Patents Represented by Attorney Albert J. Fasulo, II
-
Patent number: 7132943Abstract: A detection system is provided which is configured to have a transmitter capable of interacting with an object by generating a field, and a multiplicity of receivers operative to measure changes in the environment caused by the object's response to the generated field and mounted to a closed-looped belt, which is displaceable in a proximity to the object.Type: GrantFiled: October 28, 2003Date of Patent: November 7, 2006Assignee: The Johns Hopkins UniversityInventor: Carl V. Nelson
-
Patent number: 7126148Abstract: A system for detecting neutron radiation. A liquid cocktail mixture comprised of a neutron absorber and a scintillator is housed in a TeflonĀ® tube having a mirror at one end of the tube and a windowed portal at the other end of the tube. Neutrons that penetrate the tube react with the neutron absorber producing ionization that excites a scintillator to produce photons. A photo-multiplier tube is coupled with the windowed portal for receiving photons and converting the photons to electrical signals. A processing device is coupled to the photo-multiplier output for receiving and analyzing the electrical signals so as to provide a measurement pertaining to the presence and relative strength of neutron radiation. The tube can be adapted to function as a portable survey instrument. Alternatively, the tube can be stretched to cover large apertured areas. In such implementations a wavelength shifter is employed to convert light emitted to another wavelength giving a multiplier effect necessary for long light guides.Type: GrantFiled: July 17, 2003Date of Patent: October 24, 2006Assignee: The Johns Hopkins UniversityInventors: George M. Murray, Harvey W. Ko, Glen Southard
-
Patent number: 7118287Abstract: A coupler for coupling first and second fiber optic cables terminating in first and second connectors having first and second ferrules, respectively. The coupler includes a holder element and a mating element. The holder element defines a channel for receiving the first ferrule and a socket aligned with the channel for receiving an optical component The holder element further defines a first cable connector adapted for connection to the first connector and a first element connector opposite said first cable connector. The mating element defines a channel for receiving the second ferrule, a second cable connector adapted for connection to the second connector and a second element connector opposite the second cable connector. Accordingly, the holder element and mating element are connectable to house an optical component aligned with the channels and positionable substantially contiguous with the first and second ferrules when attached thereto.Type: GrantFiled: July 10, 2001Date of Patent: October 10, 2006Assignee: The Johns Hopkins UniversityInventors: Alexander S. Perry, George M. Murray
-
Patent number: 7118531Abstract: A medical capsule is provided which includes at least a housing, transceiver, ultrasonic transducer(s), a power source, a microprocessor, and is capable of carrying a medical payload. The capsule is ingestible or implantible in a human or animal body and communicates wirelessly via ultrasonic signals with one or more transceivers attached to the outside of the body. The capsule payload can perform diagnostic, analytical, treatment or imaging functions and its position within the body can be accurately monitored. A wireless system employing the capsule and external transceiver can also include a remote monitoring station accessed by radio frequency electromagnetic signals. Further, collaborative activity among the internal capsules is enabled by an inter-capsule and capsule-to-external transceiver acoustic communications net.Type: GrantFiled: September 24, 2003Date of Patent: October 10, 2006Assignee: The Johns Hopkins UniversityInventor: Jerry A. Krill
-
Patent number: 7115859Abstract: A miniature time-of-flight mass spectrometer (TOF-MS) and method for increasing the collection efficiency of laser-desorbed ions in a miniature time-of-flight mass spectrometer (TOF-MS) is provided. The method provides a laser pulse generated by an ionization extraction device within the TOF-MS; maintains a sample plate potential at a ground level for a fixed delay period of about 50 ns; and uses a high voltage switch to sharply increase the sample plate potential up to 10 kV/mm.Type: GrantFiled: July 17, 2003Date of Patent: October 3, 2006Assignee: The Johns Hopkins UniversityInventor: Timothy J. Cornish
-
