CN104063033A

CN104063033A - State switching method based on electronic equipment interlinking and electronic equipment

Info

Publication number: CN104063033A
Application number: CN201310091544.9A
Authority: CN
Inventors: 高月莉
Original assignee: Huawei Device Co Ltd
Current assignee: Huawei Device Co Ltd
Priority date: 2013-03-21
Filing date: 2013-03-21
Publication date: 2014-09-24
Anticipated expiration: 2033-03-21
Also published as: CN104063033B

Abstract

The invention discloses a state switching method based on electronic equipment interlinking and electronic equipment, and relates to the field of communication. The method can simplify operation of a user in the state switching process of interlinked equipment and can improve the user experience. The specific scheme of the method comprises steps as follows: first electronic equipment acquires a first starting-up instruction and is switched into a starting-up state according to the first starting-up instruction; the first electronic equipment judges whether the first electronic equipment is connected with second electronic equipment according to a data communication interface channel between the first electronic equipment and the second electronic equipment; and if the first electronic equipment is connected with the second electronic equipment, the first electronic equipment generates a second starting-up instruction and sends the second starting-up instruction to the second electronic equipment, so that a standby state of the second electronic equipment is switched into a starting-up state according to the second starting-up instruction.

Description

State switching method based on interconnect electronic devices and electronic equipment

Technical field

The present invention relates to the communications field, relate in particular to a kind of state switching method and electronic equipment based on interconnect electronic devices.

Background technology

Along with scientific and technological development, increasing electronic equipment enters people's life.As, televisor, PC (personal computer, PC), Set Top Box, Digital video disc (DigitalVideo Disk, DVD) player, sound equipment etc.Wherein, in above-mentioned electronic equipment, a lot of equipment is all that interconnection is used, as televisor and Set Top Box interconnection, televisor and DVD player interconnection, DVD player and sound equipment interconnection, PC and sound equipment interconnection, PC and interconnection of routers etc.

For energy-conservation, user is using after the electronic equipment of some interconnection, the equipment that need to control one by one all interconnection enters holding state or closes one by one the equipment of all interconnection, and user is reusing before the electronic equipment of this interconnection, then opens one by one the equipment of all interconnection.

For example, for energy-conservation, user is using after PC, need to control one by one PC and enter holding state with other electronic equipments of PC interconnection or close one by one PC and with other electronic equipments of PC interconnection, user is in the time reusing PC, open one by one again PC, and with the electronic equipment such as sound equipment, router of PC interconnection.When user controls the state switching of each electronic equipment of interconnection one by one, user's complicated operation, poor user experience.

Summary of the invention

The invention provides a kind of state switching method and electronic equipment based on interconnect electronic devices, can simplify the operation of user in interconnect equipment stateful switchover process, experience thereby can improve user.

A first aspect of the present invention, provides a kind of state switching method based on interconnect electronic devices, comprising:

The first electronic equipment obtains the first start-up command, and according to described the first start-up command, described the first electronic equipment is switched to open state by current state, and described current state comprises holding state or off-mode;

Described the first electronic equipment judges whether described the first electronic equipment is connected with the second electronic equipment by data communication interface passage;

If described the first electronic equipment is connected with described the second electronic equipment, described the first electronic equipment generates the second start-up command, and send described the second start-up command to described the second electronic equipment, so that described the second electronic equipment switches to described open state by described the second electronic equipment by described holding state according to described the second start-up command.

In conjunction with first aspect, in a kind of possible implementation, described the first electronic equipment obtains start-up command, and according to described start-up command, described the first electronic equipment is switched to open state by current state, comprising:

Described the first electronic equipment receives described the first start-up command from control end, and described the first start-up command is the start-up command corresponding to the interface protocol between described the first electronic equipment and described control end;

Described the first electronic equipment switches to described open state by described the first electronic equipment by described holding state according to described the first start-up command;

Or,

Described the first electronic equipment receives described the first start-up command from described the 3rd electronic equipment by the data communication interface passage between described the first electronic equipment and the 3rd electronic equipment, and described the first start-up command is the start-up command corresponding to the interface protocol between described the first electronic equipment and described the 3rd electronic equipment;

Or,

Described the first electronic equipment, in response to user's triggering, generates described the first start-up command;

Described the first electronic equipment switches to described open state by described the first electronic equipment by off-mode according to described the first start-up command.

In conjunction with first aspect and above-mentioned possible implementation, in the possible implementation of another kind, described the first electronic equipment sends described the second start-up command to described the second electronic equipment, comprising:

Described the first electronic equipment sends described the second start-up command to the second electronic equipment described at least one by the data communication interface passage between described the first electronic equipment and described the second electronic equipment;

Wherein, described the second start-up command is the start-up command corresponding to the interface protocol between described the first electronic equipment and described the second electronic equipment.

A second aspect of the present invention, also provides a kind of state switching method based on interconnect electronic devices, comprising:

The first electronic equipment receives the first standby command;

If described the first electronic equipment is connected with described the second electronic equipment, described the first electronic equipment generates the second standby command, and send described the second standby command to described the second electronic equipment, so that described the second electronic equipment switches to holding state by described the second electronic equipment by open state according to described the second standby command;

Described the first electronic equipment switches to described holding state by described the first electronic equipment by described open state according to described the first standby command.

In conjunction with second aspect, in a kind of possible implementation, described the first electronic equipment receives the first standby command, comprising:

Described the first electronic equipment receives described the first standby command from control end, and described the first standby command is the standby command corresponding to the interface protocol between described the first electronic equipment and described control end;

Or,

Described the first electronic equipment receives described the first standby command from described the 3rd electronic equipment by the data communication interface passage between described the first electronic equipment and the 3rd electronic equipment, and described the first standby command is the standby command corresponding to the interface protocol between described the first electronic equipment and described the 3rd electronic equipment.

In conjunction with second aspect and above-mentioned possible implementation, in the possible implementation of another kind, described the first electronic equipment sends described the second standby command to described the second electronic equipment, comprising:

Described the first electronic equipment sends described the second standby command to the second electronic equipment described at least one by the data communication interface passage between described the first electronic equipment and described the second electronic equipment;

Wherein, described the second standby command is the standby command corresponding to the interface protocol between described the first electronic equipment and described the second electronic equipment.

In conjunction with second aspect and above-mentioned possible implementation, in the possible implementation of another kind, if being described the first electronic equipment, described the first standby command receives the standby command from described the 3rd electronic equipment by the data communication interface passage between described the first electronic equipment and described the 3rd electronic equipment, before described the first electronic equipment being switched to described holding state by described open state at described the first electronic equipment according to described the first standby command, described method also comprises:

Described the first electronic equipment judges on described the first electronic equipment, whether to move business.

