Patents Assigned to The University of New Hampshire
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Publication number: 20210364289Abstract: An apparatus and method are presented comprising one or more sensors or cameras configured to rotate about a central motor. In some examples, the motor is configured to travel at a constant linear speed while the one or more cameras face downward and collect a set of images in a predetermined region of interest. The apparatus and method are configured for image acquisition with non-sequential image overlap. The apparatus and method are configured to eliminate gaps in image detection for fault-proof collection of imagery for an underwater survey. In some examples, long baseline (LBL) is utilized for mapping detected images to a location. In some examples, ultra-short baseline (USBL) is utilized for mapping detected images to a location. The apparatus and method are configured to utilize a simultaneous localization and mapping (SLAM) approach.Type: ApplicationFiled: August 2, 2021Publication date: November 25, 2021Applicant: University of New HampshireInventor: Yuri Rzhanov
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Patent number: 11169190Abstract: An Empirical Mode Decomposition (EMD)-based noise estimation process is disclosed herein that allows for blind estimations of noise power for a given signal under test. The EMD-based noise estimation process is non-parametric and adaptive to a signal, which allows the EMD-based noise estimation process to operate without necessarily having a priori knowledge about the received signal. Existing approaches to spectrum sensing such as Energy Detector (ED) and Maximum Eigenvalue Detector (MED), for example, may be modified to utilize a EMD-based noise estimation process consistent with the present disclosure to shift the same from semi-blind category to fully-blind category.Type: GrantFiled: September 19, 2017Date of Patent: November 9, 2021Assignee: THE UNIVERSITY OF NEW HAMPSHIREInventors: Mahdi H. Al-Badrawi, Nicholas J. Kirsch, Bessam Z. Al-Jewad
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Patent number: 11112241Abstract: An apparatus and method are presented comprising one or more sensors or cameras configured to rotate about a central motor. In some examples, the motor is configured to travel at a constant linear speed while the one or more cameras face downward and collect a set of images in a predetermined region of interest. The apparatus and method are configured for image acquisition with non-sequential image overlap. The apparatus and method are configured to eliminate gaps in image detection for fault-proof collection of imagery for an underwater survey. In some examples, long baseline (LBL) is utilized for mapping detected images to a location. In some examples, ultra-short baseline (USBL) is utilized for mapping detected images to a location. The apparatus and method are configured to utilize a simultaneous localization and mapping (SLAM) approach.Type: GrantFiled: October 29, 2019Date of Patent: September 7, 2021Assignee: UNIVERSITY OF NEW HAMPSHIREInventor: Yuri Rzhanov
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Patent number: 11072874Abstract: An auxetic polygonal cell may have a plurality of chiral structures capable of rotation. The plurality of chiral structures may at least partially enclose a volume. Each of the chiral structures may include a first cross member having a first set of distal ends and a second cross member intersecting the first cross member, the second cross member having a second set of distal ends. The chiral structures may also include a first set of legs, wherein each leg of the first set of legs extends from at least one distal end of the first set of distal ends and a second set of legs, wherein each leg of the second set of legs extends from at least one distal end of the second set of distal ends.Type: GrantFiled: April 23, 2018Date of Patent: July 27, 2021Assignee: University of New HampshireInventors: Yaning Li, Yunyao Jiang
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Publication number: 20210213427Abstract: Techniques and methods are disclosed for producing a plurality of nanoparticles that can be used as catalysts to grow carbon or boron nitride nanotubes. The method includes mixing an iron salt including a ferrous or ferric ion with a long chain amine, thiol or polyphenol in a solvent comprising alcohol to produce a solution. Ferric or ferrous ion is reduced to zero valence iron. Nucleation of iron nanoparticles is initialized. The iron nanoparticles are capped to retard nanoparticle growth. The nanoparticles include an elemental iron core coated with a polyphenol that isolates the core from oxygen. The nanoparticles include an average diameter of less than or equal to 15.8 nanometers. The iron core may further include a secondary metal to form an iron-alloy. The secondary metal, in some applications, can be a transition metal.Type: ApplicationFiled: March 26, 2021Publication date: July 15, 2021Applicant: University of New HampshireInventors: David S. Lashmore, Tyler Bennett