Patent number: 7081836Abstract: A method of covertly detecting and reporting a distress condition in a control cabin of a vehicle, the cabin having designated areas expected to be occupied by respective operators under normal operating conditions of the vehicle. The method comprises (a) attaching to each operator a transponder tag configured to wirelessly transmit a response signal, unique to the operator to which it is attached, responsive to an interrogator signal; (b) wirelessly transmitting interrogator signals into the designated areas; (c) attempting to detect response signals, if any, from the transponder tags; and (d) if all of the response signals are concurrently not detected, then wirelessly transmitting a distress signal from the vehicle.Type: GrantFiled: July 9, 2004Date of Patent: July 25, 2006Assignee: The Johns Hopkins UniversityInventor: Paul J. Biermann
-
Patent number: 7078906Abstract: A metal detector capable of operating in both a time-domain mode and a frequency-domain mode includes a transmitter component and a receiver component. The transmitter component includes a transmitter coil that can receive both an AC and DC current source for frequency-and time-domain operation respectively. The AC signal is impressed on the DC signal such that while the transmitter coil is charging, frequency-domain sensing is occurring and when the transmitter coil is switched off, time-domain sensing is occurring. The receiver component uses a primary field bucking method to ensure that both time-and frequency-domain modes can operate with the receiver coil.Type: GrantFiled: September 16, 2004Date of Patent: July 18, 2006Assignee: The Johns Hopkins UniversityInventor: Carl V. Nelson
-
Patent number: 7073749Abstract: An airship deployment system comprises an airship of unique shape having laminar flow over this shape to enable low power propulsion, capable remote control, comprising an inflatable body; a propeller assembly for station keeping and repositioning said airship and capable of being folded into a compacted position and unfolded into an operational position; and a payload, comprising gas for inflating said inflatable body; and means for transferring data between said airship and a remote location; and a missile for carrying said airship in a compacted state to a predetermined location and altitude, and releasing said airship at said predetermined location and altitude. When said airship is released from said missile said inflatable body is inflated and said propeller assembly is unfolded into said operational position.Type: GrantFiled: July 16, 2004Date of Patent: July 11, 2006Assignee: The Johns Hopkins UniversityInventors: Jerry A. Krill, Michael W. Roth, Frederick W. Riedel, Matthew R. Feinstein, William T. Mason, III, Margaret Ann Darrin, Rafal P. Szczepanowski, Vincent F. Neradka
-
Patent number: 7075304Abstract: A pulse inductive metal detector that includes a variable resistor for controlling coil characteristics for both transmitter and receiver modes of operation. A coil coupled with an electronic switch is charged with current from the power source in a transmitter mode such that when the electronic switch is abruptly switched closed the coil emits a magnetic field that induces eddy currents in a metal target. Once the transmitter magnetic fields have decayed enough, the coil can be operated in a receiver mode to detect a magnetic field resulting from eddy currents in the metal target. The variable resistor is coupled across the coil for varying the resistance across the coil to optimize the pulse inductive metal detector sensitivity to the metal target.Type: GrantFiled: September 16, 2004Date of Patent: July 11, 2006Assignee: The Johns Hopkins UniversityInventor: Carl V. Nelson
-
Patent number: 7075213Abstract: A motor transmission element includes an axle, an expandable circumferential component and multiple rolled electroactive polymer (EAP) devices. The circumferential component is located at a contact radius from the axle for connection to a different rotating body and is mechanically connected to the axle. The rolled EAP devices are mechanically connected to the circumferential component and the axle. Each rolled EAP device has a pair of input electrodes and is configured to deform substantively parallel to a roll longitudinal axis upon application of a voltage difference. Deformation of a rolled EAP device causes a change in the contact radius. A voltage difference that expands the rolled EAP device increases the contact radius, and thereby the circumference of the transmission element. By varying the voltage, a continuously variable ratio can be achieved between a rate of rotation of the transmission element and a rate of rotation of the second body.Type: GrantFiled: July 16, 2004Date of Patent: July 11, 2006Assignee: The Johns Hopkins UniversityInventor: Jerry A. Krill
