CN104080195A - Multi-system all-in-one machine networking method and multi-system all-in-one machine - Google Patents
Multi-system all-in-one machine networking method and multi-system all-in-one machine Download PDFInfo
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Abstract
The invention provides a multi-system all-in-one machine networking method and a multi-system all-in-one machine. The system module is not required to be manually set, for the started system module, when any system module is connected with the wireless network, other system modules can also be automatically connected with the network, and for the shutdown system module, when the shutdown system module enters a starting state, the system module can be automatically connected with the wireless network after sending a connection request.
Description
Technical field
The present invention relates to multisystem all-in-one technical field, particularly relate to multisystem all-in-one networking method and multisystem all-in-one.
Background technology
Multisystem all-in-one is integrated a plurality of system modules, for example Android module and Windows module, separate between modules, generally by MCU (Micro Control Unit, micro-control unit), connects.
At present, if after some module connecting wireless networks, if another module is wanted interconnection network, also need to switch to another module, then reselect wireless network, and wireless cipher is set.If need to change other wireless signal, need first in a module, to change wireless signal therein, and then be switched in another one module and change wireless signal.When some modules are not started shooting, if want to arrange the wireless network of this module, after needing first to wait until this module start, then wireless network is manually set.
So each networking or carry out wireless network while switching, all need each system module in multisystem all-in-one to carry out wireless network setting, expend a large amount of time and efforts, if there is certain module shutdown in multi-system module, after also needing to wait for its start, its wireless network could be manually set, need a large amount of stand-by period.Obviously, cannot efficiently, automatically control like this networking situation of modules in all-in-one, also cannot meet the networking requirement of other-end outside all-in-one.
Summary of the invention
Based on this, be necessary cannot efficiently, automatically control the problem of the networking situation of modules in all-in-one for existing multisystem all-in-one networking method, a kind of networking situation that can efficiently, automatically control modules in all-in-one is provided.
A multisystem all-in-one networking method, comprises step:
The first system module connecting wireless network in all-in-one;
Described the first system module is obtained the configuration information of described wireless network;
Detecting second system module in all-in-one is open state or is off-mode;
When described second system module is off-mode, and when a certain moment, described second system module entered open state, described second system module generates and sends connecting wireless network request to described the first system module, described the first system module is according to described connecting wireless network request, send the configuration information of wireless network to described second system module, described second system module, according to the configuration information of described wireless network, connects described wireless network.
A multisystem all-in-one, comprises the first system module, second system module and MCU, and described MCU is connected with described the first system module and described second system module respectively;
Described the first system module connecting wireless network, and obtain the configuration information of described wireless network, described MCU detection second system module is open state or is off-mode, when described second system module is open state, described MCU is sent to described second system module by the configuration information of described wireless network, described second system module is according to the configuration information of described wireless network, connect described wireless network, when described second system module is off-mode, described MCU monitors described second system module, when a certain moment, described second system module entered open state, described second system module generates and sends connecting wireless network request to described MCU, described MCU is forwarded to described the first system module by described connecting wireless network request, described the first system module is according to described connecting wireless network request, send the configuration information of wireless network to described MCU, described MCU is forwarded to described second system module by the configuration information of described wireless network, described second system module is according to the configuration information of described wireless network, connect described wireless network.
Multisystem all-in-one networking method of the present invention and multisystem all-in-one, the first system module connecting wireless network, and obtain the configuration information of wireless network, detecting afterwards second system module in all-in-one is open state or is off-mode, when second system module is off-mode, and when a certain moment, second system module entered open state, second system module sends connecting wireless network request to the first system module, the first system module sends the configuration information of wireless network to second system module, and second system module connects described wireless network.Multisystem all-in-one networking method of the present invention is without manual setting, system module for shutdown, when shutdown system module enters open state, can automatically send connecting wireless network after connection request, do not need to wait for after its start, multisystem all-in-one networking method of the present invention wireless connections is set again, so can be controlled the networking situation of modules in all-in-one efficiently, automatically.
Accompanying drawing explanation
Fig. 1 is the schematic flow sheet of first embodiment of multisystem all-in-one networking method of the present invention;
Fig. 2 is the schematic flow sheet of second embodiment of multisystem all-in-one networking method of the present invention;
Fig. 3 is the schematic flow sheet that described second system module is open state connecting wireless network;
Fig. 4 is the schematic flow sheet that described second system module is off-mode connecting wireless network;
Fig. 5 is the structural representation of one of them embodiment of multisystem all-in-one of the present invention.
