Patents Assigned to NRI R&D PATENT LICENSING, LLC
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Patent number: 11104930Abstract: Cap arrangements for per-well fluidics and gas exchange for microplate, microtiter, and microarray technologies are presented for use with cell cultures or other applications. In example implementations, each individual well within in a conventional or specialized microplate can be fully or partially isolated with capping or other arrangements which can include conduits for controlled introduction, removal, and/or exchange of fluids and/or gases. Conduit networks can include small controllable valves that operate under software control, and micro-scale pumps can also be included. Conduit interconnections can include one or more of controllable-valve distribution buses, next-neighbor interconnections, and other active or passive interconnection topologies.Type: GrantFiled: June 11, 2018Date of Patent: August 31, 2021Assignee: NRI R&D Patent Licensing, LLCInventors: Pooncharas Tipgunlakant, Lester F. Ludwig
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Advanced lensless light-field imaging systems for enabling a wide range of entirely new applications
Patent number: 10546382Abstract: Continuing a sequence of lensless light-field imaging camera patents beginning 1999, the present invention adds light-use efficiency, predictive-model design, distance-parameterized interpolation, computational efficiency, arbitrary shaped surface-of-focus, angular diversity/redundancy, distributed image sensing, plasmon surface propagation, and other fundamentally enabling features. Embodiments can be fabricated entirely by printing, transparent/semi-transparent, layered, of arbitrary size/curvature, flexible/bendable, emit light, focus and self-illuminate at zero-separation distance between (planar or curved) sensing and observed surfaces, robust against damage/occultation, implement color sensing without use of filters or diffraction, overlay on provided surfaces, provided color and enhanced multi-wavelength color sensing, wavelength-selective imaging of near-infrared/near-ultraviolet, and comprise many other fundamentally enabling features.Type: GrantFiled: February 22, 2019Date of Patent: January 28, 2020Assignee: NRI R&D Patent Licensing, LLCInventor: Lester F. Ludwig -
Patent number: 10498939Abstract: Arrangements for small-sized, inexpensive, and innovative lensless and other micro-optic microscopy imaging and tomography are presented. An imaging region comprising flat or curved surfaces is provided with an illumination source proximate to the imaging region or arranged for collimated illumination. Light travels through the imaging region and produces a resulting light field affected by objects, materials, fluids, organisms, etc. in the light path and is presented to an image sensing surface proximate to the imaging region, responsively creating electrical image signals. The illumination surface can be light emitting elements such as LEDs, OLEDs, or OLET whose illumination can be sequenced in an image formation or tomography process. Light-emission and light detection elements can be printed, permitting extremely low-cost manufacturing and readily accommodating imaging regions having curved shapes.Type: GrantFiled: December 12, 2013Date of Patent: December 3, 2019Assignee: NRI R&D Patent Licensing, LLCInventor: Lester F. Ludwig
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Patent number: 10488827Abstract: A hierarchical multiple-level control system approach comprising subsystems, each with their own control system, that can operate in isolation but—when interconnected or networked with additional subsystems associated with other hierarchical levels, assume their respective role in a hierarchy. Applications of the implementation include, for example, hierarchical cooling and energy harvesting systems for data centers and other applications wherein various elements in the hierarchy can be introduced and/or removed in arbitrary order. Additional applications of the implementation include networked high-reliability control systems, robotics systems, networked sensor systems, adaptive communications networks, high-reliability communications networks, and command-and-control applications.Type: GrantFiled: February 15, 2013Date of Patent: November 26, 2019Assignee: NRI R&D Patent Licensing, LLCInventor: Lester F. Ludwig
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Patent number: 10449540Abstract: A general-purpose software-reconfigurable chemical process system useful in a wide range of applications is disclosed. Embodiments may include software control of internal processes, automated provisions for cleaning internal elements with solvents, provisions for clearing and drying gasses, and multitasking operation. In one family of embodiments, a flexible software-reconfigurable multipurpose reusable “Lab-on-a-Chip” or “embedded chemical processor” is realized that can facilitate a wide range of applications, instruments, and appliances. Through use of a general architecture, a single design can be economically manufactured in large scale and readily adapted to diverse specialized applications. Clearing and cleaning provisions may be used to facilitate reuse of the device, or may be used for decontamination prior to recycling or non-reclaimed disposal.Type: GrantFiled: April 27, 2017Date of Patent: October 22, 2019Assignee: NRI R&D Patent Licensing, LLCInventor: Lester F. Ludwig
