Patents by Inventor Stefan Johannes Holmgren
Stefan Johannes Holmgren has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20210081053Abstract: A contactless input method for an electronic device or other equipment, including projecting focused light beams from a series of locations along an edge of a control panel including a matrix of controls for an electronic device or other equipment, across a plane in an airspace in front of the controls, whereby the projected light beams traverse an area equal in size to the area of the matrix, detecting reflections of the projected light beams reflected by an object inserted into the plane, identifying which light beams are reflected, further identifying an angle at which the detected light beams are reflected, calculating a location in the plane at which the object is inserted based on the detecting, identifying and further identifying, and outputting the calculated location from the sensor to the electronic device or other equipment as an actuated corresponding location on the control panel.Type: ApplicationFiled: October 6, 2020Publication date: March 18, 2021Inventors: Björn Thomas Eriksson, Björn Alexander Jubner, Rozita Teymourzadeh, Håkan Sven Erik Andersson, Per Carl Sture Rosengren, Xiatao Wang, Stefan Johannes Holmgren, Gunnar Martin Fröjdh, Jan Tomas Hartman, Per Oscar Sverud, Sangtaek Kim, Rasmus Dahl-Örn, Tom Richard Berglind, Karl Erik Patrik Nordström, Lars Bertil Sparf, Erik Anders Claes Rosengren, John Elis Gösta Karlsson, Remo Behdasht, Robin Kjell Åman, Joseph Shain
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Patent number: 10928957Abstract: A sensor including lenses, light emitters, each emitter projecting light out of a lens in a particular emission direction along a detection plane, light detectors, each detector detecting maximum light intensity when light enters a lens at a particular detection angle, a table of hotspots, each hotspot corresponding to an emitter-detector pair, the hotspot being a two-dimensional location in the detection plane along the emission direction of the emitter of the pair where projected light reflected by an object placed at that location, enters the lens for the detector of the pair at the detection angle of the detector, and a processor receiving outputs from the detectors corresponding to detected amounts of projected light reflected by an object in the detection plane, and calculating a two-dimensional location of the object in the detection plane based on the received outputs and based on hotspots for synchronously activated emitter-detector pairs.Type: GrantFiled: January 28, 2020Date of Patent: February 23, 2021Assignee: NEONODE INC.Inventors: Björn Thomas Eriksson, Sven Robert Pettersson, Stefan Johannes Holmgren, Xiatao Wang, Rozita Teymourzadeh, Per Erik Lindström, Emil Anders Braide, Jonas Daniel Justus Hjelm, Erik Anders Claes Rosengren
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Publication number: 20200348831Abstract: A vehicle gesture control system to improve safety and comfort during driving of a vehicle, the vehicle including an adaptive cruise control or autonomous drive arrangement configured to control velocity of the vehicle and distance between the vehicle and another vehicle, the system including a plurality of sensors configured to detect gestures performed by a driver on the surface of a steering wheel grip in the vehicle, the steering wheel grip including a circular tube surrounding a steering wheel, and a processor receiving outputs from the sensors and connected to a memory unit storing instructions for the processor to activate a plurality of features of the adaptive cruise control or autonomous drive arrangement, in response to a respective plurality of different gestures detected by the sensors, one of the gestures including movement of the driver's thumb around a lateral section of the steering wheel grip that faces the driver.Type: ApplicationFiled: July 17, 2020Publication date: November 5, 2020Inventors: Björn Alexander Jubner, Björn Thomas Eriksson, Gunnar Martin Fröjdh, Simon Greger Fellin, Stefan Johannes Holmgren
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Patent number: 10802601Abstract: A sensor, including light emitters projecting directed light beams, light detectors interleaved with the light emitters, lenses, each lens oriented relative to a respective one of the light detectors such that the light detector receives maximum intensity when light enters the lens at an angle b, whereby, for each emitter E, there exist corresponding target positions p(E, D) along the path of the light from emitter E, at which an object located at any of the target positions reflects the light projected by emitter E towards a respective one of detectors D at angle b, and a processor storing a reflection value R(E, D) for each co-activated emitter-detector pair (E, D), based on an amount of light reflected by an object located at p(E, D) and detected by detector D, and calculating a location of an object based on the reflection values and target positions.Type: GrantFiled: November 25, 2019Date of Patent: October 13, 2020Assignee: Neonode Inc.Inventors: Björn Thomas Eriksson, Björn Alexander Jubner, Rozita Teymourzadeh, Håkan Sven Erik Andersson, Per Carl Sture Rosengren, Xiatao Wang, Stefan Johannes Holmgren, Gunnar Martin Fröjdh, Jan Tomas Hartman, Per Oscar Sverud, Sangtaek Kim, Rasmus Dahl-Örn, Tom Richard Berglind, Karl Erik Patrik Nordström, Lars Bertil Sparf, Erik Anders Claes Rosengren, John Elis Gösta Karlsson, Remo Behdasht, Robin Kjell Åman, Joseph Shain
