Patents Represented by Attorney Francis A. Cooch
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Patent number: 7940177Abstract: A security zone is monitored for intrusion detection by dispersing therein a plurality of sensor nodes that, when an intrusion is detected, communicate with their neighboring sensor nodes without protocols other than a first tone. As the intrusion is detected by more sensor nodes, there is an increase in sensor node transmissions and, hence, an increase in the total power density in the security zone which is detected by a remote monitor for detecting and localizing the intrusion and providing an alert. In addition, certain of the sensor nodes also transmit a continuous second tone received by other sensor nodes. When an intrusion occurs, the transmission is blocked causing the receiving nodes to transmit the first tone to alert neighboring nodes.Type: GrantFiled: June 16, 2008Date of Patent: May 10, 2011Assignee: The Johns Hopkins UniversityInventor: Jerry A. Krill
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Patent number: 7927277Abstract: The time between heartbeats is measured over a series of such heartbeats. The time interval between two successive events is calculated and stored as a first array. The time difference between adjacent heartbeat intervals is also calculated from the first array and recorded as a differential array. The differential array is subjected to frequency analysis. First the differential array data is linearly interpolated to increase the number of data samples. The interpolated data is then subjected to a fast fourier transform (FFT) yielding a power spectrum. Characteristic frequency ranges are then integrated and the resulting frequency domain spectrum(s) are analyzed for dominant frequency characteristics.Type: GrantFiled: August 23, 2010Date of Patent: April 19, 2011Assignee: The Johns Hopkins UniversityInventor: Craig A. Kelly
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Patent number: 7904278Abstract: 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: GrantFiled: May 2, 2007Date of Patent: March 8, 2011Assignee: The Johns Hopkins UniversityInventors: Perry W. Wilson, J. Aaron Pendergrass, C. Durward McDonell, III, Peter A. Loscocco, David J. Heine, Bessie Y. Lewis
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Patent number: 7869863Abstract: The present invention provides a method and apparatus for monitoring the fetal condition in an objective, quantitative, and non-invasive manner by enabling continuous and highly specific data collection during pre-natal development and the intra-partum period. In an embodiment, monitoring the fetal condition comprises monitoring a fetal heart rate, a fetal heart rate variability, and/or the fetal heart vector orientation of a fetus in a pregnant mother. Automated signal processing techniques are applied to a multiplicity of transducers to select an optimum signal vector to monitor at least one of a fetal heart rate, a fetal heart rate variability, and/or the fetal heart vector orientation of a fetus in a pregnant mother.Type: GrantFiled: January 10, 2008Date of Patent: January 11, 2011Assignee: The Johns Hopkins UniversityInventors: Edward J. Moses, John A. Cristion, Susanne M. Daniels, Wayne I. Sternberger, Timothy P. Magnani
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Patent number: 7830515Abstract: A method and apparatus for evaluating a bioaerosol sample is provided which includes detecting frequency and/or time resolution factors that allow discriminate between a plurality of signals emitted by the bioaerosol to selectively detect biological materials contained in the bioaerosol sample from materials of non-biological origin and potentially associated with a pathogenic bioaerosol.Type: GrantFiled: June 18, 2008Date of Patent: November 9, 2010Assignee: The Johns Hopkins UniversityInventors: George M. Murray, Cheryl S. Schein, David R. Kohler, Jennifer L. Sample, Jennifer A. Nix, Protagoras N. Cutchis, Adam K. Arabian, Harvey W. Ko, Micah A. Carlson, Michael P. McLoughlin
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Patent number: 7799568Abstract: A method for identifying a product includes providing a solid body (10) fabricated from at least a molecularly imprinted polymer having molecular sized cavities (12) adapted to selectively receive and bind molecules (50) having a specific taggant molecular structure (51), the molecular sized cavities (12) disposed on a portion of an exterior surface (11) of the body (10), and applying to the surface of the body a composition containing indicator molecules (50) having a taggant moiety (51) at one end and a marking function group (53) tethered to the taggant moiety (51) by a molecular chain the taggant moieties (51) engaging and binding to the molecular sized cavities (12) so as to mark the portion of the surface (11) of the body (10) with the indicator molecules (50) bound thereto, the marking functional groups (53) rendering the marked portion of the surface (11) perceptible with or without detection instrumentation.Type: GrantFiled: October 4, 2004Date of Patent: September 21, 2010Assignee: The Johns Hopkins UniversityInventors: Harry K. Charles, Jr., George M. Murray
