Patents by Inventor John Elvesjoe
John Elvesjoe 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).
-
Publication number: 20160307038Abstract: According to the invention a system for authenticating a user of a device is disclosed. The system may include a first image sensor, a determination unit, and an authentication unit. The first image sensor may be for capturing at least one image of at least part of a user. The determination unit may be for determining information relating to the user's eye based at least in part on at least one image captured by the first image sensor. The authentication unit may be for authenticating the user using the information relating to the user's eye.Type: ApplicationFiled: April 18, 2016Publication date: October 20, 2016Inventors: Mårten Skogö, Richard Hainzl, Henrik Jönsson, Anders Vennström, Erland George-Svahn, John Elvesjö
-
Patent number: 9465415Abstract: A portable device, e.g. a laptop, includes a first part (110), e.g. a base element, and a second part (120), e.g. a lid element. The second part (120) contains an optical remote sensing system (300). The second part (120) is pivotably attached to the first part (110) via a hinge means (115), such that the portable device may be arranged in an open and a closed position respectively. The optical remote sensing system (300) is configured to track at least one distinctive feature of a user of the portable device when arranged in the open position. The first and second parts (110; 120) have a respective essentially flat inner surface (111; 121), which when the portable device is arranged in the closed position are parallel and face one another. The first part (110) further includes a recess (112a) which is arranged relative to a position of the optical remote sensing system (300) such that, in the closed position, the optical remote sensing system (300) is at least partly contained in the recess (112a).Type: GrantFiled: October 2, 2012Date of Patent: October 11, 2016Assignee: Tobii ABInventors: Maerten Skogoe, John Elvesjoe, Jan-Erik Lundkvist
-
Patent number: 9442566Abstract: An imaging device adapted to provide eye-tracking data by imaging at least one eye of a viewer, wherein: the imaging device is switchable between at least an active mode and a ready mode; the imaging device is configured to use active eye illumination in the active mode, which enables tracking of a corneal reflection; and the imaging device is configured, in the ready mode, to reduce an illumination intensity from a value the illumination intensity has in the active mode, and to provide eye-tracking data which include eye position but not eye orientation.Type: GrantFiled: January 28, 2015Date of Patent: September 13, 2016Assignee: TOBII ABInventors: Henrik Eskilsson, Mårten Skogö, John Elvesjö, Peter Blixt
-
Publication number: 20160231811Abstract: The present invention relates to control of a computer system, which includes a data processing unit, a display and an eye tracker adapted to register a user's gaze point with respect to the display The data processing unit is adapted to present graphical information on the display, which includes feedback data reflecting the user's commands entered into the unit. The data processing unit is adapted to present the feedback data such that during an initial phase, the feedback data is generated based on an absolute position of the gaze point. An imaging device of the system is also adapted to register image data representing movements of a body part of the user, and to forward a representation of the image data to the data processing unit. Hence, during a phase subsequent to the initial phase, the data is instead generated based on the image data.Type: ApplicationFiled: December 4, 2015Publication date: August 11, 2016Inventors: John ELVESJÖ, Anders OLSSON, Johan SAHLEN
-
Publication number: 20160216761Abstract: A method and system for assisting a user when interacting with a graphical user interface combines gaze based input with gesture based user commands. A user of a computer system without a traditional touch-screen can interact with graphical user interfaces in a touch-screen like manner using a combination of gaze based input and gesture based user commands. A solution for touch-screen like interaction uses gaze input and gesture based input as a complement or an alternative to touch-screen interactions with a computer device having a touch-screen. Combined gaze and gesture based interaction with graphical user interfaces can be used to achieve a touchscreen like environment in computer systems without a traditional touchscreen or in computer systems having a touchscreen arranged ergonomically unfavorable for the user or a touchscreen arranged such that it is more comfortable for the user to use gesture and gaze for the interaction than the touchscreen.Type: ApplicationFiled: March 31, 2016Publication date: July 28, 2016Inventors: Andreas Klingström, Mårten Skogö, Richard Hainzl, John Elvesjö
-
Publication number: 20160139268Abstract: A visual display includes hidden reference illuminators adapted to emit invisible light for generating corneo-scleral reflections on an eye watching a screen surface of the display. The tracking of such reflections and the pupil center provides input to gaze tracking. A method for equipping and an LCD with a reference illuminator are also provided. Also provides are a system and method for determining a gaze point of an eye watching a visual display that includes reference illuminators. The determination of the gaze point may be based on an ellipsoidal cornea model.Type: ApplicationFiled: January 25, 2016Publication date: May 19, 2016Inventors: PETER BLIXT, ANDERS KINGBACK, Bengt REHNSTROM, JOHN ELVESJÖ, Mattias Kuldkepp
-