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Patent number: 10719218Abstract: A vehicle user interface including a vehicle steering wheel including a grip, a sensor mounted in the steering wheel grip detecting objects touching the steering wheel grip, a plurality of individually activatable illumination units illuminating respective locations on the steering wheel grip, and a processor receiving outputs from the sensor, selectively activating a subset of the illumination units adjacent to a detected object, and controlling a plurality of vehicle functions in response to outputs of the sensor.Type: GrantFiled: March 26, 2019Date of Patent: July 21, 2020Assignee: Neonode Inc.Inventors: Björn Alexander Jubner, Björn Thomas Eriksson, Gunnar Martin Fröjdh, Simon Greger Fellin, Stefan Johannes Holmgren
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Publication number: 20200167034Abstract: A sensor including lenses, light emitters, each emitter projecting light out of a lens in a particular emission direction along a detection plane, light detectors, each detector detecting maximum light intensity when light enters a lens at a particular detection angle, a table of hotspots, each hotspot corresponding to an emitter-detector pair, the hotspot being a two-dimensional location in the detection plane along the emission direction of the emitter of the pair where projected light reflected by an object placed at that location, enters the lens for the detector of the pair at the detection angle of the detector, and a processor receiving outputs from the detectors corresponding to detected amounts of projected light reflected by an object in the detection plane, and calculating a two-dimensional location of the object in the detection plane based on the received outputs and based on hotspots for synchronously activated emitter-detector pairs.Type: ApplicationFiled: January 28, 2020Publication date: May 28, 2020Inventors: Björn Thomas Eriksson, Sven Robert Pettersson, Stefan Johannes Holmgren, Xiatao Wang, Rozita Teymourzadeh, Per Erik Lindström, Emil Anders Braide, Jonas Daniel Justus Hjelm, Erik Anders Claes Rosengren
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Publication number: 20200150823Abstract: A sensor including multiple sensor modules and a processor, each sensor module including lenses, light detectors, each detector positioned along the image plane of a lens so as to receive maximum light intensity when light enters the lens at a particular angle, light emitters, each emitter being positioned in relation to a lens so as to project light into a detection zone, an activating unit synchronously co-activating each emitter with at least one of the detectors, and a calculating unit receiving outputs from the detectors corresponding to amounts of projected light reflected by an object in the detection zone to the detectors, and calculating a two-dimensional location of the object in the detection zone based on the detector outputs and the particular angle, wherein neighboring modules monitor different detection zones, and the processor receiving outputs from the sensor modules and mapping the object location in multiple detection zones over time.Type: ApplicationFiled: January 10, 2020Publication date: May 14, 2020Inventors: Stefan Johannes Holmgren, Sairam Iyer, Tom Richard Berglind, Karl Erik Patrik Nordström, Lars Bertil Sparf, Per Carl Sture Rosengren, Erik Anders Claes Rosengren, John Elis Gösta Karlsson, Björn Thomas Eriksson, Björn Alexander Jubner, Remo Behdasht, Simon Greger Fellin, Robin Kjell Åman, Joseph Shain
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Publication number: 20200089326Abstract: A sensor, including light emitters projecting directed light beams, light detectors interleaved with the light emitters, lenses, each lens oriented relative to a respective one of the light detectors such that the light detector receives maximum intensity when light enters the lens at an angle b, whereby, for each emitter E, there exist corresponding target positions p(E, D) along the path of the light from emitter E, at which an object located at any of the target positions reflects the light projected by emitter E towards a respective one of detectors D at angle b, and a processor storing a reflection value R(E, D) for each co-activated emitter-detector pair (E, D), based on an amount of light reflected by an object located at p(E, D) and detected by detector D, and calculating a location of an object based on the reflection values and target positions.Type: ApplicationFiled: November 25, 2019Publication date: March 19, 2020Inventors: Björn Thomas Eriksson, Björn Alexander Jubner, Rozita Teymourzadeh, Håkan Sven Erik Andersson, Per Carl Sture Rosengren, Xiatao Wang, Stefan Johannes Holmgren, Gunnar Martin Fröjdh, Jan Tomas Hartman, Per Oscar Sverud, Sangtaek Kim, Rasmus Dahl-Örn, Tom Richard Berglind, Karl Erik Patrik Nordström, Lars Bertil Sparf, Erik Anders Claes Rosengren, John Elis Gösta Karlsson, Remo Behdasht, Robin Kjell Åman, Joseph Shain