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Patent number: 10430066Abstract: This invention relates to signal space architectures for generalized gesture capture. Embodiments of the invention includes a gesture-primitive approach involving families of “gesteme” from which gestures can be constructed, recognized, and modulated via prosody operations. Gestemes can be associated with signals in a signal space. Prosody operations can include temporal execution modulation, shape modulation, and modulations of other aspects of gestures and gestemes. The approaches can be used for advanced touch user interfaces such as High-Dimensional Touch Pad (HDTP) in touchpad and touchscreen forms, video camera hand-gesture user interfaces, eye-tracking user interfaces, etc.Type: GrantFiled: December 6, 2012Date of Patent: October 1, 2019Assignee: NRI R&D PATENT LICENSING, LLCInventor: Lester F. Ludwig
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Patent number: 10406522Abstract: A microfluidic transport system for transporting microdroplets in three spatial dimensions among layers of a layered microfluidic system. In an example arrangement, a first microfluidic layer for transporting microdroplets in two spatial dimensions responsive to electric fields created by electrical operation of electrodes is fluidically connected by one or more conduits to other microfluidic layers. Microdroplets can be transported through the one or more conduits so as to be moved among a plurality of layered microfluidic arrangements. The resulting layered system can be used for heat transfer, fluidic transfer, and other uses, and can be implemented using materials such as metal, glass, polymer, plastic, layered materials, fibrous materials, etc. In some applications the layered system can be implemented within a printed circuit board, integrated circuit housing.Type: GrantFiled: September 9, 2016Date of Patent: September 10, 2019Assignee: NRI R&D PATENT LICENSING, LLCInventor: Lester F. Ludwig
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Patent number: 10365890Abstract: A data sonification system for representing a plurality of channels of numerical information is described wherein the rate of the periodic modulation is itself used as a vehicle for carrying information of at least one component of the multidimensional numerical data. The data sonification system includes a plurality of audio waveform generator elements. Each of the audio waveform generator elements generates an associated audio frequency waveform. Each audio frequency waveform has an audio frequency parameter and at least one timbre modulation parameter having a settable value. The timbre modulation parameter affects the timbre of the audio waveform. The data sonification system includes a mapping element for associating aspects of multidimensional numerical data with the timbre modulation parameter of each audio frequency waveform. The mapping element sets the value of the timbre modulation parameter in response to multidimensional numerical data and/or periodic modulation.Type: GrantFiled: July 30, 2018Date of Patent: July 30, 2019Assignee: NRI R&D PATENT LICENSING, LLCInventor: Lester F. Ludwig
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Patent number: 10276138Abstract: A customizable electronic musical instrument includes a mounting frame for securing a plurality of user-installable electronic musical modules of various types including a type for generating at least one control signal responsive to user operation, a type for generating audio signals, responsive to a control signal. The instrument can transmit outgoing audio electrical signals to an external system and can include internal sound amplification. The instrument includes one or more types of controller elements such as a keyboard, touchpad, strumpad, impact sensor, slider control, expression wheel, joystick, ribbon controller, button, switch, pressure sensor, multiple-position selector, knob potentiometer, and further comprises at least one music synthesizer element. Control and audio signals may be routed among modules by a switch or bus. Audio signals can be mixed by a multichannel audio mixer and/or processed responsive to at least one control signal.Type: GrantFiled: November 8, 2017Date of Patent: April 30, 2019Assignee: NRI R&D PATENT LICENSING, LLCInventor: Lester F. Ludwig
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Patent number: 10274487Abstract: The invention provides a platform technology with rich ability to flexibly perform, create, deploy, maintain, and update a wide range of panels, assay, array, and/or sequence of tests for a wide range of substances and pathogens. The invention provides a unifying framework for widely-ranging miniature sensor implementation, fluidic/gas interfacing, electrical interfaces and optical interfaces, and further by collocating, allowing the integration a large number highly-selective sensors and chemical sensors—together as needed with appropriately selected supplemental sensors (for example temperature, pH, selective ions, etc.), into a common readily-manufacturable framework. The diverse sensor arrays give rise to statistical enhancing through novel statistical processing approaches.Type: GrantFiled: February 6, 2013Date of Patent: April 30, 2019Assignee: NRI R&D PATENT LICENSING, LLCInventor: Lester F. Ludwig
