Abstract: An electro-fluidic interconnection. The interconnection includes a body (200) formed of a ceramic material. The body (200) is provided with an aperture (206) having a profile suitable for receiving an interconnecting conduit (400). The interconnecting conduit (400) can be formed of the same type of ceramic material as the body (200). The conduit (400) is defined by an outer shell (403) with a hollow bore (402) for transporting a fluid. A mating portion (404) of the conduit has an exterior profile that matches the profile of the aperture. Moreover, the mating portion (404) of the conduit (400) can be compression fitted within the aperture (206). Conductive traces (406, 208) on the conduit and the body can be electrically connected to complete the electro-fluidic interconnection.

Abstract: A handle system for a rolling luggage case can include a luggage case in which one or more articles can be stored and having a top, bottom, front, and back panels, and a pair of sidewalls. The luggage case can include a wheel assembly provided at a location on the bottom panel and adjacent to the back panel; at least one telescoping member that is extensible from a retracted position within the luggage case to an extended position protruding from the luggage case; and a gear assembly that is attached to an end of the telescoping member(s) that is distal from the luggage case. The handle system can include a handle attached to the telescoping member(s) through the gear assembly. The gear assembly can provide pivotal and rotational movement of the handle about the end of the telescoping member(s).

Abstract: A system for exciting flexural waves on an optical fiber (102) is provided. The system includes a substrate (114, 118), an actuator (106), and a mechanical optical fiber coupling (104). The actuator is formed of an electromechanical transducer material. The actuator is mounted on the substrate. The mechanical optical fiber coupling (for example, an adhesive media) forms a secure mechanical connection between the actuator and the optical fiber. The mechanical optical fiber coupling is configured for communicating mechanical vibrations from the actuator to the optical fiber. However, it should be understood that the mechanical optical fiber coupling is exclusive of a tapered horn.

Abstract: A method for making an embedded toroidal inductor (118) includes forming in a ceramic substrate (100) a first plurality of conductive vias (102) radially spaced a first distance from a central axis (101) so as to define an inner circumference. A second plurality of conductive vias (104) is formed radially spaced a second distance about the central axis so as to define an outer circumference. A first plurality of conductive traces (110) forming an electrical connection between substantially adjacent ones of the first and second plurality of conductive vias is formed on a first surface (106) of the ceramic substrate. Further, a second plurality of conductive traces (110) forming an electrical connection between circumferentially offset ones of the first and second plurality of conductive vias is formed on a second surface of the ceramic substrate opposed from the first surface to define a three dimensional toroidal coil.

Abstract: A method for operating a tattoo studio includes identifying a customer selection of a tattoo design and a bin designator for a stencil for the tattoo design; locating a storage bin containing a stencil for the tattoo design; and scanning a bar code assigned to the stencil. The method can also include scanning at least a second barcode associated with a tattoo enhancement including a non-standard paint, an additional paint color, or a mixture of paint colors. Inventory control is verified using a match code and pre-packaged sets of numbered stencils.

Abstract: A vibration isolation system (100) for a payload (102). The vibration isolation system provides a level of vibration isolation for all vibration translational and rotational components, while minimizing the moment of the payload mass relative to the isolation system. The system includes a base (104) and a plurality of vibration isolators (114). Each vibration isolator includes a semi-rigid first support member (202) having first portion (204) positioned below the base and an opposing second portion (206) positioned above the base, and a second support member (208) having a first portion (210) fixed to the base and an opposing second portion (212) extending above the base. An elastomeric coupling (228) couples the first support member to the second support member at a height that is approximately equal to a height of a center of gravity (302) of a combined mass of the base and the payload above the base.

Abstract: A three-dimensional (3D) volumetric geo-spatial querying system. The system can include a 3D GIS. The 3D GIS can include a database of geo-spatial data configured to store geo-spatial data using, not two-dimensional, but three-dimensional coordinates. The GIS further can include at least one database operation configured to process a database query against geo-spatial data stored in the database. Notably, the database operation can accept three-dimensional coordinates as part of the database query. Importantly, the 3D GIS can include a geo-spatial data encoder configured to encode the geo-spatial data prior to storing the geo-spatial data in the database. In particular, in one aspect of the present invention, the encoder can be a helical hyperspatial code encoder, or an oct-tree encoder.

Abstract: Method and apparatus for uniquely identifying a copy of a motion picture disposed on a media. The method includes the steps of selecting two or more motion picture scenes. Each of the motion picture scenes is an identifiable portion of the motion picture distinct from every other portion of the motion picture. Once the scenes have been identified, two or more sequences can be defined within each of the motion picture scenes such that each sequence includes two or more frames. For example, the motion picture can have three scenes, each divided into twenty eight sequences, with each of the sequences containing 12 frames. Once the scenes and sequences have been selected, at least one of the sequences from each scene is marked to define a uniquely identifiable marking pattern on the media.

