Abstract: A sparse-isogrid columnar lattice structure including rigid ring frames connected by a mirrored symmetric double helix pattern comprised of first shell hinge elements in a first helical pattern and second shell hinge elements in a second helical pattern oriented in an opposite direction to the first helical pattern and congruent thereto. The helical axes of the first and second helical patterns intersect the respective centers of the ring frames. The first and second shell hinge elements are configured to stow in a stored energy state when the ring frames are collapsed toward one another along the helical axis, and the first and second shell hinge elements are configured to release the stored energy to deploy to a restored state and extend the ring frames apart from each other along the helical axis when deployed to form a stable rigid axial column in a restored state.

Abstract: Apparatus, method and article of manufacture providing a randomized encoding scheme for sequential logics, for resistance to data leakage. Invention employs dual-rail encoding to randomize the information in the chip, and employs three-dimensional integration technology to protect the critical information that is needed to decode the data anywhere on-chip. With the present invention, even when the entire design is completely known to the attacker who also has full access to the outsourced portion, it is still not always possible to identify the information in the chip using data leakage Trojans.

Abstract: A Schiff base compound configured to detoxify a toxic chemical agent. The toxic chemical agent includes at least one leaving group and the Schiff base compound includes an imine having at least one Lewis base and an alkyl substituent or an aryl substituent having an electron acceptor. The at least one Schiff base nitrogen is spaced way from the electron acceptor by a distance that ranges from about 200 pm to about 1000 pm.

Abstract: A system and method for automated crowd sensing object detection. The invention senses a missing object's presence in proximity which is conducted using a smartphone, with a software application running in the background that opportunistically collects and reports the data without the active involvement of the user. A small tag is attached to a tracked object or worn by a person who does not carry a smartphone (i.e., a young child), and emits a secure wireless signal periodically for geo-fencing and geo-tracking by caregivers. The information is sent to a cloud server so that the commander may be able to confirm the whereabouts of the tagged object or person in this case.

Abstract: An inertance tube for a pulse tube cryogenic cooler which can be tuned to optimize performance. Apertures in the inertance tube fluidly communicate the inertance tube with a fluid reservoir. The effective length of the inertance tube is changed by alternatively closing or opening the apertures. Changing the effective length of the inertance tube causes a phase shift between the mass flow of and pressure waves in the enclosed working fluid which, in turn, changes the acoustic power. The cooling load capacity of the pulse tube cryogenic cooler is a function of the acoustic power. Controlling the phase angle improves the cooler's Carnot efficiency.

Abstract: A method of establishing a hardware identity of a coordinating device in a wireless network is provided. A standard PHY preamble is modified to a preamble that can be received by the coordinating device having an expected hardware configuration. The modified PHY preamble is transmitted with an association request by a joining device. In response to not receiving a reply containing an association response from the coordinating device by the joining device, determining the hardware configuration of the coordinating device is not the expected hardware configuration. A further method of characterizing a hardware identity of a device in a wireless network is also provided. A request with a modified PHY preamble is transmitted to a device. If a reply is received from the device, characterizing the device as a first hardware type. And, if a reply is not received, characterizing the device as not the first hardware type.

Abstract: An apparatus, system, and method for performing electron beam modulation includes an input pulser to provide an electromagnetic pulse; a radio frequency (RF) filter to filter the electromagnetic pulse; a nonlinear transmission line to receive the electromagnetic pulse, and generate a backward wave RF oscillation of a predetermined frequency to travel in a direction opposite that of the electromagnetic pulse; and an electron beam generating device including an anode and a cathode, the electron beam generating device to receive a combined electromagnetic pulse from the RF filter and the backward wave RF oscillation from the nonlinear transmission line to cause excitation of a modulated voltage between the anode and cathode, and to cause the electron beam generating device to emit an electron beam that is modulated at the predetermined frequency of the backward wave RF oscillation.

Abstract: An Enhanced Ethernet Network Interface Card (EENIC) interfaces with a host and a network. The EENIC includes an internal network interface controller (NIC), a field programmable array (FPGA) in electrical communication with the internal network interface controller, and a peripheral component interconnect express (PCIe) controller, in independent electrical communication with the field programmable array or the internal network interface controller. The FPGA is configured to intercept data from either the host, or from the network, or from a combination thereof. Additionally, the configured interception is undetected by the host, or by the network, or a combination thereof.

