CN106412833B

CN106412833B - Intelligent household control method, device and system

Info

Publication number: CN106412833B
Application number: CN201610911180.8A
Authority: CN
Inventors: 王爱迪; 张睿
Original assignee: Shanghai OnStar Telematics Co Ltd
Current assignee: Shanghai OnStar Telematics Co Ltd
Priority date: 2016-10-19
Filing date: 2016-10-19
Publication date: 2020-01-31
Anticipated expiration: 2036-10-19
Also published as: CN106412833A

Abstract

In the intelligent home control method, the intelligent home control device and the intelligent home control system, the geo-fence areas are ingeniously set for the intelligent homes, the current vehicle geographic position of the user is detected in real time by the vehicle-mounted terminal in the vehicle and uploaded to the cloud server, and when the cloud server detects that the vehicle geographic position corresponding to the vehicle identification code enters or exits the corresponding triggering geo-fence area, the corresponding intelligent home control command is generated according to the triggering intelligent home identification and the triggering user identification corresponding to the triggering geo-fence area. And the control server controls the triggering smart home corresponding to the triggering smart home identification according to the received command for controlling the smart home. Because the vehicle-mounted terminal only transmits the geographic position of the vehicle, even if an illegal operator obtains the geographic position of the vehicle, the information of the user cannot be obtained, namely, the intelligent home of the user cannot be controlled, and therefore the safety of intelligent home control is improved.

Description

Intelligent household control method, device and system

Technical Field

The application relates to the technical field of smart home, in particular to a smart home control method, device and system.

Background

The intelligent home is characterized in that a home is used as a platform, facilities related to home life are integrated by utilizing a comprehensive wiring technology, a network communication technology, a safety precaution technology, an automatic control technology and an audio and video technology, an efficient management system of home facilities and family schedule affairs is constructed, home safety, convenience, comfortableness and artistry are improved, and an environment-friendly and energy-saving living environment is realized.

In the prior art, a control instruction can be sent to an intelligent home through a mobile terminal in a networking state, so as to achieve the purpose of controlling the intelligent home, because the mobile terminal needs to be connected with a network, such as a WIreless Fidelity (WiFi) network or mobile data traffic, when the WiFi network or the mobile data traffic is connected, an illegal operator can illegally obtain the control instruction through the WIreless network or the mobile data traffic, so that information of a user is leaked, and any person can randomly control the intelligent home of the user.

In summary, there are kinds of smart home control methods with higher security required in the prior art.

Disclosure of Invention

In view of this, the invention provides smart home control methods, devices and systems to overcome the problem of poor security in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme:

kinds of intelligent house control system includes:

the cloud server is used for sending a triggering instruction for acquiring the geographic position of the vehicle to a vehicle-mounted terminal corresponding to a vehicle identification code according to the vehicle identification code in the request for opening the intelligent home service when the request for opening the intelligent home service is received; receiving the vehicle geographic position fed back by the vehicle-mounted terminal corresponding to the vehicle identification code in real time; judging whether the vehicle geographic position corresponding to the vehicle identification code enters or exits the corresponding geo-fence area or not according to the pre-stored geo-fence area corresponding to each vehicle identification code, and acquiring a triggering geo-fence area which needs to trigger the smart home at present; determining triggering smart home identifications and triggering user identifications corresponding to the triggering geo-fence areas from pre-stored user identifications, geo-fence areas corresponding to the user identifications and smart home identifications corresponding to the geo-fence areas; generating an intelligent home control instruction according to the triggering intelligent home identification and the triggering user identification;

the vehicle-mounted terminal is used for receiving the triggering instruction for acquiring the geographic position of the vehicle sent by the cloud server and storing the triggering instruction; when a vehicle starting instruction is received, detecting whether the triggering instruction is stored, and when the triggering instruction is stored, feeding back the geographic position of the vehicle to the cloud server in real time;

and the control server is used for controlling the triggering smart home corresponding to the triggering smart home identification according to the received command for controlling the smart home.

A smart home control method applied to a cloud server includes:

when an intelligent home service opening request is received, sending a trigger instruction for acquiring the geographic position of a vehicle to a vehicle-mounted terminal corresponding to a vehicle identification code according to the vehicle identification code in the intelligent home service opening request;

receiving the vehicle geographic position fed back by the vehicle-mounted terminal corresponding to the vehicle identification code in real time;

judging whether the vehicle geographic position corresponding to the vehicle identification code enters or exits the corresponding geo-fence area or not according to the pre-stored geo-fence area corresponding to each vehicle identification code, and acquiring a triggering geo-fence area which needs to trigger the smart home at present;

determining triggering smart home identifications and triggering user identifications corresponding to the triggering geo-fence areas from pre-stored user identifications, geo-fence areas corresponding to the user identifications and smart home identifications corresponding to the geo-fence areas;

and generating an intelligent home control instruction according to the triggering intelligent home identification and the triggering user identification.

a cloud server, comprising:

the sending module is used for sending a trigger instruction for acquiring the geographic position of a vehicle to a vehicle-mounted terminal corresponding to a vehicle identification code according to the vehicle identification code in the request for opening the intelligent home service when the request for opening the intelligent home service is received;

the receiving module is used for receiving the vehicle geographic position fed back by the vehicle-mounted terminal corresponding to the vehicle identification code in real time;

an obtaining module, configured to determine whether a vehicle geographic location corresponding to a vehicle identification code enters or exits a corresponding geo-fence area according to a pre-stored geo-fence area corresponding to each vehicle identification code, and obtain a triggered geo-fence area that needs to trigger an intelligent home at present;

an determining module, configured to determine, from pre-stored user identifiers, geo-fence areas corresponding to the user identifiers, and smart home identifiers corresponding to the geo-fence areas, a triggering smart home identifier and a triggering user identifier corresponding to the triggering geo-fence area;

and the generation module is configured to generate an instruction for controlling the smart home according to the triggering smart home identifier and the triggering user identifier.

