CN105573753A - Multi-system switching method and device - Google Patents

Abstract

The invention provides a method for switching multiple systems, which is applied to a terminal equipment running environment comprising a main control system and at least two subsystems and comprises the following steps: when triggering operation aiming at subsystem front and back stage switching is detected, subsystem identification information corresponding to each subsystem is obtained through the main control system; displaying the subsystem identification information of each subsystem on a screen in a preset screen display mode; and when the selection operation of the subsystem identification information of any subsystem from a user is detected, performing front-background switching aiming at the subsystem through the main control system based on the selection operation.

Description

The method and apparatus that multisystem switches

Technical field

The present invention relates to wireless mobile telecommunication technology field, specifically, the present invention relates to method and the device of a kind of multisystem switching.

Background technology

Along with the high speed development of technology, intelligent terminal has become requisite communication products, and the intelligent terminal that powerful, Consumer's Experience enriches is that the life of people brings great convenience.The intelligent terminal of existing single operating system can not meet the needs of people, and the intelligent terminal of multiple operating system arises at the historic moment.But conventional terminal equipment only allows single system to run, even if there is multisystem support to be also static support, namely need to reboot new operating system when device start.

Therefore, need a kind of between multisystem, to carry out handoff solution, make to be in background system and can switch to foreground rapidly and accurately, and with smooth and the mode of close friend presents handoff procedure to user.

Summary of the invention

For overcoming above-mentioned technical matters or solving the problems of the technologies described above at least in part, the following technical scheme of special proposition:

One embodiment of the present of invention propose a kind of method that multisystem switches, and are applied to and comprise in the terminal device running environment of a master control system and at least two subsystems, comprising:

When the trigger action switched for subsystem AM/BAM being detected, obtain the subsystem identification information corresponding with subsystems by described master control system;

The subsystem identification information of subsystems is presented on screen with predetermined screen display mode;

When the selection operation from the subsystem identification information to arbitrary subsystem of user being detected, based on described selection operation, undertaken switching for the AM/BAM of subsystem by described master control system.

Preferably, described subsystem identification information comprises subsystem display state sectional drawing, wherein, obtains the subsystem identification information corresponding with subsystems, specifically comprise by described master control system:

Control subsystems by described master control system and extract the subsystem state display information stored in each self-corresponding display buffer region with it respectively, and generate corresponding subsystem display state sectional drawing respectively based on subsystem state display information.

Alternatively, the subsystem identification information of subsystems is presented on screen with predetermined screen display mode, specifically comprises:

Controlling the current subsystem being in foreground by described master control system is presented on screen by the subsystem identification information of subsystems with predetermined screen display mode; Or

Directly the subsystem identification information of subsystems is presented on screen with predetermined screen display mode by described master control system.

Alternatively, the subsystem identification information of subsystems is presented on screen with predetermined screen display mode, specifically comprises:

Subsystem identification information based on subsystems generates subsystem and selects interface;

Interface is selected to be presented on screen with predetermined screen display mode described subsystem.

Alternatively, when the selection operation from the subsystem identification information to arbitrary subsystem of user being detected by the current subsystem being in foreground, based on described selection operation, by described master control system, this subsystem is switched to foreground, specifically comprises:

Described selection operation is passed to described master control system from the described current subsystem being in foreground, and is undertaken switching for the AM/BAM of subsystem by described master control system.

Another embodiment of the present invention proposes the device that a kind of multisystem switches, and is applied to and comprises in the terminal device running environment of a master control system and at least two subsystems, comprising:

Identification information acquisition module, for when the trigger action switched for subsystem AM/BAM being detected, obtains the subsystem identification information corresponding with subsystems by described master control system;

Identification information display module, for being presented at screen by the subsystem identification information of subsystems with predetermined screen display mode;

AM/BAM handover module, for when the selection operation from the subsystem identification information to arbitrary subsystem of user being detected, based on described selection operation, is undertaken switching for the AM/BAM of subsystem by described master control system.

Preferably, described subsystem identification information comprises subsystem display state sectional drawing, and wherein, identification information acquisition module specifically comprises:

Display information extraction unit, extracts for being controlled subsystems by described master control system the subsystem state display information stored in each self-corresponding display buffer region with it respectively;

Sectional drawing generation unit, for generating corresponding subsystem display state sectional drawing respectively based on subsystem state display information.

Alternatively, identification information display module specifically comprises:

First control module, is presented at screen by the subsystem identification information of subsystems with predetermined screen display mode for controlling the current subsystem being in foreground by described master control system; Or

Second control module, for being directly presented at screen by the subsystem identification information of subsystems with predetermined screen display mode by described master control system.

