CN111142401A - Intelligent household equipment, sensor and system thereof, and control method thereof - Google Patents

Abstract

The application discloses a control method of an intelligent home system, the intelligent home system comprises a voice controller and a plurality of intelligent home devices, the control method is applied to the intelligent home system, the control method comprises a configuration stage and a control stage, and the configuration stage comprises: the voice controller receives a first control operation for entering a configuration mode; one or more intelligent household devices receive second control operation for entering a configuration mode; the voice controller receives voice information for configuration, and determines configuration instructions based on the voice information for configuration, wherein the configuration instructions comprise a feature code; the voice controller broadcasts and sends the configuration instruction; and after one or more intelligent household devices entering the configuration mode receive the configuration instruction broadcasted by the voice controller, storing the feature codes in the configuration instruction.

Description

Intelligent household equipment, sensor and system thereof, and control method thereof

Technical Field

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

Background

In terms of communication, the traditional smart home systems mostly adopt wired or wireless communication to realize connection and communication between devices. The wired mode is complicated to construct and is slowly eliminated. In a wireless mode, wireless networking technologies such as Wi-Fi, Zigbee, Bluetooth MESH and Z-wave are generally adopted to realize communication control of the equipment.

The traditional networking mode has the following problems: 1. no matter which networking mode is selected, a networking configuration process is needed when the system is installed; 2. in use, certain requirements are imposed on the topological structure of the network, and the influence of the fault of the key node on the availability of the whole network is large; 3. when a large range of network coverage is needed, a specific relay role device is needed, the complexity of the network is higher, and the difficulty in debugging and installation is higher.

The traditional smart home generally has the following system architectures: one is that all equipment are connected with a server through a gateway after networking, and intelligent application is realized through the internet, and most of the equipment adopts APP to adjust and calibrate the system; in the other method, all the devices are connected with a server deployed in the local after networking, and the local server manages and coordinates all the devices, so that the local intelligent control is realized; there are also systems that mix the two forms, but without exception there is a central device, like a gateway, or like a server in the system. In special cases, the central device may not be local, but rather, the devices are connected to the cloud center via the internet.

No matter be local server or through gateway high in the clouds application, entire system all has centralization, and traditional intelligent home systems framework has following problem: 1. once the centralized node fails, the whole system is paralyzed and cannot be used; 2. the relatively complex structure complicates the installation and debugging of the system; 3. the local server is high in cost, the online system needs to work by depending on the internet besides the gateway cost, and the use environment is limited.

To sum up, the traditional smart home system architecture can be realized only by depending on a gateway, a local or internet server and a relay networking device. The deployment and installation are complex, the use and configuration operations are complex, and the requirements on the use environment are high, so the method is not popularized all the time and is slow to popularize.

Disclosure of Invention

The embodiment of the application provides intelligent home equipment, a system and a control method, aiming at the problems that a central node in the prior art is high in dependence degree and needs a server.

A first aspect of an embodiment of the present application provides an intelligent home system control method applied to an intelligent home system, where the intelligent home system includes a voice controller and a plurality of intelligent home devices, the control method includes a configuration stage and a control stage, and the configuration stage includes: the voice controller receives a first control operation for entering a configuration mode; one or more intelligent household devices receive second control operation for entering a configuration mode; the voice controller receives voice information for configuration, and determines configuration instructions based on the voice information for configuration, wherein the configuration instructions comprise a feature code; the voice controller broadcasts and sends the configuration instruction; and after one or more intelligent household devices entering the configuration mode receive the configuration instruction broadcasted by the voice controller, storing the feature codes in the configuration instruction.

Further, after the plurality of smart home devices in the smart home system all store the feature codes, the configuration phase ends, and the control phase includes: the voice controller receives voice information for controlling the intelligent household equipment; the voice controller determines a first control instruction based on the voice information for controlling the intelligent household equipment and broadcasts the first control instruction, wherein the first control instruction comprises a feature code; each intelligent household device receives a first control instruction, forwards the first control instruction, compares a feature code in the first control instruction with a feature code stored by the intelligent household device, and executes the first control instruction when the two feature codes are consistent.

Further, the configuration instruction further includes a system ID, and after receiving the configuration instruction broadcasted by the voice controller, the smart home device entering the configuration mode stores the system ID in the configuration instruction, where the system ID indicates that the voice controller and the smart home device entering the configuration mode are in the same smart home system.

