A content distribution node that distributes content to display devices which are arranged in a spaced apart sequence along a pathway of vehicles for display to passengers. The content distribution node receives from a mobile gateway node of a vehicle, through a Light Fidelity signal receiver circuit, a profile message containing profile information related to the vehicle. The content distribution node selects, from among content files available in a content repository, a set of video frames for distribution to the display devices based on the profile information. The content distribution node distributes different video frames among the set of video frames to different ones of the display devices with timing of the distribution that allows the video frames among the set to be displayed on respective ones of the display devices in the sequence before arrival of the vehicle within a field-of-view of at least one of the display devices.

A content distribution node that distributes content to display devices which are arranged in a spaced apart sequence along a pathway of vehicles for display to passengers. The content distribution node receives from a mobile gateway node of a vehicle, through a Light Fidelity signal receiver circuit, a profile message containing profile information related to the vehicle. The content distribution node selects, from among content files available in a content repository, a set of video frames for distribution to the display devices based on the profile information. The content distribution node distributes different video frames among the set of video frames to different ones of the display devices with timing of the distribution that allows the video frames among the set to be displayed on respective ones of the display devices in the sequence before arrival of the vehicle within a field-of-view of at least one of the display devices.

A LED light with built-in Air flow device has AC-to-DC circuit to get DC current to supply power to LED or LEDs and-to charge inside rechargeable batteries and to the inside air flow related device or other product(s). The LED light connect IC and control circuit to make setting, changing, adjust of the said at least one of (A) LED(s) colors, brightness, on-off, duration, cycles, frequency, sequential, flashing, color changing, color selection, auto changing, or other LED light effects, (B) Air flow related parts to get desired speed of rotating fan or blade, on-off, duration, timer, countdown timer, or other desired air flow related function(s); by at least one of (1) trigger system, (2) switch, (3) sensor, (4) motion or moving or radar sensor, (5) IR or RF remote control system, (6) power fail sensor, (7) built-in Auto-Off-On or multiple selection positions switch, (8) other related LED or air flow or air-freshener or fragrance or essential oil diffusor parts or accessories; wherein the LED light connect with (i) AC power source by prongs with or without folding features, (ii) DC power from at least one outside transformer, power bank, DC power from cigarette-plug, USB related DC power source, DC power storage device, solar module, or DC generator.

Apparatus (2) for providing an animated image for a viewer, which apparatus comprises: (i) a device (4, 6, 10, 12) for providing the animated image; and (ii) securing means (14) for securing the apparatus (2) to a part (16) of a structure (18) such that the apparatus (2) is fixed with respect to the structure (18), and such that the device (4, 6, 10, 12) is operable by the viewer in order for the viewer to see the animated image.

Apparatus (2) for providing an animated image for a viewer, which apparatus comprises: (i) a device (4, 6, 10, 12) for providing the animated image; and (ii) securing means (14) for securing the apparatus (2) to a part (16) of a structure (18) such that the apparatus (2) is fixed with respect to the structure (18), and such that the device (4, 6, 10, 12) is operable by the viewer in order for the viewer to see the animated image.

Optical device, and preferably a security device for a security document, and methods for the production thereof, the device including a diffractive optical element (DOE) including a plurality of subregions, wherein each subregion is configured to produce a projected image corresponding to a frame of an animation, wherein the animation includes both a static component and a variable component, and wherein the sub-regions are arranged such that when the DOE is illuminated by a point light source and moved in at least one direction, the animation is viewable as a projected image.

Optical device, and preferably a security device for a security document, and methods for the production thereof, the device including a diffractive optical element (DOE) including a plurality of subregions, wherein each subregion is configured to produce a projected image corresponding to a frame of an animation, wherein the animation includes both a static component and a variable component, and wherein the sub-regions are arranged such that when the DOE is illuminated by a point light source and moved in at least one direction, the animation is viewable as a projected image.

Zeotropic effects are created while an observer experiments with video data and speed controls of a rotary motor. A system facilitates user creation of a customized zoetrope animation disc by enabling a user to take a video of a repetitive motion (e.g., a person doing a jumping jack, a hand opening and closing, a person swinging back and forth on a swing, etc.). The system prompts a user to select a start point and end point to the video. The system further prompts the user to specify a number of frames desired for the animation disc. The animation disc is then printed for use on a rotary motor based on the user input.

Zeotropic effects are created while an observer experiments with video data and speed controls of a rotary motor. A system facilitates user creation of a customized zoetrope animation disc by enabling a user to take a video of a repetitive motion (e.g., a person doing a jumping jack, a hand opening and closing, a person swinging back and forth on a swing, etc.). The system prompts a user to select a start point and end point to the video. The system further prompts the user to specify a number of frames desired for the animation disc. The animation disc is then printed for use on a rotary motor based on the user input.

A visual display assembly useful as an authentication or anti-counterfeiting element. The assembly includes a substrate and, on a surface of the substrate, an array of micro mirrors receiving ambient light. Each mirror includes a reflective surface to reflect the ambient light so as to display an image that appears to float in a plane, which is spaced a distance apart from the surface of the substrate. The image includes a plurality of pixels, and the array of micro mirrors includes for each of the pixels a set of the micro mirrors each having a reflective surface oriented to reflect the ambient light toward a point on the plane corresponding to one of the pixels. Each of the sets of the micro mirrors includes a plurality of the micro mirrors, and the reflected ambient light each set of micro mirrors intersects to illuminate or write a pixel of an image.