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Patent number: 11043479Abstract: An opto-coupler includes a housing having end walls configured to have high-voltage (HV) input and output conductors protruding therethrough. The opto-coupler also includes at least one light emitting diode (LED) mounted to the housing and configured to activate the HV diode to pass electrical current by emitting light toward the HV diode. At least one press-fit end cap is configured to provide a press-fit seal either between the HV input conductor and the input end wall or between the HV output conductor and the output end wall. The press-fit end cap is configured to protect the LED from damage by shaping an electric field between the HV input or output conductor and the LED. Embodiments enable compact opto-coupler sizes with high-voltage ratings, such as 8 kV or 15 kV. Electrical current transfer ratios may be much higher than in existing opto-couplers.Type: GrantFiled: September 25, 2017Date of Patent: June 22, 2021Assignee: University of New HampshireInventors: Brian J. King, Mark S. Granoff, Philip DeMaine
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Patent number: 11031167Abstract: A giant perpendicular magnetic anisotropy (PMA) material comprises a III-V nitride substrate, and a layer of nitrogen disposed upon a surface of the III-V nitride substrate. The layer of nitrogen forms an N-terminated surface. The PMA material further comprises an iron film disposed upon the N-terminated surface. The III-V nitride substrate may be gallium nitride (GaN). A memory device using the PMA material may further comprise an input/output interface configured to communicate an address signal, a read/write signal and a data signal. The memory device may further comprise a controller configured to coordinate reading data from and writing data to the memory element.Type: GrantFiled: November 16, 2018Date of Patent: June 8, 2021Assignee: UNIVERSITY OF NEW HAMPSHIREInventors: Jiadong Zang, Jiexiang Yu
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Publication number: 20210104639Abstract: Solar cells fabricated from p-n junctions of boron nitride nanotubes alloyed with carbon are described. Band gaps of boron nitride carbon alloys are tailored by controlling carbon content in the boron nitride nanotubes. High efficiency solar cells can be fabricated by tailoring the band gap of boron nitride carbon alloy nanotubes, and using these nanotubes for fabricating solar cells u. Because boron nitride carbon alloy nanotubes are transparent to most wavelengths of light, the wavelengths not converted to electrons (i.e., absorbed) at a first p-n junction in a solar cell will pass through the stack to another p-n junction in the stack having a different band gap. At each successive p-n junction, each of which has a different band gap from the other p-n junctions in the stack, more wavelengths of light will be converted into electricity. This dramatically increases the efficiency of solar cells.Type: ApplicationFiled: July 21, 2020Publication date: April 8, 2021Applicant: University of New HampshireInventor: David S. Lashmore
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Patent number: 10923815Abstract: This disclosure is generally directed to a microstrip phased array antenna with a switch line phase shifter to obtain steerable beam pattern. In an embodiment, the microstrip phased array antenna includes a plurality microstrip lines disposed/patterned on a substrate to form a relatively compact phase shifter network that can switchably introduce phase shifts into an RF signal. In particular, each phase shifter of the phase shifter network may be formed from a number of equal-length RF lines that extend from a common point and “loop” to form substantially circular paths. The common point from which each of the RF lines extend may include a VIA to couple to an antenna device. A plurality of switches, e.g., PIN diodes, may be disposed along the RF lines to switchably extend the overall length of each of the phase shifters, and more particularly each transmission line, to selectively introduce a target phase shift.Type: GrantFiled: November 19, 2018Date of Patent: February 16, 2021Assignee: UNIVERSITY OF NEW HAMPSHIREInventors: Rudra Timsina, Richard Messner