In conjunction with second aspect and above-mentioned possible implementation, in the possible implementation of another kind, described the first electronic equipment switches to described holding state by described the first electronic equipment by described open state according to described the first standby command, comprising:

If business described in current off-duty on described the first electronic equipment, described the first electronic equipment switches to described holding state by described the first electronic equipment by described open state according to described the first standby command;

If moving described business on described the first electronic equipment, described the first electronic equipment keeps described open state.

A third aspect of the present invention, also provides a kind of electronic equipment, comprising:

Switch unit, for obtaining the first start-up command, and switches to open state by described electronic equipment by current state according to described the first start-up command, and described current state comprises holding state or off-mode;

Judging unit, for judging whether described electronic equipment is connected with the second electronic equipment by data communication interface passage;

Transmitting element, if be connected with described the second electronic equipment for described electronic equipment, generate the second start-up command, and send described the second start-up command to described the second electronic equipment, so that described the second electronic equipment switches to described open state by described the second electronic equipment by described holding state according to described the second start-up command.

In conjunction with the third aspect, in a kind of possible implementation, described switch unit, comprising:

The first receiver module, for receiving described the first start-up command from control end, described the first start-up command is the start-up command corresponding to the interface protocol between described electronic equipment and described control end;

The first handover module, switches to described open state by described electronic equipment by described holding state for described the first start-up command receiving according to described the first receiver module;

Or,

Described switch unit, comprising:

The second receiver module, receive the described start-up command from described the 3rd electronic equipment for the data communication interface passage by between described the first electronic equipment and the 3rd electronic equipment, described the first start-up command is the start-up command corresponding to the interface protocol between described the first electronic equipment and described the 3rd electronic equipment;

The second handover module, switches to described open state by described electronic equipment by described holding state for described the first start-up command receiving according to described the second receiver module;

Or,

Described switch unit, comprising:

Generation module, for the triggering in response to user, generates described the first start-up command;

The 3rd handover module, for switching to described open state by described electronic equipment by off-mode according to described the first start-up command.

In conjunction with the third aspect and above-mentioned possible implementation, in the possible implementation of another kind, described transmitting element, also for sending described the second start-up command to the second electronic equipment described at least one by the data communication interface passage between described electronic equipment and described the second electronic equipment;

Wherein, described the second start-up command is the start-up command corresponding to the interface protocol between described electronic equipment and described the second electronic equipment.

A fourth aspect of the present invention, also provides a kind of electronic equipment, comprising:

Receiving element, for receiving the first standby command;

The first judging unit, for judging whether described electronic equipment is connected with the second electronic equipment by data communication interface passage;

Transmitting element, if be connected with described the second electronic equipment for described electronic equipment, generate the second standby command, and send described the second standby command to described the second electronic equipment, so that described the second electronic equipment switches to holding state by described the second electronic equipment by open state according to described the second standby command;

Switch unit, for switching to described holding state by described electronic equipment by described open state according to described the first standby command.

In conjunction with fourth aspect, in a kind of possible implementation, described receiving element, also, for receiving described the first standby command from control end, described the first standby command is the standby command corresponding to the interface protocol between described electronic equipment and described control end;

Or,

Receive described the first standby command from described the 3rd electronic equipment by the data communication interface passage between described electronic equipment and the 3rd electronic equipment, described the first standby command is the standby command corresponding to the interface protocol between described electronic equipment and described the 3rd electronic equipment.

In conjunction with fourth aspect and above-mentioned possible implementation, in the possible implementation of another kind, described transmitting element, also for sending described the second standby command to the second electronic equipment described at least one by the data communication interface passage between described electronic equipment and described the second electronic equipment;

Wherein, described the second standby command is the standby command corresponding to the interface protocol between described electronic equipment and described the second electronic equipment.

In conjunction with fourth aspect and above-mentioned possible implementation, in the possible implementation of another kind, described electronic equipment, also comprises:

The second judging unit, if be that described receiving element receives the standby command from described the 3rd electronic equipment by the data communication interface passage between described the first electronic equipment and described the 3rd electronic equipment for described the first standby command, before described electronic equipment being switched to described holding state by described open state at described switch unit according to described the first standby command, judge on described electronic equipment, whether to move business.

In conjunction with fourth aspect and above-mentioned possible implementation, in the possible implementation of another kind, described switch unit, comprising:

Handover module, if for business described in current off-duty on described electronic equipment, switches to described holding state by described electronic equipment by described open state according to described the first standby command;

Keep module, if for moving described business on described electronic equipment, keep described open state.

State switching method and electronic equipment based on interconnect electronic devices provided by the invention, the first electronic equipment obtains the first start-up command, and according to the first start-up command, the first electronic equipment is switched to open state, then judge according to the data communication interface passage between the first electronic equipment and the second electronic equipment whether the first electronic equipment is connected with the second electronic equipment, if the first electronic equipment is connected with the second electronic equipment, the first electronic equipment generates the second start-up command, and send the second start-up command to the second electronic equipment, so that the second electronic equipment switches to open state by the second electronic equipment by holding state according to the second start-up command.In prior art, user controls one by one the state switching of each electronic equipment of interconnection and compares, because electronic equipment is receiving after start-up command or standby command, not only can switch the state of electronic equipment, can also send start-up command or standby command to other electronic equipments, switch with the state of controlling other electronic equipments, therefore, can simplify the operation of user in interconnect equipment stateful switchover process, experience thereby can improve user.

Brief description of the drawings

In order to be illustrated more clearly in the technical scheme in the embodiment of the present invention, to the accompanying drawing of required use in embodiment or description be briefly described below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is a kind of state switching method process flow diagram based on interconnect electronic devices in the embodiment of the present invention 1;

Fig. 2 is a kind of state switching method process flow diagram based on interconnect electronic devices in the embodiment of the present invention 2;

Fig. 3 is a kind of state switching method process flow diagram based on interconnect electronic devices in the embodiment of the present invention 3;

Fig. 4 is another kind in the embodiment of the present invention 3 state switching method process flow diagram based on interconnect electronic devices;

Fig. 5 is the composition schematic diagram of a kind of electronic equipment in the embodiment of the present invention 4;

Fig. 6 is the composition schematic diagram of a kind of electronic equipment in the embodiment of the present invention 5;

Fig. 7 is the composition schematic diagram of the another kind of electronic equipment in the embodiment of the present invention 5;

Fig. 8 is the composition schematic diagram of a kind of electronic equipment in the embodiment of the present invention 6;

Fig. 9 is the composition schematic diagram of a kind of electronic equipment in the embodiment of the present invention 7;

Figure 10 is the composition schematic diagram of a kind of state switched system based on interconnect electronic devices in the embodiment of the present invention 8.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiment.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtaining under creative work prerequisite, belong to the scope of protection of the invention.

In addition, term " system " and " network " are often used interchangeably in this article herein.Term "and/or" herein, is only a kind of incidence relation of describing affiliated partner, and expression can exist three kinds of relations, and for example, A and/or B, can represent: individualism A exists A and B, these three kinds of situations of individualism B simultaneously.In addition, character "/" herein, generally represents that forward-backward correlation is to liking a kind of relation of "or".

