A screen peripheral system according to an embodiment of the invention includes a computing device for producing a main image and a touch-activated input device for generating and displaying a composite image visible to a user. The composite image simultaneously includes a representation of at least one key, for example a QWERTY keyboard, for activating an input function, and the main image provided by the computing device. The keyboard representation preferably is laid over the main image. According to one embodiment, the main image is an output image generated by an application being executed by the computing device. Other touch screen systems and methods are also disclosed.
CROSS-REFERENCE TO RELATED APPLICATIONS
The subject matter of this application is related to the subject matter of commonly assigned U.S. Provisional Applications Ser. No. 60/024,780, filed Aug. 28, 1996, Ser. No. 60/028,028, filed Oct. 9, 1996, and Ser. No. 60/036,195, filed Jan. 21, 1997, all of which provisional applications are incorporated by reference herein and priority to which is claimed under 35 U.S.C. .sctn.119(e).
A digital information appliance comprises a housing having a display disposed on a first surface for displaying information to a user of the digital information appliance and an input device disposed on a second surface opposed to the first surface for imputing information. The input device is oriented with respect to the display so as to be operable by the fingers of the user's hand for input of information while holding the housing so the display is viewable.
A graphical user interface in the form of a transparent keyboard may be positioned over an existing computer display. The user may input textual data through the keyboard by selecting keys in the transparent keyboard display. The text entry may then appear on the computer display in non-transparent or conventional format.
A user input mechanism is provided that allows a user to enter words as gestures on a virtual keyboard presented on the display device. The user input mechanism combines two existing and prevalent forms of user input: cursive handwriting and keyboard input. A familiar keyboard layout is presented on the display. A user then may place an implement, such as a stylus or the user's finger, in contact with the display. Typically, the implement will first touch the screen at a position of a first character in a word. The user then may move the implement along the surface of the display from character to character, spelling out a word.
A display window is attributed a layering attribute such that underlying display windows are blended with the layered display window and displayed on the display screen. In a first embodiment, the layered window and the underlying window are represented as bitmaps. Any overlapping portions of the underlying window bitmap are redirected to an underlay buffer and composited with the layered window bitmap according to a display order and an opacity level. In a second embodiment, the layered window and the underlying window are represented as hardware sprites. Graphics device hardware stores copies of each sprite and composites each sprite according to a display order and an opacity level. In either embodiment or in a combination of both, as the layered window is moved or resized, the stored data allows for updating the composite display without requiring system expensive display regenerations.
A printing machine includes an observation window, and at least one element selected from the groups consisting of control elements and display elements disposed in the vicinity of the observation window, the at least one of the control and display elements being disposed in the observation window so that, at least in part, it is possible to see a product of the printing machine through the window.