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Publication number: 20210029812Abstract: A magnetic confinement system includes a magnetic minor device that includes a chamber to hold a target plasma and a coil arrangement to generate a magnetic field configuration in the chamber to confine the target plasma in cylindrically-symmetric form in the chamber, the magnetic field configuration having open ends. The magnetic confinement system further includes plasma guns to generate plasma pistons and project the plasma pistons at the open ends of the magnetic field configuration. In operation, the plasma pistons converge towards each other to close the open ends of the magnetic field configuration and to compress and heat the target plasma.Type: ApplicationFiled: September 11, 2018Publication date: January 28, 2021Applicant: University of New HampshireInventor: James J. CONNELL
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Patent number: 10880201Abstract: Techniques are provided for generating data on the optimum number of storage-hops, the location of the storage-hops, and the bandwidth distributions of the storage-hops to construct a complete flow network for transmitting data from a sender to a receiver via a communication network. The flow network can potentially include hundreds of storage-hops, depending on the time and duration of the data flow. An algorithm is further provided for constructing an unbounded flow network from a bounded set of input parameters. Moreover, the complexity of the algorithm does not depend on the number of storage-hops, so the model is suitable for both crowd supported and data center supported transfers.Type: GrantFiled: October 17, 2017Date of Patent: December 29, 2020Assignee: University of New HampshireInventor: Elizabeth Varki
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Publication number: 20200394250Abstract: Systems, methods, apparatus, and techniques are presented for maintaining cupolets in a state of mutual stabilization. A first cupolet and a second cupolet are generated. A first control code is applied to the first cupolet for a first time to produce a first visitation code. The first visitation code is transformed based on an exchange function to produce a second control code. The second control code is applied to the second cupolet to produce a second visitation code. The second visitation code is transformed based on the exchange function to produce the first control code. The first control code is applied to the first cupolet for a second time.Type: ApplicationFiled: August 24, 2020Publication date: December 17, 2020Applicant: University of New HampshireInventors: Kevin M. Short, Matthew A. Morena
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Publication number: 20200376475Abstract: A composition of a photocatalyst, a method of manufacturing the photocatalyst, and a method of chemically reducing carbon dioxide to carbon monoxide using the photocatalyst under visible-light irradiation is provided. The photocatalyst comprises a transition metal ion and graphitic carbon nitride and includes single metal sites on carbon nitride. Under visible light, the metal sites that are coordinated to nitrogen atoms get activated, without the use of additional ligands, to catalyze the reduction of carbon dioxide to selectively produce carbon monoxide. The photocatalytic reduction of carbon dioxide to carbon monoxide is highly efficient, resulting a turnover number of more than 800 for carbon monoxide production in 2 hours. The composition is useful in converting carbon dioxide into useful chemicals and carbon-based fuels. A functional model of molecular catalysts for efficient carbon dioxide reduction is also present.Type: ApplicationFiled: June 3, 2020Publication date: December 3, 2020Applicants: University of New Hampshire, The Research Foundation for The State University of New YorkInventors: Gonghu Li, Anatoly Frenkel, Peipei Huang, Jiahao Huang
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Patent number: 10754919Abstract: Systems, methods, apparatus, and techniques are presented for maintaining cupolets in a state of mutual stabilization. A first cupolet and a second cupolet are generated. A first control code is applied to the first cupolet for a first time to produce a first visitation code. The first visitation code is transformed based on an exchange function to produce a second control code. The second control code is applied to the second cupolet to produce a second visitation code. The second visitation code is transformed based on the exchange function to produce the first control code. The first control code is applied to the first cupolet for a second time.Type: GrantFiled: October 11, 2017Date of Patent: August 25, 2020Assignee: University of New HampshireInventors: Kevin M. Short, Matthew A. Morena
