WO2015070708A1 - 一种智能家居场景切换方法及系统 - Google Patents

一种智能家居场景切换方法及系统 Download PDF

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Publication number
WO2015070708A1
WO2015070708A1 PCT/CN2014/089804 CN2014089804W WO2015070708A1 WO 2015070708 A1 WO2015070708 A1 WO 2015070708A1 CN 2014089804 W CN2014089804 W CN 2014089804W WO 2015070708 A1 WO2015070708 A1 WO 2015070708A1
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Prior art keywords
scene
event
switching
scenes
information
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PCT/CN2014/089804
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English (en)
French (fr)
Inventor
金述强
张永强
王嘉敏
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珠海优特电力科技股份有限公司
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Application filed by 珠海优特电力科技股份有限公司 filed Critical 珠海优特电力科技股份有限公司
Priority to EP14861524.8A priority Critical patent/EP3070557B1/en
Priority to US15/035,913 priority patent/US10637679B2/en
Priority to KR1020167012443A priority patent/KR101931782B1/ko
Priority to JP2016552659A priority patent/JP6306727B2/ja
Publication of WO2015070708A1 publication Critical patent/WO2015070708A1/zh

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L12/00Data switching networks
    • H04L12/28Data switching networks characterised by path configuration, e.g. LAN [Local Area Networks] or WAN [Wide Area Networks]
    • H04L12/2803Home automation networks
    • H04L12/2816Controlling appliance services of a home automation network by calling their functionalities
    • H04L12/282Controlling appliance services of a home automation network by calling their functionalities based on user interaction within the home
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B15/00Systems controlled by a computer
    • G05B15/02Systems controlled by a computer electric
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06NCOMPUTING ARRANGEMENTS BASED ON SPECIFIC COMPUTATIONAL MODELS
    • G06N5/00Computing arrangements using knowledge-based models
    • G06N5/02Knowledge representation; Symbolic representation
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B2219/00Program-control systems
    • G05B2219/20Pc systems
    • G05B2219/26Pc applications
    • G05B2219/2642Domotique, domestic, home control, automation, smart house

Definitions

  • the present invention relates to the field of smart home control technologies, and in particular, to a smart home scene switching method and system.
  • the scene includes the occasion and the environment, that is, the environment of a particular occasion.
  • the meaning of scene control in smart homes is to control the lighting, background music and other home smart devices according to specific needs for a specific occasion, so that users get the best effect experience.
  • Scene 1 When you wake up in the morning, there are reminders of ringing or music in the bedroom, along with the curtains opening, and gradually illuminating the lights as needed.
  • Scene 2 At the restaurant, there are bright lights in the restaurant and background music that promotes appetite.
  • Scene 3 Before going to sleep at night, the curtains are automatically closed, the lights are gradually extinguished, and accompanied by light music to promote sleep.
  • Scene 4 When there is no one at home, turn off all lighting and background music, and activate the security system.
  • the smart home scene switching can complete the coordinated control of all household appliances in a home through a control center, or directly integrate the control strategy into one or some household appliances in the home to directly realize the scene switching control.
  • the following three prior art technologies are related to home scene control:
  • the invention patent of the application No. 201110239578.9 discloses a client for smart home control and a control system thereof, which are used for inputting control commands through a network, realizing the purpose of remotely controlling the home, and solving the problem of remotely switching and controlling the home device.
  • the remote control of the home equipment is implemented, and the analysis is not based on the current scene of the home or the past scene, and only works according to the user control instruction, and the user is required to provide a specific control operation plan, and the home scene switching efficiency is low.
  • the invention patent of the application No. 201110425089.2 discloses a smart home centralized control device with an environment-adaptive scene mode.
  • various parameters in the scene mode are adjusted according to environmental changes, thereby saving the trouble of manual adjustment by the user.
  • the scene switching mode adopted by the technical solution has a relatively simple controlled condition. Because of the same environmental parameters such as temperature, humidity and illuminance, the requirements of the smart home scene may have great differences in different locations and at different times.
  • the invention patent of the application No. 201210353944.8 discloses a self-learning scene smart home system.
  • the technical solution of the invention is to obtain a user's preference setting for the scene, and adjust the home device according to the preference setting, so as to simplify the user's scene switching operation.
  • For the state parameter changes of the current scene The home scene is switched according to the user preference, and the influence factors of the state parameter change on the home device are not fully considered.
  • the switched home scene may not meet the user expectation, because the user preference setting is only the setting parameter of the past scene, and the current scene is The factors that change the state parameters are not considered.
  • the home scene switching device if not familiar with the scene mode, the user has low efficiency in selecting the scene switching.
  • the scene to be switched In a specified environment, there is usually only one scene switching mode, and the scene to be switched is predetermined, and thus the possibility that the switched scene satisfies the user requirement is low.
  • the scene control parameters can be modified, the original scene switching parameters cannot be retained, resulting in the loss of part of the scene control data, which affects subsequent scene switching selection.
  • the present invention aims to provide a smart home scene switching method and system, enrich the smart home scene switching selection, and switch the scene according to priority order, so that the user can simplify the scene switching selection, thereby improving the scene switching.
  • the history of past scenes has not been changed, providing reliable data for subsequent scene switching, the reliability and stability of smart home scene switching are ensured.
  • the present invention provides a method for switching a smart home scene, the method comprising: dynamically calculating a priority order of a plurality of scenes according to a state parameter of a current scene and/or a history of a past scene; and causing a scene change event, including The selection operation of the scene by the user and/or the change of the current scene state parameter, the combination of the state parameters at different time points; according to the event and the switching rule of the event and the scene, the scene is switched in order according to the priority order.
  • the smart home scene switching method of the present invention includes multiple scene groups, each scene group having multiple scenes; dynamically calculating the priority of the scene in each scene group according to the current scene state parameter and/or the past scene history record Sorting; the switching rule of the event and the scene is the permission correspondence table of the event and its corresponding scene group; according to the event and the scene switching rule, a scene group corresponding to the event is determined, and the scene is switched according to the priority order.
  • the status parameters of the current scene include environmental status parameters, time information, location information, and working status of the home appliance.
  • Environmental status parameters include door lock status, temperature, humidity, personnel information, and/or illuminance. History of past scenes, including the past The frequency of use of the scene.
  • the present invention further provides a smart home scene switching system, including a scene setting module, an event input module, and a scene switching control center module, wherein: the scene setting module is configured to receive scene information set by the user and upload the scene information to the scene. Switching the control center module, wherein the scene information includes time information, status information, and control target information, and the event input module is configured to acquire a state parameter of the current scene, generate an event that causes the scene change, and transmit the event to the scene switching control center.