Alternatively, identification information display module specifically comprises:

Selecting Interface debond unit, selecting interface for generating subsystem based on the subsystem identification information of subsystems;

Select interface display unit, for selecting interface to be presented at screen with predetermined screen display mode described subsystem.

Alternatively, AM/BAM handover module specifically comprises:

Select operation transfer unit, for described selection operation is passed to described master control system from the described current subsystem being in foreground;

AM/BAM switch unit, for by described master control system, the AM/BAM undertaken for subsystem switches.

In technical scheme of the present invention, propose method and the device of multisystem switching.When the trigger action switched for subsystem AM/BAM being detected, the subsystem identification information corresponding with subsystems is obtained by master control system, introduce the concept of master control system and subsystem, control the operation of each subsystem and blocked operation with master control system but not subsystems runs alone mutual blocked operation.Then be presented on screen by the subsystem identification information of subsystems with predetermined screen display mode, user can see the state of all subsystems intuitively, and convenient user sub-system is selected.When the selection operation from the subsystem identification information to arbitrary subsystem of user finally being detected, operate based on selection, undertaken switching for the AM/BAM of subsystem by master control system, master control system control subsystem blocked operation, eliminate the switching entrance mutually switched between subsystems, make the design of operating system more simple.The program make the design of operating system more simple and user can preview so the state of subsystem, facilitate the selection that user switches systematicness, thus improve user experience.

The aspect that the present invention adds and advantage will part provide in the following description, and these will become obvious from the following description, or be recognized by practice of the present invention.

Accompanying drawing explanation

The present invention above-mentioned and/or additional aspect and advantage will become obvious and easy understand from the following description of the accompanying drawings of embodiments, wherein:

Fig. 1 is the schematic flow sheet of the multisystem changing method of one embodiment of the invention;

Fig. 2 is the schematic flow sheet of the multisystem changing method of a preferred embodiment of the invention;

Fig. 3 is the structural representation of the multisystem changing method of another embodiment of the present invention;

Fig. 4 is the structural representation of the multisystem changing method of another preferred embodiment of the present invention.

Embodiment

Be described below in detail embodiments of the invention, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish.Being exemplary below by the embodiment be described with reference to the drawings, only for explaining the present invention, and can not limitation of the present invention being interpreted as.

Those skilled in the art of the present technique are appreciated that unless expressly stated, and singulative used herein " ", " one ", " described " and " being somebody's turn to do " also can comprise plural form.Should be further understood that, the wording used in instructions of the present invention " comprises " and refers to there is described feature, integer, step, operation, element and/or assembly, but does not get rid of and exist or add other features one or more, integer, step, operation, element, assembly and/or their group.Should be appreciated that, when we claim element to be " connected " or " coupling " to another element time, it can be directly connected or coupled to other elements, or also can there is intermediary element.In addition, " connection " used herein or " coupling " can comprise wireless connections or wirelessly to couple.Wording "and/or" used herein comprises one or more whole or arbitrary unit listing item be associated and all combinations.

Those skilled in the art of the present technique are appreciated that unless otherwise defined, and all terms used herein (comprising technical term and scientific terminology), have the meaning identical with the general understanding of the those of ordinary skill in field belonging to the present invention.It should also be understood that, those terms defined in such as general dictionary, should be understood to that there is the meaning consistent with the meaning in the context of prior art, unless and by specific definitions as here, otherwise can not explain by idealized or too formal implication.

Those skilled in the art of the present technique are appreciated that, here used " terminal ", " terminal device " had both comprised the equipment of wireless signal receiver, it only possesses the equipment of the wireless signal receiver without emissive ability, comprise again the equipment receiving and launch hardware, it has and on bidirectional communication link, can carry out the reception of two-way communication and launch the equipment of hardware.This equipment can comprise: honeycomb or other communication facilitiess, its honeycomb or other communication facilities of having single line display or multi-line display or not having multi-line display; PCS (PersonalCommunicationsService, PCS Personal Communications System), it can combine voice, data processing, fax and/or its communication ability; PDA (PersonalDigitalAssistant, personal digital assistant), it can comprise radio frequency receiver, pager, the Internet/intranet access, web browser, notepad, calendar and/or GPS (GlobalPositioningSystem, GPS) receiver; Conventional laptop and/or palmtop computer or other equipment, it has and/or comprises the conventional laptop of radio frequency receiver and/or palmtop computer or other equipment.Here used " terminal ", " terminal device " can be portable, can transport, be arranged in the vehicles (aviation, sea-freight and/or land), or be suitable for and/or be configured at local runtime, and/or with distribution form, any other position operating in the earth and/or space is run.Here used " terminal ", " terminal device " can also be communication terminal, access terminals, music/video playback terminal, can be such as PDA, MID (MobileInternetDevice, mobile internet device) and/or there is the mobile phone of music/video playing function, also can be the equipment such as intelligent television, Set Top Box.