Embodiment 1

The embodiment of the present invention provides a kind of state switching method based on interconnect electronic devices, as shown in Figure 1, comprising:

101, the first electronic equipment obtains the first start-up command, and according to the first start-up command, the first electronic equipment is switched to open state by current state, and current state comprises: holding state or off-mode.

Wherein, the first electronic equipment obtains the first start-up command, and according to the first start-up command, the first electronic equipment is switched to open state by current state, specifically can comprise: the first electronic equipment receives the first start-up command from control end, the first start-up command is the start-up command corresponding to the interface protocol between the first electronic equipment and control end, and the first electronic equipment switches to open state by the first electronic equipment by holding state according to the first start-up command; Or, the first electronic equipment receives the first start-up command from the 3rd electronic equipment by the data communication interface passage between the first electronic equipment and the 3rd electronic equipment, the first start-up command is that the first electronic equipment switches to open state by the first electronic equipment by holding state according to the first start-up command corresponding to the start-up command of the interface protocol between the first electronic equipment and the 3rd electronic equipment; Or the first electronic equipment, in response to user's triggering, generates the first start-up command, the first electronic equipment switches to open state by the first electronic equipment by off-mode according to the first start-up command.。

Exemplary, the first electronic equipment can be a terminal device that can interconnect in daily life in the electronic equipment using.In daily life, a lot of equipment is all that interconnection is used, as televisor and Set Top Box interconnection, televisor and DVD player interconnection, DVD player and sound equipment interconnection, PC and sound equipment interconnection, PC and interconnection of routers etc.; The second electronic equipment can be equally also a terminal device that can interconnect in daily life in the electronic equipment using; Control end can be controlled the first electronic equipment and carry out state switching.As, the first electronic equipment can be televisor, and the second electronic equipment can be Set Top Box, and control end can be the control module of the telepilot of televisor or TV and internal control start, shutdown.

Wherein, because the state switched system based on interconnect electronic devices at least can comprise the electronic equipment of two interconnection, therefore, can in this system, select one to be easy to the electronic equipment of controlling, directly use the state of this electronic equipment of control end control of this electronic equipment to switch, and then switch by the state of other electronic equipments of data communication interface passage control between electronic equipment.For example, user is in the time using PC, can comprise router, gateway etc. with the electronic equipment of PC interconnection, because gateway, router etc. may be more wayward according to user, therefore, user can select the state of directly controlling PC to switch, and switches by the state of the electronic equipment such as data communication interface passage control router, gateway between the electronic equipments such as PC, router, gateway.

Exemplary, as shown in figure 10, user can directly control by the control end of electronic equipment A the state switching of electronic equipment A.The first start-up command can be the instruction message that electronic equipment is received from the control end of this electronic equipment, electronic equipment A can receive the first start-up command from its control end, and the first start-up command is the start-up command corresponding to the interface protocol between electronic equipment A and the control end of electronic equipment A.The first start-up command can be also the instruction message that electronic equipment is received from other electronic equipments, electronic equipment B can receive the first start-up command from electronic equipment A, and the first start-up command is the start-up command corresponding to the interface protocol between electronic equipment A and electronic equipment B; Electronic equipment C can receive the first start-up command from electronic equipment A, and the first start-up command is the start-up command corresponding to the interface protocol between electronic equipment A and electronic equipment C; Electronic equipment D can receive the first start-up command from electronic equipment B, and the first start-up command is the start-up command corresponding to the interface protocol between electronic equipment B and electronic equipment D.

Exemplary, in the present embodiment, if the first electronic equipment and the second electronic equipment are all in holding state, in the time that the first electronic equipment receives the first start-up command, the first electronic equipment can switch to open state by holding state by the first electronic equipment, and generate the second start-up command, then send the second start-up command to the second electronic equipment, so that the second electronic equipment switches the second electronic equipment is switched to open state by holding state according to the second start-up command, the second start-up command is the start-up command corresponding to the interface protocol between the first electronic equipment and the second electronic equipment.As shown in figure 10, if electronic equipment A, electronic equipment B, electronic equipment C, electronic equipment D are all in holding state, electronic equipment A, after the first start-up command (the first start-up command is the start-up command corresponding to the interface protocol between electronic equipment A and the control end of electronic equipment A) receiving from control end, can switch to open state by holding state by electronic equipment A; Electronic equipment B, after the first start-up command (the first start-up command is the start-up command corresponding to the interface protocol between electronic equipment A and electronic equipment B) receiving from electronic equipment A, can switch to open state by holding state by electronic equipment B; Electronic equipment C, after the first start-up command receiving from electronic equipment A, can switch to open state by holding state by electronic equipment C; Electronic equipment D, after the first start-up command receiving from electronic equipment B, can switch to open state by holding state by electronic equipment D.

Exemplary, in the present embodiment, if the first electronic equipment is in off-mode, the second electronic equipment is in holding state, the first electronic equipment can trigger in response to user's start, generate the first start-up command, according to the first start-up command, the first electronic equipment is switched to open state by off-mode, then generate the second start-up command, and send the second start-up command to the second electronic equipment, so that the second electronic equipment switches the second electronic equipment is switched to open state by holding state according to the second start-up command.As shown in figure 10, if electronic equipment A is in off-mode, electronic equipment B, electronic equipment C, electronic equipment D are all in holding state, electronic equipment A is after the triggering in response to user, can generate the first start-up command, then according to the first start-up command, electronic equipment A is switched to open state by off-mode, and then generate and send the second start-up command to other subscriber equipmenies; Electronic equipment B, after the second start-up command receiving from electronic equipment A, can switch to open state by holding state by electronic equipment B; Electronic equipment C, after the second start-up command receiving from electronic equipment A, can switch to open state by holding state by electronic equipment C; Electronic equipment D, after the second start-up command receiving from electronic equipment B, can switch to open state by holding state by electronic equipment D.

It should be noted that, in embodiments of the present invention, if the first electronic equipment and/or the second electronic equipment are the electronic equipment of not supporting idle function, the holding state in the embodiment of the present invention can be also the low-power consumption mode of electronic equipment, under this low-power consumption mode, in the time that electronic equipment receives the start-up command from control end or other electronic equipments, will automatically enter starting up's flow process.

It should be noted that, the start-up command (the first start-up command and the second start-up command) in the embodiment of the present invention can be used for triggering electronic equipment this electronic equipment is switched to by current state (holding state or off-mode) for one the indication signaling of open state.

102, the first electronic equipment judges whether the first electronic equipment is connected with the second electronic equipment by data communication interface passage.