  • the scene setting module is configured to receive scene information set by the user and upload the scene information to the scene.
  • Switching the control center module wherein the scene information includes time information, status information, and control target information
  • the event input module is configured to acquire a state parameter of the current scene, generate an event that causes the scene change, and transmit the event to the scene switching control center.
  • a module configured to dynamically calculate a priority order of multiple scenes according to a status parameter of a current scene and/or a history of a past scene; and an event according to the scene change, and the event and the scene
  • the switching rule outputs the scene information in order of priority.
  • the smart home scene switching system of the present invention further includes a scene selection module for confirming scene information sent by the scene switching control center module.
  • the smart home scene switching system of the present invention further includes a scene execution module, configured to switch the scene information output by the control center module according to the scene, adjust the working state of the home equipment, and make the home equipment meet the scene control target.
  • the smart home scene switching system of the present invention further includes a scene candidate module for viewing and selecting an eligible alternative scene, and transmitting the confirmed candidate scene to the scene switching control center module.
  • the status parameters of the current scene include environmental status parameters, time information, location information, and working status of the home appliance.
  • Environmental status parameters include door lock status, temperature, humidity, personnel information, and/or illuminance.
  • the history of past scenes including the frequency of use of past scenes.
  • the invention has the beneficial effects that the smart home scene switching method and system of the present invention dynamically calculates a plurality of groups of prioritized scenes by using state parameters of the current scene and/or historical records of past scenes, enriching the smart home scene. Switching selection; according to the event and the switching rules of the event and the scene, determining a set of scenes with priority ordering, and switching the scene according to the priority order, so that the user can simplify the scene switching selection, thereby improving the efficiency of the scene switching;
  • the history of past scenes is not changed, which provides reliable data for subsequent scene switching, thereby ensuring reliability and stability of smart home scene switching.
  • FIG. 1 is a schematic flow chart of a method for switching a smart home scene according to the present invention
  • FIG. 2 is a schematic flow chart of a method for switching a smart home scene according to the present invention
  • FIG. 3 is a schematic structural diagram of a smart home scene switching system of the present invention.
  • the present invention provides a method for switching a smart home scene, comprising: dynamically calculating a priority order of a plurality of scenes according to a state parameter of a current scene and/or a history record of a past scene; an event according to the scene change, and the event Switching between scenes and scenarios, switching the scenes in order of priority.
  • the event causing the scene change includes a user selection operation of the scene, a change of the current scene state parameter, and/or a combination change of the state parameter at different time points.
  • the scene switching is performed according to the corresponding switching rule.
  • the combination of state parameters at different time points is a virtual scene event, which is a change of state parameters at a plurality of different time points into a dynamic change in a time series, and these dynamic changes can be combined and Identify, which in turn causes scene switching.
  • the event and scene switching rule is a table corresponding to the rights of the event and its corresponding scene.
  • the scene corresponding to the event is determined, and the scene is switched according to the priority order.
  • the smart home scene switching method of the present invention includes multiple scene groups, each scene group having multiple scenes; wherein the event and scene switching rules correspond to events A permission correspondence table for a scene group.
  • the smart home scene switching method is specifically: dynamically calculating the priority order of the scenes in each scene group according to the state parameters of the current scene and/or the history records of the past scenes; determining according to the event and the scene switching rule A scene group corresponding to the event, and switches the scene according to the priority order.
  • Each event corresponds to a set of prioritized scenarios
  • the event and scenario switching rules are the rights correspondence table of the event and its corresponding set of scenarios.
  • the corresponding scenario is switched according to the change of the state parameter, and the corresponding scenario is switched according to the user operation.
  • the user can also customize the switching rules of the event and the scene.
  • the manner of switching the rules between the user-defined event and the scene may be implemented by a touch screen, a switch or an operation button, or by a communication interface through a communication interface.
  • the group has In a prioritized scenario, a group of scenes is confirmed, and the scenes are sequentially switched according to the priority order of the group of scenes.
  • the following is an example of a button implementation.
  • the first time the user presses the button is the first scene, the second button presses the second scene, and the third button presses the third. Scene, ..., and so on.
  • a plurality of buttons are provided, each of which corresponds to a set of sorted scenes, and a set of sorted scenes includes a plurality of scenes sequentially sorted, and the user can sequentially switch the scenes that meet the conditions by pressing a button.
  • the status parameters of the current scene include environmental status parameters, time information, location information, and the working status of the home appliance.
  • Environmental status parameters include parameters such as door lock status, temperature, humidity, personnel information, and illuminance.
  • Household appliances include TVs, air conditioners, fans, digital photo frames, computers and other household equipment.
  • the history of past scenes includes the frequency of use of past scenes, for example, the frequency of use of different scenes in the past, the user's preference selection for a scene, and the frequency of use thereof. These history records are applied to the prioritization calculation of multiple sets of scenes. Specifically, according to the frequency of use of the scene by the user, multiple sets of scenes with prioritization are calculated.
  • the present invention provides a smart home scene switching system, which includes a scene setting module, an event input module, a scene switching control center module, a scene selection module, a scene execution module, and a scene candidate module.
  • the scene switching control center module communicates with other modules in a direct or indirect manner; the direct mode exchanges data through a circuit connection; and the indirect mode exchanges data through a communication interface. According to the actual needs, different communication methods are selected to make the system communication flexible and reliable.
  • a scene setting module configured to receive the set scene information.
  • the received scene information includes time information, status information, and control target information.
  • the user can define the switching rules of events and scenes through the scene setting module, or set the sorting order of multiple sets of scenes.
  • the setting of the scene can be added not only by the scene setting module, but also automatically by the change of a certain control target state during the use of the specific scene.
  • the scene setting module includes a human-computer interaction interface and/or a communication interface, wherein the human-computer interaction interface includes a screen, a keyboard, or a touch screen.
  • the event input module is configured to acquire a state parameter of the current scene, generate an event that causes the scene change, and transmit the event to the scene switching control center module.
  • the event input module is a set of smart sensor groups or a plurality of discrete smart sensors for collecting status information and transmitting to the scene switching control center module.
  • the event input module is a communication interface for reading status information from the home device and passing the status information to the scene switch control center module.
  • the scene switching control center module stores the frequency of use of past scenes under different environmental conditions, and dynamically calculates multiple sets of scenes according to the current scene state parameters and past scene history records. And sort by priority. When an event such as a user operation or a change in a status parameter is generated, the switching of the scene is triggered according to the corresponding rule.
