Patents Assigned to The University of New Hampshire
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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
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Patent number: 10458049Abstract: 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: GrantFiled: July 30, 2014Date of Patent: October 29, 2019Assignee: University of New HampshireInventors: David S. Lashmore, Tyler Bennett
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Patent number: 10380755Abstract: A technique for estimating a whole object surface area and volume of a micro-scale three-dimensional model with a partially visible surface includes receiving a single-view stereoscopic image of an object of interest and an unconstrained three-dimensional point cloud of the object, generating a constrained three-dimensional point cloud using the image, the unconstrained three-dimensional point cloud, and a digital elevation model (DEM) of the object generated from the image, generating, using the constrained three-dimensional point cloud, a three-dimensional mesh representing an estimate of the surface of the object, calculating a partial surface area and/or partial volume of the object using the three-dimensional mesh, estimating an extent of a visible surface of the object, and calculating a whole surface area and/or a whole volume of the object based on the partial surface area of the object and the estimated extent of the visible surface of the object.Type: GrantFiled: November 21, 2017Date of Patent: August 13, 2019Assignee: University of New HampshireInventors: Gopal Mulukutla, Alexander Prusevich
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Publication number: 20190244111Abstract: A system that avoids dead-end states during a real-time heuristic search. While transitioning from a previous state to a current state, the system may perform lookahead to populate a state-space with potential states. The system may identify safe states using a safety predicate and only select potential states that are ancestors of safe states, providing a clear path to safety when needed. In addition, the system may determine a distance-to-safety function that indicates a number of state transitions between each potential state and a nearest safe state.Type: ApplicationFiled: February 4, 2019Publication date: August 8, 2019Applicant: University of New HampshireInventors: Wheeler Ruml, Bence Cserna, William Doyle, Jordan Ramsdell
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Patent number: 10348057Abstract: A high power diode laser system selects the central wavelength and narrows the spectral bandwidth by employing one or more atomic line filters (ALFs) as the wavelength selective element in the external cavity to optimize high power multi-mode operation. The high power diode laser system may include multiple diode laser sources, such as multiple diode laser bar stacks, providing multiple output beams. In an “in-line” or “straight through” configuration, a partially reflective surface terminates the external cavity to feed beam power back through the external cavity and to provide one or more output beams. In a “splitter” or “power divider” configuration, a highly reflective surface terminates the external cavity and one or more beam splitters between the diode laser source(s) and the ALF are used to provide one or more output beams. An afocal telescope may be used to image the diode laser source(s) at the reflective surface terminating the external cavity.Type: GrantFiled: January 19, 2018Date of Patent: July 9, 2019Assignee: UNIVERSITY OF NEW HAMPSHIREInventors: William Hersman, Michael Hersman
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Publication number: 20190158824Abstract: A system and method for colorimetric calibration is described herein. A system for performing color calibration is described, comprising at least one broad spectrum light emitting diode, at least one light diffuser plate, at least one interference filter, and a camera, the camera comprising at least one sensor for detection of colors, wherein a spectral response within 5% error of a ground truth method can be achieved. A method for performing color calibration is described, comprising transmitting light from at least one broad spectrum light emitting diode, scattering light with at least one light diffuser plate, filtering light with at least one interference filter, detecting light at a camera sensor, mapping an intensity value for each pixel of the camera sensor, and creating a quantum efficiency curve for each of red, green, and blue channels.Type: ApplicationFiled: November 20, 2018Publication date: May 23, 2019Applicant: University of New HampshireInventor: Yuri Rzhanov
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Patent number: 10266310Abstract: An auxetic structure consistent with the present disclosure may include a core cell, capable of rotation, including a plurality of first rib sections, and a plurality of second rib sections. The first rib sections may be transverse to a longitudinal axis of the auxetic structure and at least one of the first rib sections may extend from the core cell. The second rib sections may be transverse to a transverse axis of the auxetic structure and at least one of the second rib sections may extend from the core cell.Type: GrantFiled: August 26, 2016Date of Patent: April 23, 2019Assignee: University of New HampshireInventors: Yaning Li, Yunyao Jiang
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Patent number: 10264958Abstract: A sensor-equipped laryngoscope may be used in a system and method for quantifying intubation performance. The level of experience of health care professionals (HCPs) plays a role in the application of force and torque applied to the laryngoscope during endotracheal intubation on an airway simulator, such as a manikin or animal model (e.g., a ferret). A sensor-equipped laryngoscope may provide data that differentiates the mechanics applied by subject matter experts (SMEs) (e.g., neonatologists) from those by novices or trainees during intubation, particularly on infant or neonatal airway simulators. A laryngoscope may be equipped with one or more sensors (e.g., force/torque sensors, accelerometers, and gyroscopes) to record force, torque, and/or three-dimensional motion during endotracheal intubation. The sensor-equipped laryngoscope may then be used to record intubation mechanics (e.g., during an infant airway simulated intubation) for both SMEs and trainees.Type: GrantFiled: October 19, 2016Date of Patent: April 23, 2019Assignees: University of New Hampshire, The Board of Trustees of the Leland Stanford Junior UniversityInventors: Paula L. McWilliam, Brian J. King, Mark Scott Granoff, Louis Patrick Halamek