Concrete, when the first electronic equipment is switched to after open state by current state, the first electronic equipment can judge whether the first electronic equipment is connected with the second electronic equipment by data communication interface passage.Such as, judge between the first electronic equipment and the second electronic equipment whether set up wireless connections, or wired connection.In embodiments of the present invention, can adopt the judgment mode of prior art to judge.

Exemplary, as shown in figure 10, electronic equipment A is connected to respectively electronic equipment B and electronic equipment C by data communication interface passage, and electronic equipment B is connected with electronic equipment A with electronic equipment D respectively by data communication interface passage.

Wherein, between the first electronic equipment and the second electronic equipment, be connected by data communication interface passage, this data communication interface can be ether interface, Wireless Fidelity (Wireless Fidelity, Wifi) interface, USB (universal serial bus) (Universal Serial BUS, USB) interface etc.Accordingly, data communication interface passage can be radio channel, can be also wired passage.In the state switching method based on interconnect electronic devices that the embodiment of the present invention provides, the particular type of data communication interface is including but not limited to the cited type of the present embodiment, and the particular type of the embodiment of the present invention to data communication interface and the concrete form of data communication interface passage are not restricted.

If 103 first electronic equipments are connected with the second electronic equipment, the first electronic equipment generates the second start-up command, and send the second start-up command to the second electronic equipment, so that the second electronic equipment switches to open state by the second electronic equipment by holding state according to the second start-up command.

Wherein, electronic equipment is switching to electronic equipment after open state by holding state according to the first start-up command, can generate the second start-up command (corresponding to this electronic equipment and and the electronic equipment that is connected by data communication interface passage of this electronic equipment between the start-up command of interface protocol), and send the second start-up command to the electronic equipment being connected by data communication interface passage with this electronic equipment, so that the electronic equipment being connected by data communication interface passage with this electronic equipment switches to open state by other electronic equipments by holding state according to the second start-up command.

Wherein, the first electronic equipment can send the second start-up command at least one the second electronic equipment by the data communication interface passage between the first electronic equipment and the second electronic equipment; Wherein, the second start-up command is the start-up command corresponding to the interface protocol between the first electronic equipment and the second electronic equipment.

Exemplary, as shown in figure 10, electronic equipment A is switching to electronic equipment A after open state by holding state according to the first start-up command, can judge that obtaining electronic equipment A is connected with electronic equipment C with electronic equipment B by data communication interface passage, electronic equipment A can generate the second start-up command (corresponding to this electronic equipment A and and electronic equipment B between the start-up command of interface protocol), and send this second start-up command to electronic equipment B, so that electronic equipment B switches to open state by electronic equipment B by holding state according to start-up command; Electronic equipment A can generate the second start-up command (corresponding to this electronic equipment A and and electronic equipment C between the start-up command of interface protocol), and send this second start-up command to electronic equipment C, so that electronic equipment C switches to open state by electronic equipment C by holding state according to start-up command.Wherein, electronic equipment B is switching to electronic equipment B after open state by holding state according to the second start-up command, judgement obtains electronic equipment B by data communication interface passage and electronic equipment D, electronic equipment B can generate the second start-up command (corresponding to this electronic equipment B and and electronic equipment D between the start-up command of interface protocol), and send this second start-up command to electronic equipment D; And electronic equipment C is switching after himself state, can judge that obtaining electronic equipment C is not connected with other electronic equipments except electronic equipment A, therefore, electronic equipment C does not generate corresponding the second start-up command, does not send corresponding the second start-up command to other electronic equipments; Electronic equipment D is switching after himself state, can judge that obtaining electronic equipment D is not connected with other electronic equipments except electronic equipment B, therefore, electronic equipment D does not generate corresponding the second start-up command, does not send corresponding the second start-up command to other electronic equipments.

It should be noted that, due to the data-interface agreement difference between different electronic equipments, therefore the start-up command of transmitting between different electronic equipments is different, the first start-up command is different with the second start-up command, as shown in figure 10, the start-up command that electronic equipment A is sent to electronic equipment B is different from electronic equipment A and is sent to the start-up command of electronic equipment C; The start-up command that electronic equipment B is sent to electronic equipment C is different from electronic equipment D and is sent to start-up command of electronic equipment B etc.

The state switching method based on interconnect electronic devices that the embodiment of the present invention provides, the first electronic equipment obtains the first start-up command, and according to the first start-up command, the first electronic equipment is switched to open state, then judge according to the data communication interface passage between the first electronic equipment and the second electronic equipment whether the first electronic equipment is connected with the second electronic equipment, if the first electronic equipment is connected with the second electronic equipment, the first electronic equipment generates the second start-up command, and send the second start-up command to the second electronic equipment, so that the second electronic equipment switches to open state by the second electronic equipment by holding state according to the second start-up command.With user in prior art control one by one interconnection each electronic equipment state switch compared with, because electronic equipment is receiving after start-up command or standby command, not only can switch the state of electronic equipment, can also send start-up command or standby command to other electronic equipments, switch with the state of controlling other electronic equipments, therefore, can simplify the operation of user in interconnect equipment stateful switchover process, experience thereby can improve user.

Embodiment 2

The embodiment of the present invention provides a kind of state switching method based on interconnect electronic devices, as shown in Figure 2, comprising:

201, the first electronic equipment receives the first standby command.

Concrete, the first electronic equipment receives the first standby command and can comprise: the first electronic equipment receives the first standby command from control end, and the first standby command is the standby command corresponding to the interface protocol between the first electronic equipment and control end; Or, the first electronic equipment receives the first standby command from the 3rd electronic equipment by the data communication interface passage between the first electronic equipment and the 3rd electronic equipment, and the first standby command is the standby command corresponding to the interface protocol between the first electronic equipment and the 3rd electronic equipment.

202, the first electronic equipment judges whether the first electronic equipment is connected with the second electronic equipment by data communication interface passage.

Wherein, between the first electronic equipment and the second electronic equipment, be connected by data communication interface Path Setup, the first electronic equipment is connected with at least one second electronic equipment by data communication interface passage.

If 203 first electronic equipments are connected with the second electronic equipment, the first electronic equipment generates the second standby command, and send the second standby command to the second electronic equipment, so that the second electronic equipment switches to holding state by the second electronic equipment by open state according to the second standby command.

It should be noted that, in the present embodiment, the first electronic equipment and the second electronic equipment are all in open state.The method that switches to open state by holding state from the electronic equipment in embodiment 1 is different: because electronic equipment only can send instruction message to other electronic equipments under open state, therefore, in the present embodiment, the first electronic equipment is receiving after the first standby command, first judge whether the first electronic equipment is connected with the second electronic equipment, if the first electronic equipment is connected with the second electronic equipment, the first electronic equipment generates the second standby command, and send the second standby command to the second electronic equipment, and then according to the first standby command, the first electronic equipment is switched to holding state by open state.

204, the first electronic equipment switches to holding state by the first electronic equipment by open state according to the first standby command.