  • the scene switching control center module is further configured to receive scene information confirmed by the user through the scene selection module, and output a control target instruction to the scene execution module according to the control target set by the scene.
  • the scene switching control center module dynamically adjusts the priority of the scene sorting according to the history of the past scene, simplifies the user's selection of the scene, significantly improves the scene selection efficiency, and can simultaneously provide multiple sets of scenes for the user to select under specified conditions. Meet the requirements of user diversity.
  • the history of the past scenes is used as the basis for sorting the scenes, which improves the efficiency of the user's selection of the specified scene (for example, the scene that the user frequently selects).
  • the scene switching control center module calculates a dynamic multi-group scene.
  • the current scene has different state parameters or different past history records, and the dynamically calculated scenes are also sorted differently.
  • the multiple sets of scenes may be pre-defined by the user through the system, or may be dynamically calculated and generated by the system according to the state parameters of the current scene or the historical records of the past scenes.
  • the scene switching control center module When the scene switching control center module performs scene sorting according to the historical record of the past scene, the scene sorting priority may be dynamically adjusted according to the frequency of use of the past scene by the user under the environmental condition, and the scene may be added in the next environment. The chance.
  • the status parameters of the scene include environmental parameters such as door lock status, temperature, humidity, personnel information, and illuminance; and the working status of household appliances such as televisions, air conditioners, fans, digital photo frames, and computers; in addition, time information and location information are also scenes.
  • the time information can be calculated by the clock chip of the scene switching control center module, or can be queried and received through the communication interface. The more detailed and detailed the scene state parameters, the more accurate the scene switching effect is, and the closer it is to the user's actual needs.
  • An event that causes a scene change, a user's selection operation of the scene, a change in the current scene state parameter, and/or a combination of state parameters at different points in time is performed according to the corresponding switching rule.
  • the combination of state parameters at different time points is a virtual scene event, which is a change of state parameters at a plurality of different time points into a dynamic change in a time series, and these dynamic changes can be combined and Identify, which in turn causes scene switching.
  • the scene switching control center module may be disposed on the smart switch for controlling a scene of a specified location; or may be applied to the smart home control center for controlling scene control of all locations in the entire home environment; It can also be applied to a computer or mobile terminal application, for example, an application of a mobile terminal such as a mobile phone or a tablet computer, and controls a scene at a specified location or all locations in the home environment.
  • the scene switching control center module can also be implemented by an embedded processor and running software.
  • the scene selection module is configured to confirm scene information sent by the scene switching control center module.
  • the scene selection module may be a switch or a button, and select and confirm the scene information by clicking or combo operation.
  • the scene selection module may also be a human-computer interaction terminal (for example, a computer or a mobile terminal) for acquiring scene confirmation information.
  • the user confirms the scene information through the scene selection module.
  • the desired scene is clicked, if the scene is not required by the user, the user can switch the scene by continuous operation selection.
  • the scene switching control center module can automatically determine that the scene is sorted in front according to the user usage record and status information.
  • the scene switching control center module determines that the scene is closed, simplifying User action.
  • the scene execution module adjusts the working state of the home device according to the scenario information output by the control center module according to the scene, so that the home device meets the scene control target.
  • the scenario execution module may be a collection of a plurality of function execution modules; or may be a communication interface for outputting a control target or a control instruction to the controlled device; or a combination of the two.
  • Controlled household equipment includes one or more of lighting equipment, audio equipment, air conditioning, electric heating, digital photo frames, computers, televisions, electric curtains, security systems, air purifiers, water heaters, and the like.
  • the scene candidate module is configured to view and select an eligible candidate scenario, and transmit the confirmed candidate scenario to the scenario switch control center module.
  • the scenario record module can view or select the candidate scenario that meets the requirements.
  • the scenario switch control center module sends the scenario information, and the scenario execution module executes the transformation scenario.
  • the scene candidate module is an optional module of the smart home scene switching system, and may be a display screen, a touch screen or a voice prompting device, and is used to provide an alternative scene that meets the current conditions to the user.
  • the smart home scene switching system of the invention relates to controlling the following household equipment systems, for example, a lighting system, a home audio equipment system, a home theater system, an anti-theft alarm system, an intercom and monitoring system, an electric curtain system, an air purification system, an air conditioning system, One or more of solar energy and energy saving systems, hot water systems, and the like.
  • household equipment systems for example, a lighting system, a home audio equipment system, a home theater system, an anti-theft alarm system, an intercom and monitoring system, an electric curtain system, an air purification system, an air conditioning system, One or more of solar energy and energy saving systems, hot water systems, and the like.
  • the above content is a general analysis of the smart home scene switching system.
  • the following describes the working principles of the smart home scene switching system of the present invention by introducing three implementations that achieve the object of the present invention and the specific implementation structure.
  • Embodiment 1 Intelligent switch mode
  • the smart switch includes an embedded processor to implement the function of the scene switching control center module;
  • the function of the scene setting module is realized by a computer or a mobile terminal through a wired or wireless manner;
  • the intelligent switch includes a timing chip for implementing the timing function
  • the intelligent switch reads the monitoring information of the state sensor such as the personnel information and the illuminance, and the working state information of the household appliance through the form of electrical connection or wireless input, and realizes the function of the event input module;
  • the intelligent switch displays the icon information of the alternative scene in real time through the display screen or the touch screen, and realizes the function of the candidate module of the scene;
  • the intelligent switch acquires scene confirmation information through the operation of a button, a switch or a touch screen, and implements the function of the scene selection module;
  • the intelligent switch realizes the function of the scene execution module by electrically connecting, switching, or adjusting the brightness of the light.
  • Embodiment 2 Mode of smart home control terminal
  • control terminal includes an embedded processor to implement the function of the scene switching control center module;
  • the smart home control terminal realizes the function of the scene setting module through a computer or a mobile terminal through a wired or wireless manner, or realizes the function of the scene setting module through a display screen or a touch screen;
  • the smart home control terminal includes a timing chip to implement a timing function
  • the smart home control terminal reads the monitoring information of the state information such as the personnel information, the illuminance, the temperature, the humidity, and the working state information of the household appliance through wired or wireless communication mode, and realizes the function of the event input module;
  • the smart home control terminal displays the icon information of the alternative scene in real time through the display screen or the touch screen at the switch or the switch, thereby realizing the function of the candidate module of the scene;
  • the smart home control terminal acquires scene confirmation information through the operation of a button, a switch or a touch screen, and implements the function of the scene selection module;
  • the smart home control terminal controls the working state of the security system, lighting, air conditioning, electric heating, electric curtains, computer, television, digital photo frame through electrical connection or wired or wireless communication mode, and realizes the function of the scene execution module.
