Patent application number | Description | Published |
20140002400 | IMAGE RECONSTRUCTION FOR TOUCH DETERMINATION | 01-02-2014 |
20140055421 | TRACKING OBJECTS ON A TOUCH SURFACE - A device implements a method of tracking objects on a touch surface of an FTIR based touch-sensitive apparatus. The method repeatedly operates to generate an interaction pattern that indicates local changes in interaction on the touch surface, identify apparent peaks in the interaction pattern, and update existing movement trajectories based on the apparent peaks. An error suppression process is executed at least intermittently in the method to process the apparent peaks and/or the existing movement trajectories to identify implicated trajectories with a potential tracking problem, define two or more movement propositions for each implicated trajectory, and cause an evaluation of the movement propositions in one or more subsequent repetitions of the method. The error suppression process improves tracking by postponing the final decision on how to track the object of the implicated trajectory until more information is available. | 02-27-2014 |
20140232669 | INTERPRETATION OF PRESSURE BASED GESTURE - A method, gesture interpretation unit and touch sensing device receiving touch input data indicating touch inputs on a touch surface of the touch sensing device, wherein the touch input data comprises positioning data and pressure data for each touch input, and determining from the touch input data: first, second and third touch input from a first, a second and a third object on the touch surface, and wherein the first, second and third objects are present on the touch surface during overlapping time periods; and while continuous contact of the first, second and third objects with the touch surface is maintained: calculating a geometric centre of mass, and a pressure centre of mass, for the first, second and third touch inputs; comparing the GCM with the determining a movement vector based on the result of the comparison; and moving the graphical interactive object in relation to the movement vector. | 08-21-2014 |
20140237401 | INTERPRETATION OF A GESTURE ON A TOUCH SENSING DEVICE - The disclosure relates to receiving touch input data indicating touch inputs on a touch surface of a touch sensing device, and from the touch input data: determining a touch input from a user object on the touch surface, wherein the touch input has a first area a | 08-21-2014 |
20140237408 | INTERPRETATION OF PRESSURE BASED GESTURE - The invention relates to a method, a gesture interpretation unit and a touch sensing device, wherein the first and second positions are in a relation to a graphical interactive object corresponding to a grabbing input; and while continuous contact of the first and second objects with the touch surface is maintained: determining from the touch input data if movement of at least one of the first and second touch inputs has occurred, and if movement has occurred, moving the graphical interactive object in accordance with the determined movement; determining from the touch input data if an increased pressure compared to a threshold of at least one of the first and second touch inputs has occurred, and if an increased pressure has occurred, processing the graphical interactive object in response to the determined increased pressure. | 08-21-2014 |
20140237422 | INTERPRETATION OF PRESSURE BASED GESTURE - The disclosure relates to a method whereby a user is provided with a gesture for e.g. editing work on a touch sensing device. By using two objects, e.g. two fingers, on a touch surface of the touch sensing device the user may zoom in or zoom out of a graphical element, halt the zooming, and thereafter crop the graphical element to define a new cropped element of the graphical element. The method makes use of a distance between the two objects, which is determined and monitored. The disclosure also relates to a gesture interpretation unit and to a touch sensing device. | 08-21-2014 |
20140292701 | MULTI-TOUCH DETECTION IN A TOUCH SYSTEM - Multi-touch sensitivity is enabled using a touch system that comprises a panel configured to conduct signals, e.g. by FTIR, from a plurality of incoupling points to a plurality of outcoupling points, thereby defining detection lines across the panel between pairs of incoupling and outcoupling points. A signal processor operates in a repeating sequence of iterations to obtain ( | 10-02-2014 |
20140300572 | TOUCH DETERMINATION BY TOMOGRAPHIC RECONSTRUCTION - Objects touching a surface portion attenuate transmitted signals. A data processor processes an output signal from a detector coupled to the outcoupling points, to generate a set of data samples indicative of detected energy for the actual detection lines. The set of data samples is further processed to generate a set of matched samples indicative of estimated detected energy for fictitious detection lines that extend across the surface portion in parallel groups at a plurality of different angles. The individual spacing between the fictitious detection lines in each group and the individual difference in angle between said groups are selected such that the set of matched samples transforms to Fourier coefficients arranged as data points on a pseudo-polar grid in a Fourier domain. The set of matched samples is processed by tomographic reconstruction to generate a two-dimensional distribution of an interaction parameter within the surface portion. | 10-09-2014 |