Embodiment
In order to make object of the present invention, technical scheme and advantage clearer, below with reference to the accompanying drawings and embodiment, the present invention is further elaborated.Should be appreciated that concrete enforcement described herein, only in order to explain the present invention, does not limit the present invention.
As shown in Figure 1, a kind of multisystem all-in-one networking method, comprises step:
S100: the first system module connecting wireless network in all-in-one.
Integrated multiple systems module in all-in-one, for example Android module, Windows module, when having certain system module to connect upper wireless network, defining this system module is the first system module.
S200: described the first system module is obtained the configuration information of described wireless network.
On the first system module connects, during wireless network, this system module can accurately be known the configuration information of current wireless network, and configuration information described here comprises the information such as the SSID of wireless network and password.
S300: detect second system module in all-in-one and be open state or be off-mode.
In all-in-one, not all system module is all in open state sometime, and second system module may be in open state, also may be in off-mode.Due to cannot be directly during in off-mode when system module and external equipment carry out data interaction, to need to detect second system module be here open state or be off-mode, to it is carried out to different operations.Here it should be noted that, order between step S200 and step S300 can be exchanged, can first obtain and detect second system module in all-in-one after the configuration information of wireless network and be open state or be off-mode, or can first to detect in all-in-one second system module be open state or for obtaining the configuration information of wireless network after off-mode.Specifically, can adjust setting according to the needs of operator's needs or applied environment.
S400: when described second system module is off-mode, and when a certain moment, described second system module entered open state, described second system module generates and sends connecting wireless network request to described the first system module, described the first system module is according to described connecting wireless network request, send the configuration information of wireless network to described second system module, described second system module, according to the configuration information of described wireless network, connects described wireless network.
If second system module is off-mode, the first system module cannot send to second system module by the configuration information of current wireless network the very first time, now, the first system module is without waiting for that second system module enters open state and carries out next step operation again, only need to keep oneself state, according to all-in-one control command, complete self task, when second system module enters open state according to all-in-one instruction from off-mode, second system module can generate, and send connecting wireless network request to the first system module, the first system module after receiving this connecting wireless network request can according to this request (connecting wireless network request meeting includes instruction, source address, the data such as destination address) configuration information that sends wireless network is to second system module, second system receives radio network configuration information, self is carried out to radio network configuration, connect current wireless network.
Multisystem all-in-one networking method of the present invention and multisystem all-in-one, the first system module connecting wireless network, and obtain the configuration information of wireless network, detecting afterwards second system module in all-in-one is open state or is off-mode, when second system module is off-mode, and when a certain moment, second system module entered open state, second system module sends connecting wireless network request to the first system module, the first system module sends the configuration information of wireless network to second system module, and second system module connects described wireless network.Multisystem all-in-one networking method of the present invention is without manual setting, for the system module of having started shooting, when in all-in-one, system module connects upper wireless network arbitrarily, other system module of having started shooting is interconnection network automatically also, system module for shutdown, when shutdown system module enters open state, can automatically send connecting wireless network after connection request, do not need to wait for after its start, multisystem all-in-one networking method of the present invention wireless connections is set again, so can be controlled the networking situation of modules in all-in-one efficiently, automatically.
As shown in Figure 2, therein in an embodiment, after described step S300 also in steps:
S320: when described second system module is open state, the configuration information of described wireless network is sent to described second system module, described second system module, according to the configuration information of described wireless network, connects described wireless network.
If second system module is open state, the first system module sends to second system module by the configuration information of current wireless network, second system module, according to the configuration information of wireless network, configures the Wireless Telecom Equipment of self, this wireless network in connection.
Therein in an embodiment, it is described when described second system module is open state, the configuration information of described wireless network is sent to described second system module, and described second system module, according to the configuration information of described wireless network, connects described wireless network and comprises step:
When described second system module is open state, the configuration information that described the first system module sends described wireless network is to the MCU in all-in-one, and wherein, described MCU connects respectively described the first system module and described second system module;
Described MCU sends the configuration information of described wireless network to described second system module;
Described second system module, according to the configuration information of described wireless network, connects described wireless network.
In the present embodiment, in all-in-one, be built-in with MCU, MCU is connected with second system module with the first system module respectively, MCU controls, transmits the transfer of data between the first system module and second system module, coordinate the work of the first system module and second system module, guarantee between the first system module and second system module that transfer of data is stablized, efficient, safety.