Multisystem in embodiments of the invention comprises at least one master control system and two subsystems, and wherein, master control system and sub-Ore-controlling Role are all based on identical system kernel, as linux system realizes.Sub-Ore-controlling Role can comprise various operating system, such as the intelligent terminal operation system such as Android, Windows and first heart.Master control system is used for controlling multiple subsystem, and auxiliary subsystems completes respective function, master control system itself can not provide embody rule function, such as call, short message, the function such as run application, therefore master control system is not carried the application program that some are additional, its safe class is higher.Multisystem in embodiments of the invention can realize based on multiple virtual technology, hereafter carries out the detailed description of embodiment for the container technique under linux system.Wherein, the multisystem using linux container technology to realize, loads independently system in each container, separate between multiple system, and multiple system cloud gray model is on same physical terminal device.

Linux container instrument, can provide the virtual of lightweight, so that isolated process and resource.Use the advantage of container to be exactly do not need to install too many software package, use procedure also can not take too many resource.Container effectively by the resource division that managed by single operating in isolated group, with better between isolated group balance have the resource user demand of conflict.Compared with virtual machine technique, container technique neither needs instruction level simulation, does not also need Just-In-Time.Container can in the instruction of core CPU local runtime, and without any need for special explanation facility.In addition, it also avoid the complicacy in accurate virtual and system call replacement.Container, while providing isolation, also being pared down expenses by sharing these resources, be this means that container is more much smaller than real virtualized expense.By providing a kind of mode creating and enter container, operating system allows application program just as running on independently machine, but can share system and the physical resource of bottom.Therefore, the master control system in this programme can carry out control blocked operation by the communication modes sub-system that system is predetermined.

Fig. 1 is the schematic flow sheet of the multisystem changing method of the embodiment of the present invention.

Step S110: when the trigger action switched for subsystem AM/BAM being detected, obtains the subsystem identification information corresponding with subsystems by master control system.

Wherein, master control system is used for controlling multiple subsystem, and provides service to complete respective function to subsystem to assist subsystem.Master control system itself can not provide embody rule function, the functions such as such as call, note, online, media.Subsystem can comprise various operating system, such as the intelligent terminal operation system such as Android, Windows and first heart, and it can provide the multiple application functions such as call, note, online, media separately.

It should be noted that, master control system and subsystem are all based on identical physics kernel, and between master control system and subsystem, general not Direct Communication, can carry out communication between system by the auxiliary of kernel between it, namely carry out communication by the mode that system is predetermined.

Particularly, the trigger action that subsystem AM/BAM switches includes but not limited to:

(1) the AM/BAM switching physical button that system of pressing is predetermined; Such as, setting button SWITCH is systematic evaluation button, when master control system detects that user gets final product triggers system AM/BAM blocked operation when pressing SWITCH.

(2) existing physical button is pressed with the key mode that system is predetermined; Such as, predetermined volume increase reduction button of simultaneously pressing got final product triggers system AM/BAM blocked operation more than 3 seconds, got final product triggers system AM/BAM blocked operation when master control system detects that user presses when volume increases and reduces button more than 3 seconds simultaneously.

(3) with the mode of operation that system is predetermined, terminal device is operated, such as, flip horizontal is carried out to terminal device.

Above three kinds of triggering modes are and are detected by linux kernel and driver by hardware button or inductor system, and to identify be corresponding operating be need to carry out systematic evaluation operation; Linux kernel notice master control system executive subsystem AM/BAM switches relevant operation subsequently.

(4) on screen, touch operation is carried out with the gesture that system is predetermined; Such as, screen performing touch track is that the gesture of drawing pentagram shape gets final product triggers system AM/BAM blocked operation.

(5) the switching icon before triggering in station subsystem, namely carries out corresponding operating to the node file corresponding to systematic evaluation;

Above two kinds of modes are software triggering mode.Such as, the status bar of front station subsystem arranges switching icon, when current station subsystem detects that user clicks this switching icon, what provide linux kernel based on clicking operation switches corresponding Archive sit with subsystem AM/BAM and performs corresponding operating, as carried out write operation to Archive sit dev/switch, as write " 1 ", when linux kernel detect/dev/switch can notify master control system executive subsystem AM/BAM blocked operation when performing the operation of write " 1 ".

