements greatly increases the life of the illuminator, and use of a light sensitive switching element provides automatic control of the illuminator.

Abstract: A combination wind direction and wind speed indicating apparatus for providing enhanced visibility at night and under other low visibility conditions is mounted, for example, at an airport landing zone, to rotate in the wind and indicates wind direction with high-intensity colored lights mounted in a specified array about the horizontal periphery of the apparatus; a vertical array of lights is illuminated in response to incremental wind speed variations. The apparatus can include a self-contained source of electrical power such as a rechargeable battery pack connected via appropriate circuitry to a solar power cell.

Abstract: A combination wind direction and wind speed indicating apparatus for providing enhanced visibility at night and under other low visibility conditions is mounted, for example, at an airport landing zone, to rotate in the wind and indicates wind direction with high-intensity colored lights mounted in a specified array about the horizontal periphery of the apparatus; a vertical array of lights is illuminated in response to incremental wind speed variations. The apparatus can include a self-contained source of electrical power such as a rechargeable battery pack connected via appropriate circuitry to a solar power cell.

Abstract: In order to provide a robust, weather resistant, portable, low-noise, relatively inexpensive, wind direction detection device, disclosed herein is a method and device for detecting fluid flow direction based on sensing a temperature variation transmitted from a temperature variation source to one or more temperature sensors. One or more indicators are utilized to communicate the measured fluid flow direction to a user. An implementation of the fluid flow direction detection device utilizes a resistance heater as the temperature variation source, thermistors as the temperature sensors, and light emitting diodes (LEDs) corresponding to each thermistor as the indicators. The thermistors and LEDs are arranged in a circular fashion around the resistance heater to accurately detect the direction of a thermal plume generated by the resistance heater.

Abstract: The masthead wind direction indicator illuminator of the present invention provides three significant improvements over the prior art including elimination of wiring and switches, greatly extended lighting element life and automatic on/off control. Elimination of wiring and switches greatly reduces the complexity of the illuminator system, use of LED light source elements greatly increases the life of the illuminator, and use of a light sensitive switching element provides automatic control of the illuminator.

Abstract: In order to provide a robust, weather resistant, portable, low-noise, relatively inexpensive, wind direction detection device, disclosed herein is a method and device for detecting fluid flow direction based on sensing a temperature variation transmitted from a temperature variation source to one or more temperature sensors. One or more indicators are utilized to communicate the measured fluid flow direction to a user. An implementation of the fluid flow direction detection device utilizes a resistance heater as the temperature variation source, thermistors as the temperature sensors, and light emitting diodes (LEDs) corresponding to each thermistor as the indicators. The thermistors and LEDs are arranged in a circular fashion around the resistance heater to accurately detect the direction of a thermal plume generated by the resistance heater.

Abstract: A calibration device provided for use with a high-pressure fluid jet apparatus includes a body configured to be coupled to the high-pressure fluid jet apparatus, and a light-emitting device positioned toward the first end of the body and configured to project light on a target element at a location substantially identical to a location at which the high-pressure fluid jet contacts the target element during operation with fluid, allowing calibration of the high-pressure fluid jet apparatus before operation with fluid.

Abstract: A new and improved tell-tale comprised of a flexible array of light emitting diodes (LED's) that is integrated into a fabric tell-tale strip. A port side tell-tale includes a flexible array of red color emitting LED's and a starboard side tell-tale includes a flexible array or green colored LED's. Electricity is conducted to the tell-tale strips by foil conductors that are embedded within adhesive backed plastic strips which adhere to the sail.

Abstract: A new and improved tell-tale comprised of a flexible array of light emitting diodes (LED's) that is integrated into a fabric tell-tale strip. A port side tell-tale includes a flexible array of red color emitting LED's and a starboard side tell-tale includes a flexible array or green colored LED's. Electricity is conducted to the tell-tale strips by foil conductors that are embedded within adhesive backed plastic strips which adhere to the sail.

Abstract: Wind indicator apparatus for indicating air flow comprising: a direction pointer, including a vane member, for providing a visible indication of air flow direction; pivoting means including a fixed portion for coupling to a sailing craft and a pivotable portion able to pivot with respect to said fixed portion and with which said direction pointer is entrained for movement therewith; and a counterbalance extending from said pivotable portion of said pivoting means and arranged to move therewith, the mass of the counterbalance being disposed so as to maintain the direction pointer in a substantially level position.

Abstract: The present invention relates to a segmented cylindrical tide staff system [11] for erection at remote areas for dynamic calibration of electronic tide meters and computer models of tides, said tide staff system consisting of plurality of cylindrical tubes [12], said cylindrical tube being coupled to a flange [13] at its end through a circular orthogonal hole [20] drilled on a flat surface of the flange, said flange being provided with plurality of equally spaced slots [15] drilled on the flat surface of the flange, an outwardly protruding tide indicating arm [14] being mounted on the flange wherein said tide indicating arm consists of two mutually orthogonal planes [22] and [23], wherein plane [22] is perpendicular to the axis of the tide staff and plane [23] is parallel to the axis of the tide staff, said perpendicular plane [22] being provided with a mounting terminal [21] and a circular

Abstract: An apparatus for non-intrusively sensing fluid flow within a pipe is provided. The apparatus includes a first sensing array for sensing acoustic signals traveling at the speed of sound through fluid flow within the pipe, a second sensing array for sensing local pressure variations traveling with the fluid flow, and a housing attached to the pipe for enclosing the sensing arrays. The first sensing array includes a plurality of first optical pressure sensors and the second sensing array includes a plurality of second optical pressure sensors.

Abstract: A weather station with at least one element mounted on bearings on a housing or rack on a vertical axis for alignment with the direction of the wind and with a measuring device, which depending on the angle position of the element aligning in the direction of the wind provides an electrical signal, wherein the measuring device is an opto electric measuring device with at least two light paths. Each of the at least two light paths has its own light-emitting element and which have a common light detector and form a light path configuration, each light path is used to scan a group of markings, which are located around an axis of at least one screen in such a manner that the markings provide a code when scanning that defines the angle area of the position of the element aligning with the direction of the wind. The light-emitting elements determine the angle position of the element aligning with the direction of the wind.

Abstract: A weather station with at least one element mounted on bearings on a housing or rack on a vertical axis for alignment with the direction of the wind and with a measuring device, which depending on the angle position of the element aligning in the direction of the wind provides an electrical signal, wherein the measuring device is an opto electric measuring device with at least two light paths. Each of the at least two light paths has its own light-emitting element and which have a common light detector and form a light path configuration, each light path is used to scan a group of markings, which are located around an axis of at least one screen in such a manner that the markings provide a code when scanning that defines the angle area of the position of the element aligning with the direction of the wind. The light-emitting elements determine the angle position of the element aligning with the direction of the wind.