Further, before the first electronic equipment being switched to holding state by open state at the first electronic equipment according to the first standby command, the first electronic equipment can judge the service condition that the first electronic equipment is current, if whether moving business on the first electronic equipment, the first electronic equipment switches to holding state by the first electronic equipment by open state according to the first standby command again.

Concrete, if the first standby command is the first electronic equipment to be received from the second electronic equipment by data communication interface passage, the method for the embodiment of the present invention can also comprise: the first electronic equipment judges on the first electronic equipment, whether to move business.Accordingly, the first electronic equipment switches to described holding state by the first electronic equipment by described open state according to the first standby command, specifically comprise: if current off-duty business on the first electronic equipment, the first electronic equipment switches to holding state by the first electronic equipment by open state according to the first standby command; If moving business on the first electronic equipment, the first electronic equipment keeps open state.

It should be noted that, the standby command (the first standby command and the second standby command) in the embodiment of the present invention can be a kind of indication signaling that for triggering electronic equipment, this electronic equipment is switched to holding state by open state.

The state switching method based on interconnect electronic devices that the embodiment of the present invention provides, the first electronic equipment receives the first standby command, then judges according to the data communication interface passage between the first electronic equipment and the second electronic equipment whether the first electronic equipment is connected with the second electronic equipment; If the first electronic equipment is connected with the second electronic equipment, the first electronic equipment generates the second standby command, and send the second standby command to the second electronic equipment, so that the second electronic equipment switches to holding state by the second electronic equipment by open state according to the second standby command, last the first electronic equipment switches to holding state by the first electronic equipment by open state according to the first standby command.In prior art, user controls one by one the state switching of each electronic equipment of interconnection and compares, because the first electronic equipment is receiving after standby command, not only can switch the state of the first electronic equipment, can also send standby command to the second electronic equipment, switch with the state of controlling the second electronic equipment, therefore, can simplify the operation of user in interconnect equipment stateful switchover process, experience thereby can improve user.

Embodiment 3

The embodiment of the present invention provides a kind of state switching method based on interconnect electronic devices, as shown in Figure 3, comprising:

301, the first electronic equipment receives the first standby command.

Concrete, because receiving standby command, the first electronic equipment can comprise: the first electronic equipment receives the first standby command from control end; Or the first electronic equipment receives the first standby command from the 3rd electronic equipment by the data communication interface passage between the first electronic equipment and the 3rd electronic equipment.Therefore, as shown in Figure 3, step 301 specifically can comprise: step 301a; Or as shown in Figure 4, step 301 specifically can comprise: step 301b:

301a, the first electronic equipment receive the first standby command from control end.

Concrete, the first standby command is the standby command corresponding to the interface protocol between the first electronic equipment and control end.User can select one to be easy to the electronic equipment of controlling in the electronic equipment of the state switched system based on interconnect electronic devices, directly use the state of this electronic equipment of control end control of this electronic equipment to switch, and then switch by the state of other electronic equipments of data communication interface passage control between electronic equipment.As shown in figure 10, if user selects the state of directly controlling electronic equipment A by the control end of electronic equipment A to switch, electronic equipment A can receive the first standby command from control end, and the first standby command is the standby command corresponding to the interface protocol between electronic equipment A and the control end of electronic equipment A.

301b, the first electronic equipment receive the first standby command from the 3rd electronic equipment by the data communication interface passage between the first electronic equipment and the 3rd electronic equipment.

Concrete, the first standby command is the standby command corresponding to the interface protocol between the first electronic equipment and the 3rd electronic equipment.

For example, electronic equipment B can receive the first standby command from electronic equipment A, and the first standby command is the standby command corresponding to the interface protocol between electronic equipment A and electronic equipment B; Electronic equipment C can receive the first standby command from electronic equipment A, and the first standby command is the standby command corresponding to the interface protocol between electronic equipment A and electronic equipment C.

Concrete, the first standby command from the 3rd electronic equipment that the first electronic equipment receives by the data communication interface passage between the first electronic equipment and the 3rd electronic equipment, can be to send after the 3rd electronic equipment receives the standby command (corresponding to the standby command of the interface protocol between the 3rd electronic equipment and other electronic equipments) from other electronic equipments by the data communication interface passage between the 3rd electronic equipment and other electronic equipments, can be also to send after the 3rd electronic equipment receives the first standby command from control end.As shown in figure 10, electronic equipment B and electronic equipment C can receive the first start-up command from electronic equipment A, and electronic equipment D can receive the first start-up command from electronic equipment B.

302, the first electronic equipment judges whether the first electronic equipment is connected with the second electronic equipment by data communication interface passage.

Concrete, if the first electronic equipment is connected with the second electronic equipment, perform step 303; If the first electronic equipment is not connected with the second electronic equipment, and standby command is that the first electronic equipment is received from control end, as shown in Figure 3, directly performs step 305.If the first electronic equipment is not connected with the second electronic equipment, and when the first standby command is the first electronic equipment by the data communication interface passage reception between the first electronic equipment and the 3rd electronic equipment from the standby command of the 3rd electronic equipment, as shown in Figure 4, perform step 304.

303, the first electronic equipment generates the second standby command, and sends the second standby command to the second electronic equipment, so that the second electronic equipment switches to holding state by the second electronic equipment by open state according to the second standby command.

Exemplary, as shown in figure 10, electronic equipment A is receiving after the first standby command, can judge that obtaining electronic equipment A is connected with electronic equipment C with electronic equipment B by data communication interface passage, electronic equipment A can generate the second standby command (corresponding to the standby command of the interface protocol between electronic equipment A and electronic equipment B), and send this second standby command to electronic equipment B, so that electronic equipment B switches to holding state by electronic equipment B by open state according to this second standby command; Electronic equipment A can generate the second standby command (corresponding to the standby command of the interface protocol between electronic equipment A and electronic equipment C), and send this second standby command to electronic equipment C, so that electronic equipment C switches to holding state by electronic equipment C by open state according to this second standby command.Wherein, electronic equipment B is after the second standby command receiving from electronic equipment A, can judge and obtain electronic equipment B by data communication interface passage and electronic equipment D, electronic equipment B can generate the second standby command (corresponding to the standby command of the interface protocol between electronic equipment B and electronic equipment D), and sends this second standby command to electronic equipment D; And electronic equipment C is after the standby command receiving from electronic equipment A, can judge that obtaining electronic equipment C is not connected with other electronic equipments except electronic equipment A, therefore, electronic equipment C does not generate the second standby command, does not send standby the second instruction to other electronic equipments; Electronic equipment D is after the standby command from electronic equipment B, can judge that obtaining electronic equipment D is not connected with other electronic equipments except electronic equipment B, therefore, electronic equipment D does not generate the second standby command, does not send standby command to other electronic equipments.