Wherein, obtain the subsystem identification information corresponding with subsystems by master control system and include but not limited to following two kinds of methods:

(1) obtain the icon information corresponding with subsystems by master control system, icon information as corresponding in android system is small machine people icon;

(2) control subsystems by master control system and extract the subsystem state display information stored in each self-corresponding display buffer region with it respectively, and generate corresponding subsystem display state sectional drawing respectively based on subsystem state display information.

Particularly, master control system notification subsystem goes to the display buffer region corresponding with it to extract subsystem state display information, after subsystem extracts subsystem state display information, generate subsystem display state sectional drawing according to the subsystem state display information of subsystems.

It should be noted that, above two kinds of methods can also be combined and show.

Such as, master control system OS detect need to carry out subsystem AM/BAM blocked operation time, master control system OS notifies all subsystem OS ₁, OS ₂, OS ₃, OS ₄buffer area such as framebuffer is gone to extract subsystem state display information; Wherein, namely one or several data values stored in framebuffer show information and correspond to a pixel on screen, and these pixels constitute the content of screen display; Subsystem OS ₁, OS ₂, OS ₃, OS ₄after extracting the subsystem state display information in framebuffer respectively, generate corresponding subsystem OS respectively ₁, OS ₂, OS ₃, OS ₄subsystem display state sectional drawing A, B, C, D, and subsystem is shown state sectional drawing A, B, C, D and is sent to master control system OS.

Step S120: the subsystem identification information of subsystems is presented on screen with predetermined screen display mode.

Particularly, controlling the current subsystem being in foreground by master control system is presented on screen by the subsystem identification information of subsystems with predetermined screen display mode; Or directly the subsystem identification information of subsystems is presented on screen with predetermined screen display mode by master control system.

Wherein, predetermined screen display mode comprises with the arrangement of sphere of movements for the elephants shape or left and right is arranged in order or be arranged in order up and down etc. is suspended on the display interface of foreground or embeds in the display interface of foreground or be presented in screen with independently display interface.

Such as, connect example, master control system OS is by subsystems OS ₁, OS ₂, OS ₃, OS ₄subsystem display state sectional drawing A, B, C, D be sent to the current subsystem OS being in foreground ₁; Subsystem OS ₁a, B, C, D are suspended in the mode that sphere of movements for the elephants shape arranges and is shown on the display interface of foreground.Again such as, master control system OS can directly by subsystems OS ₁, OS ₂, OS ₃, OS ₄subsystem display state sectional drawing A, B, C, D embed in the display interface of foreground in the mode that left and right is arranged in order and show.

Or it should be noted that, master control system and the current subsystem being in foreground all can take screen display resource, and wherein, screen display resource includes but not limited to: screen display hardware resource, screen display Service Source and system resource.

Preferably, step S120 comprises step S121 and step S122: step S121: the subsystem identification information based on subsystems generates subsystem and selects interface; Step S122: selected by subsystem interface to be presented on screen with predetermined screen display mode.

Alternatively, selected by subsystem interface to be presented on screen with predetermined screen display mode and can comprise following any one: subsystem is selected interface full screen display in screen; Interface is selected with the mode display subsystem embedded among the current user's display interface being in the subsystem on foreground; Interface is selected with the mode display subsystem of floating layer on the current user's display interface being in the subsystem on foreground.Such as, four subsystem OS are had ₁, OS ₂, OS ₃, OS ₄, can by based on subsystem OS ₁, OS ₂, OS ₃, OS ₄subsystem state sectional drawing generate subsystem and select interface, and be presented on screen in the mode of four split screens: upper left corner display OS ₁corresponding subsystem state sectional drawing, upper right corner display OS ₂corresponding subsystem state sectional drawing, lower left corner display OS ₃corresponding subsystem state sectional drawing, lower right corner display OS ₄corresponding subsystem state sectional drawing.Can also by subsystem OS ₁, OS ₂, OS ₃, OS ₄left and right or be arranged in order display up and down.Accordingly, can at front station subsystem OS ₁interface is selected with a translucent square display subsystem in display interface heart region, square interior above-mentioned four split screens of display or left and right or four the subsystem OS be arranged in order up and down ₁, OS ₂, OS ₃, OS ₄subsystem state sectional drawing.It should be noted that, can also generate respectively after subsystem corresponding to subsystem selects interface and show respectively, such as, generate subsystem OS respectively ₁, OS ₂, OS ₃, OS ₄corresponding subsystem selects interface W, X, Y, Z, is then selected by subsystem interface W, X, Y, Z to be placed on diverse location on screen at random respectively.