According to the technical scheme, compared with the prior art, in the intelligent home control system provided by the embodiment of the application, the geographic fence areas are ingeniously set for the intelligent homes, the current vehicle geographic positions of the users are detected in real time by the vehicle-mounted terminals in the vehicles and are uploaded to the cloud server, the user identifications, the vehicle identification codes corresponding to the user identifications, the geographic fence areas corresponding to the vehicle identifications, and the intelligent device identifications corresponding to the geographic fence areas are stored in the cloud server, and when the cloud server detects that the vehicle geographic positions corresponding to the vehicle identifications enter or exit the corresponding triggering geographic fence areas, the corresponding intelligent home control instructions can be generated according to the triggering intelligent home identifications corresponding to the triggering geographic fence areas and the triggering user identifications. And the control server controls the triggering smart home corresponding to the triggering smart home identification according to the received command for controlling the smart home. Because the vehicle-mounted terminal only transmits the geographic position of the vehicle, even if an illegal operator obtains the geographic position of the vehicle, the information of the user cannot be obtained, namely, the intelligent home of the user cannot be controlled, and therefore the safety of intelligent home control is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a signaling flowchart of implementation manners of an intelligent home control method according to an embodiment of the present application;

fig. 2 is a signaling flowchart of a specific implementation manner of cloud servers according to an embodiment of the present disclosure;

fig. 3 is a signaling diagram of a method for binding devices by kinds of mobile terminals according to an embodiment of the present application;

fig. 4 is a signaling diagram for querying a smart home from a cloud server by using a mobile terminal according to an embodiment of the present application;

fig. 5 is a signaling diagram of methods for modifying smart home parameter information according to an embodiment of the present application;

fig. 6 is a signaling diagram of methods for activating smart home services according to an embodiment of the present application;

fig. 7 is a signaling diagram of methods for acquiring information of a currently operating smart home according to an embodiment of the present disclosure;

fig. 8 is a schematic structural diagram of cloud servers provided in the embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only partial embodiments of of the present invention, rather than all embodiments.

The embodiment of the application provides intelligent home control methods, which can be applied to an intelligent home control system, the intelligent home control system comprises a cloud server 11, a vehicle-mounted terminal 12 and a control server 13, and as shown in fig. 1, the method is a signaling flow chart of implementation modes of the intelligent home control method provided by the embodiment of the application.

Step S101: when receiving the request for opening the intelligent home service, the cloud server 11 sends a trigger instruction for acquiring the geographic position of the vehicle to the vehicle-mounted terminal corresponding to the vehicle identification code according to the vehicle identification code in the request for opening the intelligent home service.

The cloud server 11 only needs to send a trigger instruction for acquiring the geographic position of the vehicle to the vehicle-mounted terminal when the user first activates the smart home service, and then the trigger instruction does not need to be sent.

Step S102: the vehicle-mounted terminal 12 receives and stores the triggering instruction for acquiring the geographic position of the vehicle sent by the cloud server; and when a vehicle starting instruction is received, detecting whether the triggering instruction is stored, and when the triggering instruction is stored, feeding back the geographic position of the vehicle to the cloud server in real time.

The vehicle-mounted terminal 12 only needs to receive triggering instructions for acquiring the geographic position of the vehicle sent by the cloud server, detects whether the triggering instructions are stored every time the vehicle is started, and feeds back the geographic position of the vehicle to the cloud server in real time if the triggering instructions are stored.

Of course, the in-vehicle terminal 12 may also receive the geographic position of the vehicle sent by the cloud server and fed back to the cloud server each time the vehicle is started.

The in-Vehicle terminal 12 is located in a Vehicle and stores a Vehicle VIN (Vehicle Identification Number) of the Vehicle, and may determine the Vehicle from the Vehicle VIN only .

The vehicle-mounted terminal 12 can utilize a Global Positioning System (GPS) to perform real-time Positioning on the vehicle, that is, to obtain the geographic position of the vehicle to which the vehicle-mounted terminal 12 belongs in real time.

The vehicle geographic location may include latitude and longitude coordinates, for example (117.32123, 85.11233).

Step S103: the cloud server 11 receives the vehicle geographic position fed back by the vehicle-mounted terminal corresponding to the vehicle identification code in real time; judging whether the vehicle geographic position corresponding to the vehicle identification code enters or exits the corresponding geo-fence area or not according to the pre-stored geo-fence area corresponding to each vehicle identification code, and acquiring a triggering geo-fence area which needs to trigger the smart home at present; determining triggering smart home identifications and triggering user identifications corresponding to the triggering geo-fence areas from pre-stored user identifications, geo-fence areas corresponding to the user identifications and smart home identifications corresponding to the geo-fence areas; and generating an intelligent home control instruction according to the intelligent home trigger identification and the user trigger identification, and sending the intelligent home control instruction to the control server 13.

The LBS (Location Based Service) refers to Service forms for acquiring the Location information of the mobile terminal through a radio communication network or an external positioning mode, and the Geo-fencing (Geo-fencing) is new applications of the LBS, namely virtual fences are used for representing virtual geographic boundaries.

Two geofence areas can be set for every smart home, are opening geofence areas that trigger the smart home to open when a vehicle enters a geofence area, and are closing geofence areas that trigger the smart home to close when the vehicle exits the geofence area, where the opening geofence areas may be the same as or different from the closing geofence areas, and may be specifically determined according to actual conditions.

The reason for this is called opening and closing the geofenced area in order to distinguish the two geofenced areas.

The cloud server 11 is used for specifically determining whether the geographic position of the vehicle corresponding to the vehicle identification code enters or exits the corresponding geo-fence area, and when the triggering geo-fence area which needs to trigger the smart home at present is obtained:

and judging whether the vehicle geographic position corresponding to the vehicle identification code enters a corresponding opening geo-fence area or not, and determining the opening geo-fence area needing to trigger the smart home. And/or judging whether the vehicle geographic position corresponding to the vehicle identification code drives out the corresponding geographic fence closing area or not, and determining the geographic fence closing area needing to be triggered for the smart home.

The triggering of the geo-fence area may include opening the geo-fence area and closing the geo-fence area, and correspondingly, the cloud server determines, from the pre-stored smart home identifiers corresponding to the respective geo-fence areas, the triggering smart home identifier corresponding to the triggering geo-fence area, and is specifically configured to:

determining the triggered smart home needing to be opened corresponding to the area where the geo-fence is opened; or determining the triggered smart home needing to be closed corresponding to the geographic fence closing area.

Correspondingly, the cloud server is specifically used for generating a control smart home instruction according to the triggering smart home identifier and the triggering user identifier: generating an intelligent home starting instruction according to a triggering intelligent home identification and a triggering user identification which need to be started; or generating an instruction for closing the smart home according to the triggered smart home to be closed and the triggering user identifier.

The geofenced areas may vary from smart home to smart home, but for every smart home it can only be located in the open geofenced area and the closed geofenced area.

