Abstract: A sand spike system anchors a cable in an earthen substrate. A penetrator connected to the cable has folded petal-shaped sections of spring steel propelled into the earth by a propellant. Cables connected to opposite petal-shaped sections help arrest penetration and spread the folded petal-shaped sections outwardly to increase the resistance to tensile loads. Sand spike system may use a delay activated or an electrically initiated propellant to drive the penetrator into the earth instead of mechanical, hydraulic, or pneumatic force. This permits remote initiation of sand spikes from a safe distance on land or underwater. In addition, each sand spike creates far a greater surface area to entrain and use the earthen substrate and not friction to anchor, and, as a consequence, it safely bears greater tensile loads on the cable.

Abstract: A mine neutralization device (MND) is deployed from launch platform, such as an aircraft or surface craft, and travels several miles underwater to destroy a mine. Optical and/or acoustic command signals are coupled to the MND through an optical fiber and ambient water to control the MND on its way to the mine. The MND has a visible light system to illuminate the region around the MND, a camera system to provide optical data signals, and a sonar system to provide acoustic data signals transmitted to the launch platform. The optical and acoustic data signals are representative of images of features in the region to permit control signals from the platform to navigate the MND along the marine topography until the mine is located and identified. Once the mine is located and identified, explosives aboard the MND are detonated to destroy the mine.

Abstract: A small target weapon (STW) delivers a warhead to a remote target and detonates it in response to remote command signals from a swimmer delivery vehicle (SDV) and internal control signals generated by a self-contained internal electronics section. When deployed from the SDV, STW is capable of traveling several nautical miles underwater. The STW contains a warhead section and has a spool of optical fiber disposed aft to deploy optical fiber from the housing as it transits through water from a submerged delivery vehicle. Motor-driven propellers disposed aft on the housing of the STW propel it the through the water, and a mast member extends above the housing. Control fins disposed aft on the housing, a vertical thruster and the motor driven propellers are controlled by electronics sections and guidance and control sections to selectively keep the housing beneath the surface of the water and the mast member extending through the surface.

Abstract: A noise suppressing microphone employing a thin film of piezoelectric material sandwiched between two conductive layers, one of which is laminated to a flat inflexible laminate. The sandwich is embedded in a mechanical sound filter except for one exposed face which is placed in contact with a user's body for sound pickup.

Abstract: A system and method are provided for supplying breathable gas to an underwater habitat submerged in water. A flow of respired gas that includes metabolically-produced carbon dioxide is extracted from the underwater habitat and mixed with water from the surrounding environment. As a result of such mixing, carbon dioxide in the respired gas is substantially absorbed by the water while a first gas is produced. Moisture in the first gas is filtered out to produce a breathable gas which is then introduced back into the underwater habitat.

Abstract: A system for arresting a fleeing seagoing vessel deploys a net using one or more self-propelled vehicles from a platform. The net is flown over and draped onto a seagoing vessel of interest such that a portion of the net's periphery resides in the water. Drag devices are coupled to the net to generate drag forces at the portion of the net's periphery in the water as the seagoing vessel moves through the water. The system can also include a variety of non-lethal weapon systems that are coupled to or incorporated with the net, and designed to subdue the crew of the vessel and/or the vessel's engine and electronic components.

Abstract: A line charge for deploying explosive charges across obstacles and mines to clear a safe lane has explosive charges spaced apart on a common detonating cord, and axial passageways in the explosive charges are sized to permit free longitudinal travel of the detonating cord through them. A composite strength member includes an inner fabric sleeve of high strength flexible material covered by an outer sleeve of thermoset/thermoplastic material and contains the explosive charges and detonating cord. Heat-curing the inner fabric sleeve and outer sleeve shrinks and conforms them to the outer contours of the explosive charges and combines the high strength flexible material and thermoset/thermoplastic material. Composite strength member absorbs energy during deployment of the line charge over its entire length and circumference and absorbs more energy prior to structural failure to allow the use of more powerful rocket motors to fly longer line charges from much greater and safer standoff distances.