Therein in an embodiment, it is described when described second system module is off-mode, and when a certain moment, described second system module entered open state, described second system module generates and sends connecting wireless network request to described the first system module, described the first system module is according to described connecting wireless network request, send the configuration information of wireless network to described second system module, described second system module, according to the configuration information of described wireless network, connects described wireless network and comprises step:
When described second system module is off-mode, MCU in all-in-one monitors described second system module, when a certain moment, described second system module entered open state, described second system module sends connecting wireless network request to described MCU, wherein, described MCU connects respectively described the first system module and described second system module;
Described MCU sends described connecting wireless network request to described the first system module;
Described the first system module, according to described connecting wireless network request, sends the configuration information of wireless network to described MCU;
Described MCU sends the configuration information of described wireless network to described second system module;
Described second system module, according to the configuration information of described wireless network, connects described wireless network.
In the present embodiment, in all-in-one, be built-in with MCU, MCU is connected with second system module with the first system module respectively, MCU controls, transmits the transfer of data between the first system module and second system module, coordinate the work of the first system module and second system module, guarantee between the first system module and second system module that transfer of data is stablized, efficient, safety.
In an embodiment, described the first system module is Android module therein, and described second system module is Windows module.
In an embodiment, described the first system module is Windows module therein, and described second system module is Android module.
In an embodiment, the configuration information of described wireless network comprises SSID and the password of wireless network therein.
The SSID of wireless network and password can accurately and all sidedly represent current wireless network of network configuration information, thereby ready for connecting current wireless network.
In order further to explain in detail multisystem all-in-one networking method technical scheme of the present invention and the beneficial effect bringing thereof, below, will in conjunction with Fig. 2, Fig. 3, explain with example.
In this specific embodiment, suppose that the first system module is Android module, second system module is Windows module.
When on Android module connects, wireless network and Android module and Windows module are all open state, as shown in Figure 3:
1, Android module is opened wireless setting, connecting wireless network.
2, Android module is obtained SSID and the password of current wireless network, and the SSID of current wireless network and password are sent to MCU.
3, MCU forwards it to Windows module after the data that receive from Android module.
4, Windows module receives SSID and the password of current wireless network, configures self wireless setting, connects wireless network.
On Android module connects, wireless network and Android module are open state, when Windows module is off-mode, as shown in Figure 4:
1, Android module is opened wireless setting, connecting wireless network.
When 2, Windows module enters open state by off-mode, its backstage sends connecting wireless network request to MCU.
3, MCU is forwarded to Android module after the wireless network connection request receiving from Windows module.
4, Android module, after receiving wireless network connection request, is obtained SSID and the password of current wireless network, and sends the SSID of current wireless network and password to MCU.
5, MCU is sent to Windows module by the SSID of current wireless network and password.
6, Windows module receives SSID and the password of current wireless network, configures self wireless setting, connects wireless network.
As shown in Figure 5, a kind of multisystem all-in-one, comprises the first system module 100, second system module 200 and MCU300, and described MCU300 is connected with described the first system module 100 and described second system module 200 respectively;
Described the first system module 100 connecting wireless networks, and obtain the configuration information of described wireless network, described MCU300 detection second system module 200 is open state or is off-mode, when described second system module 200 is open state, described MCU300 is sent to described second system module 200 by the configuration information of described wireless network, described second system module 200 is according to the configuration information of described wireless network, connect described wireless network, when described second system module 200 is off-mode, described MCU300 monitors described second system module 200, when a certain moment, described second system module 200 entered open state, described second system module 200 generates and sends connecting wireless network request to described MCU300, described MCU300 is forwarded to described the first system module 100 by described connecting wireless network request, described the first system module 100 is according to described connecting wireless network request, send the configuration information of wireless network to described MCU300, described MCU300 is forwarded to second system module 200 by the configuration information of described wireless network, described second system module 200 is according to the configuration information of described wireless network, connect described wireless network.
Multisystem all-in-one of the present invention comprises the first system module, second system module and MCU, the first system module connecting wireless network, and obtain the configuration information of wireless network, detecting afterwards second system module in all-in-one is open state or is off-mode, when second system module is off-mode, monitoring second system module, when a certain moment, second system module entered open state, second system module sends connecting wireless network request to the first system module, the first system module sends the configuration information of wireless network to second system module, second system module connects described wireless network.Multisystem all-in-one networking method of the present invention is without manual setting, for the system module of having started shooting, when in all-in-one, system module connects upper wireless network arbitrarily, other system module of having started shooting is interconnection network automatically also, for the system module of shutdown, when shutdown system module enters open state, can automatically send connecting wireless network after connection request, do not need to wait for after its start, then wireless connections are set.