The cloud server 11 may further store operation parameter information corresponding to each smart home identifier, for example, operation parameter information such as temperature and wind direction of an air conditioner, and the cloud server 11 is specifically configured to, according to the triggering smart home identifier and the triggering user identifier, generate a command for controlling the smart home: determining a triggering user identifier and target operation parameter information corresponding to the triggering intelligent home identifier from prestored user identifiers, intelligent home identifiers corresponding to the user identifiers and operation parameter information corresponding to the intelligent home identifiers; and generating the intelligent home control instruction according to the trigger user identifier, the trigger intelligent home identifier and the target operation parameter information.

The setting method of the geo-fenced area may be: and determining a circular area with the geographic position of the smart home as a circle center and the preset distance as a radius as a geo-fence area.

Step S104: and the control server 13 controls the triggered smart home corresponding to the triggered smart home identifier according to the received smart home control instruction.

Optionally, the control server 13 obtains the triggering smart home identifier and the triggering user identifier from the smart home control instruction; and determining whether the intelligent home identification corresponding to the trigger user identification comprises the trigger intelligent home identification or not from the intelligent home identifications corresponding to the pre-stored user identifications, and controlling the trigger intelligent home corresponding to the trigger intelligent home identification when the trigger intelligent home identification comprises the trigger intelligent home identification.

In the intelligent home control system provided by the embodiment of the application, a geo-fence area is ingeniously set for each intelligent home, the current vehicle geographic position of a user is detected in real time by the vehicle-mounted terminal 12 in a vehicle and uploaded to the cloud server 11, the user identification, the vehicle identification code corresponding to each user identification, the geo-fence area corresponding to each vehicle identification code, the intelligent device identification corresponding to each geo-fence area is stored in the cloud server 11, when the cloud server 11 detects that the vehicle geographic position corresponding to the vehicle identification code enters or exits the corresponding triggering geo-fence area, the triggering intelligent home identification and the triggering user identification corresponding to the triggering geo-fence area can be generated according to the triggering intelligent home identification and the triggering user identification corresponding to the triggering geo-fence area. And the control server 13 controls the triggered smart home corresponding to the triggered smart home identifier according to the received smart home control instruction. Since the vehicle-mounted terminal 12 only transmits the geographic location of the vehicle, even if an illegal operator obtains the geographic location of the vehicle, the information of the user cannot be obtained, that is, the smart home of the user cannot be controlled, and the vehicle-mounted terminal 12 may not use mobile data traffic and a WiFi network, thereby generating no extra cost.

As shown in fig. 2, which is a signaling flowchart of a specific implementation manner of cloud servers provided in the embodiment of the present application, the cloud server 11 includes a LOCAL Service Gateway module 111 (SGW-LOCAL), a background management module 112 (EMIP), a message push module 113 (MNP), a geo-fence determination module 114 (LVDS), and for network security between the cloud server 11 and the mobile terminal 14, the smart home control system may further include an application layer module 15, and for network security between the cloud server 11 and the control server 13, the cloud server may further include a system encapsulation module 115 (SGW-server, Gateway cloud server).

The application layer module 15 may be an isolation area between the mobile terminal and the cloud server, and is mainly responsible for network security and forwarding protocols.

The local service gateway module 111, the background management module 112, the message pushing module 113, the geo-fence determination module 114, the application layer module 15, and the system encapsulation module 115 may be located in the same server or in different servers, and when located in the same server, they are cloud servers, and when located in different servers, these servers form clusters, that is, the cloud servers are server clusters.

Step S201: when receiving the request for opening the smart home service, the geo-fence determination module 114 sends a trigger instruction for acquiring the geographic location of the vehicle to the vehicle-mounted terminal 12 corresponding to the vehicle identification code according to the vehicle identification code in the request for opening the smart home service.

Fig. 2 shows 1 vehicle-mounted terminal 12, and in the embodiment of the present application, there may be only vehicle-mounted terminals 12, or there may be multiple vehicle-mounted terminals 12.

Step S202: the geo-fence determination module 114 receives the vehicle geographic position fed back by the vehicle-mounted terminal corresponding to the vehicle identification code in real time.

Step S203: the geo-fence determination module 114 determines whether the vehicle geographic position corresponding to the vehicle identification code enters or exits the corresponding geo-fence area according to the pre-stored geo-fence area corresponding to each vehicle identification code, and obtains a triggering geo-fence area that needs to trigger the smart home at present.

Step S204: the geofence judgment module 114 sends the triggered geofence area to the local service gateway module 111, the local service gateway module 111 forwards the identifier of the triggered geofence area to the background management module 112, and the background management module 112 determines the triggered smart home identifier and the triggered user identifier corresponding to the triggered geofence area from the pre-stored user identifier, the geofence area corresponding to each user identifier, and the smart home identifier corresponding to each geofence area, and generates a command for controlling the smart home according to the triggered smart home identifier and the triggered user identifier.

Step S205: the background management module 112 sends the command for controlling the smart home to the local service gateway module 111, and the local service gateway module 111 sends the command for controlling the smart home to the control server 13.

Optionally, the background management module 112 may store, in advance, each user identifier, a geo-fence area corresponding to each user identifier, and an intelligent home identifier corresponding to each geo-fence area. The user identification refers to the user identification of the user logging in the application program of the mobile terminal. Step S205 may include the following steps.

Step S2051: the background management module 112 sends the command for controlling the smart home to the local service gateway module 111, and the local service gateway module 111 sends the command for controlling the smart home to the system packaging module 115.

Step S2052: the system encapsulation module 115 obtains the trigger user identifier and the trigger smart home identifier from the command for controlling the smart home, and sends the trigger user identifier and the trigger smart home identifier to the control server 13.

Step S2053: the control server 13 determines whether the smart home identifier corresponding to the trigger user identifier includes the trigger smart home identifier from the pre-stored smart home identifiers corresponding to the user identifiers, and when the trigger smart home identifier includes the trigger smart home identifier, allocates a trigger Token for the trigger user identifier, and sends the trigger Token to the system encapsulation module 115.

By using the Token, the situation that an illegal operator uses the pseudo control server to control the smart home is avoided, because the pseudo control server may not generate the Token.

Step S2054: the system encapsulation module 115 receives the trigger Token and sends the trigger Token and the trigger user identifier to the control server 13.

The trigger Token received by the system encapsulation module 15 may be sent by the real control server 13 or sent by the pseudo control server, where if the trigger Token is sent by the real control server 13, the trigger Token is a standard Token, and if the trigger Token is sent by the pseudo control server, the trigger Token is a false Token.