Abstract: A munition is provided for deploying a molten payload within a target. A plurality of holes are formed in the munition's projectile body about the circumference thereof. A seal closes off each hole. A firing mechanism is mounted in the munition's nose cone and is capable of generating energy of initiation upon deformation of the nose cone. A first burnable material is housed in the projectile body and is coupled to the firing mechanism to receive the energy of initiation. The first burnable material extends in a tree-like fashion along a plurality of connected paths in the projectile body with each of the connected paths terminating at one of the seals. A second burnable material fills the voids in the projectile body surrounding the first burnable material. The first burnable material has a lower threshold of combustion than the second burnable material while the second burnable material burns hotter than the first burnable material.

Abstract: A barrier dissipates energy from wakes from high speed vessels. Pilings embedded in the seabed slidably extend through openings in a flotation section below the surface of the water and through apertures in a gate section above the surface of the water. Struts on the flotation section extend through the surface of the water to hold the gate section a predetermined height above the surface. An inclined ramp extends from the flotation section below the surface and progressively reduces the depth of the water above the ramp portion as the distance to the flotation section becomes less. The progressively reduced depth builds-up the incoming wake, and the gate section cuts off the crest of the built-up wake to dissipate energy. Systems of barriers may be located in various patterns of spaced apart arrangements along waterways to intercept and reduce the effects of wakes produced by numerous high speed vessels.

Abstract: A break line launch energy damper and recoil limiting system for line charges absorbs and dissipates launch energy over time during deployment of line charges. This system limits the amount of recoil energy that can act upon the line charge and allows for linear deployment without recoil that might hinder the effectiveness of the rear lengths of the line charge. An elongate strength member connects the line charge to an inertial drag, such as a parachute and/or container for the line charge. A plurality of lines having different tensile strengths are appropriately connected to sequentially part when their tensile strengths are exceeded to thereby absorb and dissipate energy during deployment of the line charge.

Abstract: A standoff delivery system is responsive to GPS coordinate signals and in-flight GPS signals to deploy a torpedo at a remote location that avoids the limitations and hazards attendant conventional deployment by full size aircraft. A gliding rigid winged unmanned aircraft carries the torpedo to a desired remote location. A GPS receiver on the aircraft enters GPS coordinate signals representative of the remote location and receives GPS signals representative of the location of the unmanned aircraft. A control signal generator produces control signals in response to both of the GPS signals and feeds control signals to servos that displace control surfaces to pilot the unmanned aircraft. The torpedo is released and descends via parachute in response to GPS signals that are representative of at least the proximity of the remote location. This system provides for clandestine deployment of a torpedo without exposing manned aircraft to danger.

Abstract: A system and method to tenderize and sterilize meat provides for uninterrupted processing of batches of meat and avoids delays and possibility of contamination of the meat. A conveyer belt carries batches of meat through liquid in a container. First and second arrays of electro-mechanical transducers are disposed in the liquid. The first array of electro-mechanical transducers is arranged facing one side of the conveyer belt and batch of meat, and the second array of electromechanical transducers is arranged facing the other side of the conveyer belt and meat. The first and second arrays of electro-mechanical transducers are oriented and controlled to simultaneously project converging shock waves of energy to and into the batch of meat. Other batches of meat are placed on and picked up from the conveyer belt by feeder and pick-up conveyers to provide for continuous tenderizing and/or sterilizing without introducing contaminations.

Abstract: A portable, diver-operated device provides an improved method of cleaning surfaces underwater. The device includes a source of ultrasonic energy in a housing that has a compliant portion around an opening to engage and fit around a contaminated surface and clean it with the ultrasonic energy. The housing is made from material that diminishes transmission of the ultrasonic energy to ambient water. The compliant portion seals the source, the contaminated surface and some water from ambient water to concentrate the cleaning power of the source on the surface and to prevent transmission of harmful levels of energy outside of the device and through ambient water.

Abstract: A fuze is enabled, armed, and fired while indicating its status to remote command/receiver stations so that interconnected line charges and other ordnance items can be detonated with increased safety and reliability from a safe man-weapon separation distance. The fuze is responsive to remotely transmitted magneto-inductive command signals in the extremely low frequency (ELF) to very low frequency (VLF) range to change its status and to transmit magneto-inductive status signals in the ELF to VLF range confirming its status to at least one of the remote stations. Transmission and reception of magneto-inductive signals in the ELF to VLF range allow for a unique communication method that provides safe and reliable communication suitable to effect fuzing of explosive devices on the beach through seawater, air, earth, buildings, vegetation and sediment or any combination of these conditions.