Step S130: when the selection operation from the subsystem identification information to arbitrary subsystem of user being detected, based on selection operation, undertaken switching for the AM/BAM of subsystem by master control system.

Particularly, can detect that the selection from the subsystem identification information to arbitrary subsystem of user operates by master control system, subsequently, be undertaken switching for the AM/BAM of subsystem by master control system; Also can detect that the selection from the subsystem identification information to arbitrary subsystem of user operates by the current subsystem being in foreground, this selection operation is sent to master control system by the current subsystem being in foreground, is undertaken switching for the AM/BAM of subsystem by master control system.

Such as, master control system OS detects the sub-system OS from user ₁the clicking operation of subsystem identification information, master control system OS is by the current subsystem OS being in foreground ₂switch to backstage, and by the current subsystem OS being in backstage ₁switch to foreground.Or, the current subsystem OS being in foreground ₂detect from user to being in rear station subsystem OS ₁the selection operation carrying out clicking of subsystem identification information, subsystem OS ₂this selection operation is sent to master control system OS, when master control system OS receives this selection operation, by the current subsystem OS being in foreground ₂switch to backstage, and by the current subsystem OS being in backstage ₁switch to foreground.

In technical scheme of the present invention, propose the scheme that a kind of multisystem switches.When the trigger action switched for subsystem AM/BAM being detected, obtain the subsystem identification information corresponding with subsystems by master control system, control the operation of each subsystem and blocked operation by master control system but not subsystems runs alone mutual blocked operation.Then be presented on screen by the subsystem identification information of subsystems with predetermined screen display mode, user can see the state of all subsystems intuitively, and convenient user sub-system is selected.When the selection operation from the subsystem identification information to arbitrary subsystem of user finally being detected, operate based on selection, undertaken switching for the AM/BAM of subsystem by master control system, master control system control subsystem blocked operation, eliminate the switching entrance mutually switched between subsystems, make the design of operating system more simple.The program make the design of operating system more simple and user can preview so the state of subsystem, facilitate the selection that user switches systematicness, thus improve user experience.

Fig. 3 is the structural representation of the multisystem changing method of another embodiment of the present invention.

Identification information acquisition module 310, when the trigger action switched for subsystem AM/BAM being detected, obtains the subsystem identification information corresponding with subsystems by master control system.

Wherein, master control system is used for controlling multiple subsystem, and provides service to complete respective function to subsystem to assist subsystem.Master control system itself can not provide embody rule function, the functions such as such as call, note, online, media.Subsystem can comprise various operating system, such as the intelligent terminal operation system such as Android, Windows and first heart, and it can provide the multiple application functions such as call, note, online, media separately.

It should be noted that, master control system and subsystem are all based on identical physics kernel, and between master control system and subsystem, general not Direct Communication, can carry out communication between system by the auxiliary of kernel between it, namely carry out communication by the mode that system is predetermined.

Particularly, the trigger action that subsystem AM/BAM switches includes but not limited to:

(1) the AM/BAM switching physical button that system of pressing is predetermined; Such as, setting button SWITCH is systematic evaluation button, when master control system detects that user gets final product triggers system AM/BAM blocked operation when pressing SWITCH.

(2) existing physical button is pressed with the key mode that system is predetermined; Such as, predetermined volume increase reduction button of simultaneously pressing got final product triggers system AM/BAM blocked operation more than 3 seconds, got final product triggers system AM/BAM blocked operation when master control system detects that user presses when volume increases and reduces button more than 3 seconds simultaneously.

(3) with the mode of operation that system is predetermined, terminal device is operated, such as, flip horizontal is carried out to terminal device.

Above three kinds of triggering modes are and are detected by linux kernel and driver by hardware button or inductor system, and to identify be corresponding operating be need to carry out systematic evaluation operation; Linux kernel notice master control system executive subsystem AM/BAM switches relevant operation subsequently.

(4) on screen, touch operation is carried out with the gesture that system is predetermined; Such as, screen performing touch track is that the gesture of drawing pentagram shape gets final product triggers system AM/BAM blocked operation.

(5) the switching icon before triggering in station subsystem, namely carries out corresponding operating to the node file corresponding to systematic evaluation;

Above two kinds of modes are software triggering mode.Such as, the status bar of front station subsystem arranges switching icon, when current station subsystem detects that user clicks this switching icon, what provide linux kernel based on clicking operation switches corresponding Archive sit with subsystem AM/BAM and performs corresponding operating, as carried out write operation to Archive sit dev/switch, as write " 1 ", when linux kernel detect/dev/switch can notify master control system executive subsystem AM/BAM blocked operation when performing the operation of write " 1 ".