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Patent number: 7780596Abstract: The time between heartbeats is measured over a series of such heartbeats. The time interval between two successive events is calculated and stored as a first array. The time difference between adjacent heartbeat intervals is also calculated from the first array and recorded as a differential array. The differential array is subjected to frequency analysis. First the differential array data is linearly interpolated to increase the number of data samples. The interpolated data is then subjected to a fast fourier transform (FFT) yielding a power spectrum. Characteristic frequency ranges are then integrated and the resulting frequency domain spectrum(s) are analyzed for dominant frequency characteristics.Type: GrantFiled: October 16, 2003Date of Patent: August 24, 2010Assignee: The Johns Hopkins UniversityInventor: Craig A. Kelly
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Patent number: 7749443Abstract: The present invention is directed to an enhanced sampling device, herein referred to as an ESD, for enhancing the collection efficiency of the SPME method by enhancing the flow of the analytes onto the sampling fiber. The ESD includes a tubular main body, used for a sampling shroud, which directs a flow of analytes to contact the fiber during collection. One end of the main body is open and faces the sample, allowing analytes to flow into the ESD and contact the fiber. A second piece of tubing branches from the other end of the main body and becomes an outlet port, possibly leading to a pump. The ESD permits more rapid transport and absorption of the analytes to the fiber for collection.Type: GrantFiled: December 17, 2007Date of Patent: July 6, 2010Assignee: The Johns Hopkins UniversityInventor: H. Bruce Land, III
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Patent number: 7746267Abstract: A synthetic aperture radar hybrid-polarity method and architecture comprising transmitting circular polarization (by driving the orthogonal linear feeds simultaneously by two identical waveforms, 90° out of phase), and receiving horizontal (H) and vertical (V) linear polarizations, coherently. Once calibrated, the H and V single-look complex amplitude data are sufficient to form all four Stokes parameters, which fully characterize the observed backscattered field.Type: GrantFiled: May 7, 2008Date of Patent: June 29, 2010Assignee: The Johns Hopkins UniversityInventor: Russell K. Raney
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Patent number: 7678870Abstract: A process is provided herein for preparing molecularly imprinted polymers for detecting a target analyte by Reversible Addition Fragmentation Chain Transfer (RAFT). The process includes providing a complex having the formula L3M wherein L is a ?-diketone ligand containing a chain transfer moiety and L3 can be the same or different ligands, and M is a lanthanide element; reacting the complex with the target analyte to provide an adduct containing the target analyte; co-polymerizing the adduct with a monomer and cross-linking agent to provide a polymer; and removing the target analyte from the polymer to provide the molecularly imprinted polymer.Type: GrantFiled: October 4, 2004Date of Patent: March 16, 2010Assignee: The Johns Hopkins UniversityInventors: Glen E. Southard, George M. Murray
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Patent number: 7653429Abstract: Techniques for detecting fluorescence emitted by molecular constituents in a wall of a body lumen include introducing an autonomous solid support into the body lumen. Cells in a lumen wall of the body lumen are illuminated by a light source mounted to the solid support with a wavelength that excites a particular fluorescent signal. A detector mounted to the solid support detects whether illuminated cells emit the particular fluorescent signal. If the particular fluorescent signal is detected from the illuminated cells, then intensity or position in the lumen wall of the detected fluorescent signal, or both, is determined. These techniques allow the information collected by the capsule to support diagnosis and therapy of GI cancer and other intestinal pathologies and syndromes. For example, these techniques allow diagnostic imaging using endogenous and exogenous fluoroprobes, treating diseased sites by targeted release of drug with or without photoactivation, and determining therapeutic efficacy.Type: GrantFiled: October 16, 2008Date of Patent: January 26, 2010Assignee: The Johns Hopkins UniversityInventors: Igal Madar, John C. Murphy
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Patent number: 7648365Abstract: A computer based training tool and method that emulates human behavior using a computer-simulated person in a realistic scenario. It provides an interactive experience in detecting deception during interviews and acceptance of statements during interpersonal conversations. The simulated person provides verbal responses in combination with an animated video display reflecting the body language of the simulated person in response to questions asked and during and after responses to the questions. The questions and responses are pre-programmed and interrelated groups of questions and responses are maintained in dynamic tables which are constantly adjusted as a function of questions asked and responses generated. The system provides a critique and numerical score for each training session.Type: GrantFiled: April 2, 2007Date of Patent: January 19, 2010Assignee: The Johns Hopkins UniversityInventor: Dale E. Olsen
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Patent number: 7646299Abstract: Security material such as cloth, either normal strength or armored, or fragile webbing into which electronic micro-devices are woven to detect and react to tampering of the monitored article at the scene or via a network. Also disclosed are the use of fuses connected in the cloth or webbing to further monitoring tampering and multi-layered cloth for use as circuit boards and sensors. Facilitates the monitoring of high value articles and facilities and automatically records or responds to tampering attempts to increase the level of security for personal and organizational uses.Type: GrantFiled: April 1, 2008Date of Patent: January 12, 2010Assignee: The John Hopkins UniversityInventor: Jerry A. Krill
