CN102799342B - Handheld mobile Internet equipment - Google Patents

Abstract

The invention discloses handheld mobile Internet equipment. The handheld mobile Internet equipment comprises a capacitive touch screen, an X86 architecture operating system and virtual mouse module, wherein the virtual mouse module comprises a communication module, a graphical user interface generation rendering module, a standard mouse button module and a ball module or a touch panel module. According to the handheld mobile Internet equipment provided by the invention, a capacitive touch screen-based multi-point touch virtual mouse touch interface can be provided after the virtual mouse module is operated, and the application, the operation and the use of a physical mouse are performed by a virtual mouse by utilizing the characteristics of the capacitive touch screen, so that the human-computer interaction of high-precision cursor positioning is performed by a user on the handheld mobile Internet equipment through the capacitive touch screen conveniently; and therefore, the handheld mobile Internet equipment has good user use experiences.

Description

Handheld mobile Internet equipment

Technical field

The present invention relates to electronic technology, particularly a kind of handheld mobile Internet equipment.

Background technology

Along with the constantly progress of mobile interchange technology, handheld mobile Internet equipment has entered into the unprecedented fast growth phase.Due to the characteristic of mobile interchange, these handheld mobile Internet equipment are all main replaces conventional mouse keyboard as man-machine IO (input and output) interactive device using touch-screen, with point or felt pen for man-machine interaction mode.

With the X86-based operating system that Windows, (SuSE) Linux OS are representative, live closely with routine work, almost cover various solution and the relevant information of our Working Life all at present; The X86-based operating system being representative with Windows, (SuSE) Linux OS is outstanding to X86 hardware compatibility, improves the utilization ratio of resource greatly.

But with the X86-based operating system that Windows, (SuSE) Linux OS are representative, for being suitable for the design of these computer entry devices such as mouse, keyboard at the beginning of design, and handheld mobile Internet equipment is all main using touch-screen as man-machine IO (input and output) interactive device, although X86-based operating system is closely connected with our routine work life and has various advantages like this, but due to its be applied in handheld mobile Internet equipment time, user's experience is poor, is difficult to promote the use of on hand-held series products.In order to meet the Consumer's Experience requirement of handheld mobile Internet equipment, the small-scale operating system that usual needs exploitation customizes, as prevailing in android, MeeGo, IOS etc. of consumer electronics at present, but due to incompatible between various customization small-scale operating system, the exploitation of operating system dropped into and repeats.

Summary of the invention

The technical problem to be solved in the present invention is to provide a kind of handheld mobile Internet equipment, adopts X86-based operating system, and is convenient to user and carries out man-machine interaction by touch-screen, has good user's experience.

For solving the problems of the technologies described above, handheld mobile Internet equipment of the present invention, comprise capacitance touch screen, X86-based operating system, also comprise a virtual mouse module, described virtual mouse module comprises a communication module, a graphic user interface generates rendering module, a standard mouse key-press module, and spin module or a touch panel module;

Described graphic user interface generates rendering module, for generating a virtual criterion mouse interface on described capacitance touch screen, and virtual spin interface or a virtual touch board interface;

Described standard mouse key-press module, for responding the operation of the virtual criterion mouse interface on described capacitance touch screen, generating virtual standard mouse button operation information, and described virtual criterion mousebutton operation information is outputted to described communication module;

Described spin module or touch panel module, for responding the operation at virtual spin interface on described capacitance touch screen or virtual touch board interface, the capacitance touch screen coordinate information of generating virtual standard mouse, and the capacitance touch screen coordinate information of described virtual criterion mouse is outputted to described communication module;

Described communication module, for the capacitance touch screen coordinate information of described virtual criterion mousebutton operation information, virtual criterion mouse being mapped as respectively standard mouse button operation information and the standard mouse desktop coordinate information of described X86-based operating system, be sent to described X86-based operating system.