In an embodiment, the configuration information of described wireless network comprises SSID and the password of wireless network therein.
The above embodiment has only expressed several execution mode of the present invention, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the scope of the claims of the present invention.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection range of patent of the present invention should be as the criterion with claims.
Claims (9)
1. a multisystem all-in-one networking method, is characterized in that, comprises step:
The first system module connecting wireless network in all-in-one;
Described the first system module is obtained the configuration information of described wireless network;
Detecting second system module in all-in-one is open state or is off-mode;
When described second system module is off-mode, and when a certain moment, described second system module entered open state, described second system module generates and sends connecting wireless network request to described the first system module, described the first system module is according to described connecting wireless network request, send the configuration information of wireless network to described second system module, described second system module, according to the configuration information of described wireless network, connects described wireless network.
2. multisystem all-in-one networking method according to claim 1, is characterized in that, in described detection all-in-one second system module be open state or for after off-mode also in steps:
When described second system module is open state, the configuration information of described wireless network is sent to described second system module, described second system module, according to the configuration information of described wireless network, connects described wireless network.
3. multisystem all-in-one networking method according to claim 2, it is characterized in that, it is described when described second system module is open state, the configuration information of described wireless network is sent to described second system module, described second system module, according to the configuration information of described wireless network, connects described wireless network and comprises step:
When described second system module is open state, the configuration information that described the first system module sends described wireless network is to the MCU in all-in-one, and wherein, described MCU connects respectively described the first system module and described second system module;
Described MCU sends the configuration information of described wireless network to described second system module;
Described second system module, according to the configuration information of described wireless network, connects described wireless network.
4. according to the multisystem all-in-one networking method described in claim 1 or 2 or 3, it is characterized in that, it is described when described second system module is off-mode, and when a certain moment, described second system module entered open state, described second system module generates and sends connecting wireless network request to described the first system module, described the first system module is according to described connecting wireless network request, send the configuration information of wireless network to described second system module, described second system module is according to the configuration information of described wireless network, connect described wireless network and comprise step:
When described second system module is off-mode, MCU in all-in-one monitors described second system module, when a certain moment, described second system module entered open state, described second system module sends connecting wireless network request to described MCU, wherein, described MCU connects respectively described the first system module and described second system module;
Described MCU sends described connecting wireless network request to described the first system module;
Described the first system module, according to described connecting wireless network request, sends the configuration information of wireless network to described MCU;
Described MCU sends the configuration information of described wireless network to described second system module;
Described second system module, according to the configuration information of described wireless network, connects described wireless network.
5. according to the multisystem all-in-one networking method described in claim 1 or 2 or 3, it is characterized in that, described the first system module is Android module, and described second system module is Windows module.
6. according to the multisystem all-in-one networking method described in claim 1 or 2 or 3, it is characterized in that, described the first system module is Windows module, and described second system module is Android module.
7. according to the multisystem all-in-one networking method described in claim 1 or 2 or 3, it is characterized in that, the configuration information of described wireless network comprises SSID and the password of wireless network.
8. a multisystem all-in-one, is characterized in that, comprises the first system module, second system module and MCU, and described MCU is connected with described the first system module and described second system module respectively;
Described the first system module connecting wireless network, and obtain the configuration information of described wireless network, described MCU detection second system module is open state or is off-mode, when described second system module is open state, described MCU is sent to described second system module by the configuration information of described wireless network, described second system module is according to the configuration information of described wireless network, connect described wireless network, when described second system module is off-mode, described MCU monitors described second system module, when a certain moment, described second system module entered open state, described second system module generates and sends connecting wireless network request to described MCU, described MCU is forwarded to described the first system module by described connecting wireless network request, described the first system module is according to described connecting wireless network request, send the configuration information of wireless network to described MCU, described MCU is forwarded to described second system module by the configuration information of described wireless network, described second system module is according to the configuration information of described wireless network, connect described wireless network.
9. multisystem all-in-one according to claim 8, is characterized in that, the configuration information of described wireless network comprises SSID and the password of wireless network.
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