Abstract: An optical touch system includes a touch plane; a handheld object including a light emitting unit for emitting a light to the touch plane; two image sensing units disposed at two corners of the touch plane, respectively, and used for receiving the light; and a processing unit electrically connected to the two image sensing units and used for analyzing a light characteristic of the light and executing an operation function according to the light characteristic.

Abstract: A touch system includes a touch screen, an image-sensing device, and a processing device. The image-sensing device generates images related to objects on the touch screen at several points in time. The processing device calculates the average coordinates of the objects based on the images, and calculates the longest distance between the objects. The processing device further determines the coordinates of a drawing spot according to the average coordinates of the objects, and determines a graphical property of the drawing spot according to the longest distance. The processing device further directs the touch screen to display the drawing spot on the coordinates and with the graphical property.

Abstract: An optical touch method for sensing touch points triggered on an optical touch panel is provided. The method includes: obtaining a first to a third luminance distribution images by a first, a second and an auxiliary image capturing devices respectively; obtaining a number of pieces of coordinate information according to the first and the second luminance distribution images; defining the viewable area of the auxiliary image capturing device; determining whether each of the coordinate information falls within the viewable area; if so, comparing each of the coordinate information with the third luminance distribution image by a processing core device to determine whether each of the coordinate information corresponds to a real touch point.

Abstract: An optical touch system and a touch object separating method thereof are provided. First, touch object images in a first and a second captured image of a first and a second lens are recognized. When the first captured image includes two touch object images and the second captured image includes a single touch object image, a first distance between a leftmost end and a rightmost end of the two touch object images in the first captured image, a second distance between centers of the two touch object images, and a third distance between a leftmost end and a rightmost end of the single touch object image in the second captured image are calculated. A fourth distance corresponds to the third distance is calculated according to a ratio of the first distance to the second distance and used to separate the single touch object images into two touch object images.

Abstract: An optical touch system and a touch point calculation method thereof are provided. The optical touch system includes a first lens, a second lens and a screen. The first and second lenses are disposed on the same side of the screen and face to the other side of the screen. In the method, images of a touch object above the screen are captured and used to calculate a first and a second touch signal of the touch object touching the screen before and after a preset time. Then, it is determined whether a width difference of the first and second touch signals exceeds a predetermined threshold. If yes, a third touch signal corresponding to the first touch signal relative to the second touch signal is calculated. Finally, positions of the first touch signal and the third touch signal are taken as locations of two touch points on the screen.

Abstract: A frame with a sensing function includes a frame structure, a sensor and a processing unit. The processing unit is electrically connected to the sensor. The frame structure is configured for hanging on a display unit. The sensor senses a touched position set of the display unit for position setting. The processing unit includes a parameter calculating module and a parameter providing module. The parameter calculating module calculates a position transformation parameter between the hanged frame structure and the display unit according to the touched position set. The parameter providing module provides the position transformation parameter, such that a display content displayed on the display unit is controlled according to at least one touched position for operation sensed by the sensor and the position transformation parameter.

Abstract: An optical touch control device includes a touch zone, an optical module, including a light source and a sense module for emitting a light signal to a touch object within the touch zone and obtaining an image data of the touch object via the sense module, and a calculation module coupled to the optical module for determining a touch coordinate of the touch object relative to the touch zone according to a pulse of the image data, wherein the pulse comprises a position parameter and a value parameter.

Abstract: A frameless optical touch device includes an indication plane, an image sensing unit, a light emitting unit and a processing unit. There is no any frame disposed on a periphery of the indication plane such that a first light from an external environment can enter a sensing region defined on the indication plane through the periphery of the indication plane. The light emitting unit emits a second light to the sensing region. When there is no any touch object in the sensing region, the image sensing unit senses the first and second lights to generate a first image. When a touch object is in the sensing region, the image sensing unit senses the first and second lights to generate a second image. The processing unit compares brightness of the first image with brightness of the second image so as to obtain a position blocked by the touch object.

Abstract: An optical touch device includes at least one light source, a first image capturing module, a second image capturing module and a control module. The at least one light source is disposed outside a display unit for emitting light to an object. The first image capturing module and the second image capturing module respectively capture images of an object, and a relative position between the first image capturing module and the second image capturing module can be adjusted. The control module is coupled to the first image capturing module and the second image capturing module for calculating a coordinate value of the object according to the images of the object captured by the first image capturing module and the second image capturing module and the relative position between the first image capturing module and the second image capturing module.