Abstract: An apparatus and method are provided for high intensity acoustic test cells that employ the Helmholtz resonator principle, incorporating at least one moderately-sized volume or test cell that is tunable to a given infrasonic to low-sonic frequency and generates sound of high intensity with very pure sinusoidal waveforms in this test cell or volume, by varying the geometry of a port which is connected to the test volume and open to either atmosphere or a second or input volume and by introducing to the test volume or the input volume a driving acoustic signal at the given tuned frequency. The apparatus and method are used for testing or performing experiments on materials, structures, devices, products, biological entities or humans at high acoustic intensities and frequencies in the low-sonic to infrasonic ranges.

Abstract: A semi-fragile image tamper detection system and method based on thumbnail hiding and which signifies the image areas in which tampering has occurred, is provided. A thumbnail is defined as a low-resolution version of an entire image or the significant features of an entire image. Thumbnail hiding is chosen to be resilient to effects of both image compression and low levels of transmission channel noise. The thumbnail computation and embedding techniques are chosen such that the resultant marked image corresponds in size and dynamic range to the original image.

Abstract: An authorization system uses card and signature devices to provide access to a machine. The devices include capacitance grids positioned on different surface regions of the devices to convert fingerprint images of at least two fingers into electrical signals. An images processor in the device processes the electrical signals detected from the fingerprints to produce electrical images of the user's fingerprints. The devices store fingerprint and encrypted user identification data. An authenticating processor compares the user's fingerprints detected on the capacitance grids with authorized user's previously recorded fingerprint's and the user's name and identification data to produce an authenticating signal if there is a match of the fingerprint images. Signature storage and identification can be provided to store and authenticate the uses's electronic signature.

Abstract: An apparatus for detecting a trip wire includes a point source of light of a given wavelength; a mirror that reflects the point source of light, the mirror having a first frequency of oscillation about a first axis to thereby create an appearance of a continuous line, the mirror having a second frequency of oscillation about a second axis to thereby define a planar surface, the first frequency of oscillation being greater than the second frequency of oscillation; a camera offset from the point source of light such that a field of view of the camera does not intersect the planar surface, the camera receiving light reflected from the trip wire; and a computer connected to the camera, the computer including pattern recognition algorithms for analyzing the light reflected from the trip wire and thereby detecting a presence of the trip wire.

Abstract: A printed circuit Traveling-Wave Tube (TWT) with a vacuum housing containing either a pair of identical meanderline slow-wave interaction circuits or a pair of multi-arm spiral slow-wave interaction circuits printed on two identical Photonic Band Gap crystal structures, and a gridded electron gun assembly. Printed on the two identical Photonic Band Gap crystal structures are electrical connections to connect the heater, cathode, grid and acceleration electrodes of the electron gun assembly to a power supply, RF input and output connectors surrounded by ground planes, a depressed collector, and a set of electrical connections to the depressed collector. Zig-zag metal spacers between the two identical Photonic Band Gap crystal structures are used to form the electron beam vacuum gap. Printed conducting metal strips on each side of the meanderline slow-wave interaction circuits are used for electrostatic focusing and to reduce beam edge effects of a sheet electron beam.

Abstract: An electro spinning process yields uniform, nanometer diameter polymer filaments. A thread-forming polymer is extruded through an anodically biased die orifice and drawn through an anodically biased electrostatic field. A continuous polymer filament is collected on a grounded collector. The polymer filament is linearly oriented and highly uniform in quality. The filament is particularly useful for weaving body armor, for chemical/biological protective clothing, as a biomedical tissue growth support, for fabricating micro sieves and for microelectronics fabrication.

Abstract: A method and apparatus of a plurality of detecting elements for detecting and producing an image of an object includes a signal generator for generating a waveform signal, a laser for producing a light signal modulated by the waveform signal, and a mixing and detecting device coupled to and driven by the signal generator for converting reflected light signals received from the target into electrical signals and for mixing the converted electrical signals with the waveform signal to produce an output electrical signal. A read-out is connected to the mixing and detecting device for removing the output electrical signals from the mixing and detecting, and a signal processor is connected to the read-out for processing the output electrical signals from the read-out to detect and produce and image of the object.