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Patent number: 10230016Abstract: Light-sensor array systems for capturing multiple-color images and light-fields using array of wavelength-selective optoelectronic elements (rather than wider-range photosensors prefaced with visible-band wavelength-selective optical elements such as color selective filters) as light-field or image sensors are presented. The light-sensor array can be one or more of transparent, bendable, and implemented on a curved surface. In some embodiments, the wavelength-selective light-sensing opto-electronic elements are arranged in a stacked array. In some embodiments, more than three wavelength-selective ranges can be employed in each light-sensing pixel. The invention can be used to implement one or more of a lensless imaging light-field camera, tactile gesture user interface, and/or proximate gesture user interface. In some embodiments, the light-sensor array system can be configured to emit light of one or more colors, and thus can additionally serve as an image display.Type: GrantFiled: August 14, 2017Date of Patent: March 12, 2019Assignee: NRI R&D PATENT LICENSING, LLCInventor: Lester F. Ludwig
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Patent number: 10217235Abstract: Continuing a sequence of lensless light-field imaging camera patents beginning 1999, the present invention adds light-use efficiency, predictive-model design, distance-parameterized interpolation, computational efficiency, arbitrary shaped surface-of-focus, angular diversity/redundancy, distributed image sensing, plasmon surface propagation, and other fundamentally enabling features. Embodiments can be fabricated entirely by printing, transparent/semi-transparent, layered, of arbitrary size/curvature, flexible/bendable, emit light, focus and self-illuminate at zero-separation distance between (planar or curved) sensing and observed surfaces, robust against damage/occulation, implement color sensing without use of filters or diffraction, overlay on provided surfaces, provided color and enhanced multi-wavelength color sensing, wavelength-selective imaging of near-infrared/near-ultraviolet, and comprise many other fundamentally enabling features.Type: GrantFiled: July 11, 2017Date of Patent: February 26, 2019Assignee: NRI R&D PATENT LICENSING, LLCInventor: Lester F. Ludwig
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Patent number: 10216399Abstract: Methods for piecewise-linear and piecewise-affine transformations parameter decoupling in High Dimensional Touchpad (HDTP) user touch interfaces including those with multitouch capabilities are described. A calculation chain provides a first-order calculation of a subset of a collection of touch parameters (including for example left-right, front-back, downward pressure, roll angle, pitch angle, yaw angle) responsive in real-time to user touch on a touch-responsive sensor array. A piecewise-affine transformation is applied to these first-order calculations to produce parameter decoupling. The piecewise-affine transformation can be structured to depend only on current numerical values from the first-order calculation. Alternatively, the piecewise-affine transformation can be structured to additionally depend on the positive or negative direction of change over time of at least one numerical value from the first-order calculation, thereby providing a correction for hysteresis effects.Type: GrantFiled: July 11, 2016Date of Patent: February 26, 2019Assignee: NRI R&D PATENT LICENSING, LLCInventor: Lester F. Ludwig
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Patent number: 10166545Abstract: An article of laboratory glassware for directing the flow of chemical materials is described. The article includes a manifold having a plurality of input ports and at least one output port, and a plurality of stopcocks. Each stopcock has an inlet port and an outlet port connected by a passageway through the plug. Each of the stopcock output ports is connected to one of the manifold input ports, and each of the stopcock input ports is connected with one end of a hollow glass tube, and the other end of the hollow glass tube is connected to a ground glass joint. The output ports of the manifold are terminated to a ground glass joint. Each stopcock is fitted with a plug comprising a longitudinally-movable gate whose position is driven by a stepper or D.C. electrical motor where the gate position can be monitored by a sensor and can be computer-controlled.Type: GrantFiled: February 24, 2017Date of Patent: January 1, 2019Assignee: NRI R&D PATENT LICENSING, LLCInventor: Lester F. Ludwig
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Patent number: 10146427Abstract: Systems and methods for implementing a touch user interface using at least one at least one edge detection algorithm to produce edge data that is in turn provided to at least one curve-fitting algorithm to produce curve parameter data. The curve parameter data in turn provided to at least one calculation algorithm to produce interpreted data, wherein the interpreted data comprises user interface information responsive to the human touch made by the user to the touch surface. In various implementations the touch sensor can include a capacitive matrix, pressure sensor array, LED array, arrays of on-off contact sensors, or a video camera.Type: GrantFiled: March 1, 2011Date of Patent: December 4, 2018Assignee: NRI R&D PATENT LICENSING, LLCInventor: Vadim Zavila