  • the processor of the mobile terminal is borrowed to implement the function of the scene switching control center module
  • the mobile terminal application implements the function of the scene setting module through its own display screen or touch screen;
  • the mobile terminal application invokes a timing program included in the mobile terminal to implement a timing function
  • the mobile terminal application reads the monitoring information of the state information such as the personnel information, the illuminance, the temperature, the humidity, and the working state information of the household appliance through wired or wireless communication mode, and realizes the function of the event input module;
  • the mobile terminal application displays the icon information of the alternative scene in real time through the display screen or the touch screen to implement the function of the candidate module of the scene;
  • the mobile terminal application acquires the scene confirmation information by capturing the operation of the button or the touch screen, and realizes the function of the scene selection module;
  • the mobile terminal application controls the working state of the security system, lighting, air conditioning, electric heating, electric curtains, computer, television, digital photo frame through wired or wireless communication mode, and realizes the function of the scene execution module.
  • control systems of the above three specific embodiments can dynamically display the currently provided, sequentially arranged several alternative scenes for the user to select, which is intuitive and clear.
  • the user can also select and confirm the desired scene mode by continuously controlling the switch or button operation of the system configuration, which is simple and low in cost.
  • the present invention provides a smart home scene switching method and system. To more clearly understand the inventive concept of the present invention, the technical solution of the present invention is analyzed in conjunction with a specific scene switching example.
  • the smart home scene switching system of the present invention is installed, and is implemented by a mode of the smart home control terminal: the control terminal includes an embedded processor, and can dynamically calculate multiple groups according to the currently read state parameters and historical records. The sorted scene; the user controls the selection of the scene by controlling the buttons of the terminal.
  • the user Before implementing the intelligent scene switching function, the user must first set some basic parameters through the scene setting module of the smart terminal, for example, by defining a plurality of scene modes in advance by the control terminal, respectively defining a scene number, such as S000: home mode ; S001: power saving mode; S002: meeting mode; S003: theater mode; S004: sleeping mode; S005: dining mode; S006: away from home mode, the user can pass the display of the smart terminal, or wirelessly connect with the smart terminal Computers, mobile terminals, etc., set these related scene information, for example, in the power saving mode, only 50% of the living room lighting is turned on, and the rest of the lights are turned off; for example, in the theater mode, only 30% of the lighting is turned on, and at the same time, Sound effects, etc.
  • Different geographic locations can have separate scenarios, and several geographic locations can have the same scenario.
  • the smart terminal After the setting is completed, the smart terminal acquires personnel information (for example, people approaching or moving away), environmental status information such as illuminance, time position information, and use by means of electrical connection or wireless communication.
  • personnel information for example, people approaching or moving away
  • environmental status information such as illuminance, time position information, and use by means of electrical connection or wireless communication.
  • the user operation information or the working status information of the home appliance, etc. dynamically adjusts the prioritization of each scene in the current control terminal.
  • the scenario configuration information is as follows:
  • the scene priority is sorted to S000, S001, S005, S003...;
  • the user can control the terminal button, click or continuously operate the button, and then select the scene information that he needs. For example, after the user locks the home separately at 17:30, the user can directly open the "S000 home mode" by clicking the button once. "At this time, the living room lights are fully open, and the electric curtains are all open; if the user is not satisfied with the current scene, you can switch to the next scene dynamically sorted by priority by pressing the button again, that is, "S001 power saving mode” "At this time, the living room lights are turned on 50%, and the electric curtains are only opened half; if the user is not satisfied with the scene, they can also switch to the next scene sorted by priority order by pressing the button again, that is, pressing the button three times, such as " S005 dining mode", when the restaurant lights are all turned on, the living room lighting is only turned on 30%; the user through this different number of button operations, so that the scene is sorted according to the current priority order S000 ⁇ S001 ⁇ S005 ⁇ S003 ...
  • the scene is automatically sorted according to the read status information as follows: S003 ⁇ S001 ⁇ S004 ⁇ S005..., the user can select different scene modes in turn by controlling the number of button presses.
  • the user can only use the scene switching of a certain geographical location, and can also be used for scene switching of multiple locations, and the user can set according to his actual needs.
  • the user can set the operation buttons of the living room and the bedroom to control only the scene switching of the respective positions.
  • the user operates the keys of the living room, only the scenes that match the living room scene mode are selected, and the user switches according to the priority operation order according to the user key operation;
  • the buttons of the bedroom only a few scenes that match the bedroom scene mode are switched in order of priority according to the user's key operation.
  • the scene mode is a plurality of groups, and each group of scene modes may separately comprise a plurality of different scenes, and multiple scenes included in each group of scene modes may be set, and an operation button is used to switch and select; through a plurality of different buttons, respectively Switch between multiple sets of scenes.
  • This plurality of sets of scene modes can be distinguished by geographic location or other conditions.
  • the user's usage frequency or usage record for a certain scene mode can also be saved for the prioritization calculation of the next scene.
  • the smart home scene switching method and system of the present invention can greatly simplify the user operation and improve the user's selection efficiency of the home scene mode when the user selects the scene mode.