Wherein, identification information acquisition module 310 is included but not limited to by the master control system acquisition subsystem identification information corresponding with subsystems:

(1) obtain the icon information corresponding with subsystems by master control system, icon information as corresponding in android system is small machine people icon;

(2) identification information acquisition module 310 can also comprise: display information extraction unit and sectional drawing generation unit.Display information extraction unit controls subsystems by master control system and extracts the subsystem state display information stored in each self-corresponding display buffer region with it respectively, and sectional drawing generation unit generates corresponding subsystem display state sectional drawing respectively based on subsystem state display information.

Particularly, master control system notification subsystem goes to the display buffer region corresponding with it to extract subsystem state display information, after subsystem extracts subsystem state display information, generate subsystem display state sectional drawing according to the subsystem state display information of subsystems.

It should be noted that, above two kinds of methods can also be combined and show.

Such as, master control system OS detect need to carry out subsystem AM/BAM blocked operation time, master control system OS notifies all subsystem OS ₁, OS ₂, OS ₃, OS ₄buffer area such as framebuffer is gone to extract subsystem state display information; Wherein, namely one or several data values stored in framebuffer show information and correspond to a pixel on screen, and these pixels constitute the content of screen display; Subsystem OS ₁, OS ₂, OS ₃, OS ₄after extracting the subsystem state display information in framebuffer respectively, generate corresponding subsystem OS respectively ₁, OS ₂, OS ₃, OS ₄subsystem display state sectional drawing A, B, C, D, and subsystem is shown state sectional drawing A, B, C, D and is sent to master control system OS.

The subsystem identification information of subsystems is presented on screen with predetermined screen display mode by identification information display module 320.

Particularly, identification information display module 320 can comprise: the first control module or the second control module.First control module controls the current subsystem being in foreground by master control system and is presented on screen by the subsystem identification information of subsystems with predetermined screen display mode; The subsystem identification information of subsystems is directly presented on screen with predetermined screen display mode by master control system by the second control module.

Wherein, predetermined screen display mode comprises with the arrangement of sphere of movements for the elephants shape or left and right is arranged in order or be arranged in order up and down etc. is suspended on the display interface of foreground or embeds in the display interface of foreground or be presented in screen with independently display interface.

Such as, connect example, master control system OS is by subsystems OS ₁, OS ₂, OS ₃, OS ₄subsystem display state sectional drawing A, B, C, D be sent to the current subsystem OS being in foreground ₁; Subsystem OS ₁a, B, C, D are suspended in the mode that sphere of movements for the elephants shape arranges and is shown on the display interface of foreground.Again such as, master control system OS can directly by subsystems OS ₁, OS ₂, OS ₃, OS ₄subsystem display state sectional drawing A, B, C, D embed in the display interface of foreground in the mode that left and right is arranged in order and show.

Or it should be noted that, master control system and the current subsystem being in foreground all can take screen display resource, and wherein, screen display resource includes but not limited to: screen display hardware resource, screen display Service Source and system resource.

Preferably, identification information display module 320 can comprise: select Interface debond unit 321 and select interface display unit 322.Interface debond unit 321 is selected to generate subsystem selection interface based on the subsystem identification information of subsystems; Interface display unit 322 is selected to select interface to be presented on screen with predetermined screen display mode subsystem.

Alternatively, selected by subsystem interface to be presented on screen with predetermined screen display mode and can comprise following any one: subsystem is selected interface full screen display in screen; Interface is selected with the mode display subsystem embedded among the current user's display interface being in the subsystem on foreground; Interface is selected with the mode display subsystem of floating layer on the current user's display interface being in the subsystem on foreground.Such as, four subsystem OS are had ₁, OS ₂, OS ₃, OS ₄, can by based on subsystem OS ₁, OS ₂, OS ₃, OS ₄subsystem state sectional drawing generate subsystem and select interface, and be presented on screen in the mode of four split screens: upper left corner display OS ₁corresponding subsystem state sectional drawing, upper right corner display OS ₂corresponding subsystem state sectional drawing, lower left corner display OS ₃corresponding subsystem state sectional drawing, lower right corner display OS ₄corresponding subsystem state sectional drawing.Can also by subsystem OS ₁, OS ₂, OS ₃, OS ₄left and right or be arranged in order display up and down.Accordingly, can at front station subsystem OS ₁interface is selected with a translucent square display subsystem in display interface heart region, square interior above-mentioned four split screens of display or left and right or four the subsystem OS be arranged in order up and down ₁, OS ₂, OS ₃, OS ₄subsystem state sectional drawing.It should be noted that, can also generate respectively after subsystem corresponding to subsystem selects interface and show respectively, such as, generate subsystem OS respectively ₁, OS ₂, OS ₃, OS ₄corresponding subsystem selects interface W, X, Y, Z, is then selected by subsystem interface W, X, Y, Z to be placed on diverse location on screen at random respectively.