Described virtual mouse module can also comprise a function button module;

Described graphic user interface generates rendering module, also for generating virtual function button interface on described capacitance touch screen;

Described function button module, operates the function button at the virtual functional key interface on described capacitance touch screen for responding, generating virtual function button operation information;

Described communication module, also for described virtual functional key operation information being mapped as the feature operation information of described X86-based operating system, is sent to described X86-based operating system.

Described virtual mouse module can also comprise a function button editor module;

On the virtual functional key interface that described graphic user interface generation rendering module generates on described capacitance touch screen, there is a function button edit key, after described function button edit key is clicked, described function button editor module work;

Described function button editor module, when after work, according to the operational order of user, the feature operation of the function button in the virtual functional key interface that described in additions and deletions, graphic user interface generation rendering module generates on described capacitance touch screen and the X86-based operating system corresponding to function button in edit-modify virtual functional key interface.

The feature operation that described graphic user interface generates X86-based operating system corresponding to function button in the virtual functional key interface that rendering module generates on described capacitance touch screen can comprise copy, paste, delete, IE opens.

Described graphic user interface generates the virtual criterion mouse interface that rendering module generates on described capacitance touch screen, can and virtual spin interface or virtual touch board interface list in the side of described capacitance touch screen, the opposite side of described capacitance touch screen is listed at the virtual functional key interface of generation.

Described X86-based operating system can be Windows or Linux.

Handheld mobile Internet equipment of the present invention, adopt X86-based operating system, comprise capacitance touch screen and with capacitance touch screen with the virtual mouse module of target, this virtual mouse module can provide one based on the multiple point touching virtual mouse touch interface of capacitance touch screen after running, the application operating utilizing the characteristic of capacitance touch screen to carry out physics mouse by virtual mouse uses, thus physics mouse device can replaced based on the mobile interchange equipment of X86 hardware structure, be convenient to user carries out high precision cursor location in handheld mobile Internet equipment man-machine interaction by capacitance touch screen, there is good user's experience.

Accompanying drawing explanation

Below in conjunction with the drawings and the specific embodiments, the present invention is described in further detail.

Fig. 1 is handheld mobile Internet equipment one embodiment schematic diagram of the present invention.

Embodiment

Handheld mobile Internet equipment one embodiment of the present invention as shown in Figure 1, is X86 hardware systems framework, comprises a capacitance touch screen, an X86-based operating system (Windows operating system, (SuSE) Linux OS), a virtual mouse module;

Described virtual mouse module comprises a communication module, a graphic user interface generates rendering module, a standard mouse key-press module, a function button module, a function button editor module, and a spin module is or/and touch panel module; Described virtual mouse module can rest in the desktop side of X86-based operating system in the mode of shortcut icon, do not affect X86-based operating system normally to use, when there being virtual mouse to input demand, user can breathe out corresponding virtual mouse module to carry out corresponding input fast by shortcut icon;

Described graphic user interface generates rendering module, for generating a virtual criterion mouse interface (comprising left mouse button, right mouse button, middle button of mouse), a virtual functional key interface on described capacitance touch screen, and a virtual spin interface is or/and virtual touch board interface; On described virtual functional key interface, there is a function button edit key, after described function button edit key is clicked, described function button editor module work; Preferably, described graphic user interface generates the virtual criterion mouse interface that rendering module generates on described capacitance touch screen, and virtual spin interface is or/and virtual touch board interface lists in the side of described capacitance touch screen, the opposite side of described capacitance touch screen is then listed at the virtual functional key interface generated, to meet ergonomics operating characteristic;

Described standard mouse key-press module, for responding the operation of the virtual criterion mouse interface on described capacitance touch screen, generating virtual standard mouse button operation information, and described virtual criterion mousebutton operation information is outputted to described communication module;

Described spin module or touch panel module, for responding the operation at virtual spin interface on described capacitance touch screen or virtual touch board interface, the capacitance touch screen coordinate information of generating virtual standard mouse, and the capacitance touch screen coordinate information of described virtual criterion mouse is outputted to described communication module;

Described function button module, operates the function button at the virtual functional key interface on described capacitance touch screen for responding, generating virtual function button operation information, and described virtual functional key operation information is outputted to described communication module;

Described communication module, for the capacitance touch screen coordinate information of described virtual criterion mousebutton operation information, virtual criterion mouse being mapped as respectively standard mouse button operation information and the standard mouse desktop coordinate information of described X86-based operating system, described virtual functional key operation information is mapped as the feature operation information of described X86-based operating system, is sent to described X86-based operating system.