Abstract: Antenna system being tunable over multiple frequency bands. One planar surface of the antenna structure has metallic radiating elements of various geometries with selectable electrical interconnections between the radiating elements. An opposite side of the antenna structure has a signal transmission network with signal feedthroughs to selected metallic radiating elements. The signal transmission network also has phase shift inducing means. Depending on the frequency band of operation, metallic radiating elements are appropriately combined through the electrical interconnections to form composite radiating elements with resonant frequencies within the frequency band of operation. Induced phase shifts in the signal paths feeding selected metallic radiating elements cause a net resultant free-space directivity gain.

Abstract: A wavelength selective bolometer includes a substrate configured to serve as a foundation for the apparatus and a thermal isolation gap established between the substrate and subsequent solid material layers. A conducting ground plane layer is disposed above the thermal isolation gap, and a first dielectric layer is mated to a top surface of the conducting ground plane. A temperature sensing material layer is mated to a top surface of the first dielectric layer, and a plurality of interconnects is placed in electrical communication with the temperature sensing material layer. A second dielectric layer is mated to a top surface of the temperature sensing material, and at least one conductive element is mated to a top surface of the second dielectric layer. The dimensions of the conductive element and other variables are chosen to achieve resonant absorption of selected wavelengths of radiation incident thereupon.

Abstract: This invention provides systems and methods to make communication networks more resilient, stealthier and robust. This invention discloses systems and methods wherein either a communications user equipment (UE) with multiple types of wireless links, potentially operating in different frequency bands, or an apparatus which performs communications routing functions, changes the communications routing in pseudo-random manner.

Abstract: A broad area quantum cascade laser subject to having high order transverse optical modes during operation includes a laser cavity at least partially enclosed by walls, and a perturbation in the laser cavity extending from one or more of the walls. The perturbation may have a shape and a size sufficient to suppress high order transverse optical modes during operation of the broad area quantum cascade laser, whereby a fundamental transverse optical mode is selected over the high order transverse optical modes. As a result, the fundamental transverse mode operation in broad-area quantum cascade lasers can be regained, when it could not otherwise be without such a perturbation.

Abstract: A coherent amplification device includes a phase modulation stage for preconditioning a laser beam, and a coupling stage for transferring energy and spatial phase information between the first laser beam and a second laser beam. The phase modulation stage may include an electro-optically active medium having a time-dependent refractive index manipulatable by an electric field thereby introducing a time-dependent phase shift to the first laser beam when passed therethrough. The coupling stage may include a coupling medium having a time-dependent and intensity-dependent refractive index with a finite lifetime, where an interference pattern of the laser beams is written into the coupling medium through the time-dependent and intensity-dependent refractive index to generate a holographic grating based on the interference pattern, and where the finite lifetime of the coupling medium and the preconditioned phase modulation facilitates a transfer of energy and spatial phase information between the laser beams.

Abstract: A Head-Related Transfer Function. The Head-Related Transfer Function includes listener-specific and general components. The listener-specific component includes listener-specific, vertical variations in the Head-Related Transfer Function. The general component includes non-listener-specific, lateral variations in the Head-Related Transfer Function.

Abstract: An ultra-wideband (UWB) tracking device, system, and method are provided. The system can include a plurality of anchor transmitters, at least one location device, and a processing system. The anchor transmitters can be arranged in predetermined positions, include a unique identifier, and each transmit an ultra-wide band (UWB) signal including the unique identifier. The location device can receive the UWB signals, and transmit the unique identifiers. The processing system can include a digital map that stores the unique identifiers and the predetermined positions. The processing system can receive the unique identifiers from the location device, and identify a position of the location device based on a comparison of the unique identifiers received and the stored unique identifiers on the digital map.

Abstract: Systems and methods of fixing biological cells by laser irradiation. A method according to one embodiment of the present invention includes positioning a sample (of the cell or tissue) in a light pathway of a fixation source. The fixation source configured to emit electromagnetic radiation having a wavelength along the light pathway. The sample is exposed to the electromagnetic radiation for an exposure time.