Abstract: A method of controlling a computerized device with a tactile multi-point matrix sensor placed on a display device, the method including the steps of simultaneously acquiring data of a first contact position and a second contact position of a first and a second finger that is placed on the multi-point tactile matrix sensor, respectively; creating a first cursor and a second cursor that are associated with the first and second finger, respectively; displaying a graphical object on the display device; associating the first cursor and the second cursor with the graphical object to interact with the graphical object; and generating control messages for the computerized device based on positional data of the first cursor, the second cursor, and the graphical object.

Abstract: An electronic analysis circuit for a multicontact passive-matrix tactile sensor including an electrical supply mechanism powering one of two axes of the matrix, and a mechanism detecting electrical characteristics along the other axis of the matrix, at nodes between the two axes. At least one scanning characteristic is modulated locally or temporally. A multicontact passive-matrix tactile sensor can include such an electronic analysis circuit.

Abstract: A multicontact tactile sensor including a matrix formed of two transparent conducting layers, at least one exhibiting an array of fine conducting tracks, a control circuit including a power supply for one of the layers, and a mechanism detecting the other layer, the sensor having an operating mode of multicontact type corresponding to a sweep of supply to the lines of the corresponding layer, and an operating mode of monocontact type corresponding to a continuous and uniform supply over a whole of the sensor, each operating mode being activated as a function of the detection or nondetection of at least one contact.

Abstract: An electronic analysis circuit of a multicontact passive-matrix tactile sensor including an electrical supply mechanism powering one of two axes of the matrix, and a mechanism detecting electrical characteristics along the other axis of the matrix, at intersections between the two axes. The supply axis and the detection axis are alternated. A multicontact passive-matrix tactile sensor includes an electrical supply mechanism powering one of the two axes of the matrix, a mechanism detecting electrical characteristics along the other axis of the matrix, at the intersections between the two axes, and such an electronic circuit.

Abstract: A multicontact transparent tactile sensor including two at least partially conducting transparent layers, the layers being spaced apart by an insulating transparent material. At least one of the layers includes a transparent sheet on which is deposited an array of conducting tracks whose width is less than 80 microns.

Abstract: An electronic analysis circuit for a passive-matrix multicontact tactile sensor including an electrical supply mechanism feeding one of two axes of the matrix, and a mechanism for detecting electrical characteristics along the other axis of the matrix, at intersections between the two axes. The electrical characteristic measured is alternately capacitance and resistance. A multicontact passive-matrix tactile sensor includes an electrical supply mechanism feeding one of the two axes of the matrix, a mechanism detecting electrical characteristics along the other axis of the matrix, at the intersections between the two axes, and such an electronic analysis circuit.

Abstract: The present invention relates to a multipoint touch sensor with active matrix comprising: —a matrix layer exhibiting N×M independent cells, each of the cells Px, y being linked to a row Lx and to a column Cy through a switching element, the rows Lx being common to all the cells Px, i, i lying between 1 and N, and the columns Cy being common to all the cells Pj, y, j lying between 1 and Q, Q being at most equal to M, an intermediate layer able to cause a local modification of the electrical properties of the cells situated under the tactile activation zone, said intermediate layer being placed between the active surface of the adjacent surface of the said Px, y, cells, —an upper activation layer allowing tactile interaction, —an electronic circuit sequentially controlling, for each set of cells Ca, b1-b2 with b2-b1 lying between 1 and Q, a first step of activating said cells Ca, b1-b2 followed by a second step of detecting the electrical properties of each cell Ca, b1-b2 individually so as to deliver an item o