Step S2055: the control server 13 obtains a standard trigger Token corresponding to the trigger user identifier from the Token corresponding to the pre-stored user identifier; matching the standard Token with the standard trigger Token, and controlling to trigger the smart home according to the smart home control instruction when the matching is successful; and when the matching fails, alarming or prohibiting control to trigger the smart home.

I.e. the control server 13 recognizes the legitimacy of the trigger Token.

Optionally, the method may further include step S206: after the triggering smart home corresponding to the triggered smart home identifier is successfully controlled and triggered, or after the triggering smart home corresponding to the triggered smart home identifier fails, the control server 13 feeds back a control message (the control message is a successful control message or a failed control message) to the local service gateway module 111.

Optionally, the method may further include step S207: local service gateway module 111 sends the control message to message push module 113.

Optionally, the method may further include step S208: the message pushing module 113 sends the control message to the mobile terminal 14 through the application layer module.

The user identifier, the vehicle identifier corresponding to each user identifier, the geofence area corresponding to each vehicle identifier, and the smart device identifier corresponding to each geofence area pre-stored in the cloud server 11 in the smart home control system may be set through a mobile terminal, for example, a terminal such as a smart phone, a PAD (tablet computer), a PDA (Personal Digital Assistant), or a handheld computer, and a corresponding application program may be installed on the mobile terminal, or a development interface of a wechat service number in the wechat, and the user may set the user identifier, the vehicle identifier corresponding to each user identifier, the geofence area corresponding to each vehicle identifier, and the smart device identifier corresponding to each geofence area in a development interface of the wechat service number or an interface of the application program. The cloud server 11 may now include a mobile backend module 16.

The WeChat service number, which is for providing services, is public numbers for providing services to users.

In summary, the mobile terminal may be configured to: setting a geo-fence area triggering and starting each intelligent home, binding each geo-fence area with a corresponding intelligent home identification, and setting a geo-fence area corresponding to a vehicle identification code; and sending the user identification currently logged in the mobile terminal, the vehicle identification code corresponding to the user identification, the geo-fence area corresponding to the vehicle identification code and the intelligent home identification corresponding to the geo-fence area to the cloud server.

The corresponding cloud server may also be configured to: receiving a binding intelligent home request, wherein the binding intelligent home request carries a user identifier, a vehicle identification code corresponding to the user identifier and an intelligent equipment identifier; storing the user identification, and the vehicle identification code and the intelligent equipment identification corresponding to the user identification; receiving a request for setting a geo-fence area, wherein the request for setting the geo-fence area carries the user identifier, a vehicle identification code corresponding to the user identifier and an intelligent device identifier; and storing the user identification, the vehicle identification code corresponding to the user identification, the geo-fence area corresponding to the vehicle identification code, and the intelligent device identification corresponding to the geo-fence area.

In order to make the technical staff in the present application more understand the specific implementation manner of the mobile terminal provided in the embodiment of the present application, please refer to fig. 3 for a flowchart of a method implementation flow of a mobile terminal, which is a signaling diagram of a method for binding devices by mobile terminals provided in the embodiment of the present application, and the method includes:

step S301: the mobile terminal 14 sends a smart home binding request to the control server 13, where the smart home binding request carries a user identifier and a smart home identifier to be bound.

Step S302: the control server 13 receives the request for binding the smart home and matches the user identifier with a pre-stored user identifier; and when the matching is successful, correspondingly storing the user identifier and the intelligent home identifier to be bound, generating a legal intelligent home binding request indication, and sending the legal intelligent home binding request indication to the mobile terminal 14.

Optionally, the control server is further configured to match the smart home identifier to be bound with a pre-stored smart home identifier, that is, verify the unique nature of the combination of the trigger user identifier and the smart home identifier to be bound, if the pre-stored smart home identifier does not include the smart home identifier to be bound, correspondingly store the user identifier and the smart home identifier to be bound, and send the bound smart home identifier to the mobile terminal where the user identifier currently logs in.

Step S303: the mobile terminal 14 receives the legal instruction of the binding smart home request fed back by the control server; the user identification currently logged in the mobile terminal, the vehicle identification code corresponding to the user identification and the smart home identification corresponding to the vehicle identification code are obtained, and the obtained user identification, the vehicle identification code and the smart home identification are sent to the background management module 112 through the application layer module 15, the mobile background module 116 and the local service gateway module 111.

Step S304: the background management module 112 stores the user identifier, the vehicle identifier corresponding to the user identifier, and the smart home identifier corresponding to the vehicle identifier, and generates a binding success message (if the binding fails, a binding failure message is generated).

Step S305: the background management module 112 sends the binding success message to the mobile terminal 14 through the local service gateway module 111, the mobile background module 116, and the application layer module 15.

Step S306: the mobile terminal 14 sets a geo-fence area corresponding to each smart home, and sends the user identifier, the vehicle identifier corresponding to the user identifier, and the geo-fence area corresponding to each vehicle identifier to the geo-fence determination module 114 through the application layer module 15, the mobile background module 116, and the local service gateway module 111.

Step S307: the geo-fence determination module 114 receives the user identifier, the vehicle identifier corresponding to the user identifier, and the geo-fence area corresponding to each vehicle identifier, stores the vehicle identifier corresponding to the user identifier and the geo-fence area corresponding to each vehicle identifier, and sends the user identifier, the vehicle identifier corresponding to the user identifier, and the geo-fence area corresponding to each vehicle identifier to the back-stage management module 112 through the local service gateway module 111.

Step S308: the background management module 112 obtains the user identifier, the vehicle identifier corresponding to the user identifier, the smart home identifier corresponding to the vehicle identifier, the received vehicle identifier corresponding to the user identifier, and the geo-fence area corresponding to each vehicle identifier, and feeds back a binding success message (if the binding fails, a binding failure message is generated), and sends the binding success message to the mobile terminal 14 through the local service gateway module 111, the background management module 112, and the application layer module 15.

For the energy can be saved, when the vehicle is in a flameout or stop state, the geographic position of the vehicle can not be sent to the cloud server, and the vehicle-mounted terminal is in real time feeding back the geographic position of the vehicle to the cloud server, and is specifically used for: detecting the current running state of a vehicle corresponding to the vehicle-mounted terminal; when the vehicle is in a starting state, acquiring vehicle geographical position information of the vehicle in real time; and feeding back the geographical position of the vehicle to the cloud server in real time.

