CN104460326A - One-button type intelligent device management system and control method based on gravity sensing - Google Patents

Abstract

The invention provides a one-button type intelligent device management system based on gravity sensing. The system comprises a mobile terminal, a unified far-end server and an intelligent device set. The method further provides a one-button type intelligent device control method based on gravity sensing. The method includes the steps that a user sets operation and/or message prompt as one application scenario through the mobile terminal and meanwhile presets conditions and operation instructions for triggering and controlling an intelligent device, and then combinations are triggered and controlled by shaking the mobile terminal; the far-end server initiatively and intelligently manages household devices and meanwhile sends related prompt messages according to device running state information and surrounding information. The one-button type intelligent device management system and the control method based on gravity sensing solve the problems that devices need to be controlled one by one in existing intelligent homes, the existing intelligent homes are troublesome in operation, not friendly enough to the user and consumes time; the home devices are combined into a whole, one-button type device management is achieved, operation and use are greatly facilitated for the user, and living quality is improved.

Description

Based on one-touch intelligent device management system and the control method of gravity sensing

Technical field

The present invention relates to smart machine control field, particularly relate to a kind of one-touch intelligent device management system based on gravity sensing and control method.

Background technology

Along with the development of scientific and technological level, economic level also improves constantly, thus people further increase quality of the life requirement, need a kind of more simple and convenient opertaing device mode, increasing family starts to accept Smart Home, user can by mobile terminals such as mobile phones, and Long-distance Control family equipment, this application scenarios to a certain degree facilitates life.

But traditional Smart Home, all that some simply control, by control knobs some on mobile terminal, then family equipment is controlled, the equipment of whole family be all independently, the individuality that separates, user needs to go operation one by one, operates complicated, friendly not to user, and more time-consuming.For more and more higher Modern Family is required concerning quality of the life, urgent hope can have further simple, convenient, one-touch operating experience, wish can under certain scene can one-touch unlatching, closedown, adjust some equipment or automatically detecting when there is potential safety hazard, processing.

Summary of the invention

Technical matters to be solved by this invention, be exactly for complicated, the friendly not shortcoming of existing intelligent home furnishing control method operation, one-touch intelligent device management system based on gravity sensing and control method are provided, user only need shake mobile terminal when needs, just the equipment that need open can be opened by a key, closedown need close equipment, automatically detect and eliminate safe hidden trouble, obtain health, comfortable, a safe living environment, there is provided user one only need do very shirtsleeve operation, the approach just can improved the quality of living.

The technical scheme that technical solution problem of the present invention adopts is: based on the one-touch intelligent device management system of gravity sensing, it is characterized in that, comprise mobile terminal, far-end server and smart machine group; Described mobile terminal comprises virtual controlling module and gravity sensing module, connects far-end server by internet, and distally server sends information or receives the information of far-end server transmission; Described far-end server receives and/or deposits the application scenarios information that virtual controlling module sends, and the environmental information that reception smart machine and/or induction module send and/or equipment running status information are also accordingly to smart machine sending controling instruction; Each smart machine in described smart machine group is all connected through the internet to far-end server and receives the steering order of far-end server transmission, and described smart machine comprises induction module.

While employing technique scheme, the present invention can also adopt or combine and adopt following further technical scheme:

Described mobile terminal is used for providing can select application scenarios to arrange and the shake operation when needs, mobile terminal provides at user option Initialize installation, such as arranges default application scene (the default application scene be set up acquiescence when shaking mobile terminal triggers) and self-defined application scenarios.If the common application scene provided can not be met consumers' demand, self-defined application scenarios can be added, now, which operation or some system-level application of open and close user carries out to which equipment under only need inputting application scenarios title and this application scenarios of definition, far-end server can preserve user's Initialize installation, when environment reaches default threshold value around, trigger and perform corresponding operating.