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Abstract

一种智能家居场景切换方法及系统,根据当前场景的状态参数和/或过去场景的历史记录,动态计算多个场景的优先级排序;根据引起场景变化的事件,以及该事件与场景的切换规则,按照优先级排序依次切换场景。本智能家居场景切换方法及系统,丰富智能家居场景切换选择,按照优先权排序切换场景,使得用户对场景切换选择简便化,提高了场景切换的效率,提升了智能家居场景切换的可靠性和稳定性。

Description

一种智能家居场景切换方法及系统 技术领域
本发明涉及智能家居控制技术领域,尤其涉及一种智能家居场景切换方法及系统。
背景技术
场景包括场合和环境,即某一特定场合的环境。智能家居中的场景控制所包含的含义是指针对某一特定场合,对灯光、背景音乐及其它家用智能设备根据特定需要进行的控制,从而使得使用者获得最佳的效果体验。
例如,场景1:在早晨起床时,在卧室内有铃声或者音乐的提醒,伴随着窗帘打开,以及根据需要逐渐点亮照明灯。场景2:在就餐时,在餐厅有明亮的灯光以及促进食欲的背景音乐。场景3:在晚上入睡前,窗帘自动关上,照明灯逐渐熄灭,并伴随着轻音乐促进睡眠。场景4:在家里没有人时,关闭全部照明灯光和背景音乐,并启动安防系统。
通常,智能家居场景切换可以通过一个控制中心来完成一个家庭内所有家用电器的协调控制,也可以将控制策略直接集成到家庭内某个或者某些家用电器上,直接实现场景切换的控制。例如,以下3项现有技术为家居场景控制相关专利文献:
(1)申请号201110239578.9的发明专利,公开一种用于智能家居控的客户端及其控制系统,用于通过网络输入控制指令,实现远程控制家居的目的,解决远程切换控制家居设备的问题。在该专利技术方案中,是实现对家居设备远程控制,未基于家居当前场景或过去场景进行分析,仅是按照用户控制指令工作,需要用户提供具体控制操作方案,家居场景切换效率低下。
(2)申请号201110425089.2的发明专利,公开一种具有环境适应情景模式的智能家居集控装置,通过设置环境感知装置,按照环境变化调整场景模式中的各个参数,节省用户手动调整的麻烦。该技术方案采用的场景切换方式受控条件较为单一,因为相同的温度、湿度和光照度等环境参数,在不同的位置和不同的时间,智能家居场景需求会有很大的差异性要求。
(3)申请号201210353944.8的发明专利,公开一种自学习型场景智能家居系统,该技术方案发明构思在于获取用户对场景的偏好设置,依据偏好设置调整家居设备,达到简化用户对场景切换操作。对于当前场景的状态参数变化, 是依据用户偏好切换家居场景,未充分考虑状态参数变化应该对家居设备的影响因素,所切换家居场景可能达不到用户期望,因为用户偏好设置仅是对过去场景的设置参数,而当前场景的状态参数的变化因素,并未予以考虑。
由此可知,现有智能家居场景切换存在诸多不足,至少存在以下技术问题:家居场景切换设备,如果不熟悉场景模式,用户对场景切换选择效率较低。在指定环境下,通常仅有一项场景切换模式,所要切换的场景是预定的,进而切换后的场景满足用户要求的可能性低。在部分家居场景切换系统中,虽然场景控制参数可以修改,但是不能保留原场景切换参数,致使丢失部分场景控制数据,影响后续场景切换选择。
发明内容
为解决上述现有技术问题,本发明旨在提供一种智能家居场景切换方法及系统,丰富智能家居场景切换选择,按照优先权排序切换场景,使得用户对场景切换选择简便化,进而提高场景切换的效率;此外,由于过去场景的历史记录未被改变,为后续场景切换提供可靠数据,所以保证了智能家居场景切换的可靠性和稳定性。
一方面,本发明提供一种智能家居场景切换方法,该方法包括:根据当前场景的状态参数和/或过去场景的历史记录,动态计算多个场景的优先级排序;引起场景变化的事件,包括用户对场景的选择操作和/或当前场景状态参数的变化、在不同时间点上状态参数的组合变化;根据事件以及该事件与场景的切换规则,按照优先级排序依次切换场景。
本发明的智能家居场景切换方法,事件与场景的切换规则,为事件与其对应场景的权限对应表;根据事件以及该事件与场景的切换规则,确定与事件对应的场景,并按优先级排序切换场景。
本发明的智能家居场景切换方法,包括多个场景组,每个场景组具有多个场景;根据当前场景的状态参数和/或过去场景的历史记录,动态计算每个场景组中场景的优先级排序;事件与场景的切换规则,为事件与其对应一个场景组的权限对应表;根据事件和场景切换规则,确定与事件对应的一个场景组,并按优先级排序切换场景。
在本发明的智能家居场景切换方法中,当前场景的状态参数包括环境状态参数、时间信息、位置信息以及家用电器的工作状态。环境状态参数包括门锁状态、温度、湿度、人员信息和/或光照度。过去场景的历史记录,包括过去 场景的使用频率。
另一方面,本发明还提供一种智能家居场景切换系统,包括场景设置模块、事件输入模块以及场景切换控制中心模块,其中:场景设置模块用于接收用户设置的场景信息并将其上传至场景切换控制中心模块,其中,该场景信息包括时间信息、状态信息和控制目标信息,;事件输入模块用于获取当前场景的状态参数,生成引起场景变换的事件,并将其传送至场景切换控制中心模块;场景切换控制中心模块,用于根据当前场景的状态参数和/或过去场景的历史记录,动态计算多个场景的优先级排序;还用于根据引起场景变化的事件,以及该事件与场景的切换规则,按照优先级排序输出场景信息。
本发明的智能家居场景切换系统,还包括场景选择模块,用于确认场景切换控制中心模块发出的场景信息。
本发明的智能家居场景切换系统,还包括场景执行模块,用于根据场景切换控制中心模块输出的场景信息,调整家居设备的工作状态,使家居设备符合场景控制目标。
本发明的智能家居场景切换系统,还包括场景备选模块,用于查看和选择符合条件的备选场景,并将确认的备选场景传送至场景切换控制中心模块。
在本发明的智能家居场景切换系统中,当前场景的状态参数,包括环境状态参数、时间信息、位置信息以及家用电器的工作状态。环境状态参数包括门锁状态、温度、湿度、人员信息和/或光照度。过去场景的历史记录,包括过去场景的使用频率。
本发明的有益效果是:本发明的智能家居场景切换方法及系统,通过当前场景的状态参数和/或过去场景的历史记录,动态计算出多组具有优先级排序的场景,丰富了智能家居场景切换选择;按照事件以及事件与场景的切换规则,确定一组具有优先权排序的场景,并按照优先权排序切换场景,使得用户对场景切换选择简便化,进而提高场景切换的效率;此外,在本发明中,在生成多组具有优先级排序的场景时,过去场景的历史记录未被改变,这为后续场景切换提供可靠数据,进而保证智能家居场景切换的可靠性和稳定性。