It can be understood that, the user may also query from the cloud server which smart homes are bound, and the cloud server 11 is further configured to: receiving an intelligent home information query request sent by a mobile terminal corresponding to the destination user identifier, wherein the intelligent home information query request carries the destination user identifier; determining a target vehicle identification code corresponding to a target user identification, a target geo-fence area corresponding to the target vehicle identification, and a target intelligent device identification corresponding to the target geo-fence area from a vehicle identification code corresponding to a pre-stored user identification, a geo-fence area corresponding to the vehicle identification, and an intelligent home identification corresponding to the geo-fence area; and sending the target vehicle identification code, the target geo-fence area corresponding to the target vehicle identification code and the target intelligent equipment identification corresponding to the target geo-fence area to a mobile terminal corresponding to the target user identification.

In order to make a better understanding of the method for querying and binding the smart home from the cloud server provided in the embodiment of the present application, a specific example is described below, please refer to fig. 4, which is a signaling diagram for querying the smart home from the cloud server by using the mobile terminal provided in the embodiment of the present application, and the method includes:

step S401: the mobile terminal 14 generates an intelligent home information query request, where the intelligent home information query request carries a destination user identifier, and sends the request to the local service gateway 111 through the application forming module 15 and the mobile background module 116.

The user may click a corresponding button or menu on the interface displayed by the mobile terminal 14, thereby generating a request for querying the smart home information.

In step S402, the local service gateway module 111 sends th obtaining instruction to the geo-fence determining module 114, and after receiving th obtaining instruction, the local service gateway module 111 feeds back the destination vehicle identification code corresponding to the destination user identifier and the destination geo-fence area corresponding to the destination vehicle identification code to the geo-fence determining module 114.

Step S403: the local service gateway module 111 sends a second obtaining instruction to the background management module 112, and after receiving the second obtaining instruction, the background management module 112 sends the destination user identifier, the destination vehicle identification code corresponding to the destination user identifier, the destination geo-fenced area corresponding to the destination vehicle identification code, and the destination intelligent device identifier corresponding to the destination geo-fenced area to the local service gateway module 111.

Step S404: the local service gateway module 111 combines the data obtained from the background management module 112 and the data obtained from the geo-fence determination module 114 to obtain the latest destination user identifier, the destination onboard identifier corresponding to the destination user identifier, the destination geo-fence area corresponding to the destination onboard identifier, and the destination smart device identifier corresponding to the destination geo-fence area.

Since the vehicle identification code stored by the geo-fence determination module 114 is up-to-date and up-to-date with the geo-fence area, the data obtained from the geo-fence determination module 114 and from the back office management module 112 needs to be merged.

Step S405: the local service gateway module 111 sends the latest destination vehicle-mounted identification code corresponding to the destination user identifier, the geo-fence area corresponding to the destination vehicle-mounted identification code, and the smart device identifier corresponding to the geo-fence area to the mobile terminal 14 where the destination user identifier logs in through the mobile background module 116 and the application layer module 15.

It can be understood that the method may further include operation parameter information, and the generating a command for controlling the smart home according to the triggering smart home identifier and the triggering user identifier includes: determining triggering operation parameter information corresponding to the triggering intelligent home identification from prestored operation parameter information corresponding to the intelligent home identification; and generating the intelligent home control instruction according to the intelligent home triggering identification, the user triggering identification and the triggering operation parameter information.

It can be understood that, the user may modify the operation parameter information of the smart home, for example, the temperature of the air conditioner, and the cloud server 11 may further be configured to: receiving an operation parameter information instruction for modifying the smart home, wherein the operation parameter information instruction for modifying the smart home carries a target user identifier, a target smart home identifier corresponding to the target user identifier and target operation parameter information corresponding to the target smart home identifier; acquiring a working state of the target smart home corresponding to the target smart home identification; when the target smart home is in a shutdown state, updating pre-stored operation parameter information corresponding to the target smart home identification into the target operation parameter information; when the target intelligent home is in a starting state, judging whether the target user identification is a legal user identification; and when the target user identification is a legal user identification, generating a parameter control command according to the target operation parameter information so as to control the operation state parameter of the target intelligent home to be the target parameter information.

In order to make persons skilled in the art understand more about the method for modifying smart home operating parameter information provided in the embodiment of the present application, please refer to fig. 5, taking an example of specifically as follows, which is a signaling diagram of methods for modifying smart home operating parameter information provided in the embodiment of the present application, where the method includes:

step S501: the mobile terminal 14 generates an instruction for modifying the operating parameter information of the smart home, where the instruction for modifying the operating parameter information of the smart home carries the destination user identifier, the destination smart home identifier, and the destination operating parameter information.

The mobile terminal 14 obtains the smart home information through the method shown in fig. 4, and the user may perform setting operation on a corresponding smart home identifier (for example, a destination smart home identifier) in the smart home information, so as to form an instruction for modifying the operating parameter information of the smart home.

Step S502: the mobile terminal 14 sends the instruction for modifying the operating parameter information of the smart home to the mobile background module 116 through the application layer module 15.

Step S503: when detecting that the target smart home is in a power-off state, the mobile background module 116 sends an instruction for modifying the operating parameter information of the smart home to the background management module 112.

Step S504: the background management module 112 determines the target user identifier and the operation parameter information corresponding to the target smart home identifier from the pre-stored user identifiers, the smart home identifiers corresponding to the user identifiers, and the operation parameter information corresponding to the smart home identifiers, updates the operation parameter information to the target parameter information, and feeds back an update success message (if the update is not successful, feeds back an update failure message) to the mobile terminal 14 through the mobile background module 116 and the application layer module 15.

Step S505: when detecting that the target smart home is in an open state, the mobile background module 116 sends an instruction for modifying the operating parameter information of the smart home to the system encapsulation module 115.

Step S506: the system encapsulation module 115 determines whether the destination subscriber identity is a valid subscriber identity.

The system encapsulation module 115 may send the destination user identifier to the control server 113, and the control server 113 matches the destination user identifier with each user identifier stored in advance, and when the matching is successful, it is determined that the destination user identifier is legal.

Alternatively, the control server 13 may assign tokens Token to each legal user identifier, where the tokens Token has a time limit, for example, the control server 13 may assign tokens Token to each legal user identifier at preset time intervals, for example, 20 minutes, 1 hour, 2 hours, 6 hours, 24 hours, and so on, for security, where modifying the operation parameter information of the smart home instructs the destination Token carrying the destination user identifier, and the optional step S506 may include the following steps.

The system encapsulation module 115 obtains the standard Token of the destination user identifier from its own buffer, and determines that the destination user identifier is a valid user identifier when the destination Token is the same as the standard Token.