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Patent number: 7629881Abstract: The present disclosure is directed towards apparatuses, systems and methods for providing improved sensor-based patient monitoring and tracking. In accordance with one aspect, a method is provided for adjusting a vital sign alarm threshold of a vital status sensor as a function of a patient's GPS data, which may comprise: altitude data, velocity data, and position data. In accordance with another aspect, a method is provided for adjusting one or more alarm detection parameters based in part on a patient's calculated heart rate variability (HRV) data. According to yet another aspect, an electronic triage tag is configured to include a colored card insertion region for inserting a colored card for preventing the device from being inadvertently activated, an LCD screen and a series of LEDs for displaying the triage status of a patient (red, yellow, green, black).Type: GrantFiled: April 29, 2007Date of Patent: December 8, 2009Assignee: The Johns Hopkins UniversityInventors: Tia Gao, William E. Bishop, Radford R. Juang, Alexander M. Alm, David M. White, David A. Crawford, Steven M. Babin, Jeffrey S. Chavis
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Patent number: 7593914Abstract: A system and method is provided for constructing optimal cybernetic based systems. The method is based on a process of formalized rational inquiry, measurement and planned action. More particularly, the method relies upon the precise determination of alternatives through inquiry, a formal logical model of measurement, and the subsequent matching of information obtained through measurement to possible courses of action to arrive at a realizable and useful cybernetic system architecture.Type: GrantFiled: January 5, 2009Date of Patent: September 22, 2009Assignee: The Johns Hopkins UniversityInventor: Robert L. Fry
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Patent number: 7570202Abstract: Methods for suppressing cross-track clutter in a sounding radar utilize polarimetric selectivity in two ways: (1) transmitting full-beam circular polarization and separating the desired signal of interest from the clutter based on the signal and clutter having different polarizations, and (2) transmitting and receiving circular polarization at the radar's nadir and elliptical polarization at the radar's off-nadir regions and filtering out the elliptical polarization.Type: GrantFiled: May 16, 2008Date of Patent: August 4, 2009Assignee: The Johns Hopkins UniversityInventor: Russell K. Raney
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Patent number: 7515953Abstract: Techniques for detecting fluorescence emitted by molecular constituents in a wall of a body lumen include introducing an autonomous solid support into the body lumen. Cells in a lumen wall of the body lumen are illuminated by a light source mounted to the solid support with a wavelength that excites a particular fluorescent signal. A detector mounted to the solid support detects whether illuminated cells emit the particular fluorescent signal. If the particular fluorescent signal is detected from the illuminated cells, then intensity or position in the lumen wall of the detected fluorescent signal, or both, is determined. These techniques allow the information collected by the capsule to support diagnosis and therapy of GI cancer and other intestinal pathologies and syndromes. For example, these techniques allow diagnostic imaging using endogenous and exogenous fluoroprobes, treating diseased sites by targeted release of drug with or without photoactivation, and determining therapeutic efficacy.Type: GrantFiled: August 1, 2003Date of Patent: April 7, 2009Assignee: The Johns Hopkins UniversityInventors: Igal Madar, John C. Murphy
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Patent number: 7508999Abstract: A fiber optic sensor device for detecting the presence of a chromophoric compound in a biological fluid is disclosed.Type: GrantFiled: February 28, 2008Date of Patent: March 24, 2009Assignee: Johns Hopkins UniversityInventor: Steven M. Babin
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Patent number: 7494769Abstract: A method and apparatus for evaluating a bioaerosol sample is provided which includes detecting frequency and/or time resolution factors that allow discriminate between a plurality of signals emitted by the bioaerosol to selectively detect biological materials contained in the bioaerosol sample from materials of non-biological origin and potentially associated with a pathogenic bioaerosol.Type: GrantFiled: April 16, 2003Date of Patent: February 24, 2009Assignee: The Johns Hopkins UniversityInventors: George M. Murray, Cheryl S. Schein, David R. Kohler, Jennifer L. Sample, Jennifer A. Nix, Protagoras N. Cutchis, Adam K. Arabian, Harvey W. Ko, Micah A. Carlson, Michael P. McLoughlin
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Patent number: 7475053Abstract: A system and method is provided for constructing optimal based systems. The method is based on a process of formalized rational inquiry, measurement and planned action.Type: GrantFiled: July 13, 2001Date of Patent: January 6, 2009Assignee: The Johns Hopkins UniversityInventor: Robert L. Fry