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Patent number: 10073532Abstract: A system for a spatial-gesture user interface employing grammatical rules at various levels. Various distinct subset of the gestemes can be concatenated in space and time to construct a distinct gestures. Real-time spatial-gesture information measured by a spatial-gesture user interface is processed to at least a recognized sequence of specific gestemes and that the sequence of gestemes that the user's execution a gesture has been completed. The specific gesture rendered by the user is recognized according to the sequence of gestemes. Many additional features are then provided from this foundation, including gesture grammars, structured-meaning gesture-lexicon, imposed interpretations, context, and the use of gesture-rendering prosody. The invention can be used to provide very general spatial-gesture grammar user interface for touchscreens, high dimensional touch pad (hdtp), free-space camera, and other user interfaces.Type: GrantFiled: September 9, 2016Date of Patent: September 11, 2018Assignee: NRI R&D PATENT LICENSING, LLCInventor: Lester F. Ludwig
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Patent number: 10042479Abstract: This invention relates to sensor arrangements and signal processing architectures for touch-based user interfaces comprising multiple sensor types and other arrangements so as to create user interface output signals responsive to the touch of at least one human finger. Sensor types and other arrangements can include capacitive tactile sensor arrays, optical tactile sensor arrays, proximity sensor arrays, pressure sensor arrays, and video cameras.Type: GrantFiled: November 6, 2017Date of Patent: August 7, 2018Assignee: NRI R&D Patent Licensing, LLCInventors: Lester F. Ludwig, Vadim Zaliva
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Patent number: 10037186Abstract: Multichannel data sonification arrangements for providing parallel perceptual channels for representing complex numerical data to a user seeking to identify correlations within the data are presented. In an implementation, several varying data quantities are represented by time-varying sound and presented to a user to observe both variations and correlations among sonic events or trends. The data sonification can include multiple data-modulated sound timbre classes, for example each separately rendered within a stereo sound field. The sound timbre classes can be arranged to convey a sonic metaphor.Type: GrantFiled: May 3, 2017Date of Patent: July 31, 2018Assignee: NRI R&D PATENT LICENSING, LLCInventor: Lester F. Ludwig
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Patent number: 10036579Abstract: Arrangements for incremental deployment of stand-alone and hierarchical adaptive cooling and energy harvesting arrangements for use in information technology and other heat-producing equipment are disclosed. The arrangements provide for individual cooling and energy harvesting subsystems, each of which can operate in isolation and be interconnected with additional subsystems in peer and hierarchical relationships. Each subsystem comprises at least one thermoelectric device capable of acting as a thermoelectric cooler and as a thermoelectric generator, a control system, and electronics controlled to selectively configure the thermoelectric device in at least in a thermoelectric cooler operating mode and in a thermoelectric generation operating mode. The thermoelectric device can incorporate quantum-process and quantum-well materials for higher heat transfer and thermoelectric generation efficiencies.Type: GrantFiled: August 22, 2016Date of Patent: July 31, 2018Assignee: NRI R&D PATENT LICENSING, LLCInventor: Lester F. Ludwig
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Patent number: 9994889Abstract: Arrangements for per-well fluidics, gas exchange, and electronic sensors for microplate, microtiter, and microarray technologies are presented. In example implementations, each individual well within in a conventional or specialized microplate can be fully or partially isolated with capping or other arrangements which can include conduits for controlled introduction, removal, and/or exchange of fluids and/or gases. Conduit networks can include small controllable valves that operate under software control, and micro-scale pumps can also be included. Conduit interconnections can include one or more of controllable-valve distribution buses, next-neighbor interconnections, and other active or passive interconnection topologies. Cap arrangements can include or provide one or more sensors of various types, including but not limited to selective gas sensors, chemical sensors, temperature sensors, pH sensors, biosensors, immunosensors, molecular-imprint sensors, optical sensors, fluorescence sensors, bioFETS, etc.Type: GrantFiled: March 15, 2013Date of Patent: June 12, 2018Assignee: NRI R&D PATENT LICENSING, LLCInventors: Pooncharas Tipgunlakant, Lester F. Ludwig