When the system encapsulation module 115 does not obtain the standard Token of the destination user identifier from its own buffer, it may obtain the standard Token of the destination user identifier from the control server 13.

The control server 13 obtains the standard Token of the destination user identifier from the pre-stored standard tokens Token assigned to each user identifier, and sends the standard Token to the system encapsulation module 115.

When detecting that the target Token is the same as the standard Token, the system encapsulation module 115 determines that the target user identifier is a legal user identifier, and stores the standard Token corresponding to the target user identifier.

Step S507: when detecting that the destination user identifier is a valid user identifier, the system encapsulation module 115 generates a parameter control command according to the destination operating parameter information, and sends the parameter control command to the control server 13.

Step S508: the control server 13 controls the operation parameter information of the target smart home as the target operation parameter information, and feeds back a message of successfully modifying the operation parameter of the smart home to the mobile terminal 14 through the system encapsulation module 115, the mobile background module 116, and the application layer module 15 (when the modification fails, a message of unsuccessfully modifying the operation parameter of the smart home is fed back).

It can be understood that before using the smart home service, the smart home service needs to be opened, and the cloud server 11 may be further configured to: receiving an intelligent home service opening request sent by a mobile terminal, wherein the intelligent home service opening request carries a user identifier, a vehicle identification code corresponding to the user identifier and a service identifier of an intelligent home; when the service identification of the intelligent home is detected, determining to start the intelligent home service; and storing the user identification and the vehicle identification code corresponding to the user identification.

In order to enable those skilled in the art to understand the process of opening the smart home service in the embodiment of the present application more, a specific example is described below, and please refer to fig. 6, which is a signaling diagram of methods for opening the smart home service provided in the embodiment of the present application, where the method includes:

step S601, the mobile terminal 14 generates a request for opening the intelligent home service.

The user may open the smart home service in the interface displayed by the mobile terminal 14, so that the mobile terminal 14 generates a request for opening the smart home service.

Step S602: the mobile terminal 14 will open the smart home service request, and send the smart home service request to the local service gateway module 111 through the application layer module 15.

Step S603: when the local service gateway module 111 detects the service identifier of the smart home, it obtains the user identifier and the vehicle-mounted identification code, and sends the user identifier and the vehicle-mounted identification code to the geo-fence determining module 114.

Step S604: the geofence determination module 114 correspondingly stores the user id and the vehicle id corresponding to the user id, and sends the user id and the vehicle id corresponding to the user id to the local service gateway module 111.

Step S605: the local service gateway module 111 sends the user identifier and the corresponding vehicle-mounted identification code to the background management module 112.

Step S606: the background management module 112 stores the vehicle-mounted identification corresponding to the user identifier, and feeds back an opening success message (if the opening fails, feeds back an opening failure message) to the mobile terminal through the local service gateway module 111 and the application layer module 15.

The user can look over the operation parameter information of the smart home of current operation, and the cloud server 11 is also used for: receiving an information instruction which is sent by a mobile terminal corresponding to a target user identifier and used for acquiring a target intelligent home in a current opening state, wherein the information instruction for acquiring the target intelligent home in the current opening state carries the target user identifier and the target intelligent home identifier; acquiring current operation parameter information corresponding to the target intelligent home identification from a control server; determining a target vehicle identification code corresponding to a target user identification and a target geo-fence area corresponding to the target vehicle identification from pre-stored user identifications, vehicle identification codes corresponding to the user identifications, geo-fence areas corresponding to the vehicle identifications and smart home identifications corresponding to the geo-fence areas, wherein the target smart home identification corresponds to the target geo-fence area; and determining a target vehicle identification code corresponding to the target user identification and a target geo-fence area corresponding to the target vehicle identification code, determining a target intelligent home identification corresponding to the target geo-fence area and current operation parameter information corresponding to the target intelligent home identification, and sending the current operation parameter information to the mobile terminal corresponding to the target user identification. .

As shown in fig. 7, a signaling diagram of methods for acquiring information of a currently operating smart home provided in the embodiment of the present application is shown, where the method includes:

step S701: the mobile terminal 14 generates an information instruction for acquiring the target smart home currently in the on state, and sends the information instruction to the system encapsulation module 115 through the application layer module 15, the mobile background module 116, and the local service gateway 111.

Step S702: the system packaging module 115 sends an instruction to acquire information of the target smart home currently in the on state to the control server 13.

Step S703: the control server 13 obtains the current operating state parameter information corresponding to the target smart home identifier according to the target user identifier and the target smart home identifier, and sends the current operating state parameter information to the system packaging module 115.

Step S704: the system encapsulation module 115 sends the current operating state parameter information corresponding to the destination smart home identifier to the local service gateway module 111.

Step S705: the local service gateway module 111 sends an information instruction for acquiring the target smart home currently in the open state to the background management module 112.

Step S706: the background management module 112 obtains a target vehicle identification code corresponding to a target user identifier and a target geo-fence area corresponding to the target vehicle identification code from pre-stored user identifiers, vehicle identification codes corresponding to the user identifiers, geo-fence areas corresponding to the vehicle identification codes, and smart home identifiers corresponding to the geo-fence areas, and feeds back the target smart home identifiers corresponding to the target geo-fence areas to the local service gateway module 111.

Step S707: the local service gateway module 111 merges the data obtained from the background management module and the data obtained from the control server to obtain a target vehicle identification code corresponding to the target user identification, a target geo-fenced area corresponding to the target vehicle identification code, a target smart home identification corresponding to the target geo-fenced area, and current operating parameter information corresponding to the target smart home identification, and sends the current operating parameter information to the mobile terminal 14 corresponding to the target user identification through the mobile background module 116 and the application layer module 15.

By using the method, the device and the system for controlling the smart home, a user can set the geographic position of the home, the corresponding geo-fence area and the operation parameter information for starting the smart home, such as the temperature, the air volume and the mode of an air conditioner, in a mobile terminal, such as an application program or a micro-message service number in a mobile phone.

In the embodiment of the application, the mobile terminal can be used for setting the operation parameter information of the geo-fence area and the smart home, binding the geo-fence area and the smart home identification, and the mobile terminal is not relied on to trigger to open the smart home, but the geographical position of a vehicle in the driving process of the vehicle, so that the defect that the smart home cannot be normally triggered to open after the mobile terminal goes wrong is avoided.