Patent number: 9244170Abstract: A visual display includes hidden reference illuminators adapted to emit invisible light for generating corneo-scleral reflections on an eye watching a screen surface of the display. The tracking of such reflections and the pupil center provides input to gaze tracking. A method for equipping and an LCD with a reference illuminator are also provided. Also provides are a system and method for determining a gaze point of an eye watching a visual display that includes reference illuminators. The determination of the gaze point may be based on an ellipsoidal cornea model.Type: GrantFiled: September 18, 2013Date of Patent: January 26, 2016Assignee: Tobii Technology ABInventors: Peter Blixt, Anders Hoglund, Bengt Rehnstrom, John Elvesjö, Mattias Kuldkepp
-
Patent number: 9213404Abstract: The present invention relates to control of a computer system, which includes a data processing unit, a display and an eye tracker adapted to register a user's gaze point with respect to the display. The data processing unit is adapted to present graphical information on the display, which includes feedback data reflecting the user's commands entered into the unit. The data processing unit is adapted to present the feedback data such that during an initial phase, the feedback data is generated based on an absolute position of the gaze point. An imaging device of the system is also adapted to register image data representing movements of a body part of the user, and to forward a representation of the image data to the data processing unit. Hence, during a phase subsequent to the initial phase, the data is instead generated based on the image data.Type: GrantFiled: January 17, 2007Date of Patent: December 15, 2015Assignee: TOBII TECHNOLOGY ABInventors: John Elvesjö, Anders Olsson, Johan Sahlén
-
Publication number: 20150177833Abstract: There is provided methods, systems and computer program products for identifying an interaction element from one or more interaction elements present in a user interface, comprising: receiving gaze information from an eye tracking system; determining the likelihood that an interaction element is the subject of the gaze information from the eye tracking system; and identifying an interaction element from the one or more interaction elements based on said likelihood determination.Type: ApplicationFiled: December 23, 2014Publication date: June 25, 2015Inventors: Anders VENNSTRÖM, Mårten SKOGÖ, John ELVESJÖ
-
Publication number: 20150145769Abstract: An imaging device adapted to provide eye-tracking data by imaging at least one eye of a viewer, wherein: the imaging device is switchable between at least an active mode and a ready mode; the imaging device is configured to use active eye illumination in the active mode, which enables tracking of a corneal reflection; and the imaging device is configured, in the ready mode, to reduce an illumination intensity from a value the illumination intensity has in the active mode, and to provide eye-tracking data which include eye position but not eye orientation.Type: ApplicationFiled: January 28, 2015Publication date: May 28, 2015Applicant: TOBII TECHNOLOGY ABInventors: Henrik ESKILSSON, Mårten Skogö, John Elvesjö, Peter Blixt
-
Patent number: 8976110Abstract: A personal computer system includes a visual display, an imaging device adapted to provide eye-tracking data by imaging the face of a viewer of the visual display, and an input device for accepting eye-tracking control data and other input data. The imaging device is switchable between at least an active mode, a ready mode and an idle mode, and the switching time from the idle mode to the active mode is longer than the switching time from the ready mode to the active mode. The eye-tracking data provided in the ready mode may include eye position but not eye orientation. The system may include a dedicated input device for forcing the imaging device into active mode by directly triggering an interrupt; alternatively, the dedicated input device forces it permanently into idle mode.Type: GrantFiled: October 27, 2011Date of Patent: March 10, 2015Assignee: Tobii Technology ABInventors: Henrik Eskilsson, Mårten Skogö, John Elvesjö, Peter Blixt
-
Publication number: 20140320531Abstract: A data processing unit generates graphics data that are sent to a display screen of a head-mountable structure worn by a user. Thereby, the user can observe the image data, which reflect a virtual reality environment implemented by the data processing unit, namely image data representing a field of view as seen by the user from a particular position and in a particular direction in the virtual reality environment. The head-mountable structure includes a first light source projecting a well-defined light pattern on a light-reflecting surface. The data processing unit is associated with an image registering unit recording image data representing the first well-defined light pattern. The data processing unit calculates the graphics data based on the image data.Type: ApplicationFiled: April 25, 2014Publication date: October 30, 2014Inventor: John Elvesjö
-
Publication number: 20140300541Abstract: A portable device, e.g. a laptop, includes a first part (110), e.g. a base element, and a second part (120), e.g. a lid element. The second part (120) contains an optical remote sensing system (300). The second part (120) is pivotably attached to the first part (110) via a hinge means (115), such that the portable device may be arranged in an open and a closed position respectively. The optical remote sensing system (300) is configured to track at least one distinctive feature of a user of the portable device when arranged in the open position. The first and second parts (110; 120) have a respective essentially flat inner surface (111; 121), which when the portable device is arranged in the closed position are parallel and face one another. The first part (110) further includes a recess (112a) which is arranged relative to a position of the optical remote sensing system (300) such that, in the closed position, the optical remote sensing system (300) is at least partly contained in the recess (112a).Type: ApplicationFiled: October 2, 2012Publication date: October 9, 2014Inventors: Maerten Skogoe, John Elvesjoe, Jan-Erik Lundkvist
-