Abstract: A method for embedding optical band gap (OBG) devices in a ceramic substrate (100). The method includes the step (320) of pre-forming an OBG structure (105). The OBG structure can be a micro optical electromechanical systems (MOEMS) device. Further, the OBG structure can be preformed from indium phosphide and/or indium gallium arsenide. The method also includes the step (325) of coating the OBG structure with a surface binding material (230). The surface binding material can be comprised of calcium and hexane. The ratio of the calcium to hexane can be from about 1% to 2%. At a next step (330), the OBG structure can be inserted into the ceramic substrate. A pre-fire step (335) and a sintering step (340) then can be performed on the substrate.

Abstract: Cable strain relief device (100) for electronic equipment (400) that can be attached at any position on a cable (200). The device (100) can secure the cable (200) to any fixed point (402). The device can protect the cable connection (404) to the electronic equipment by transferring mechanical load placed on the cable (200) to a strong rigid location (402) on the equipment or any fixed point. It also protects the cable from damage typically associated with conventional clamping techniques.

Abstract: Method for forming a transformer (118) in a ceramic substrate. The method can include the steps of forming at least one conductive coil (119a, 119b) comprising a plurality of turns about an unfired ceramic toroidal core region (120a, 120b) defined within an unfired ceramic substrate (100). The method can also include the step of co-firing the unfired ceramic toroidal core region (120a, 120b), the unfired ceramic substrate (100), and the conductive coil (119a, 119b) to form an integral ceramic substrate structure with the conductive coil at least partially embedded therein.

Abstract: Compact multi-band antenna system (500) includes a main reflector (502) having a shaped surface of revolution about a boresight axis of the antenna operable at a plurality of frequency bands spectrally offset from each other. A multi band feed system (300) is provided for the main reflector that includes a subreflector (304) formed as a shaped surface of revolution about the boresight axis of the antenna, and a horn antenna (302). The horn antenna has one or more ridges (312) disposed in a throat region (314) of the horn antenna extending in a direction aligned with the boresight axis (3100 of the antenna. The horn antenna is coupled to the shaped surface of revolution defining the subreflector.

Abstract: Method for fabricating a textured dielectric substrate (400) for an RF circuit. The method can include the step (104) of selecting a plurality of dielectric substrate materials, each having a distinct combination or set of electrical properties that is different from the combination of electrical properties of every other one of dielectric substrate materials. Selecting a textured substrate pattern (106) which is comprised of at least two types of distinct areas respectively having the distinct sets of electrical properties, with each distinct area dimensioned much smaller than a wavelength at a frequency of interest. Cutting the dielectric substrate materials (202, 204) into a size and shape consistent with the distinct areas of the selected pattern so as to form a plurality of dielectric pieces (206, 208). Arranging the dielectric pieces on a base plate (302) in accordance with the selected pattern to form the textured dielectric substrate.

Abstract: Method and apparatus for securing a building foundation form disposed on a moisture barrier membrane. The method includes the steps of positioning one end of a concrete form stake in a mating structure of a plug, penetrating the moisture barrier membrane with a tip end the plug, and forming a seal between a flange extending around a periphery of the plug and the moisture barrier membrane.

Abstract: A console for vehicle, which has an improved usefulness with respect to the accommodation of goods or the like, is disclosed. The console comprises: a first concave portion arranged to accommodate goods, the first concave portion having a first opening on a top side opened or closed by a first cover; and a second concave portion arranged to accommodate goods and provided downwardly of the first concave portion having a second opening in the same plane as a bottom of the first concave portion, the second opening being opened or closed by a second lid. The console is structured thus way, whereby it can be moved to an appropriate location in the inside of a vehicle and placed thereon, while it has enlarged spaces for accommodating goods, and thus it has an improved usefulness.

Abstract: A phased array antenna (100) having a frequency selective surface comprises a substrate (125) and an array of antenna elements (140) thereon. Each antenna element comprises a medial feed portion (42) and a pair of legs (49) extending outwardly therefrom. Adjacent legs of adjacent antenna elements include respective spaced apart end portions (51). The antenna further comprises at least one fluidic dielectric residing within at least one cavity (170) within the substrate and arranged between a plane where the array of dipole antenna elements reside and a ground plane (150), at least one composition processor (104) adapted for dynamically changing a composition of said fluidic dielectric, and a controller (102) for controlling the composition processor to selectively vary at least one of a permittivity and a permeability of the fluidic dielectric in at least one cavity in response to a control signal (105).