It should be noted that, be received from control end if the first standby command is the first electronic equipment, corresponding with step 301a, as shown in Figure 3, directly perform step 305; Receive from the 3rd electronic equipment if the first standby command is the first electronic equipment by data communication interface passage, corresponding with step 301b, as shown in Figure 4, in order to ensure by interconnective each electronic equipment of data communication interface passage switching in the state procedure of electronic equipment according to command information, the normal operation of the business on each electronic equipment, the method for the embodiment of the present invention can also comprise step 304:

304, the first electronic equipment judges on the first electronic equipment, whether to move business.

Further, if current off-duty business on the first electronic equipment performs step 305; If moving business on the first electronic equipment, performing step 306.

It should be noted that, the business that in the embodiment of the present invention, the first electronic equipment of the first electronic equipment judgement is moving can comprise all business that can move on the first electronic equipment.

305, the first electronic equipment switches to holding state by the first electronic equipment by open state according to the first standby command.

306, the first electronic equipment keeps open state.

Concrete, because an electronic equipment is connected with at least one other electronic equipment by data communication interface passage, as shown in figure 10, electronic equipment A is connected with electronic equipment B, electronic equipment C respectively by data communication interface passage, therefore, if electronic equipment A receives after the first standby command from electronic equipment B, electronic equipment A can determine that electronic equipment A can stop the service interaction between electronic equipment A and electronic equipment B, but due to electronic equipment A may and electronic equipment C between there is service interaction.Therefore, electronic equipment A can continue to keep open state.

It should be noted that, due to the data-interface agreement difference between different electronic equipments, therefore the standby command transmitting between different electronic equipments is different, the first start-up command is different with the second start-up command, as shown in figure 10, the standby command that electronic equipment A is sent to electronic equipment B is different from electronic equipment A and is sent to the standby command of electronic equipment C; The standby command that electronic equipment B is sent to electronic equipment C is different from electronic equipment D and is sent to standby command of electronic equipment B etc.

Embodiment 4

The embodiment of the present invention provides a kind of electronic equipment, as shown in Figure 5, comprising: switch unit 41 judging units 42, transmitting element 43.

Switch unit 41, for obtaining the first start-up command, and switches to open state by described electronic equipment by current state according to described the first start-up command, and described current state comprises: holding state or off-mode.

Judging unit 42, for judging whether described electronic equipment is connected with the second electronic equipment by data communication interface passage.

Transmitting element 43, if judge that for described judging unit 42 described electronic equipment is connected with described the second electronic equipment, generate the second start-up command, and send described the second start-up command to described the second electronic equipment, so that described the second electronic equipment switches to described open state by described the second electronic equipment by described holding state according to described the second start-up command.

Further, in a kind of application scenarios of the present embodiment, described switch unit 41, comprising: the first receiver module 411, the first handover module 412.

The first receiver module 411, for receiving described the first start-up command from control end, described the first start-up command is the start-up command corresponding to the interface protocol between described electronic equipment and described control end.

The first handover module 412, switches to described open state by described electronic equipment by described holding state for described the first start-up command receiving according to described the first receiver module 411.

Further, in the another kind of application scenarios of the present embodiment, described switch unit 41, comprising: the second receiver module 413, the second handover module 414.

The second receiver module 413, receive the described start-up command from described the 3rd electronic equipment for the data communication interface passage by between described the first electronic equipment and the 3rd electronic equipment, described the first start-up command is the start-up command corresponding to the interface protocol between described the first electronic equipment and described the 3rd electronic equipment.

The second handover module 414, switches to described open state by described the first electronic equipment by described holding state for described the first start-up command receiving according to described the second receiver module 413.

Further, in the another kind of application scenarios of the present embodiment, described switch unit 41, comprising: generation module 415, the 3rd handover module 416.

Generation module 415, for the triggering in response to user, generates described the first start-up command.

The 3rd handover module 416, switches to described open state by described the first electronic equipment by off-mode for described the first start-up command generating according to described generation module 415.

Further, described transmitting element 43, also for sending described the second start-up command to the second electronic equipment described at least one by the data communication interface passage between described electronic equipment and described the second electronic equipment.

It should be noted that, the corresponding content of the specific descriptions of part functional module in can reference method embodiment in the electronic equipment that the embodiment of the present invention provides, the present embodiment is no longer described in detail here.

The electronic equipment that the embodiment of the present invention provides, can obtain the first start-up command, and according to the first start-up command, electronic equipment is switched to open state, then judge according to the data communication interface passage between electronic equipment and the second electronic equipment whether electronic equipment is connected with the second electronic equipment, if electronic equipment is connected with the second electronic equipment, generate the second start-up command, and send the second start-up command to the second electronic equipment, so that the second electronic equipment switches to open state by the second electronic equipment by holding state according to the second start-up command.In prior art, user controls one by one the state switching of each electronic equipment of interconnection and compares, because electronic equipment is receiving after start-up command or standby command, not only can switch the state of electronic equipment, can also send start-up command or standby command to other electronic equipments, switch with the state of controlling other electronic equipments, therefore, can simplify the operation of user in interconnect equipment stateful switchover process, experience thereby can improve user.

Embodiment 5

The embodiment of the present invention provides a kind of electronic equipment, as shown in Figure 6, comprising: receiving element 51, the first judging unit 52, transmitting element 53, switch unit 54.

Receiving element 51, for receiving the first standby command.

The first judging unit 52, for judging whether described electronic equipment is connected with the second electronic equipment by data communication interface passage.

Transmitting element 53, if judge that for described the first judging unit 52 described electronic equipment is connected with described the second electronic equipment, generate the second standby command, and send described the second standby command to described the second electronic equipment, so that described the second electronic equipment switches to holding state by described the second electronic equipment by open state according to described the second standby command.

Switch unit 54, switches to described holding state by described electronic equipment by described open state for described the first standby command receiving according to described receiving element 51.

Further, in a kind of application scenarios of the present embodiment, described receiving element 51, also, for receiving described the first standby command from control end, described the first standby command is the standby command corresponding to the interface protocol between described electronic equipment and described control end.

In the another kind of application scenarios of the present embodiment, described receiving element 51, also receive described the first standby command from described the 3rd electronic equipment for the data communication interface passage by between described electronic equipment and the 3rd electronic equipment, described the first standby command is the standby command corresponding to the interface protocol between described electronic equipment and described the 3rd electronic equipment.

Further, described transmitting element 53, also for sending described the second standby command to the second electronic equipment described at least one by the data communication interface passage between described electronic equipment and described the second electronic equipment.

Further, as shown in Figure 7, described electronic equipment, can also comprise: the second judging unit 55.

The second judging unit 55, if be that described receiving element receives the standby command from described the 3rd electronic equipment by the data communication interface passage between described the first electronic equipment and described the 3rd electronic equipment for described the first standby command, before described electronic equipment being switched to described holding state by described open state at described switch unit 54 according to described the first standby command, judge on described electronic equipment, whether to move business.