Abstract: The invention features a modified catch tube component capable of performing the function of the conventional catch tube and the conventional MEM simultaneously. The catch tube will also feature a capability to accept modular units of mass for adjusting the available angular momentum (of the spinning catch tube) as well as to incrementally adjust inertial resistance for controlling post-impact translational motion. The safety and performance enhancements of the modified spinner are achieved by the above mentioned integration of the MEM with the catch tube. This invention will eliminate MEM free flight and prevent excessively soft, or excessively hard projectile impacts. Equipment such as rails and wheel sets are used to assure that the motion of the catch tube is constrained to translation and to rotation. The invention contrasts conventional spinners in that the motion of a conventional catch tube is limited to rotation only and the MEM to translation and rotation.

Abstract: An armor component includes a tile having a perimeter; and a wrapping material wrapped around the perimeter of the tile. An armor system includes a back plate; at least one tile array layer disposed on the back plate, the at least one tile array layer comprising a plurality of armor components wherein each armor component comprises a tile having a perimeter wrapped with a wrapping material; and a top layer disposed on the at least one tile array layer.

Abstract: This invention provides a means for establishing and controlling a desired image on a material that is both conformal and flexible by nature. Such materials include paper, textiles, molded plastics, and woven fabric. The invention permits a low cost, effective means for generating both static and dynamic images on these materials while preserving the primary structural and functional attributes of the host material.

Abstract: A semipermeable membrane that is capable of remaining flexible at a temperature of at least −60° C. is selective to liquid penetrants depending on the size and polarity of the penetrants, and more specifically, the membrane has sufficient selectivity so as to be capable of allowing water to diffuse therethrough at a higher rate than virtually all organic liquids having a molecular weight higher than that of methanol. The semipermeable membrane, which is produced from an unsulfonated block copolymer having polystyrene and polyisobutylene segments, includes a sulfonated block copolymer including poly (styrene-co-styrene sulfonic acid) segments and polyisobutylene segments. Prior to modification by sulfonation, the unsulfonated polystyrene and polyisobutylene block copolymer includes polystyrene monomer in an amount of from 5% to 90% by weight of the total unsulfonated block copolymer.

Abstract: The invention presents a new methodology to monitor and display the resin flow during fabrication of organic matrix composite laminates in real-time or near real-time and includes data acquisition, remote data distribution, flow analysis and reconstruction, and flow visualization. The data acquisition apparatus is based on SMARTweave technology, as described in U.S. Pat. No. 5,210,499, which provides the location of points on the flow front as a function of time by using voltage measurements. However, the methodology will monitor and display the resin flow if the location and time information is acquired using modified SMARTweave or different apparatus.

Abstract: An apparatus for the activation of a remote device having a transmitter to generate and transmit user-set special coded signals. The transmitter has a function selector switch to select modes of operation for the transmitter. Included is also a receiver to receive the user-set special coded signals, and the receiver also has a function selector switch to select modes of operation for the receiver. The function selector switch selects the following modes of operation for the transmitter: (a) a “transmit/fire” mode that enables a fire signal to be transmitted to the receiver; (b) a “wake-up” mode that enables a set-up receiver mode for immediate firing; (c) a program mode for low power transmission of programmed codes; and (d) a “test” and operational mode that enables an operational test of the apparatus with no firing output.

Abstract: A vortex ring is used to produce a flow of fluid through a flexible tube, to remove surface deposits from a surface, and to transfer heat from a platen to a ring vortex. In pumping a fluid through a flexible conduit or tube, a vortex ring is launched along the tube so that the vortex ring encircles the tube. The vortex ring compresses and expands the flexible tube utilizing a high circumferential pressure formed at the bow of the vortex ring and a low pressure at the wake of the vortex ring. In removing deposits from a surface, a vortex ring launched along the surface mechanically abrades the surface and fractures the adhesion bonds of the surface deposits. In transferring heat from a heated surface to a vortex ring, the vortex ring removes the heat from the surface of the heated platen by forced convection.