When AM/BAM handover module 330 detects the selection operation from the subsystem identification information to arbitrary subsystem of user, based on selection operation, undertaken switching for the AM/BAM of subsystem by master control system.

Particularly, can detect that the selection from the subsystem identification information to arbitrary subsystem of user operates by master control system, subsequently, be undertaken switching for the AM/BAM of subsystem by master control system; AM/BAM handover module 330 can comprise: select operation transfer unit and AM/BAM switch unit.Select operation transfer unit to detect that the selection from the subsystem identification information to arbitrary subsystem of user operates by the current subsystem being in foreground, this selection operation is sent to master control system by the current subsystem being in foreground; AM/BAM switch unit is undertaken switching for the AM/BAM of subsystem by master control system.

Such as, master control system OS detects the sub-system OS from user ₁the clicking operation of subsystem identification information, master control system OS is by the current subsystem OS being in foreground ₂switch to backstage, and by the current subsystem OS being in backstage ₁switch to foreground.Or, the current subsystem OS being in foreground ₂detect from user to being in rear station subsystem OS ₁the selection operation carrying out clicking of subsystem identification information, subsystem OS ₂this selection operation is sent to master control system OS, when master control system OS receives this selection operation, by the current subsystem OS being in foreground ₂switch to backstage, and by the current subsystem OS being in backstage ₁switch to foreground.

In technical scheme of the present invention, propose the scheme that a kind of multisystem switches.When the trigger action switched for subsystem AM/BAM being detected, obtain the subsystem identification information corresponding with subsystems by master control system, control the operation of each subsystem and blocked operation by master control system but not subsystems runs alone mutual blocked operation.Then be presented on screen by the subsystem identification information of subsystems with predetermined screen display mode, user can see the state of all subsystems intuitively, and convenient user sub-system is selected.When the selection operation from the subsystem identification information to arbitrary subsystem of user finally being detected, operate based on selection, undertaken switching for the AM/BAM of subsystem by master control system, master control system control subsystem blocked operation, eliminate the switching entrance mutually switched between subsystems, make the design of operating system more simple.The program make the design of operating system more simple and user can preview so the state of subsystem, facilitate the selection that user switches systematicness, thus improve user experience.

Those skilled in the art of the present technique are appreciated that the one or more equipment that the present invention includes and relate to for performing in the application in operation.These equipment for required object and specialized designs and manufacture, or also can comprise the known device in multi-purpose computer.These equipment have storage computer program within it, and these computer programs optionally activate or reconstruct.Such computer program can be stored in equipment (such as, computing machine) in computer-readable recording medium or be stored in and be suitable for store electrons instruction and be coupled in the medium of any type of bus respectively, computer-readable medium includes but not limited to that the dish of any type (comprises floppy disk, hard disk, CD, CD-ROM, and magneto-optic disk), ROM (Read-OnlyMemory, ROM (read-only memory)), RAM (RandomAccessMemory, storer immediately), EPROM (ErasableProgrammableRead-OnlyMemory, Erarable Programmable Read only Memory), EEPROM (ElectricallyErasableProgrammableRead-OnlyMemory, EEPROM (Electrically Erasable Programmable Read Only Memo)), flash memory, magnetic card or light card.Namely, computer-readable recording medium comprises and being stored or any medium of transmission information with the form that can read by equipment (such as, computing machine).

Those skilled in the art of the present technique are appreciated that the combination that can realize the frame in each frame in these structural drawing and/or block diagram and/or flow graph and these structural drawing and/or block diagram and/or flow graph with computer program instructions.Those skilled in the art of the present technique are appreciated that, the processor that these computer program instructions can be supplied to multi-purpose computer, special purpose computer or other programmable data disposal routes realizes, thus is performed the scheme of specifying in the frame of structural drawing disclosed by the invention and/or block diagram and/or flow graph or multiple frame by the processor of computing machine or other programmable data disposal routes.