Further, described switch unit 54, comprising: handover module 541, maintenance module 542.

Handover module 541, if judge on described electronic equipment business described in current off-duty for described the second judging unit 55, switches to described holding state by described electronic equipment by described open state according to described the first standby command.

Keep module 542, if judge on described electronic equipment and moving described business for described the second judging unit 55, keep described open state.

The electronic equipment that the embodiment of the present invention provides, can receive the first standby command, then judges according to the data communication interface passage between electronic equipment and the second electronic equipment whether electronic equipment is connected with the second electronic equipment; If electronic equipment is connected with the second electronic equipment, electronic equipment generates the second standby command, and send the second standby command to the second electronic equipment, so that the second electronic equipment switches to holding state by the second electronic equipment by open state according to the second standby command, last electronic equipment switches to holding state by the first electronic equipment by open state according to the first standby command.In prior art, user controls one by one the state switching of each electronic equipment of interconnection and compares, because electronic equipment is receiving after standby command, not only can switch the state of electronic equipment, can also send standby command to other electronic equipments, switch with the state of controlling other electronic equipments, therefore, can simplify the operation of user in interconnect equipment stateful switchover process, experience thereby can improve user.

Embodiment 6

The embodiment of the present invention provides a kind of electronic equipment, as shown in Figure 8, comprising: processor 61, transmitter 62.

Processor 61, for obtaining the first start-up command, and has current state to switch to open state described electronic equipment according to described the first start-up command, and described current state comprises: holding state or off-mode; Judge whether described electronic equipment is connected with the second electronic equipment by data communication interface passage.

Transmitter 62, if judge that for described processor 61 described electronic equipment is connected with described the second electronic equipment, generate the second start-up command, and send described the second start-up command to described the second electronic equipment, so that described the second electronic equipment switches to described open state by described the second electronic equipment by holding state according to described the second start-up command.

Further, described electronic equipment, comprising: receiver 63, for receiving described the first start-up command from control end, described the first start-up command is the start-up command corresponding to the interface protocol between described electronic equipment and described control end.

Described processor 61, also switches to described open state by described electronic equipment by described holding state for described the first start-up command receiving according to described receiver 63.

Further, in the another kind of application scenarios of the present embodiment, described receiver 61, also receive the described start-up command from described the 3rd electronic equipment for the data communication interface passage by between described the first electronic equipment and the 3rd electronic equipment, described the first start-up command is the start-up command corresponding to the interface protocol between described the first electronic equipment and described the 3rd electronic equipment.

Further, in the another kind of application scenarios of the present embodiment, described processor 62, also for the triggering in response to user, generates described the first start-up command; According to described the first start-up command, described electronic equipment is switched to described open state by off-mode.

Further, described transmitter 62, also for sending described the second start-up command to the second electronic equipment described at least one by the data communication interface passage between described electronic equipment and described the second electronic equipment.

Embodiment 7

The embodiment of the present invention provides a kind of electronic equipment, as shown in Figure 9, comprising: receiver 71, processor 72, transmitter 73.

Receiver 71, for receiving the first standby command.

Processor 72, for judging whether described electronic equipment is connected with the second electronic equipment by data communication interface passage.

Transmitter 73, if judge that for described processor 72 described electronic equipment is connected with described the second electronic equipment, generate the second standby command, and send described the second standby command to described the second electronic equipment, so that described the second electronic equipment switches to holding state by described the second electronic equipment by open state according to described the second standby command.

Described processor 72, also switches to described holding state by described electronic equipment by described open state for described the first standby command receiving according to described receiver 71.

Further, in a kind of application scenarios of the present embodiment, described receiver 71, also, for receiving described the first standby command from control end, described the first standby command is the standby command corresponding to the interface protocol between described electronic equipment and described control end.

In the another kind of application scenarios of the present embodiment, described receiver 71, also receive described the first standby command from described the 3rd electronic equipment for the data communication interface passage by between described electronic equipment and the 3rd electronic equipment, described the first standby command is the standby command corresponding to the interface protocol between described electronic equipment and described the 3rd electronic equipment.

Further, described transmitter 73, also for sending described the second standby command to the second electronic equipment described at least one by the data communication interface passage between described electronic equipment and described the second electronic equipment.

Further, described processor 72, if be also that described receiving element receives the standby command from described the 3rd electronic equipment by the data communication interface passage between described the first electronic equipment and described the 3rd electronic equipment for described the first standby command, before described electronic equipment being switched to described holding state by described open state according to described the first standby command, judge on described electronic equipment, whether to move business.

Further, described processor 72, if also for business described in current off-duty on described electronic equipment, switch to described holding state by described electronic equipment by described open state according to described the first standby command; If moving described business on described electronic equipment, keeping described open state.

The electronic equipment that the embodiment of the present invention provides, can receive the first standby command, then judges according to the data communication interface passage between electronic equipment and the second electronic equipment whether electronic equipment is connected with the second electronic equipment; If electronic equipment is connected with the second electronic equipment, generate the second standby command, and send the second standby command to the second electronic equipment, so that the second electronic equipment switches to holding state by the second electronic equipment by open state according to the second standby command, finally according to the first standby command, electronic equipment is switched to holding state by open state.In prior art, user controls one by one the state switching of each electronic equipment of interconnection and compares, because electronic equipment is receiving after standby command, not only can switch the state of electronic equipment, can also send standby command to other electronic equipments, switch with the state of controlling other electronic equipments, therefore, can simplify the operation of user in interconnect equipment stateful switchover process, experience thereby can improve user.

Embodiment 8

The embodiment of the present invention provides a kind of state switched system based on interconnect electronic devices, as shown in figure 10, comprising: at least two electronic equipments 81.

Described electronic equipment 81, for obtaining the first start-up command, and switches to open state according to described the first start-up command by described electronic equipment; Judge whether described electronic equipment is connected with the second electronic equipment by data communication interface passage; If described electronic equipment is connected with described the second electronic equipment, generate the second start-up command, and send described the second start-up command to described the second electronic equipment, so that described the second electronic equipment switches to described open state by described the second electronic equipment by holding state according to described the second start-up command.

Or,

Described electronic equipment 81, receives the first standby command; Judge whether described electronic equipment is connected with the second electronic equipment by data communication interface passage; If described electronic equipment is connected with described the second electronic equipment, generate the second standby command, and send described the second standby command to described the second electronic equipment, so that described the second electronic equipment switches to holding state by described the second electronic equipment by open state according to described the second standby command; According to described the first standby command, described electronic equipment is switched to described holding state by described open state.

It should be noted that, the present invention be the specific descriptions of electronic equipment in the state switched system based on interconnect electronic devices that provides of example can reference method embodiment or other devices embodiment in corresponding content, the present embodiment is no longer described in detail here.