Described function button editor module, when after work, according to the operational order of user, graphic user interface described in additions and deletions generates the feature operation (as copy, paste, delete, IE open) of the function button in the virtual functional key interface that generates on described capacitance touch screen of rendering module and the X86-based operating system corresponding to function button in edit-modify virtual functional key interface, imparting user good disposition interactive experience.

Handheld mobile Internet equipment of the present invention, adopt X86-based operating system, comprise capacitance touch screen and with capacitance touch screen with the virtual mouse module of target, this virtual mouse module can provide one based on the multiple point touching virtual mouse touch interface of capacitance touch screen after running, the application operating utilizing the characteristic of capacitance touch screen to carry out physics mouse by virtual mouse uses, thus physics mouse device can replaced based on the mobile interchange equipment of X86 hardware structure, be convenient to user carries out high precision cursor location in handheld mobile Internet equipment man-machine interaction by capacitance touch screen, there is good user's experience.

Claims (4)

1. a handheld mobile Internet equipment, comprise capacitance touch screen, X86-based operating system, it is characterized in that, also comprise a virtual mouse module, described virtual mouse module comprises a communication module, a graphic user interface generates rendering module, a standard mouse key-press module, and spin module or a touch panel module;

Described graphic user interface generates rendering module, for generating a virtual criterion mouse interface on described capacitance touch screen, and virtual spin interface or a virtual touch board interface;

Described standard mouse key-press module, for responding the operation of the virtual criterion mouse interface on described capacitance touch screen, generating virtual standard mouse button operation information, and described virtual criterion mousebutton operation information is outputted to described communication module;

Described spin module or touch panel module, for responding the operation at virtual spin interface on described capacitance touch screen or virtual touch board interface, the capacitance touch screen coordinate information of generating virtual standard mouse, and the capacitance touch screen coordinate information of described virtual criterion mouse is outputted to described communication module;

Described communication module, for the capacitance touch screen coordinate information of described virtual criterion mousebutton operation information, virtual criterion mouse being mapped as respectively standard mouse button operation information and the standard mouse desktop coordinate information of described X86-based operating system, be sent to described X86-based operating system;

Described virtual mouse module also comprises a function button module;

Described graphic user interface generates rendering module, also for generating virtual function button interface on described capacitance touch screen;

Described function button module, operates the function button at the virtual functional key interface on described capacitance touch screen for responding, generating virtual function button operation information;

Described communication module, also for described virtual functional key operation information being mapped as the feature operation information of described X86-based operating system, is sent to described X86-based operating system;

Described virtual mouse module also comprises a function button editor module;

On the virtual functional key interface that described graphic user interface generation rendering module generates on described capacitance touch screen, there is a function button edit key, after described function button edit key is clicked, described function button editor module work;

Described function button editor module, when after work, according to the operational order of user, the feature operation of the function button in the virtual functional key interface that described in additions and deletions, graphic user interface generation rendering module generates on described capacitance touch screen and the X86-based operating system corresponding to function button in edit-modify virtual functional key interface.

2. handheld mobile Internet equipment according to claim 1, it is characterized in that, the feature operation that described graphic user interface generates X86-based operating system corresponding to function button in the virtual functional key interface that rendering module generates on described capacitance touch screen comprise copy, paste, delete, IE opens.

3. handheld mobile Internet equipment according to claim 1, it is characterized in that, described graphic user interface generates the virtual criterion mouse interface that rendering module generates on described capacitance touch screen, and virtual spin interface or virtual touch board interface list in the side of described capacitance touch screen, the opposite side of described capacitance touch screen is listed at the virtual functional key interface of generation.

4. handheld mobile Internet equipment according to claim 1, is characterized in that, described X86-based operating system is Windows or Linux.