附图说明
构成本发明的一部分的附图,用来提供对本发明的进一步理解,本发明的示意性实施例及其说明用于解释本发明,并不构成对本发明的不当限定。在附图中:
图1是本发明智能家居场景切换方法的流程示意图;
图2是本发明智能家居场景切换方法的流程示意图;以及
图3是本发明智能家居场景切换系统的结构组成示意图。
具体实施方式
以下将结合说明书附图对本发明的具体实施方案进行详细阐述,但是本发明可以由权利要求限定和覆盖的多种不同方式实施。
本发明提供了一种智能家居场景切换方法,包括:根据当前场景的状态参数和/或过去场景的历史记录,动态计算出多个场景的优先级排序;根据引起场景变化的事件,以及该事件与场景的切换规则,按照优先级排序依次切换场景。
其中,引起场景变化的事件,包括用户对场景的选择操作、当前场景状态参数的变化和/或在不同时间点上状态参数的组合变化。在至少一种上述事件发生时,会按照相应的切换规则进行场景切换。其中,在不同时间点上状态参数的组合变化,是一种虚拟场景事件,是将多个不同时间点上的状态参数变化,汇集成一个时间序列上的动态变化,这些动态变化可以被组合和识别,进而引起场景切换。
如图1所示,在其中一个实施例中,事件与场景的切换规则,为事件与其对应的场景的权限对应表。在本实施例中,根据事件以及该事件与场景的切换规则,确定与事件对应的场景,并按优先级排序切换场景。
如图2所示,在另外一个实施例中,本发明的智能家居场景切换方法,包括多个场景组,每个场景组具有多个场景;其中,事件与场景的切换规则,为事件与其对应一个场景组的权限对应表。
在本实施中,智能家居场景切换方法具体为:根据当前场景的状态参数和/或过去场景的历史记录,动态计算出每个场景组中场景的优先级排序;根据事件和场景切换规则,确定与事件对应的一个场景组,并按优先级排序切换场景。
每一种事件对应一组具有优先级排序的场景,事件与场景的切换规则是事件与其对应的一组场景的权限对应表。例如,根据状态参数的变化切换对应场景,根据用户操作切换对应场景。此外,用户还可以自定义事件与场景的切换规则,具体而言,用户自定义事件与场景之间切换规则的方式可以为触摸屏、开关或操作按键、或者通过通讯接口以通信交互的方式实现。
在本实施例中,在场景切换时,根据事件与场景的切换规则,在多组具有 优先级排序的场景中,确认一组场景,根据该组场景的优先级排序依次切换场景。在具体实现时,下面以按键实现方式为例,用户第一次按下按键是排序第一的场景,第二次按下按键是排序第二的场景,第三次按下按键是排序第三的场景,……,以此类推。在另外一个实施例中,设有多个按键,每个按键分别对应一组排序的场景,一组排序的场景包含依次排序的多个场景,用户可以通过按键操作,依次切换符合条件的场景。
当前场景的状态参数包括环境状态参数、时间信息、位置信息以及家用电器的工作状态。环境状态参数包括门锁状态、温度、湿度、人员信息、光照度等参数。家用电器包括电视、空调、风扇、数码相框、电脑等家居设备。过去场景的历史记录包括过去场景的使用频率,例如,对过去不同场景的使用频率、用户对某个场景的偏好选择及其使用频率,这些历史记录被应用到多组场景的优先级排序计算中,具体而言,根据用户对场景使用频率,计算出多组具有优先级排序的场景。
如图3所示,本发明提供了一种智能家居场景切换系统,包括场景设置模块、事件输入模块、场景切换控制中心模块、场景选择模块、场景执行模块和场景备选模块。场景切换控制中心模块与其他模块之间采用直接方式或间接方式实现通信;直接方式,是通过电路连接交换数据;间接方式,是通过通讯接口以通信的方式交换数据。根据实际需要,选用不同的通信方式,使该系统通信灵活可靠。
场景设置模块,用于接收设置的场景信息。接收的场景信息包括时间信息、状态信息和控制目标信息。用户可以通过场景设置模块定义事件与场景的切换规则,也可以自行设定多组场景的排序顺序。场景的设置不仅可以通过场景设置模块独立添加,也可以通过特定场景使用过程中某个控制目标状态的改变而自动生成。在其中一个实施例中,场景设置模块包括人机交互接口和/或通讯接口,其中,人机交互接口包括屏幕、键盘或触摸屏。
事件输入模块,用于获取当前场景的状态参数,生成引起场景变换的事件,并将其传送至场景切换控制中心模块。在其中一个实施例中,事件输入模块为一组智能传感器组或多个分散智能传感器,用于采集状态信息并发送至场景切换控制中心模块。在另外一个实施例中,事件输入模块为通讯接口,用于从家居设备上读取状态信息,并将状态信息传递至场景切换控制中心模块。
场景切换控制中心模块,存储有在不同环境条件下的过去场景的使用频率,根据当前场景的状态参数以及过去场景的历史记录,动态计算出多组场景 并按优先级进行排序。当产生用户操作或者状态参数变化等事件时,就会按照相应的规则触发场景的切换。此外,场景切换控制中心模块,还用于接收用户通过场景选择模块确认的场景信息,并按照该场景设置的控制目标,向场景执行模块输出控制目标指令。场景切换控制中心模块根据过去场景的历史记录动态调整场景排序的优先级,简化了用户关于场景的选择方式,显著提高场景选择效率,并能在指定条件下同时提供多组场景供使用者选择,满足了使用者多样性的要求。过去场景的历史记录作为场景排序依据,提高了用户选择指定场景(例如,用户经常性选用的场景)的效率。
场景切换控制中心模块计算生成的是动态的多组场景,当前场景的状态参数不同或过去场景的历史记录不同,其所动态计算出的场景排序也不同。其中,多组场景可以由用户通过系统预先定义,也可以由系统根据当前场景的状态参数或过去场景的历史记录,重新动态计算生成。
其中,场景切换控制中心模块根据过去场景的历史记录进行场景排序时,可根据使用者在该环境条件下对过去场景的使用频率,动态调整场景排序优先级,增加该场景在下一次该环境下出现的机率。
其中场景的状态参数包括门锁状态、温度、湿度、人员信息、光照度等环境参数;还包括电视、空调、风扇、数码相框、电脑等家用电器的工作状态;此外,时间信息和位置信息也是场景状态参数。其中,时间信息可以通过场景切换控制中心模块的时钟芯片计算实现,也可以通过通讯接口查询和接收。场景状态参数越多越详细,使得场景切换效果越精确,越接近用户切实需求。