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Patent number: 10585530Abstract: A method for identifying a proximal object, including providing light emitters, light detectors and lenses, mounted in a housing, each lens, denoted L, being positioned in relation to a respective one of the detectors, denoted D, such that light entering lens L is maximally detected at detector D when the light enters lens L at an angle of incidence ?, activating the detectors synchronously with activation of each emitter to measure reflections of the light beams emitted by each emitter, and calculating a location of a reflective object along a path of a light beam projected by an activated emitter, by calculating an axis of symmetry with respect to which the outputs of the synchronously activated detectors are approximately symmetric, orienting the calculated axis of symmetry by the angle ?, and locating a point of intersection of the path of the emitted light beam with the oriented axis of symmetry.Type: GrantFiled: June 7, 2017Date of Patent: March 10, 2020Assignee: Neonode Inc.Inventors: Björn Thomas Eriksson, Sven Robert Pettersson, Stefan Johannes Holmgren, Xiatao Wang, Rozita Teymourzadeh, Per Erik Lindström, Emil Anders Braide, Jonas Daniel Justus Hjelm, Erik Anders Claes Rosengren
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Patent number: 10534479Abstract: A proximity sensor, including a housing, an array of lenses mounted in the housing, an array of alternating light emitters and light detectors mounted in the housing, each detector being positioned along the image plane of a respective one of the lenses so as to receive maximum light intensity when light enters the lens at a particular angle, an activating unit mounted in the housing and connected to the emitters and detectors, synchronously co-activating each emitter with at least one of the detectors, each activated emitter projecting light out of the housing along a detection plane, and a processor receiving outputs from the detectors corresponding to amounts of projected light reflected by an object in the detection plane to the detectors, and calculating a two-dimensional location of the object in the detection plane based on the detector outputs and the particular angle.Type: GrantFiled: May 25, 2018Date of Patent: January 14, 2020Assignee: Neonode Inc.Inventors: Stefan Johannes Holmgren, Sairam Iyer, Tom Richard Berglind, Karl Erik Patrik Nordström, Lars Bertil Sparf, Per Carl Sture Rosengren, Erik Anders Claes Rosengren, John Elis Gösta Karlsson, Björn Thomas Eriksson, Björn Alexander Jubner, Remo Behdasht, Simon Greger Fellin, Robin Kjell Åman, Joseph Shain
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Patent number: 10496180Abstract: A proximity sensor including a housing, light emitters mounted in the housing for projecting light out of the housing along a detection plane, light detectors mounted in the housing for detecting amounts of light entering the housing along the detection plane, whereby for each emitter-detector pair (E, D), when an object is located at a target position p(E, D) in the detection plane, corresponding to the pair (E, D), then the light emitted by emitter E is scattered by the object and is expected to be maximally detected by detector D, and a processor to synchronously activate emitter-detector pairs, to read the detected amounts of light from the detectors, and to calculate a location of the object in the detection plane from the detected amounts of light, in accordance with a detection-location relationship that relates detections from emitter-detector pairs to object locations between neighboring target positions in the detection plane.Type: GrantFiled: February 18, 2018Date of Patent: December 3, 2019Assignee: Neonode, Inc.Inventors: Björn Thomas Eriksson, Alexander Jubner, Rozita Teymourzadeh, Håkan Sven Erik Andersson, Per Carl Sture Rosengren, Xiatao Wang, Stefan Johannes Holmgren, Gunnar Martin Fröjdh, Simon Greger Fellin, Jan Tomas Hartman, Per Oscar Sverud, Sangtaek Kim, Rasmus Dahl-Örn, Richard Tom Berglind, Karl Erik Patrik Nordström, Lars Bertil Sparf, Erik Anders Claes Rosengren, John Elis Gösta Karlsson, Remo Behdasht, Robin Kjell Åman, Joseph Shain, Oskar Bertil Hagberg, Joel Verner Rozada
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Publication number: 20180181209Abstract: A proximity sensor including a housing, light emitters mounted in the housing for projecting light out of the housing along a detection plane, light detectors mounted in the housing for detecting amounts of light entering the housing along the detection plane, whereby for each emitter-detector pair (E, D), when an object is located at a target position p(E, D) in the detection plane, corresponding to the pair (E, D), then the light emitted by emitter E is scattered by the object and is expected to be maximally detected by detector D, and a processor to synchronously activate emitter-detector pairs, to read the detected amounts of light from the detectors, and to calculate a location of the object in the detection plane from the detected amounts of light, in accordance with a detection-location relationship that relates detections from emitter-detector pairs to object locations between neighboring target positions in the detection plane.Type: ApplicationFiled: February 18, 2018Publication date: June 28, 2018Inventors: Björn Thomas Eriksson, Alexander Jubner, Rozita Teymourzadeh, Håkan Sven Erik Andersson, Per Carl Sture Rosengren, Xiatao Wang, Stefan Johannes Holmgren, Gunnar Martin Fröjdh, Simon Greger Fellin, Jan Tomas Hartman, Per Oscar Sverud, Sangtaek Kim, Rasmus Dahl-Örn, Richard Tom Berglind, Karl Erik Patrik Nordström, Lars Bertil Sparf, Erik Anders Claes Rosengren, John Elis Gösta Karlsson, Remo Behdasht, Robin Kjell Åman, Joseph Shain, Oskar Bertil Hagberg, Joel Verner Rozada