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Patent number: 10258986Abstract: Techniques are disclosed for producing a drop of a viscoelastic fluid. A separation volume of viscoelastic fluid that is to form a drop from a larger remnant volume of viscoelastic fluid is moved from through an interface and into a cross-channel. Movement subjects the viscoelastic fluid to shear that may cause a reduction in viscosity. Movement of the viscoelastic fluid is then reduced or stopped (i.e., the rate at which shear is applied is reduced), such that the viscosity of the viscoelastic fluid may increase as the viscoelastic fluid experiences relaxation. The separation volume of viscoelastic fluid is then moved down the cross-channel in a first direction by the flow of an immiscible fluid, which separates the separation volume from a remnant volume. The separation volume may then be dispensed from the cross-channel as a drop.Type: GrantFiled: November 9, 2015Date of Patent: April 16, 2019Assignee: University of New HampshireInventors: Brian G. Zukas, Nivedita Gupta
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Publication number: 20180329089Abstract: A system of the present disclosure is capable of detecting, imaging and measuring both neutrons and gamma rays. The system may be portable and/or field deployable. The system may include two or more detector layer cases and a digital processing unit case. The system has a plurality of parallel plates each containing a plurality of detectors. The plates may have non-PSD organic scintillation detectors, scintillation detectors having pulse-shape discrimination (PSD) properties, and inorganic scintillation detectors. A first plate and a second plate are housed within detector layer cases. The scintillation detectors are used in connection to detect, image and measure neutrons and/or gamma rays.Type: ApplicationFiled: May 11, 2018Publication date: November 15, 2018Applicant: University of New HampshireInventors: Peter F. Bloser, Jason Legere, Christopher M. Bancroft
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Publication number: 20180312556Abstract: The present invention is directed towards the use of Growth Differentiation Factor 1 (Gdf1) and variants thereof to modulate and regulate ceramide neutralization in cells.Type: ApplicationFiled: April 27, 2018Publication date: November 1, 2018Applicant: University of New HampshireInventor: Brian Barth
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Publication number: 20180301579Abstract: 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: May 3, 2018Publication date: October 18, 2018Applicant: University of New HampshireInventor: David S. Lashmore
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Patent number: 10013359Abstract: A redundant disk array method includes allocating identically sized logical blocks of storage units together to form a stripe on each of several data storage devices, at least two of the logical blocks in the stripe being located on different data storage devices, generating a lookup table representing a mapping between a logical location of each logical block in the stripe and a physical location of the respective logical block on the corresponding data storage device, and writing data to the physical locations of each logical block in the stripe, the physical locations being obtained from the lookup table. In some cases, at least two of the data storage devices are heterogeneous, and at least two of the data storage devices have a different total number of logical blocks.Type: GrantFiled: December 18, 2015Date of Patent: July 3, 2018Assignee: University of New HampshireInventors: András Krisztián Fekete, Elizabeth Varki
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Publication number: 20180144493Abstract: A technique for estimating a whole object surface area and volume of a micro-scale three-dimensional model with a partially visible surface includes receiving a single-view stereoscopic image of an object of interest and an unconstrained three-dimensional point cloud of the object, generating a constrained three-dimensional point cloud using the image, the unconstrained three-dimensional point cloud, and a digital elevation model (DEM) of the object generated from the image, generating, using the constrained three-dimensional point cloud, a three-dimensional mesh representing an estimate of the surface of the object, calculating a partial surface area and/or partial volume of the object using the three-dimensional mesh, estimating an extent of a visible surface of the object, and calculating a whole surface area and/or a whole volume of the object based on the partial surface area of the object and the estimated extent of the visible surface of the object.Type: ApplicationFiled: November 21, 2017Publication date: May 24, 2018Applicant: University of New HampshireInventors: Gopal Mulukutla, Alexander Prusevich
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Publication number: 20180109438Abstract: 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: ApplicationFiled: October 17, 2017Publication date: April 19, 2018Applicant: University of New HampshireInventor: Elizabeth Varki
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Publication number: 20180056279Abstract: 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: September 1, 2017Publication date: March 1, 2018Applicant: University of New HampshireInventors: David S. Lashmore, Tyler Bennett
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Publication number: 20180044719Abstract: The invention relates, in part, to methods to identify the presence and/or level of a pathogenic V. parahaemolyticus bacterium in a subject or in or on a substrate. Methods are provided that, in part, permit detection of infection of a subject, or contamination of a substrate by pathogenic V. parahaemolyticus bacteria.Type: ApplicationFiled: March 5, 2016Publication date: February 15, 2018Applicant: University of New HampshireInventors: Cheryl Whistler, Jeffrey Allister Hall, Feng Xu
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Publication number: 20180032475Abstract: 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: October 11, 2017Publication date: February 1, 2018Applicant: University of New HampshireInventors: Kevin M. Short, Matthew A. Morena
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Publication number: 20180018096Abstract: A redundant disk array includes homogeneous or heterogeneous disks divided into chunks, where larger disks have more chunks. Chunks from one or more disks are grouped into bundles containing data stored across multiple disks. Frequently accessed chunks can be moved to under-utilized, faster disks and least frequently used chunks can be moved to larger, slower disks, to balance the distribution of load across all of the disks in the array.Type: ApplicationFiled: July 11, 2017Publication date: January 18, 2018Applicant: University of New HampshireInventors: András Krisztián Fekete, Elizabeth Varki
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Publication number: 20170355797Abstract: The invention relates, in part, to methods to prepare and use molecularly imprinted copolymer compounds. Molecularly imprinted compounds of the invention can be used to identify the presence and/or level of a target compound that the molecularly imprinted copolymer compound of the invention was imprinted to detect. Molecularly imprinted copolymer compounds of the invention can also be used in separation methods to remove or isolate a target compound that the molecularly imprinted copolymer compound was imprinted to specifically bind.Type: ApplicationFiled: June 14, 2017Publication date: December 14, 2017Applicant: University of New HampshireInventors: Casey Joseph Grenier, Rudolf Seitz