Abstract: A fin disengagement device for limiting the range of a projectile uses an electronic safe and arm circuit to sense launch and spin levels. Once armed, the stored energy from the electronic safe and arm circuit is dumped into an initiator or directly to explosive bolts. The initiator ignites an energetic material to separate the fin from the projectile in-flight at a predetermined time. Alternatively, the explosive bolts separate the fin from the projectile in-flight at a predetermined time. In the embodiments using an initiator and energetic material, an opening or cavity in the rear portion of the projectile body or rod adapter acts as a pressure chamber. When enough pressure has built up from the burning of the energetic material, the front hub of the fin section expands enough to disengage the threads and separates the fin section from the projectile body.

Abstract: An apparatus for detecting an underground abject includes a container in contact with the ground surface; a medium disposed in the container; at least one acoustic sensor disposed in the medium in the container; and an output device connected to the acoustic sensor. A portion of the container in contact with the ground is substantially acoustically transparent and conforms to contours of the ground. The acoustic impedance of the medium in the container is substantially the same as the acoustic impedance of the ground. A method of detecting an underground object includes receiveing reflected acoustic noise with at least one acoustic sensor immersed in a medium, the mediukm being desposed in a container in contact with a ground surface; converting the reflected acoustic noise to electrical signals; and, using an output device, converting teh eletrical signals to a form that can be sensed by a human to determine if the undergroung object has been detected.

Abstract: A method of converting an analog signal to a digital signal includes (a) filtering the analog signal to the range 0≦fx≦fB; (b) sampling the filtered signal at a rate fS>>fN, where fS is the sampling frequency, fN=2fx is the Nyquist frequency of the sampled signal, and fB≦fS/2 is the constrained signal bandwidth; (c) converting the sampled signal to an optical sampled signal: (d) converting the optical sampled signal from a temporal signal to a spatial signal; (e) illuminating a smart pixel array with the spatial signal; (f) processing the spatial signal with an error diffusion neural network to produce a 2-D binary image; and (g) averaging rows and columns of the 2-D binary image using a digital low pass filter and a decimation circuit.

Abstract: An interband cascade (IC) light emitting device having narrow ridges, and a method of growing and fabricating the IC light emitting device is disclosed. The IC light emitting device produced by the method of the present invention has 18 active regions separated by n-type injection regions and a plurality of coupled quantum wells of Al(In)Sb, InAs, and Ga(In)Sb layers. The IC light emitting device produced according to the present method has a differential external quantum efficiency of at least 500%, a peak power output of at least 4W/facet, a power conversion efficiency of at least 14% in continuous wave at 80K, a power conversion efficiency of at least 18% in pulsed wave operation at 80K, a continuous wave operation temperature of 142 K or less, a thermal resistance of from about 24-29 K*cm2/kW and continuous wave output powers of at least 100 mW/facet at temperatures above 77K.

Abstract: A gate turn-off thyristor includes a substrate formed of n-type silicon carbide; a growth buffer formed of n-type silicon carbide and positioned to overlie said substrate; a field buffer region formed of p-type silicon carbide and positioned to overlie said growth buffer; a drift region formed of p-type silicon carbide and positioned to overlie said field buffer region; a gated base region formed of n-type silicon carbide and positioned to overlie said drift region; a modified anode region formed of first, second and third layers of silicon carbide and positioned to overlie said gated base region, said first layer comprising p-type silicon carbide and disposed adjacent said gated base region, said second layer comprising n-type silicon carbide and disposed adjacent said first layer, said third layer comprising p-type silicon carbide and disposed adjacent said second layer; an anode contact disposed on said third layer of said modified anode region; a cathode contact disposed on said substrate; and a gate cont

Abstract: A magnetic sensing device that senses low frequency magnetic fields by using movable flux concentrators that modulate the observed low frequency signal. The concentrator oscillates at a modulation frequency much greater than the observed magnetic field being sensed by the device. The modulation shifts this observed signal to higher frequencies and thus minimizes 1/f-type noise. This is preferably accomplished by the oscillatory motion of a microelectromechanical (MEMS)—type magnetic flux concentrator operated with a magnetic sensor, preferably made on a common substrate. Such a combined device can be used in a magnetometer. Such a device is small, low-cost and has low-power-consumption requirements. The magnetic sensor can be a Hall effect or other type of magnetic sensor. At least one modulating flux concentrator is used with the magnetic sensor.