Described far-end server comprises receiver module, sending module, application scenarios module.The data that receiver module reports for receiving smart machine and/or induction module, are transmitted to application scenarios module.One group of steering order that application scenarios module produces by sending module is transmitted to smart machine, runs to control smart machine.Application scenarios module comprises intelligent scene unit, self-defined scene unit, general scene unit.Wherein intelligent scene unit provides multiple intelligent scene and the control method under this application scenarios; Self-defined scene unit receives and preserves User Defined scene; General scene unit, provides the application scenarios that some are general, has different intelligent control algorithms to the general scene of difference.The general scene that User Defined scene and system provide, comprises use intelligent scene.

Described far-end server also receives the shake operation of process user, and the application scenarios shaking triggering according to user processes accordingly, comprises controlling equipment, sending reminder message etc.

The present invention solves the problems of the technologies described above another adopted technical scheme: based on the one-touch smart machine control method of gravity sensing, adopts the above-mentioned one-touch intelligent device management system based on mobile terminal gravity sensing function, comprises following steps:

1) foresee steps: set up a virtual controlling module on mobile terminals, and described control module is linked into the operating system of mobile terminal; Preset by described virtual controlling module and organize application scenarios more, often organize application scenarios and comprise operation and/or the prompting message setting of one or more required opertaing device and/or trigger the condition and/or instruction that these operate and/or prompting message is arranged;

2) select step: select in many groups application scenarios that user is set in step 1) want the application scenarios that is triggered;

3) triggered step: described virtual controlling module is echoed mutually with the gravity sensing device in mobile terminal, and user shakes mobile terminal, and the gravity sensing device in mobile terminal senses the action of user, triggers described virtual controlling module and enters state of a control;

4) rate-determining steps: described in enter into state of a control virtual controlling module user-selected application scenarios is sent to far-end server, described far-end server sends operational order according to the presupposed information of this application scenarios to required opertaing device.

Further, the prompting message in described step 1 comprises the message of note, phone, mail, mobile terminal propelling movement.

Further, described control method also comprises information acquisition step, and described information acquisition step comprises induction module, and described induction module gathers ambient condition information and/or equipment running status information and collected information is sent to far-end server.

Further, described step 4) also comprises determining step, the condition that these operations of the triggering preset in the information that received aforementioned induction module sends by described far-end server and step 1) and/or prompting message are arranged and/or instruction contrast, thus determine the operational order that sends to the equipment of required control.

Described step 4) also comprises message synchronization step, and operation information is sent on mobile terminal by described far-end server simultaneously.

Described application scenarios, comprises the combination of one group of equipment controlling behavior and/or prompting message.

Described application scenarios, comprises the condition according to some environmental parameters and/or mobile terminal setting and triggers a whole set of answer-mode of one group of equipment controlling behavior.

Described application scenarios, comprises the condition according to some environmental parameters and/or mobile terminal setting and triggers a whole set of answer-modes of some prompting message behaviors.

Beneficial effect main manifestations of the present invention is: the invention provides a kind of one-touch intelligent device management system based on gravity sensing and control method, provides user one only to need very shirtsleeve operation, the approach just can improved the quality of living.User only need set application scenarios title for the first time, add the equipment that need operate, trigger condition is set, then mobile terminal is shaken when needs, just corresponding application scenarios can be opened, intelligence is carried out equipment that open and close need operate, is automatically detected and eliminate safe hidden trouble, and obtains health, comfortable, a safe living environment.

Accompanying drawing explanation

Fig. 1 is the structural drawing of the one-touch Control System of Intelligent based on gravity sensing of the present invention;

Fig. 2 is the process flow diagram of the one-touch smart machine control method based on gravity sensing of embodiment 2 provided by the present invention;

Fig. 3 is the process flow diagram of the one-touch smart machine control method based on gravity sensing of embodiment 3 provided by the present invention.

Embodiment

Application scenarios of the present invention, comprises the combination of one group of equipment controlling behavior and/or prompting message.

Application scenarios of the present invention, comprises the condition according to some environmental parameters and/or mobile terminal setting and triggers a whole set of answer-mode of one group of equipment controlling behavior.

Application scenarios of the present invention, comprises the condition according to some environmental parameters and/or mobile terminal setting and triggers a whole set of answer-modes of some prompting message behaviors.

Embodiment 1, based on the one-touch intelligent device management system of mobile terminal gravity sensing function.