The embodiment of the present application further provides kinds of cloud servers, please refer to fig. 8, which is a schematic structural diagram of kinds of cloud servers provided in the embodiment of the present application, where the cloud server includes a th sending module 81, a th receiving module 82, a th obtaining module 83, a th determining module 84, and a th generating module 85, where:

the -th sending module 81 is configured to, when receiving the request for opening the smart home service, send a trigger instruction for obtaining a geographic location of a vehicle to a vehicle-mounted terminal corresponding to a vehicle identification code according to the vehicle identification code in the request for opening the smart home service.

, a receiving module 82, configured to receive, in real time, the vehicle geographic location fed back by the vehicle-mounted terminal corresponding to the vehicle identification code.

An obtaining module 83, configured to determine whether a vehicle geographic location corresponding to each vehicle identification code enters or exits a corresponding geo-fence area according to the pre-stored geo-fence area corresponding to each vehicle identification code, and obtain a triggered geo-fence area that needs to trigger the smart home at present.

An determining module 84, configured to determine, from pre-stored user identifiers, geo-fence areas corresponding to the user identifiers, and smart home identifiers corresponding to the geo-fence areas, a triggering smart home identifier and a triggering user identifier corresponding to the triggering geo-fence area.

And the generation module 85 is configured to generate an instruction for controlling the smart home according to the triggered smart home identifier and the triggered user identifier.

The cloud server can further comprise a second receiving module, a storage module , a third receiving module, a second storage module and a second storage module, wherein the second receiving module is used for receiving a request for binding the smart home, the request for binding the smart home carries a user identifier, a vehicle identification code corresponding to the user identifier and a smart device identifier, the third receiving module is used for storing the user identifier, the vehicle identification code corresponding to the user identifier and the smart device identifier, the third receiving module is used for receiving a request for setting a geo-fence area, the request for setting the geo-fence area carries the user identifier, the vehicle identification code corresponding to the user identifier and the smart device identifier corresponding to the geo-fence area, the second storage module is used for storing the user identifier, the vehicle identification code corresponding to the user identifier, the geo-fence area corresponding to the vehicle identification code, and the smart device identifier.

The cloud server may further include: a fourth receiving module, configured to receive an intelligent home information query request sent by a mobile terminal corresponding to the destination user identifier, where the intelligent home information query request carries the destination user identifier; the second determining module is used for determining a target vehicle identification code corresponding to the target user identification, a target geo-fence area corresponding to the target vehicle identification, and a target intelligent device identification corresponding to the target geo-fence area from a vehicle identification code corresponding to a pre-stored user identification, a geo-fence area corresponding to the vehicle identification code, and an intelligent home identification corresponding to the geo-fence area; and the second sending module is used for sending the target vehicle identification code, the target geo-fence area corresponding to the target vehicle identification code and the target intelligent equipment identification corresponding to the target geo-fence area to the mobile terminal corresponding to the target user identification.

The generation module 85 may include a determination unit configured to determine trigger operation parameter information corresponding to the triggered smart home identifier from pre-stored operation parameter information corresponding to the smart home identifier, and a generation unit configured to generate the smart home control instruction according to the triggered smart home identifier, the triggered user identifier, and the trigger operation parameter information.

The cloud server can further comprise a fifth receiving module for receiving an operation parameter information instruction for modifying the smart home, the operation parameter information instruction for modifying the smart home carries a target user identifier, a target smart home identifier corresponding to the target user identifier and target operation parameter information corresponding to the target smart home identifier, an sending module for obtaining a working state of the target smart home corresponding to the target smart home identifier, an updating module for updating pre-stored operation parameter information corresponding to the target smart home identifier to the target operation parameter information when the target smart home is in a power-off state, a judging module for judging whether the target user identifier is a legal user identifier when the target smart home is in the power-on state, and a second generating module for generating a parameter control instruction according to the target operation parameter information when the target user identifier is the legal user identifier so as to control the operation state parameter of the target smart home to be the target parameter information.

The cloud server may further include: the sixth receiving module is used for receiving an intelligent home service opening request sent by the mobile terminal, wherein the intelligent home service opening request carries a user identifier, a vehicle identification code corresponding to the user identifier and a service identifier of the intelligent home; the second determining module is used for determining to start the intelligent home service when the service identifier of the intelligent home is detected; and the third storage module is used for storing the user identification and the vehicle identification code corresponding to the user identification.

The cloud server may further include: the seventh receiving module is used for determining a target user identifier corresponding to a target intelligent home identifier from intelligent home identifiers corresponding to pre-stored user identifiers when the target intelligent home successful control message is received; and the third sending module is used for sending a success control message to the mobile terminal corresponding to the destination user identification.

The cloud server can further comprise an eighth receiving module, an acquiring module, a third determining module and a fourth determining module, wherein the eighth receiving module is used for receiving an information instruction which is sent by a mobile terminal corresponding to a target user identifier and is used for acquiring a target smart home currently in an open state, the information instruction which is sent by the target smart home currently in the open state carries the target user identifier and the target smart home identifier, the acquiring module is used for acquiring current operation parameter information corresponding to the target smart home identifier from a control server, the third determining module is used for determining the target vehicle identifier corresponding to the target user identifier and a target geo-fence area corresponding to the target vehicle identifier from pre-stored user identifiers, vehicle identifiers corresponding to the user identifiers, geo-fence areas corresponding to the vehicle identifiers and smart home identifiers corresponding to the geo-fence areas, and target smart home identifiers corresponding to the target geo-fence areas, and the fourth determining module is used for determining the target vehicle identifier corresponding to the target user identifier and the target geo-fence areas corresponding to the target smart home identifiers and current operation parameter information corresponding to the target smart home terminals.

Finally, it should also be noted that, in this document, relational terms such as , second, and the like are only used to distinguish entities or operations from another entities or operations, without necessarily requiring or implying any actual relationship or order between such entities or operations, furthermore, the terms "comprise", or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises the series of elements does not include only those elements but also other elements not expressly listed or inherent to such process, method, article, or apparatus.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application.