引起场景变化的事件,用户对场景的选择操作、当前场景状态参数的变化和/或在不同时间点上状态参数的组合变化。在至少一种上述事件发生时,会按照相应的切换规则进行场景切换。
其中,在不同时间点上状态参数的组合变化,是一种虚拟场景事件,是将多个不同时间点上的状态参数变化,汇集成一个时间序列上的动态变化,这些动态变化可以被组合和识别,进而引起场景切换。
在具体实施时,场景切换控制中心模块可以设置在智能开关上,用于控制某一个指定位置的场景;也可以应用在智能家居控制中心上,用于控制整个家居环境内所有位置的场景控制;也可以应用在电脑或移动终端应用程序上,例如,手机、平板电脑等移动终端的应用程序,控制家居环境中某个指定位置或者所有位置的场景。此外,场景切换控制中心模块还可以由一个嵌入式处理器及运行的软件实现。
场景选择模块,用于确认场景切换控制中心模块发出的场景信息。在具体实施时,场景选择模块可以是开关或按键,通过单击或连击操作选择并确认场景信息。场景选择模块也可以是人机交互终端(例如,电脑或者移动终端),用于获取场景确认信息。用户通过场景选择模块确认场景信息,在实现想要的场景时,如果单击一次不是用户所需要的场景,用户可以通过连续操作选择来切换场景。当某一场景被用户多次连续操作才能输出,且被用户实际使用时,场景切换控制中心模块可以自动判断,根据用户使用记录及状态信息将此场景排序在前面。用户通过场景选择模块确认所需场景后,如果在一段时间内(如10s)不操作该按键,则在该时间过后按下此按键时,场景切换控制中心模块将其判断为关闭该场景,简化用户操作。
场景执行模块,根据场景切换控制中心模块输出的场景信息,调整家居设备的工作状态,使家居设备符合场景控制目标。具体实施时,场景执行模块,可以是若干个功能执行模块的集合;也可以是一个通讯接口,用于向受控设备输出控制目标或者控制指令;还可以是两者的结合。控制的家居设备包括照明设备、音响设备、空调、电暖气、数码相框、电脑、电视、电动窗帘、安防系统、空气净化器、热水器等设备中的一种或多种。
场景备选模块,用于查看和选择符合条件的备选场景,并将确认的备选场景传送至场景切换控制中心模块。用户通过场景备案模块可以查看或者选择符合条件的备选场景,由场景切换控制中心模块发出场景信息,并由场景执行模块执行变换场景。在具体实施时,场景备选模块是智能家居场景切换系统的可选模块,它可以是显示屏、触摸屏或语音提示设备,用于向使用者提供符合当前条件的备选场景。
本发明智能家居场景切换系统涉及到控制以下家居设备系统,例如,照明系统、家庭音响设备系统、家庭影院系统、防盗报警系统、对讲及监控系统、电动窗帘系统、空气净化系统、空调系统、太阳能与节能系统、热水系统等中的一种或多种。
以上内容是对智能家居场景切换系统的概括性分析,下面通过介绍三种实现本发明目的较优的实施方案,结合具体实现结构阐述本发明智能家居场景切换系统的工作原理。
实施例1:智能开关模式
在智能开关模式下,智能开关包含嵌入式处理器,实现场景切换控制中心模块的功能;
通过有线或者无线的方式,通过电脑、移动终端等设备实现场景设置模块的功能;
智能开关包含计时芯片,用于实现计时的功能;
智能开关通过电气连接的形式或者无线输入的方式,读取人员信息、光照度等状态传感器的监测信息,以及家用电器的工作状态信息,实现事件输入模块的功能;
智能开关通过显示屏或者触摸屏,实时显示备选场景的图标信息,实现场景备选模块的功能;
智能开关通过按键、开关或者触摸屏的操作,获取场景确认信息,实现场景选择模块的功能;
智能开关通过电气连接,开关、或者调整灯光的亮度,实现场景执行模块的功能。
实施例2:智能家居控制终端的模式
在智能家居控制终端模式下,控制终端包含嵌入式处理器,实现场景切换控制中心模块的功能;
智能家居控制终端通过有线或者无线的方式,通过电脑、移动终端等设备实现场景设置模块的功能,或者通过显示屏或者触摸屏来实现场景设置模块的功能;
智能家居控制终端包含计时芯片,实现计时功能;
智能家居控制终端通过有线或者无线的通讯方式,读取人员信息、光照度、温度、湿度等状态传感器的监测信息,以及家用电器的工作状态信息,实现事件输入模块的功能;
智能家居控制终端通过自身或者开关处的显示屏或者触摸屏,实时显示备选场景的图标信息,实现场景备选模块的功能;
智能家居控制终端通过按键、开关或者触摸屏的操作,获取场景确认信息,实现场景选择模块的功能;
智能家居控制终端通过电气连接或者有线或无线的通信方式,控制安防系统、灯光、空调、电暖气、电动窗帘、电脑、电视、数码相框的工作状态,实现场景执行模块的功能。
实施3:移动终端应用模式
在移动终端应用程序模式下,借用移动终端的处理器,实现场景切换控制中心模块的功能;
移动终端应用通过自身的显示屏或者触摸屏,实现场景设置模块的功能;
移动终端应用调用移动终端包含的计时程序,实现计时功能;
移动终端应用通过有线或者无线的通讯方式,读取人员信息、光照度、温度、湿度等状态传感器的监测信息,以及家用电器的工作状态信息,实现事件输入模块的功能;
移动终端应用通过显示屏或者触摸屏,实时显示备选场景的图标信息,实现场景备选模块的功能;
移动终端应用程序通过捕捉按键或者触摸屏的操作,获取场景确认信息,实现场景选择模块的功能;
移动终端应用通过有线或无线的通信方式,控制安防系统、灯光、空调、电暖气、电动窗帘、电脑、电视、数码相框的工作状态,实现场景执行模块的功能。
以上三个具体实施例的控制系统,如果均配置有显示屏,则可以在显示屏动态显示当前提供的、按顺序排列的几个备选场景供使用者选择,直观明了。此外,用户也可以通过控制系统配置的开关或者按键连续操作来选择、确认期望的场景模式,实现简单、成本低。
本发明提供一种智能家居场景切换方法及系统,为更加明确地理解本发明的发明构思,下面结合具体场景切换实例来解析本发明的技术方案。
在某用户家中,安装有本发明的智能家居场景切换系统,通过智能家居控制终端的模式来实现:控制终端包括嵌入式处理器,可以根据当前读取的状态参数和历史记录动态计算出多组排序后的场景;用户通过控制终端的按键,实现场景的选择确认。在实现该智能场景切换功能前,用户首先必须通过该智能终端的场景设置模块来对一些基本参数进行设置,例如通过控制终端预先定义多个场景模式,分别定义场景编号,如S000:回家模式;S001:省电模式;S002:会客模式;S003:影院模式;S004:就寝模式;S005:就餐模式;S006:离家模式等,用户可以通过智能终端的显示屏,或者与智能终端无线连接的电脑、移动终端等,对这些相关的场景信息进行设置,例如设置省电模式下,只开50%客厅灯光,其余灯光关闭;再例如影院模式下设置只开30%的照明灯光,同时打开音响效果等。不同的地理位置可以有独立的场景,若干个地理位置也可以有相同的场景。