With reference to accompanying drawing 1, the one-touch intelligent device management system based on mobile terminal gravity sensing function of the present invention, it comprises mobile terminal 1, far-end server 2, smart machine 3.Described smart machine 3 can comprise single smart machine, also can comprise multiple smart machine, is smart machine group as shown in this embodiment.

Mobile terminal 1 is provided with virtual controlling module, mobile terminal 1 connects far-end server (high in the clouds) 2 by internet, and distally server 2 sends information or receives the information of far-end server 2 transmission, user can set application scenarios by virtual controlling module on far-end server 2, also can check the reminder message that far-end server sends to mobile terminal 1.

This gravity sensing module be use mobile terminal itself with gravity sensing device, the setting data of this device is connected with virtual controlling module.

The application scenarios information of user's setting that far-end server 2 receives and/or storing virtual control module sends, by the gravity sensing module of shake mobile terminal triggering mobile terminals, thus trigger the application scenarios set, analyze running state information and/or environmental information that the smart machine 3 that receives and/or induction module send simultaneously, generate corresponding equipment steering order and reminder message and send to smart machine and mobile terminal; Far-end server 2 comprise for store application scenarios arrange and generating run instruction scene module 21, for the receiver module 22 of receiving equipment data, for forwarding the sending module 23 of steering order that application scenarios module 21 produces.

Smart machine 3 comprises induction module, can gather and send equipment running status and ambient condition information, comprise the information such as electric current, voltage, power, electricity, physical activity information, light intensity, temperature, humidity, smokescope, combustable gas concentration, PM2.5, the information collected is sent to far-end server by described induction module, these information is used for far-end server 2 and carries out Based Intelligent Control judgement, contrast with the condition set when arranging application scenarios, if reach correlative value, automatically generate corresponding equipment steering order and reminder message.

Embodiment 2, based on the one-touch smart machine control method of gravity sensing.

With reference to accompanying drawing 2, the one-touch smart machine control method based on gravity sensing of the present invention, comprises following steps:

S101, foresee steps: set up a virtual controlling module on mobile terminals, and described control module is linked into the operating system of mobile terminal; Preset by described virtual controlling module and organize application scenarios more, often organize application scenarios and comprise operation and/or the prompting message setting of one or more required opertaing device and/or trigger the condition and/or instruction that these operate and/or prompting message is arranged;

S102, select step: select in many groups application scenarios that user is set in step S101 want the application scenarios that is triggered;

S103, triggered step: described virtual controlling module is echoed mutually with the gravity sensing device in mobile terminal, and user shakes mobile terminal, and the gravity sensing device in mobile terminal senses the action of user, triggers described virtual controlling module and enters state of a control;

S104, rate-determining steps: described in enter into state of a control virtual controlling module user-selected application scenarios is sent to far-end server, described far-end server sends operational order according to the presupposed information of this application scenarios to required opertaing device.

Embodiment 3, based on the one-touch smart machine control method of gravity sensing.

With reference to accompanying drawing 3, the one-touch smart machine control method based on gravity sensing of the present invention, comprises following steps:

S101, foresee steps: set up a virtual controlling module on mobile terminals, and described control module is linked into the operating system of mobile terminal; Preset by described virtual controlling module and organize application scenarios more, often organize application scenarios and comprise operation and/or the prompting message setting of one or more required opertaing device and trigger the condition and/or instruction that these operate and/or prompting message is arranged;

S102, select step: select in many groups application scenarios that user is set in step S101 want the application scenarios that is triggered;

S103, triggered step: described virtual controlling module is echoed mutually with the gravity sensing device in mobile terminal, and user shakes mobile terminal, and the gravity sensing device in mobile terminal senses the action of user, triggers described virtual controlling module and enters state of a control;

S103-1, information acquisition step, described information acquisition step comprises induction module, and described induction module gathers ambient condition information and/or equipment running status information and collected information is sent to far-end server.

S103-2, determining step, the information that received aforementioned induction module sends by described far-end server and step S101) in the condition that arranges of these operations of triggering of presetting and/or prompting message and/or instruction contrast, thus determine the operational order that sends to the equipment of required control.