-
Patent number: 7071596Abstract: A motor includes a support framework and a mechanical movement component moveably mounted to the support framework. An electroactive polymer device having a pair of input electrodes is configured to deform upon application of an electric potential difference across the pair of input electrodes. The electroactive polymer device is mechanically linked to the support framework and to the mechanical movement component so that deformation of the electroactive polymer device causes the movement component to move relative to the support framework. In some motors, the movement component and an electrode fixed in the support framework are driven at different electrical potentials to cause the electroactive polymer device to deform. In some motors a rolled electroactive polymer device is used with a rotating movement component. Such motors enable lightweight, powered vehicles with low radar reflectivity.Type: GrantFiled: July 16, 2004Date of Patent: July 4, 2006Assignee: The Johns Hopkins UniversityInventor: Jerry A. Krill
-
Patent number: 7067801Abstract: The invention is directed to methods suitable for detecting the presence of a plurality of immune system modulators in a complex solution by running a single sample through a mass spectrometer without any surface preparation or preliminary purification step. Immune system modulators that can be analyzed with the methods of the present invention include cytokines (interferons and interleukins), chemokines, host cell response molecules, and peptide fragments. The method also allows the identification of truncated receptors for immune modulators secreted by infected cells or pathogens, such as virokines, and other pathogen-encoded proteins that affect the host immune system.Type: GrantFiled: February 1, 2002Date of Patent: June 27, 2006Assignee: The Johns Hopkins UniversityInventor: Joany Jackman
-
Patent number: 7063781Abstract: Techniques are provided for measuring chloride ion concentration in a medium. The techniques allow measurements to be made in dry or alkaline media, or both. For alkaline conditions, a sensor includes a pair of electrodes and a polymer film imprinted for uptake of chloride ions under alkaline conditions. The film is deposited to be in contact with at least one electrode and the medium. For dry conditions, a sensor includes a pair of electrodes and a conductive polymer film imprinted for uptake of chloride ions. The film is in contact with the pair of electrodes, and is positioned for contact with the medium. An electrical conductivity of the film depends on an amount of chloride ions taken up by the film. Some techniques allow chloride ion measurements over years at sensors embedded in concrete. Such measurements allow the determination of the progress of rebar corrosion in concrete infrastructure.Type: GrantFiled: December 11, 2003Date of Patent: June 20, 2006Assignee: The Johns Hopkins UniversityInventors: George M. Murray, Russell P. Cain, Bliss G. Carkhuff, Francis Weiskopf
-
Patent number: 7054229Abstract: An acoustic array comprising a plurality of nodes attached to two or more lines. Some or all of the nodes include an emitting transducer and a receiving hydrophone, and the balance include only a receiving hydrophone. Each emitting transducer has associated electronics comprising a high fidelity amplifier and a stored waveform input to the operational amplifier to drive the amplifier, the output of the amplifier exciting the transducer to emit a chirp having a hyperbolic frequency modulated (HFM) waveform. The frequency spectrum of the HFM chirp lies well below the resonant frequency of the transducer. The chirp emitted by a transducer in the node is received and processed by hydrophones in other nodes with a high fidelity representation of the chirp in a cross-correlation operation. Detected chirps are used to determine a range between the emitting and receiving nodes and a shape measurement of the array.Type: GrantFiled: April 29, 2003Date of Patent: May 30, 2006Assignee: The Johns Hopkins UniversityInventors: David A. Kitchin, Walter S. Allensworth
-