Further, after a plurality of smart home devices in the smart home system all store the system ID and the feature code, the configuration phase is ended, and the control phase includes: the voice controller receives voice information for controlling the intelligent household equipment; the voice controller determines a second control instruction based on the voice information for controlling the intelligent household equipment, and broadcasts the second control instruction, wherein the second control instruction comprises a system ID and a feature code; after each intelligent household device receives a second control instruction, comparing a system ID in the second control instruction with a system ID stored by the intelligent household device, forwarding the second control instruction when the two system IDs are consistent, comparing a feature code in the second control instruction with a feature code stored by the intelligent household device, and executing the second control instruction when the two feature codes are consistent.

Further, the smart home system further includes a sensor, the sensor controls the one or more smart home devices, and the method further includes: receiving, by a sensor associated with the one or more smart home devices, a third control operation for entering a configuration mode; the voice controller broadcasts a third control instruction, wherein the third control instruction is used for controlling the one or more intelligent household devices and comprises feature codes stored in the one or more intelligent household devices; after receiving a third control instruction broadcasted by the voice controller, the sensor entering the configuration mode stores the third control instruction, and the sensor is used for: when triggered, broadcasting the third control instruction.

A second aspect of the embodiments of the present application provides an intelligent home device control method applied to an intelligent home device, where the method includes a configuration stage and a control stage, where the configuration stage includes: receiving a second control operation for entering a configuration mode; receiving a configuration instruction broadcast by a voice controller, wherein the configuration instruction is determined by the voice controller based on voice information used for configuration, and the configuration instruction comprises a feature code; and storing the feature codes in the configuration instructions.

Further, the control phase comprises: receiving and forwarding a first control instruction broadcasted by a voice controller, wherein the first control instruction comprises a feature code; comparing the feature codes in the first control instruction with the feature codes stored in the first control instruction, and executing the first control instruction when the two feature codes are consistent.

Further, the configuration instruction further includes a system ID, and after receiving the configuration instruction broadcasted by the voice controller, the smart home device entering the configuration mode stores the system ID in the configuration instruction, where the system ID indicates that the voice controller and the smart home device entering the configuration mode are in the same smart home system.

Further, the control phase comprises: receiving a second control instruction, wherein the second control instruction comprises a system ID and a feature code; comparing the system ID in the second control instruction with the system ID stored in the second control instruction, forwarding the second control instruction when the two system IDs are consistent, comparing the feature code in the second control instruction with the feature code stored in the second control instruction, and executing the second control instruction when the two feature codes are consistent.

A third aspect of an embodiment of the present application provides a control method for a sensor of an electric smart home device, where the sensor is associated with one or more smart home devices, the control method includes a configuration phase and a control phase, where: the configuration phase comprises: receiving a third control operation for entering a configuration mode; a sensor entering a configuration mode receives a third control instruction, the third control instruction is broadcasted by a voice controller and is used for controlling the one or more intelligent household devices, and the third control instruction comprises feature codes stored in the one or more intelligent household devices; the control phase comprises: when triggered, broadcasting the third control instruction.

A fourth aspect of the embodiments of the present application provides an intelligent home system, the intelligent home system includes a voice controller and a plurality of intelligent home devices, wherein:

the voice controller is configured to:

receiving a first control operation for entering a configuration mode;

after entering a configuration mode, receiving voice information for configuration, and determining a configuration instruction based on the voice information for configuration, wherein the configuration instruction comprises a feature code;

broadcasting the configuration instruction;

the intelligent household equipment is used for:

receiving a second control operation for entering a configuration mode;

and after entering a configuration mode, receiving a configuration instruction broadcasted by the voice controller and storing the feature code in the configuration instruction.

Further, the voice controller is further configured to:

receiving voice information for controlling the intelligent household equipment;

determining a first control instruction based on the voice information for controlling the intelligent household equipment, and broadcasting the first control instruction, wherein the first control instruction comprises a feature code;

the intelligent household equipment is also used for:

and receiving and forwarding the first control instruction, comparing the feature codes in the first control instruction with the feature codes stored by the first control instruction, and executing the first control instruction when the two feature codes are consistent.

Further, the configuration instruction further includes a system ID, and after receiving the configuration instruction broadcasted by the voice controller, the smart home device entering the configuration mode stores the system ID in the configuration instruction, where the system ID indicates that the voice controller and the smart home device entering the configuration mode are in the same smart home system.

Further, the voice controller is further configured to:

receiving voice information for controlling the intelligent household equipment;

determining a second control instruction based on the voice information for controlling the intelligent household equipment, and broadcasting the second control instruction, wherein the second control instruction comprises a system ID and a feature code;

the intelligent household equipment is also used for:

and receiving the second control instruction, comparing the system ID in the second control instruction with the system ID stored in the second control instruction, forwarding the second control instruction when the two system IDs are consistent, comparing the feature code in the second control instruction with the feature code stored in the second control instruction, and executing the second control instruction when the two feature codes are consistent.