S104, rate-determining steps: described in enter into state of a control virtual controlling module user-selected application scenarios is sent to far-end server, described far-end server sends operational order according to the presupposed information of this application scenarios to required opertaing device and/or is sent on mobile terminal by operation information.

Embodiment 4,

For " fire-proof and theft-proof warning " application scenarios, user presets virtual controlling module on mobile terminals, and preset in advance many groups intelligent scene in this virtual controlling module, comprising " fire-proof and theft-proof warning " application scenarios;

S101 user is at mobile terminal, and " fire-proof and theft-proof warning " application scenarios under the intelligent scene selecting virtual controlling module to provide, under adding this scene to, arranges the time period of prompting message by needing the smart machine added simultaneously;

S102 user selects this, and " fire-proof and theft-proof is reported to the police, and " application scenarios is the scene wanting to be triggered;

S103 user shakes mobile terminal, triggers and enters state of a control;

S3-1 gathers ambient condition information by induction module and collected information is sent to far-end server,

The environmental data that the analysis of S3-2 far-end server gathers, contrasts with the trigger condition of prediction,

S104, if detect that temperature is too high or around have people movable, far-end server then sends PUSH message and note to user terminal, informs user's warning information.

 

Embodiment 5,

For " going home " application scenarios, user presets virtual controlling module on mobile terminals, and preset in advance many groups intelligent scene in this virtual controlling module, comprising " going home " application scenarios;

S101 user at mobile terminal, " going home " scene under the general scene selecting virtual controlling module to provide, and the data such as human body preference temperature, humidity are preset;

S102 user selects this, and " going home, " scene is the scene wanting to be triggered;

S103 user shakes mobile terminal, triggers and enters state of a control;

S3-1 gathers ambient condition information by induction module and collected information is sent to far-end server, the daily return home time of S3-2 far-end server analytic learning user, according to the distance of leaving home of active user, the trend of going home and current time and daily return home time, judge whether user will go home, the data such as human body preference temperature, humidity, air quality index of the current indoor temperature collected and humidity and far-end server storage are contrasted simultaneously, judge whether current indoor humiture and environmental quality are suitable for;

If S104 judges that user will go home, far-end server sends open command to water heater, if indoor temperature, humidity are not suitable for, far-end server sends open command to air-conditioning, if IAQ (indoor air quality) is poor, far-end server sends open command to air purifier, the home environment that construction one is comfortable in advance.

 

Embodiment 6,

For " leaving home " application scenarios, user presets virtual controlling module on mobile terminals, and preset in advance many groups intelligent scene in this virtual controlling module, comprising " leaving home " application scenarios;

S101 user at mobile terminal, under the general scene selecting virtual controlling module to provide " leaving home, " scene, needs the data such as the smart machine of closing to preset after leaving home; ,

S102 user's scene of selecting this " to leave home " is the scene wanting to be triggered;

S103 user shakes mobile terminal, triggers and enters state of a control;

S3-2 far-end server to be left home the data that Distance geometry trend and induction module transmit according to user, judges that user is in, still leaves home,

After S104 far-end server judges that user leaves home, out code is sent to the smart machine of all unnecessary unlatchings, reduce standby power consumption.

 

Embodiment 7,

For User Defined " sleep " scene, user presets virtual controlling module on mobile terminals, and preset in advance many groups intelligent scene in this virtual controlling module, comprising " sleep " application scenarios;

S101 user is at mobile terminal, " sleep " scene under the general scene selecting virtual controlling module to provide, and smart machine kind such as air-conditioning, light fixture etc. and the usage data thereof of required control are preset, the time of air-conditioning unlatching, pattern are such as set.Temperature, and the brightness etc. of light fixture; Meanwhile, " fire-proof and theft-proof warning " application scenarios under the intelligent scene that user selects virtual controlling module to provide, and the time period etc. of the smart machine kind controlled required for this scene and prompting message is preset;

S102 user selects this " sleep " scene and " fire-proof and theft-proof warning " as wanting the scene be triggered;

S103 user shakes mobile terminal, triggers and enters state of a control;

S3-1 gathers ambient condition information by the induction module on smart machine and collected information is sent to far-end server,

S3-2 and S104, whether far-end server detects current room has people movable, if someone is movable, the length of one's sleep of current time and user is compared, judge whether user enters " sleep " scene, if it is regulate brightness of illumination, regulate air-conditioner temperature and pattern, open " fire-proof and theft-proof warning " scene simultaneously, analysis environments data, if detect that too high or other rooms of temperature have people movable, then send PUSH message and note to user terminal, inform user's warning information.