设置完成以后,该智能终端通过电气连接或者无线通讯的形式,获取人员信息(例如,人员靠近或远离)、光照度等环境状态信息、时间位置信息、用 户操作信息或者家用电器的工作状态信息等,动态调整当前控制终端中各个场景的优先级排序。在本实施例中,场景配置信息为如下时:
时间为06:00~09:00时,场景优先级排序为S005,S006,S000,S001……;
时间为17:00~19:00时,场景优先级排序为S000,S001,S005,S003……;
时间为19:00~23:00时,场景优先级排序为S003,S001,S004,S005……;
时间为23:00~06:00时,场景优先级排序为S004,S005,S006,S000……。
用户通过操作控制终端按键,单击或连续操作按键,依次选择自己需要的场景信息,例如用户17:30分开锁回家以后,通过单击,即按键1次就可以直接打开“S000回家模式”,此时客厅灯光全开,电动窗帘全部打开;如果用户对当前场景不满意,可以通过再次按键,即按键2次,切换到按优先级动态排序的下一个场景,即“S001省电模式”,此时客厅灯光打开50%,电动窗帘只打开一半;如果用户对该场景还不满意,还可通过再次按键,即按键3次,切换到按优先级顺序排序的下一个场景,如“S005就餐模式”,此时餐厅灯光全部打开,客厅灯光只打开30%;用户通过这种不同的按键操作次数,使得场景按照当前优先级排序S000→S001→S005→S003…依次切换,从而选择最合适的场景。如果用户19:00分用餐完毕后,场景按照读取的状态信息,自动调整优先级排序如下:S003→S001→S004→S005…,用户通过控制终端按键次数可依次选择不同的场景模式。
用户通过控制终端的按键操作,可以只用于某个地理位置的场景切换,也可以用于多个位置的场景切换,用户可根据自己的实际需求进行设置。例如,用户可设置客厅、卧室的操作按键只控制各自位置的场景切换,则用户在操作客厅的按键时,只有符合客厅场景模式的几个场景,根据用户按键操作,按照优先级顺序依次切换;操作卧室的按键时,只有符合卧室场景模式的几个场景,根据用户按键操作,按照优先级顺序依次进行切换。
场景模式为多组,每组场景模式又可以分别包含多个不同的场景,可设置每组场景模式包含的多个场景,通过一个操作按键来进行切换选择;通过多个不同的按键,可分别对多组场景进行切换选择。这多组场景模式可通过地理位置或者其他条件来进行区分。用户对于某个场景模式的使用频率或者使用记录也可以被保存下来,用于下次场景的优先级排序计算。
本发明的智能家居场景切换方法及系统,通过这种智能场景切换模式,可以在用户进行场景模式选择时,极大简化用户操作,提高用户对家居场景模式的选择效率。
以上所述仅为本发明的优选实施例而已,并不用于限制本发明,对于本领域技术人员来说,本发明可以有各种更改和变化。凡在本发明的精神和原则之内,所作的任何修改、等同替换、改进等,均应包含在本发明的保护范围之内。

Claims (13)

  1. 一种智能家居场景切换方法,其特征在于,包括:
    根据当前场景的状态参数和/或过去场景的历史记录,动态计算多个场景的优先级排序;
    引起场景变化的事件,包括用户对场景的选择操作、当前场景状态参数的变化和/或在不同时间点上状态参数的组合变化;
    根据事件以及该事件与场景的切换规则,按照优先级排序依次切换场景。
  2. 根据权利要求1中所述的方法,其特征在于,事件与场景的切换规则,为事件与其对应场景的权限对应表;
    根据事件以及该事件与场景的切换规则,确定与事件对应的场景,并按优先级排序切换场景。
  3. 根据权利要求1中所述的方法,其特征在于,包括多个场景组,每个场景组具有多个场景;
    根据当前场景的状态参数和/或过去场景的历史记录,动态计算每组场景中场景的优先级排序;
    事件与场景的切换规则,为事件与其对应一个场景组的权限对应表;
    根据事件和场景切换规则,确定与事件对应的一个场景组,并按优先级排序切换场景。
  4. 根据权利要求1至3任一项中所述的方法,其特征在于,当前场景的状态参数包括环境状态参数、时间信息、位置信息以及家用电器的工作状态。
  5. 根据权利要求4所述的方法,其特征在于,环境状态参数包括门锁状态、温度、湿度、人员信息和/或光照度。
  6. 根据权利要求1至3任一项中所述的方法,其特征在于,过去场景的历史记录,包括过去场景的使用频率。
  7. 一种智能家居场景切换系统,其特征在于,包括场景设置模块、事件输入模块以及场景切换控制中心模块,其中:
    场景设置模块用于接收用户设置的场景信息,并将其上传至场景切换控制中心模块,其中,该场景信息包括时间信息、状态信息和控制目标信息;
    事件输入模块用于获取当前场景的状态参数,生成引起场景变换的事件,并将其传送至场景切换控制中心模块;
    场景切换控制中心模块,用于根据当前场景的状态参数和/或过去场景的 历史记录,动态计算多个场景的优先级排序;还用于根据引起场景变化的事件,以及该事件与场景的切换规则,按照优先级排序输出场景信息。
  8. 根据权利要求7所述的系统,其特征在于,还包括场景选择模块,用于确认场景切换控制中心模块发出的场景信息。
  9. 根据权利要求7所述的系统,其特征在于,还包括场景执行模块,用于根据场景切换控制中心模块输出的场景信息,调整家居设备的工作状态,使家居设备符合场景控制目标。
  10. 根据权利要求7所述的系统,其特征在于,还包括场景备选模块,用于查看和选择符合条件的备选场景,并将确认的备选场景传送至场景切换控制中心模块。
  11. 根据权利要求7至10任一项中所述的系统,其特征在于,当前场景的状态参数,包括环境状态参数、时间信息、位置信息以及家用电器的工作状态。
  12. 根据权利要求11所述的系统,其特征在于,环境状态参数包括门锁状态、温度、湿度、人员信息和/或光照度。
  13. 根据权利要求7至10任一项中所述的系统,其特征在于,过去场景的历史记录,包括过去场景的使用频率。
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