Patents Represented by Attorney Noah J. Hayward
  • Patent number: 8326579
    Abstract: The present disclosure is directed towards methods and systems and methods for measuring the integrity of an operating system's execution and ensuring that the system's code is performing its intended functionality. This includes examining the integrity of the code that the operating system is executing as well as the data that the operating system accesses. Integrity violations can be detected in the dynamic portions of the code being executed.
    Type: Grant
    Filed: March 4, 2011
    Date of Patent: December 4, 2012
    Assignee: The Johns Hopkins University
    Inventors: Perry W. Wilson, J. Aaron Pendergrass, C. Durward McDonell, III, Peter A. Loscocco, David J. Heine, Bessie Y. Lewis
  • Patent number: 8325086
    Abstract: Methods and systems to detect navigation signals, including to identify up to multiple range-Doppler hypotheses from each of j range-Doppler correlation grids based on a relatively low first threshold, generate navigation solutions from combinatorial sets of k of the identified hypotheses, evaluate the navigation solutions to identify plausible solutions, iteratively and combinatorially augment the plausible solutions with additional hypotheses from grids that are not represented in the corresponding k-hypotheses based navigation solutions, replace plausible solutions with corresponding augmented plausible solutions when appropriate, and select one of a plurality of plausible solutions as a best plausible solution, j and k being positive integers. Where a grid energy peak exceeds a second threshold, a corresponding hypothesis may be identified as a sole hypothesis for the corresponding navigation signal. The relatively low first threshold permits detection of weaker signals.
    Type: Grant
    Filed: April 26, 2010
    Date of Patent: December 4, 2012
    Assignee: The Johns Hopkins University
    Inventors: Stephen J. Stafford, Mark S. Asher, Martin G. Sommerville, Lloyd A. Linstrom, Thomas L. Kusterer
  • Patent number: 8289811
    Abstract: An aspect of the present invention is drawn to method of determining a location of a submersible vehicle. The method includes obtaining first bearing information based on a location of a ship at a first time relative to the submersible vehicle and receiving broadcast information from the ship, wherein the broadcast information includes location information related to a second location of the ship at a second time, a velocity of the ship at the second time and a course of the ship at the second time. The method further includes obtaining second bearing information based on the second location of the ship at the second time relative to the submersible vehicle, obtaining a velocity of the submersible vehicle at the second time and obtaining a course of the submersible vehicle at the second time.
    Type: Grant
    Filed: September 1, 2009
    Date of Patent: October 16, 2012
    Assignee: The Johns Hopkins University
    Inventors: James B. Mitchell, Bliss G. Carkhuff, Morris L. London, Robert E. Ball, Nathaniel J. Hundley
  • Patent number: 8276114
    Abstract: There are provided systems and methods for integrating requirements driven security code into an application system. The security code is integrated into an application system in such a way as to make the integrated security code maintainable and traceable as the application system evolves over time.
    Type: Grant
    Filed: June 25, 2007
    Date of Patent: September 25, 2012
    Assignee: The Johns Hopkins University
    Inventors: Thomas H. Llanso, George R. Barrett, Donna C. Paulhamus, Nathan S. Reller
  • Patent number: 8258996
    Abstract: A synthetic aperture radar hybrid-quadrature-polarity method and architecture comprising transmitting both left and right circular polarizations (by alternately driving, at the minimum (Nyquist) sampling rate, orthogonal linear feeds simultaneously by two identical waveforms, +/?90° out of phase), and receiving two orthogonal linear polarizations, coherently. Once calibrated, the single-look complex amplitude data are sufficient to form all Stokes parameters, which fully characterize the radar backscatter.
    Type: Grant
    Filed: June 24, 2010
    Date of Patent: September 4, 2012
    Assignee: The Johns Hopkins University
    Inventor: Russell K. Raney
  • Patent number: 8259759
    Abstract: A system and method for calculating and applying a metric that is calculated over a binary interval that corresponds in length to a preamble. The value of the metric reflects the likelihood that the interval is the preamble. A lower value for the metric suggests that the interval is more likely to be the preamble. In an embodiment, the metric is calculated beginning at an initial location in the bitstream, and then recalculated beginning at each of several successive locations in the bitstream. This results in a set of calculated metrics. The start of the preamble is considered likely to be the initial location of the interval that corresponds to the metric having the lowest value.
    Type: Grant
    Filed: April 13, 2010
    Date of Patent: September 4, 2012
    Assignee: The Johns Hopkins University
    Inventors: A. Roger Hammons, Jr., Frederic M. Davidson
  • Patent number: 8241575
    Abstract: A molecularly imprinted polymer sensor device for detecting the presence of a taggant molecular structure in a fluid is disclosed. The molecularly imprinted polymer sensor device comprises a molecularly imprinted crosslinked polymer having a crosslinked core and a plurality of polymer arms attached to the core, wherein the core has molecular sized cavities adapted to selectively receive and bind displacement molecules having the taggant molecular structure and a colorimetric indicator, said displacement molecule being selectively removed from the molecularly imprinted crosslinked polymer and replaced with the taggant molecular structure upon exposure to the fluid containing the taggant molecular structure therein, thereby indicating the presence of the taggant molecular structure in the fluid.