 

Above-described embodiment for the invention will be further described, but does not limit the invention to these embodiments.One skilled in the art would recognize that all alternativess, improvement project and the equivalents that present invention encompasses and may comprise in Claims scope.

Claims (7)

1. based on an one-touch Control System of Intelligent for gravity sensing, it is characterized in that: comprise mobile terminal, far-end server and smart machine group; Described mobile terminal comprises virtual controlling module and gravity sensing module, connects far-end server by internet, and distally server sends information or receives the information of far-end server transmission; Described far-end server receives and/or deposits the application scenarios information that virtual controlling module sends, and the environmental information that reception smart machine and/or induction module send and/or equipment running status information are also accordingly to smart machine sending controling instruction; Each smart machine in described smart machine group is all connected through the internet to far-end server and receives the steering order of far-end server transmission, and described smart machine comprises induction module.

2., as claimed in claim 1 based on the one-touch Control System of Intelligent of gravity sensing, it is characterized in that: described far-end server comprises receiver module, sending module, application scenarios module;

The data that described receiver module reports for receiving described smart machine and/or described induction module, are transmitted to application scenarios module;

One group of steering order combination that application scenarios module produces by described sending module is transmitted to smart machine, runs to control smart machine;

Described application scenarios module comprises intelligent scene unit, self-defined scene unit, general scene unit.

3. as claimed in claim 2 based on the one-touch Control System of Intelligent of gravity sensing, it is characterized in that: described intelligent scene unit provides the control method under multiple intelligent scene and this application scenarios; Described self-defined scene unit receives and preserves User Defined scene; Described general scene unit, provides the application scenarios that some are general, has different intelligent control algorithms to the general scene of difference; The general scene that described User Defined scene and system provide, comprises intelligent scene.

4., based on the one-touch smart machine control method of gravity sensing, it is characterized in that, described control method comprises following steps:

1) foresee steps: set up a virtual controlling module on mobile terminals, and described control module is linked into the operating system of mobile terminal; Preset by described virtual controlling module and organize application scenarios more, often organize application scenarios and comprise operation and/or the prompting message setting of one or more required opertaing device and/or trigger the condition and/or instruction that these operate and/or prompting message is arranged;

2) select step: select in many groups application scenarios that user is set in step 1) want the application scenarios that is triggered;

3) triggered step: described virtual controlling module is echoed mutually with the gravity sensing device in mobile terminal, and user shakes mobile terminal, and the gravity sensing device in mobile terminal senses the action of user, triggers described virtual controlling module and enters state of a control;

4) rate-determining steps: described in enter into state of a control virtual controlling module user-selected application scenarios is sent to far-end server, described far-end server sends operational order according to the presupposed information of this application scenarios to required opertaing device.

5. as claimed in claim 4 based on the one-touch smart machine control method of gravity sensing, it is characterized in that described control method also comprises information acquisition step, described information acquisition step comprises induction module, and described induction module gathers ambient condition information and/or equipment running status information and collected information is sent to far-end server.

6. as claimed in claim 5 based on the one-touch smart machine control method of gravity sensing, it is characterized in that described step 4) also comprises determining step, the condition that these operations of the triggering preset in the information that received described induction module sends by described far-end server and step 1) and/or prompting message are arranged and/or instruction contrast, thus determine the operational order that sends to the equipment of required control.

7. as described in claim 5 or 6 based on the one-touch smart machine control method of gravity sensing, it is characterized in that described step 4) also comprises message synchronization step, operation information is sent on mobile terminal by described far-end server simultaneously.