The state switched system based on interconnect electronic devices that the embodiment of the present invention provides, electronic equipment can receive the first standby command, then judges according to the data communication interface passage between electronic equipment and the second electronic equipment whether electronic equipment is connected with the second electronic equipment; If electronic equipment is connected with the second electronic equipment, electronic equipment generates the second standby command, and send the second standby command to the second electronic equipment, so that the second electronic equipment switches to holding state by the second electronic equipment by open state according to the second standby command, last electronic equipment switches to holding state by the first electronic equipment by open state according to the first standby command.In prior art, user controls one by one the state switching of each electronic equipment of interconnection and compares, because electronic equipment is receiving after start-up command or standby command, not only can switch the state of electronic equipment, can also send start-up command or standby command to other electronic equipments, switch with the state of controlling other electronic equipments, therefore, can simplify the operation of user in interconnect equipment stateful switchover process, experience thereby can improve user.

Through the above description of the embodiments, those skilled in the art can be well understood to, for convenience and simplicity of description, only be illustrated with the division of above-mentioned each functional module, in practical application, can above-mentioned functions be distributed and completed by different functional modules as required, be divided into different functional modules by the inner structure of device, to complete all or part of function described above.The system of foregoing description, the specific works process of device and unit, can, with reference to the corresponding process in preceding method embodiment, not repeat them here.

In the several embodiment that provide in the application, should be understood that, disclosed system, apparatus and method, can realize by another way.For example, device embodiment described above is only schematic, for example, the division of described module or unit, be only that a kind of logic function is divided, when actual realization, can have other dividing mode, for example multiple unit or assembly can in conjunction with or can be integrated into another system, or some features can ignore, or do not carry out.Another point, shown or discussed coupling each other or direct-coupling or communication connection can be by some interfaces, indirect coupling or the communication connection of device or unit can be electrically, machinery or other form.

The described unit as separating component explanation can or can not be also physically to separate, and the parts that show as unit can be or can not be also physical locations, can be positioned at a place, or also can be distributed in multiple network element.Can select according to the actual needs some or all of unit wherein to realize the object of the present embodiment scheme.

In addition, the each functional unit in each embodiment of the present invention can be integrated in a processing unit, can be also that the independent physics of unit exists, and also can be integrated in a unit two or more unit.Above-mentioned integrated unit both can adopt the form of hardware to realize, and also can adopt the form of SFU software functional unit to realize.

If described integrated unit is realized and during as production marketing independently or use, can be stored in a computer read/write memory medium using the form of SFU software functional unit.Based on such understanding, the all or part of of the part that technical scheme of the present invention contributes to prior art in essence in other words or this technical scheme can embody with the form of software product, this computer software product is stored in a storage medium, comprise that some instructions (can be personal computers in order to make a computer equipment, server, or the network equipment etc.) or processor (processor) carry out all or part of step of method described in each embodiment of the present invention.And aforesaid storage medium comprises: USB flash disk, portable hard drive, ROM (read-only memory) (ROM, Read-Only Memory), the various media that can be program code stored such as random access memory (RAM, Random Access Memory), magnetic disc or CD.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited to this, any be familiar with those skilled in the art the present invention disclose technical scope in; can expect easily changing or replacing, within all should being encompassed in protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of described claim.

Claims

1. the state switching method based on interconnect electronic devices, is characterized in that, comprising:

The first electronic equipment obtains the first start-up command, and according to described the first start-up command, described the first electronic equipment is switched to open state by current state, and described current state comprises: holding state or off-mode;

2. the state switching method based on interconnect electronic devices according to claim 1, is characterized in that, described the first electronic equipment obtains start-up command, and according to described start-up command, described the first electronic equipment is switched to open state by current state, comprising:

Or,

3. the state switching method based on interconnect electronic devices according to claim 1, is characterized in that, described the first electronic equipment sends described the second start-up command to described the second electronic equipment, comprising:

4. the state switching method based on interconnect electronic devices, is characterized in that, comprising:

The first electronic equipment receives the first standby command;

5. the state switching method based on interconnect electronic devices according to claim 4, is characterized in that, described the first electronic equipment receives the first standby command, comprising:

Or,

6. the state switching method based on interconnect electronic devices according to claim 4, is characterized in that, described the first electronic equipment sends described the second standby command to described the second electronic equipment, comprising:

7. the state switching method based on interconnect electronic devices according to claim 4, it is characterized in that, if being described the first electronic equipment, described the first standby command receives the standby command from described the 3rd electronic equipment by the data communication interface passage between described the first electronic equipment and described the 3rd electronic equipment, before described the first electronic equipment being switched to described holding state by described open state at described the first electronic equipment according to described the first standby command, described method also comprises:

8. the state switching method based on interconnect electronic devices according to claim 7, is characterized in that, described the first electronic equipment switches to described holding state by described the first electronic equipment by described open state according to described the first standby command, comprising:

9. an electronic equipment, is characterized in that, comprising:

Transmitting element, if judge that for described judging unit described electronic equipment is connected with described the second electronic equipment, generate the second start-up command, and send described the second start-up command to described the second electronic equipment, so that described the second electronic equipment switches to described open state by described the second electronic equipment by described holding state according to described the second start-up command.

10. electronic equipment according to claim 9, is characterized in that, described switch unit, comprising:

Or,

Described switch unit, comprising:

Or,

Described switch unit, comprising:

The 3rd handover module, switches to described open state by described electronic equipment by off-mode for described the first start-up command generating according to described generation module.

11. electronic equipments according to claim 9, it is characterized in that, described transmitting element, also for sending described the second start-up command to the second electronic equipment described at least one by the data communication interface passage between described electronic equipment and described the second electronic equipment;

12. 1 kinds of electronic equipments, is characterized in that, comprising:

Receiving element, for receiving the first standby command;

Transmitting element, if judge that for described the first judging unit described electronic equipment is connected with described the second electronic equipment, generate the second standby command, and send described the second standby command to described the second electronic equipment, so that described the second electronic equipment switches to holding state by described the second electronic equipment by open state according to described the second standby command;

Switch unit, switches to described holding state by described electronic equipment by described open state for described the first standby command receiving according to described receiving element.

13. electronic equipments according to claim 12, it is characterized in that, described receiving element, also, for receiving described the first standby command from control end, described the first standby command is the standby command corresponding to the interface protocol between described electronic equipment and described control end;

Or,

14. electronic equipments according to claim 12, it is characterized in that, described transmitting element, also for sending described the second standby command to the second electronic equipment described at least one by the data communication interface passage between described electronic equipment and described the second electronic equipment;

15. electronic equipments according to claim 12, is characterized in that, also comprise:

16. electronic equipments according to claim 15, is characterized in that, described switch unit, comprising:

Handover module, if judge on described electronic equipment business described in current off-duty for described the second judging unit, switches to described holding state by described electronic equipment by described open state according to described the first standby command;

Keep module, if judge on described electronic equipment and moving described business for described the second judging unit, keep described open state.