20140320460 | TOUCH FORCE ESTIMATION IN AN FTIR-BASED PROJECTION-TYPE TOUCH-SENSING APPARATUS - A device implements a method for estimating the application force of a touching object onto a touch surface in an FTIR-based projection-type touch-sensing apparatus. The apparatus generates projection signals representing radiation that has propagated on a plurality of propagation paths by total internal reflection (TIR) inside a transmissive panel beneath a touch surface of the transmissive panel such that a touching object on the touch surface causes attenuation (frustration) of at least one of the projection signals. The device generates a time series of force values, which represent the application force, based on a time series of magnitude values, which represent a magnitude of a peak in two-dimensional interaction patterns generated by image reconstruction processing of the projection signals, the peak corresponding to the touching object on the touch surface. The force estimation may involve one or more corrections. | 10-30-2014 |
20140368471 | PERFORMANCE MONITORING AND CORRECTION IN A TOUCH-SENSITIVE APPARATUS - Touch sensitivity is enabled using a touch system that comprises a panel configured to conduct signals, e.g. by TIR, along detection lines across a touch surface. A signal processor operates in a sequence of repetitions to: generate data samples that represent detected signal energy on the actual detection lines; generate based on the data samples, an interpolated sinogram comprising interpolation samples that represent fictitious detection lines which have a desired location on the touch surface; and reconstruct a signal interaction pattern for the touch surface based on the interpolated sinogram. The signal processor implements an error correction to counteract the influence of a change in validity status for a data sample among the data samples, by identifying interpolation samples affected by the change in validity status, and by setting each identified interpolation sample to a value that maintains a relative signal transmission of the fictitious detection line from a former repetition. | 12-18-2014 |
20140375607 | TRACKING OBJECTS ON A TOUCH SURFACE - A device implements a method of tracking objects on a touch surface of an FTIR based touch-sensitive apparatus. | 12-25-2014 |
20150035774 | EFFICIENT TOMOGRAPHIC PROCESSING FOR TOUCH DETERMINATION - Touch sensitivity is enabled using a touch system that comprises a panel configured to conduct signals, e.g. by TIR, along detection lines across a touch surface. A signal processor operates to generate data samples indicative of transmitted signal energy on parallel detection lines at a number of different angles across the touch surface; process the data samples for generation of interpolated Fourier coefficients at grid points in a regular grid in a Fourier domain; and operate a two-dimensional inverse Fourier transform on the interpolated Fourier coefficients so as to generate an interaction pattern for the touch surface. The interpolated Fourier coefficients are generated sequentially for individual groups of grid points. Each individual group comprises grid points that have equal distance to an origin in the regular grid, e.g. grid points that are mapped onto each other by one or ore lines of symmetry in the regular grid. The group-based processing may improve processing speed and/or reduce the need for data storage. | 02-05-2015 |
20150054759 | EFFICIENT TOMOGRAPHIC PROCESSING FOR TOUCH DETERMINATION - Touch sensitivity is enabled using a touch system that comprises a panel configured to conduct signals, e.g. by TIR, along detection lines across a rectangular touch surface with first and second spatial dimensions. A signal processor operates to transform energy values for the detection lines into Fourier coefficients arranged as data points on a regular grid defined by first and second frequency dimensions. To generate an interaction pattern for the touch surface, the signal processor operates a first 1D inverse FFT on the data points with respect to the second frequency dimension, so as to generate first values transformed into the second spatial dimension, and operates a second 1D inverse FFT on a selected subset of the first values with respect to the first frequency dimension to generate second values that represent the interaction pattern. The selected subset is defined by the data points that fall within an extent of the touch surface in the second spatial dimension, thereby reducing the total number of inverse FFT operations. | 02-26-2015 |