    Type: Grant
    Filed: January 27, 2009
    Date of Patent: August 14, 2012
    Assignee: The Johns Hopkins University
    Inventors: George M. Murray, Andrew F. Mason, Edward W. Ott, Jr.
  • Patent number: 8194504
    Abstract: A hydrophone unit comprising a resilient central wire; a conductive wire coiled around the resilient central wire, said conductive wire being coated with a piezo material for generating an electrical signal in response to the presence of an acoustic vibration, wherein the resilient central wire is fabricated from spring steel, the conductive wire is a copper wire, the piezo material includes polyvinylidene difluoride; a layer of conductive material deposited on the piezo material-coated conductive wire, wherein the layer of conductive material comprises a silver ink; and a jacket of polyurethane.
    Type: Grant
    Filed: March 10, 2010
    Date of Patent: June 5, 2012
    Assignee: The John Hopkins University
    Inventors: David A. Kitchin, Charles W. Kerechanin, II, Juan I. Arvelo, Jr., Ronald W. Mitnick
  • Patent number: 8189428
    Abstract: Methods and systems to detect changes in a region of space relative to baseline measurements, including to process data to detect potential objects, or contacts against a natural background environment, to characterize and geo-register the contacts, to compare and correlate the contacts with a database of known objects, and to report uncorrelated contacts as new objects in the space. Features disclosed herein may be implemented to process image data from a line-by-line image-generation system including, for example, side-looking sonar. Methods and system may be implemented with respect to multi-frequency band sonar data.
    Type: Grant
    Filed: August 6, 2009
    Date of Patent: May 29, 2012
    Assignee: The Johns Hopkins University
    Inventors: David J. Orlin, Kenneth M. Fischer, Franz J. Riggieri, Derek C. Fulk
  • Patent number: 8091429
    Abstract: A pressure sensor for detecting an electric arc in an electrical switchboard, the sensor being in an enclosed case containing a conical opening, the case being placed in the switchboard. A pressure switch in the sensor is attached to the interior of the case and is electrically connected to a circuit board for transmitting a signal when a contact in the pressure switch is closed. When a pressure wave created by the electric arc enters the case through the conical opening it forces a contact on the pressure switch to close thereby completing a circuit with the circuit board which transmits the signal to, for example, a central processor, to turn off the source of electricity thereby quenching the electric arc.
    Type: Grant
    Filed: August 12, 2010
    Date of Patent: January 10, 2012
    Assignee: The Johns Hopkins University
    Inventor: H. Bruce Land, III
  • Patent number: 8078262
    Abstract: The present invention relates to methods of passive infrared imaging and dynamic infrared imaging of a tumor or lesion (“DIR”) where multiple images are taken before, during and after heating or cooling the tumor or lesion. Patterns of intensity of infrared emission in the infrared image(s) are related to the level of vascularity or metabolic activity of the tumor or lesion, and are used to identify size and shape of the tumor or lesion. The patterns can also be used to determine whether Kaposi's sarcoma lesions, skin cancer lesions and melanomas are active or inactive. Changes in the patterns of infrared emission determined by comparing images taken before, during and after the onset of drug or radiation therapy, are used to assess efficacy of the therapy. The methods can also be used to study tissue affected by angiogenic diseases.
    Type: Grant
    Filed: April 15, 2002
    Date of Patent: December 13, 2011
    Assignee: The Johns Hopkins University
    Inventors: John C Murphy, Jerry R. Williams, Robert Osiander
  • Patent number: 8058208
    Abstract: A molecularly imprinted polymer ion exchange resin for selectively removing one or more inorganic ions in a liquid medium is disclosed and described. The exchange resin can include a bead having a porous structure and comprising a cross-linked molecularly imprinted polymer having molecular sized cavities adapted to selectively receive and bind a specific inorganic ion in a liquid medium. A process for preparing a molecularly imprinted polymer ion exchange resin can include (a) polymerizing a polmerizable mixture in the presence of an inorganic ion imprinting complex to form a bead, said inorganic ion imprinting complex including a ligand and an inorganic ion; and (b) removing the inorganic ions from the bead to form the molecularly imprinted polymer ion exchange resin, the bead having a porous structure and comprising a cross-linked molecularly imprinted polymer having molecular sized cavities adapted to selectively receive and bind a specific inorganic ion in an liquid medium.
    Type: Grant
    Filed: August 11, 2006
    Date of Patent: November 15, 2011
    Assignee: The Johns Hopkins University
    Inventors: George M. Murray, Kelly A. Van Houten, Glen E. Southard