Claims

1, kind of intelligent house control system, its characterized in that includes:

the cloud server is used for sending a triggering instruction for acquiring the geographic position of the vehicle to a vehicle-mounted terminal corresponding to a vehicle identification code according to the vehicle identification code in the request for opening the intelligent home service when the request for opening the intelligent home service is received; receiving the vehicle geographic position fed back by the vehicle-mounted terminal corresponding to the vehicle identification code in real time; judging whether the vehicle geographic position corresponding to the vehicle identification code enters or exits the corresponding geo-fence area or not according to the pre-stored geo-fence area corresponding to each vehicle identification code, and acquiring a triggering geo-fence area which needs to trigger the smart home at present; determining triggering smart home identifications and triggering user identifications corresponding to the triggering geo-fence areas from pre-stored user identifications, geo-fence areas corresponding to the user identifications and smart home identifications corresponding to the geo-fence areas; generating an intelligent home control instruction according to the triggering intelligent home identification and the triggering user identification, and sending the intelligent home control instruction to a control server;

2. The smart home control system of claim 1, further comprising:

the mobile terminal is used for setting a geo-fence area for triggering the opening of each intelligent home, binding each geo-fence area with a corresponding intelligent home identifier, and setting a geo-fence area corresponding to a vehicle identification code; and sending the user identification currently logged in the mobile terminal, the vehicle identification code corresponding to the user identification, the geo-fence area corresponding to the vehicle identification code and the intelligent home identification corresponding to the geo-fence area to the cloud server.

3. The smart home control system according to claim 2, wherein the mobile terminal is specifically configured to, when setting a geo-fence area for triggering to start each smart home, and binding each geo-fence area with a corresponding smart home identifier, and setting a geo-fence area corresponding to the vehicle identifier:

sending an intelligent home binding request to the control server, wherein the intelligent home binding request carries a user identifier and an intelligent home identifier to be bound;

receiving a legal instruction of the binding intelligent home request fed back by the control server;

acquiring the user identification, a vehicle identification code corresponding to the user identification, a geo-fence area corresponding to the vehicle identification code and an intelligent home identification corresponding to the geo-fence area, and sending the smart home identification to the cloud server;

the control server is also used for matching the user identification with the pre-stored user identification; and when the matching is successful, correspondingly storing the user identification and the intelligent home identification to be bound, generating a legal indication of the intelligent home binding request, and sending the legal indication to the mobile terminal currently logged in by the user identification.

4, kinds of intelligent home control method, characterized in that, be applied to the cloud server, include:

and generating an intelligent home control instruction according to the triggering intelligent home identification and the triggering user identification, and sending the intelligent home control instruction to a control server so that the control server controls the triggering intelligent home corresponding to the triggering intelligent home identification according to the received intelligent home control instruction.

5. The smart home control method according to claim 4, further comprising:

receiving a binding intelligent home request, wherein the binding intelligent home request carries a user identifier, a vehicle identification code corresponding to the user identifier and an intelligent equipment identifier;

storing the user identification, and the vehicle identification code and the intelligent equipment identification corresponding to the user identification;

receiving a request for setting a geo-fence area, wherein the request for setting the geo-fence area carries the user identifier, a vehicle identification code corresponding to the user identifier and an intelligent device identifier;

and storing the user identification, the vehicle identification code corresponding to the user identification, the geo-fence area corresponding to the vehicle identification code, and the intelligent device identification corresponding to the geo-fence area.

6. The smart home control method according to claim 4, further comprising:

receiving an intelligent home information query request sent by a mobile terminal corresponding to a target user identifier, wherein the intelligent home information query request carries the target user identifier;

determining a target vehicle identification code corresponding to a target user identification, a target geo-fence area corresponding to the target vehicle identification, and a target intelligent device identification corresponding to the target geo-fence area from a vehicle identification code corresponding to a pre-stored user identification, a geo-fence area corresponding to the vehicle identification, and an intelligent home identification corresponding to the geo-fence area;

and sending the target vehicle identification code, the target geo-fence area corresponding to the target vehicle identification code and the target intelligent equipment identification corresponding to the target geo-fence area to a mobile terminal corresponding to the target user identification.

7. The smart home control method according to claim 4, wherein the generating a smart home control instruction according to the triggered smart home identifier and the triggered user identifier comprises:

determining triggering operation parameter information corresponding to the triggering intelligent home identification from prestored operation parameter information corresponding to the intelligent home identification;

and generating the intelligent home control instruction according to the intelligent home triggering identification, the user triggering identification and the triggering operation parameter information.

8. The smart home control method according to claim 7, further comprising:

receiving an operation parameter information instruction for modifying the smart home, wherein the operation parameter information instruction for modifying the smart home carries a target user identifier, a target smart home identifier corresponding to the target user identifier and target operation parameter information corresponding to the target smart home identifier;

acquiring a working state of the target smart home corresponding to the target smart home identification;

when the target smart home is in a shutdown state, updating pre-stored operation parameter information corresponding to the target smart home identification into the target operation parameter information;

when the target intelligent home is in a starting state, judging whether the target user identification is a legal user identification;

and when the target user identification is a legal user identification, generating a parameter control command according to the target operation parameter information so as to control the operation state parameter of the target intelligent home as the target parameter information.

9. The smart home control method according to claim 4, further comprising:

receiving an intelligent home service opening request sent by a mobile terminal, wherein the intelligent home service opening request carries a user identifier, a vehicle identification code corresponding to the user identifier and a service identifier of an intelligent home;

when the service identification of the intelligent home is detected, determining to start the intelligent home service;

and storing the user identification and the vehicle identification code corresponding to the user identification.

10. The smart home control method according to claim 4, further comprising:

when a successful control message of a target smart home is received, determining a target user identifier corresponding to a target smart home identifier from smart home identifiers corresponding to pre-stored user identifiers;

and sending a success control message to the mobile terminal corresponding to the target user identification.

11. The smart home control method according to claim 4, further comprising:

receiving an information instruction which is sent by a mobile terminal corresponding to a target user identifier and used for acquiring a target intelligent home in a current opening state, wherein the information instruction for acquiring the target intelligent home in the current opening state carries the target user identifier and the target intelligent home identifier;

acquiring current operation parameter information corresponding to the target intelligent home identification from a control server;

determining a target vehicle identification code corresponding to a target user identification and a target geo-fence area corresponding to the target vehicle identification from pre-stored user identifications, vehicle identification codes corresponding to the user identifications, geo-fence areas corresponding to the vehicle identifications and smart home identifications corresponding to the geo-fence areas, wherein the target smart home identification corresponds to the target geo-fence area;

and determining a target vehicle identification code corresponding to the target user identification and a target geo-fence area corresponding to the target vehicle identification code, determining a target intelligent home identification corresponding to the target geo-fence area and current operation parameter information corresponding to the target intelligent home identification, and sending the current operation parameter information to the mobile terminal corresponding to the target user identification.

12, cloud server, comprising:

and the generation module is configured to generate an intelligent home control instruction according to the triggering intelligent home identification and the triggering user identification, and send the intelligent home control instruction to the control server, so that the control server controls the triggering intelligent home corresponding to the triggering intelligent home identification according to the received intelligent home control instruction.