Abstract: A lightweight inflatable marker buoy system is resistant to deflation and sinking if punctured. This device will most likely be used by a diver while underwater, but could be air delivered or dropped over the side of a boat and be activated by a timer or on command by electronic or acoustic means. A pair of chemical injector/cartridges each contains pressurized gas and a different chemical compound of a binary chemical compound for producing foam. A housing mounts the pair of chemical injector/cartridges on it and has a chamber to mix the pressurized gas and different compounds of the binary chemical compound to produce the foam. A balloon or flexible, compliant bag coupled to the housing receives the foam, is inflated by the pressurized gas and the foam, and is maintained in an inflated condition as the foam hardens. This lightweight portable buoy can be used as a temporary marker by authorities when an obstruction to navigation is found or when permanent buoys are moved or destroyed after a storm.

Abstract: A region of water is insonifed with a series of pulses. A synthetic apeture radar (SAR) is flown about the region and images the water surface above the sonified area. The radar has a carrier frequency (Fr) the acoustic source has a nominal carrier frequency of Fa. This acoustic frequency Fa is selected such that the acoustic wavelength is nearly, or exactly, half the wavelength of the radar carrier Fr where modified by the Sine of the incident of angle. Also practical are those acoustic wavelengths that are integer multiples of the wavelength that is half the radar wavelength. This arrangement will result in the Bragg condition in portions of the radar image of the water surface. The pulse repetition frequency (PRF) of the radar and the acoustic sources are equal (or can be such that the acoustic PRF is an integer multiple of the radar PRF), and locked in phase together by a radio frequency link between the SAR and the sonar transmitter. The sonar signal is repeatable and coherent with the radar signal.

Abstract: An assembly line and procedure fabricate more reliable explosive line charges by reducing many of the human error factors affecting assembly. The assembly line and procedures maintain proper grenade spacing, eliminate twisting of nylon lines and detonating cord which degrade performance, provide for proper clamping of lines and connector elements, provide for slack management of the explosive detonating cord and the lines, control the tolerances at the detonating cord to connector interfaces, and provide for the end of line packing of the explosive line charge.

Abstract: A detonating cord has a core of highly brisant PBXN-8 explosive surrounded by an inner braided layer of polyamide yarn, a flexible sealing sleeve of silicone rubber coated with glue, and an outer braided layer of polyamide yarn adhered to the sealing sleeve. Booster cups may be crimped to opposite ends of detonating cord to place booster charges adjacent the core to assure more reliable detonation of associated ordnance. The method of manufacture of detonating cord calls for providing a core of explosive PBXN-8 slurry, weaving an inner braided layer of polyamide yarn on the core, squeezing moisture out of the core of explosive PBXN-8 slurry during the weaving of the inner braided layer, applying a flexible sleeve of silicone rubber on the inner braided layer, coating glue on the flexible sleeve, and weaving an outer braided layer of polyamide yarn on the glue. Optionally, squeezing the core of explosive PBXN-8 slurry between rollers may be desirable to further remove excess moisture.

Abstract: An IR radiating decoy for an IR seeking anti-ship missile (ASM) includes a propulsion section, safe and arming section, gas generator section, fuel tank section, and flight stabilization section to ignite and continuously maintain an IR plume for decoying the ASM away from the targeted ship. The IR radiating decoy ignites the IR plume immediately when the decoy reaches a safe separation distance from the targeted ship. The IR plume continues to be emitted as the decoy flies away, as it lands on the water, and while it floats upon the water until all the fuel is used from the fuel tank. The fuel can be changed to change the signature of the IR plume so that different ASM missiles can be drawn away from the ship.

Abstract: A circuit board has optical fibers embedded in at least one layer for optical transmission of data at high speed, digital signal rates and electrically conductive strips in other layers to provide for conventional data signals and power for optoelectronic and electronic integrated circuits (IC). Optical fibers connect to optoelectronic IC's, off board IC's, circuit boards and conductors to reduce high speed digital signal latency and increase signal bandwidth/throughput. Optical fibers are used within printed circuit boards, integrated circuits, circuit board connectors, and backplane connectors to interface printed circuit boards and backplane.