Publication number: 20140247232Abstract: A computer system can be controlled with non-contact inputs, such as eye-tracking devices. A computer can enlarge a portion of a display adjacent a first gaze target in response to detecting a first action (e.g., pressing a touchpad). The computer can then allow a user to position a second gaze target in the enlarged portion (e.g., by looking at the desired location) and perform a second action in order to perform a computer function at that location. The enlarging can allow a user to identify a desired location for a computer function (e.g., selecting an icon) with greater precision.Type: ApplicationFiled: March 3, 2014Publication date: September 4, 2014Applicant: TOBII TECHNOLOGY ABInventors: Erland George-Svahn, David Figgins Henderek, Rebecka Lannsjö, Mårten Skogö, John Elvesjö
-
Publication number: 20140247208Abstract: Waking a computing device from a stand-by mode may include determining a wake zone relative to a display device and, when the computing device is in stand-by mode, detecting a gaze point relative to the display device. In response to determining that the gaze point is within the wake zone, a wake command is generated and passed to a program module, such as the operating system, to cause the program module to wake the computing device from the stand-by mode. When the computing device is not in stand-by mode, another gaze point may be detected and, in response to determining that the other gaze point is within the vicinity of a selectable stand-by icon, the stand-by command is generated and passed to the program module to cause the program module to place the computing device into the stand-by mode.Type: ApplicationFiled: May 14, 2013Publication date: September 4, 2014Applicant: Tobii Technology ABInventors: David Henderek, Mårten Skogö, John Elvesjö
-
Publication number: 20140247215Abstract: A computer system can be controlled with non-contact inputs, such as eye-tracking devices. A visual indicator can be presented on a display to indicate the location where a computer function will take place (e.g., a common cursor). The visual indicator can be moved to a gaze target in response to continued detection of an action (e.g., touchpad touch) by a user for a predetermined period of time. The delay between the action and the movement of the visual indicator can allow a user time to “abort” movement of the visual indicator. Additionally, once the visual indicator has moved, the visual indicator can be controlled with additional precision as the user moves gaze while continuing the action (e.g., continued holding of the touchpad).Type: ApplicationFiled: March 3, 2014Publication date: September 4, 2014Applicant: Tobii Technology ABInventors: Erland George-Svahn, David Figgins Henderek, Rebecka Lannsjö, Mårten Skogö, John Elvesjö
-
Publication number: 20140062868Abstract: A visual display includes hidden reference illuminators adapted to emit invisible light for generating corneo-scleral reflections on an eye watching a screen surface of the display. The tracking of such reflections and the pupil center provides input to gaze tracking. A method for equipping and an LCD with a reference illuminator are also provided. Also provides are a system and method for determining a gaze point of an eye watching a visual display that includes reference illuminators. The determination of the gaze point may be based on an ellipsoidal cornea model.Type: ApplicationFiled: September 18, 2013Publication date: March 6, 2014Applicant: Tobii Technology ABInventors: PETER BLIXT, Anders Hoglund, Bengt Rehnstrom, John Elvesjö, Mattias Kuldkepp
-
Patent number: 8610768Abstract: The invention generally relates to systems and methods for eye detection for use in, for example, installations and systems for tracking eyes and gaze angle/directions. The system includes a plurality of eye detection units connected to an image sensor. The eye detection units are adapted to receive regions of picture elements of a digital image frame substantially in parallel and wherein the eye detection units are adapted to operate substantially in parallel, each eye detection unit being adapted to receive a specified region of the picture elements of at least one digital image frame and including an eye feature extraction module adapted to perform a eye feature extraction process on the received picture elements to identify predetermined eye features.Type: GrantFiled: July 9, 2010Date of Patent: December 17, 2013Assignee: Tobii Technology ABInventors: Johnny Holmberg, Peter Blixt, John Elvesjö
-
Patent number: 8562136Abstract: A visual display characterized by hidden reference illuminators is adapted to emit invisible light for generating corneo-scleral reflections on an eye watching a screen surface of the display. The tracking of such reflections and the pupil center provides input for gaze tracking. A method for equipping and an LCD with a reference illuminator are also provided. A system and method for determining a gaze point of an eye watching a visual display comprising reference illuminators are further provided. The determination of the gaze point may be based on an ellipsoidal cornea model.Type: GrantFiled: May 7, 2012Date of Patent: October 22, 2013Assignee: Tobii Technology ABInventors: Peter Blixt, Anders Hoglund, Bengt Rehnstrom, John Elvesjö
-
Publication number: 20130106681Abstract: A personal computer system includes a visual display, an imaging device adapted to provide eye-tracking data by imaging the face of a viewer of the visual display, and an input device for accepting eye-tracking control data and other input data. The imaging device is switchable between at least an active mode, a ready mode and an idle mode, and the switching time from the idle mode to the active mode is longer than the switching time from the ready mode to the active mode. The eye-tracking data provided in the ready mode may include eye position but not eye orientation. The system may include a dedicated input device for forcing the imaging device into active mode by directly triggering an interrupt; alternatively, the dedicated input device forces it permanently into idle mode.Type: ApplicationFiled: October 27, 2011Publication date: May 2, 2013Applicant: TOBII TECHNOLOGY ABInventors: Henrik ESKILSSON, Mårten SKOGÖ, John ELVESJÖ, Peter BLIXT