Patent number: 7046934Abstract: An optical communication system using a high altitude tethered balloon 10 that operates above most clouds and atmospheric turbulence. An optical communication system includes a balloon 10 with an optical communication payload 30, a fiber optic cable attached to the tether 12, an automated winch system 14, and a ground station 28. The balloon 10 is designed for sustained flight at, and recovery from, high altitude using the automated winch system 14. An acquisition, tracking and pointing (ATP) system 22 enables a balloon-based optical transceiver 24 to maintain line-of-sight optical communications with an overhead satellite 34. The optical link between the satellite 34 and the balloon 10 is an open channel. Data is transmitted to the ground station 28 from the balloon 10 through the secure fiber optic closed channel attached to the tether 12.Type: GrantFiled: July 3, 2002Date of Patent: May 16, 2006Assignee: The Johns Hopkins UniversityInventors: Surjit S. Badesha, Andrew D. Goldfinger, Thomas W. Jerardi
-
Patent number: 7032589Abstract: A portable ventilator for providing an air-recipient with compulsory respiration is provided with an outlet manifold and a single-expansion-chamber muffler configured so that airflow through an inhale outlet port of the muffler is pulse-free and a transmission loss, defined as the ratio of sound power generated by the at least one compressor and incident on the muffler to the sound power transmitted by the muffler, is sufficient to deaden the sound power of the compressor.Type: GrantFiled: January 23, 2003Date of Patent: April 25, 2006Assignee: The Johns Hopkins UniversityInventors: Charles W. Kerechanin, II, Dexter G. Smith, Jennifer A. Nix, Protagoras N. Cutchis
-
Patent number: 7010262Abstract: A method and apparatus for circumventing jamming of receivers for a global positioning system (GPS) include determining that a receiver is being jammed by a jamming signal not originating from the GPS. A first signal is transmitted from a portable unit including the receiver to a component of a second positioning system that is different from the GPS. A second signal is received from the second positioning system. The second signal includes data that indicates a position for the portable unit determined in the second positioning system based at least in part on the first signal.Type: GrantFiled: August 9, 2002Date of Patent: March 7, 2006Assignee: The Johns Hopkins UniversityInventor: Scott M. Tyson
-
Patent number: 7003155Abstract: A system and method of automatically creating a NIMA certified line drawing from a National Imagery Transmission Format (NITF) image file. A grayscale (electro-optical) image and its associated metadata from a NITF file is input into the computer based system. Pre-screening operations are performed on the metadata prior to image processing to ensure that National Imagery and Mapping Agency (NIMA) requirements and criteria are met. Image processing algorithms then perform filtering, encoding, edge detection, and custom edge pattern classification procedures to create a declassified line drawing. The line drawing can then be saved in any number of standard commercial file formats.Type: GrantFiled: September 26, 2002Date of Patent: February 21, 2006Assignee: The John Hopkins UniversityInventors: William C. Walton, Cash J. Costello, Elissa M. Weidaw
-
Patent number: 6997061Abstract: A non-contact method for evaluating stress in a substrate. An impurity is non-uniformly introduced into at least one region of a crystalline substrate. The crystalline substrate is subjected to physical stress. Fluorescence producing energy is directed at the crystalline substrate. A fluorescence produced by the crystalline substrate is measured. The fluorescence is correlated with the stress on the crystalline substrate.Type: GrantFiled: May 17, 2004Date of Patent: February 14, 2006Assignee: The Johns Hopkins UniversityInventors: Joseph A. Miragliotta, Kenneth R. Grossman, R. Kelly Frazer, Robert J. Bamberger, Jr.
-
Patent number: 6989842Abstract: A live video feed is seamlessly inserted into a static background image while maintaining the proper positioning and scaling of the combined image. The current frame of the live video feed is first texturized onto a surface. The surface is a set of points that are translated to the location, e.g., latitude/longitude coordinates, of the live video source. A series of matrix transformations of the texturized surface coordinates is performed. First, the texturized surface is rotated to be tangential to the earth at the location of the live video source. Next, the texturized surface is rotated again to reflect the heading of the live video source. Lastly, the texturized surface is scaled to conform to the background image. The transformed live image is then inserted into the larger background image in its proper position and displayed.Type: GrantFiled: October 25, 2001Date of Patent: January 24, 2006Assignee: The Johns Hopkins UniversityInventors: Kevin M. Cropper, Jarrett F. Reid, David W. Nesbitt