Those skilled in the art of the present technique are appreciated that various operations, method, the step in flow process, measure, the scheme discussed in the present invention can be replaced, changes, combines or delete.Further, there is various operations, method, other steps in flow process, measure, the scheme discussed in the present invention also can be replaced, change, reset, decompose, combine or delete.Further, of the prior art have also can be replaced with the step in operation various disclosed in the present invention, method, flow process, measure, scheme, changed, reset, decomposed, combined or deleted.

Below be only some embodiments of the present invention; it should be pointed out that for those skilled in the art, under the premise without departing from the principles of the invention; can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (10)

1. a method for multisystem switching, is applied to and comprises in the terminal device running environment of a master control system and at least two subsystems, it is characterized in that, comprising:

When the trigger action switched for subsystem AM/BAM being detected, obtain the subsystem identification information corresponding with subsystems by described master control system;

The subsystem identification information of subsystems is presented on screen with predetermined screen display mode;

When the selection operation from the subsystem identification information to arbitrary subsystem of user being detected, based on described selection operation, undertaken switching for the AM/BAM of subsystem by described master control system.

2. the method for multisystem switching according to claim 1, it is characterized in that, described subsystem identification information comprises subsystem display state sectional drawing, wherein, obtain the subsystem identification information corresponding with subsystems by described master control system, specifically comprise:

Control subsystems by described master control system and extract the subsystem state display information stored in each self-corresponding display buffer region with it respectively, and generate corresponding subsystem display state sectional drawing respectively based on subsystem state display information.

3. the method for multisystem switching according to claim 1 and 2, is characterized in that, be presented on screen, specifically comprise the subsystem identification information of subsystems with predetermined screen display mode:

Controlling the current subsystem being in foreground by described master control system is presented on screen by the subsystem identification information of subsystems with predetermined screen display mode; Or

Directly the subsystem identification information of subsystems is presented on screen with predetermined screen display mode by described master control system.

4. the method for multisystem switching according to claim 1 and 2, is characterized in that, be presented on screen, specifically comprise the subsystem identification information of subsystems with predetermined screen display mode:

Subsystem identification information based on subsystems generates subsystem and selects interface;

Interface is selected to be presented on screen with predetermined screen display mode described subsystem.

5. the method for multisystem switching according to claim 1 and 2, it is characterized in that, when the selection operation from the subsystem identification information to arbitrary subsystem of user being detected by the current subsystem being in foreground, based on described selection operation, by described master control system, this subsystem is switched to foreground, specifically comprises:

Described selection operation is passed to described master control system from the described current subsystem being in foreground, and is undertaken switching for the AM/BAM of subsystem by described master control system.

6. a device for multisystem switching, is applied to and comprises in the terminal device running environment of a master control system and at least two subsystems, it is characterized in that, comprising:

Identification information acquisition module, for when the trigger action switched for subsystem AM/BAM being detected, obtains the subsystem identification information corresponding with subsystems by described master control system;

Identification information display module, for being presented at screen by the subsystem identification information of subsystems with predetermined screen display mode;

AM/BAM handover module, for when the selection operation from the subsystem identification information to arbitrary subsystem of user being detected, based on described selection operation, is undertaken switching for the AM/BAM of subsystem by described master control system.

7. the device of multisystem switching according to claim 6, is characterized in that, described subsystem identification information comprises subsystem display state sectional drawing, and wherein, identification information acquisition module specifically comprises:

Display information extraction unit, extracts for being controlled subsystems by described master control system the subsystem state display information stored in each self-corresponding display buffer region with it respectively;

Sectional drawing generation unit, for generating corresponding subsystem display state sectional drawing respectively based on subsystem state display information.

8. the device that the multisystem according to claim 6 or 7 switches, it is characterized in that, identification information display module specifically comprises:

First control module, is presented at screen by the subsystem identification information of subsystems with predetermined screen display mode for controlling the current subsystem being in foreground by described master control system; Or

Second control module, for being directly presented at screen by the subsystem identification information of subsystems with predetermined screen display mode by described master control system.

9. the device that the multisystem according to claim 6 or 7 switches, it is characterized in that, identification information display module specifically comprises:

Selecting Interface debond unit, selecting interface for generating subsystem based on the subsystem identification information of subsystems;

Select interface display unit, for selecting interface to be presented at screen with predetermined screen display mode described subsystem.

10. the device that the multisystem according to claim 6 or 7 switches, it is characterized in that, AM/BAM handover module specifically comprises:

Select operation transfer unit, for described selection operation is passed to described master control system from the described current subsystem being in foreground;

AM/BAM switch unit, for by described master control system, the AM/BAM undertaken for subsystem switches.