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Publication number: 20200255985Abstract: A method and apparatus for producing boron nitride nanotubes and continuous boron nitride nanotube yarn or tapes is provided. The apparatus includes rotating reaction tubes that allow for continuous chemical vapor deposition of boron nitride nanotubes. The rotation of the reaction tubes allows the boron nitride nanotubes to be spun into yarns or made into tapes, without post process or external rotation or spinning of the gathered nanotubes. Boron nitride nanotube yarns or tapes of great length can be produced as a result, thereby providing industry with a readily useable format for this type of material. Dopants such as carbon can be added to engineer the band gap of the nanotubes. Catalysts may be formed outside or inside the reactor.Type: ApplicationFiled: October 29, 2019Publication date: August 13, 2020Applicant: University of New HampshireInventors: David S. Lashmore, Tyler Bennett
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Patent number: 10720542Abstract: Solar cells fabricated from p-n junctions of boron nitride nanotubes alloyed with carbon are described. Band gaps of boron nitride carbon alloys are tailored by controlling carbon content in the boron nitride nanotubes. High efficiency solar cells can be fabricated by tailoring the band gap of boron nitride carbon alloy nanotubes, and using these nanotubes for fabricating solar cells u. Because boron nitride carbon alloy nanotubes are transparent to most wavelengths of light, the wavelengths not converted to electrons (i.e., absorbed) at a first p-n junction in a solar cell will pass through the stack to another p-n junction in the stack having a different band gap. At each successive p-n junction, each of which has a different band gap from the other p-n junctions in the stack, more wavelengths of light will be converted into electricity. This dramatically increases the efficiency of solar cells.Type: GrantFiled: May 3, 2018Date of Patent: July 21, 2020Assignee: University of New HampshireInventor: David S. Lashmore
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Publication number: 20200138032Abstract: The invention relates, in part, to methods to identify compounds to treat a phytoparasitic nematode infection and/or reduce phytoparasitic nematode contamination, and to methods and compositions to treat phytoparasitic nematode infections and to reduce phytoparasitic nematode contamination of a substrate such as, but not limited to: a plant, agricultural medium, or soil.Type: ApplicationFiled: January 16, 2020Publication date: May 7, 2020Applicant: UNIVERSITY OF NEW HAMPSHIREInventors: Richard H. Cote, Karyn B. Cahill, Kevin D. Schuster
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Publication number: 20200132456Abstract: An apparatus and method are presented comprising one or more sensors or cameras configured to rotate about a central motor. In some examples, the motor is configured to travel at a constant linear speed while the one or more cameras face downward and collect a set of images in a predetermined region of interest. The apparatus and method are configured for image acquisition with non-sequential image overlap. The apparatus and method are configured to eliminate gaps in image detection for fault-proof collection of imagery for an underwater survey. In some examples, long baseline (LBL) is utilized for mapping detected images to a location. In some examples, ultra-short baseline (USBL) is utilized for mapping detected images to a location. The apparatus and method are configured to utilize a simultaneous localization and mapping (SLAM) approach.Type: ApplicationFiled: October 29, 2019Publication date: April 30, 2020Applicant: University of New HampshireInventor: Yuri Rzhanov
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Patent number: 10561144Abstract: The invention relates, in part, to methods to identify compounds to treat a phytoparasitic nematode infection and/or reduce phytoparasitic nematode contamination, and to methods and compositions to treat phytoparasitic nematode infections and to reduce phytoparasitic nematode contamination of a substrate such as, but not limited to: a plant, agricultural medium, or soil.Type: GrantFiled: March 15, 2014Date of Patent: February 18, 2020Assignee: University of New HampshireInventors: Richard H. Cote, Karyn B. Cahill, Kevin D. Schuster
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Patent number: 10468684Abstract: A composition and method of preparation of mixed valence manganese oxide, nickel-doped mixed valence manganese oxide and cobalt-doped mixed valence manganese oxide nanoparticles as well as tri-manganese tetroxide, nickel-doped tri-manganese tetroxide and cobalt-doped tri-manganese tetroxide nanoparticles for use as electrodes for aqueous energy storage devices.Type: GrantFiled: June 12, 2015Date of Patent: November 5, 2019Assignee: The University of New HampshireInventor: Xiaowei Teng