Further, one or more sensors are also included, each sensor is associated with one or more smart home devices, and the configuration process of each sensor includes: the sensor receives a third control operation for entering the configuration mode; the voice controller broadcasts a third control instruction, wherein the third control instruction is used for controlling the one or more intelligent household devices and comprises feature codes stored in the one or more intelligent household devices; after receiving a third control instruction broadcasted by the voice controller, the sensor entering the configuration mode stores the third control instruction, and the sensor is used for: when triggered, broadcasting the third control instruction.

According to the embodiment of the application, the switch panels are configured on the smart home, and the voice controller is adopted to configure the switch panels, so that subsequent communication control can be performed, complex and expensive equipment such as a gateway is not needed, the installation is simple, and the reliability is high. Is convenient to use.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings used in the description of the embodiments will be briefly introduced below. It is obvious that the drawings in the following description are only some embodiments of the application, and that it is also possible for a person skilled in the art to apply the application to other similar scenarios without inventive effort on the basis of these drawings. Unless otherwise apparent from the context of language or otherwise indicated, like reference numerals in the figures refer to like structures and operations.

Fig. 1 is a schematic diagram of a configuration phase of a smart home system control method according to some embodiments of the present application;

fig. 2 is a control phase schematic diagram of a smart home system control method according to some embodiments of the present application;

fig. 3 is a schematic diagram of another control phase of a smart home system control method according to some embodiments of the present application;

FIG. 4 is a schematic diagram of a stage in a sensor configuration according to some embodiments of the present application;

fig. 5 is a schematic diagram of a smart home system according to some embodiments of the present application;

fig. 6 is a schematic diagram of another smart home system according to some embodiments of the present application.

Detailed Description

In the following detailed description, numerous specific details of the present application are set forth by way of examples in order to provide a thorough understanding of the relevant disclosure. It will be apparent, however, to one skilled in the art that the present application may be practiced without these specific details. It should be understood that the use of the terms "system," "apparatus," "unit" and/or "module" herein is a method for distinguishing between different components, elements, portions or assemblies at different levels of sequential arrangement. However, these terms may be replaced by other expressions if they can achieve the same purpose.

It will be understood that when a device, unit or module is referred to as being "on" … … "," connected to "or" coupled to "another device, unit or module, it can be directly on, connected or coupled to or in communication with the other device, unit or module, or intervening devices, units or modules may be present, unless the context clearly dictates otherwise. For example, as used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to limit the scope of the present application. As used in the specification and claims of this application, the terms "a", "an", and/or "the" are not intended to be inclusive in the singular, but rather are intended to be inclusive in the plural, unless the context clearly dictates otherwise. In general, the terms "comprises" and "comprising" are intended to cover only the explicitly identified features, integers, steps, operations, elements, and/or components, but not to constitute an exclusive list of such features, integers, steps, operations, elements, and/or components.

These and other features and characteristics of the present application, as well as the methods of operation and functions of the related elements of structure and the combination of parts and economies of manufacture, will be better understood upon consideration of the following description and the accompanying drawings, which form a part of this specification. It is to be expressly understood, however, that the drawings are for the purpose of illustration and description only and are not intended as a definition of the limits of the application. It will be understood that the figures are not drawn to scale.

Various block diagrams are used in this application to illustrate various variations of embodiments according to the application. It should be understood that the foregoing and following structures are not intended to limit the present application. The protection scope of this application is subject to the claims.

In some embodiments, the smart home system includes a voice controller and a smart home device. The intelligent household equipment can be conventional intelligent household equipment, such as an intelligent air conditioner, an intelligent television, an intelligent refrigerator, an intelligent lamp and the like; the controller or the sensor of the smart home device may also be, for example, a remote control of a smart television, a remote control of a smart lamp, or the like.

In some embodiments, the control method of the smart home system includes a configuration phase and a control phase. Fig. 1 is a schematic configuration phase diagram of a smart home system control method according to some embodiments of the present application.

At 102, the voice controller receives a first control operation for entering a configuration mode. In some embodiments, the first control operation for entering the configuration mode may be any specific operation that is preset. For example, a key of the voice controller is pressed for a long time. As another example, a particular voice message is sent to the voice controller. The voice information for entering the configuration mode may be specific voice information. For example, after the voice controller receives and recognizes the voice message of "enter naming mode" spoken by the user, the voice controller enters configuration mode.

In some embodiments, the voice controller may have entered a state to wake up before entering the configuration mode, possibly due to a long time of non-use. Therefore, before receiving the first control operation for entering the configuration mode, the voice controller needs to receive a specific operation for taking it out of the state to be woken up. For example, when the voice controller is not used for a long time, the voice controller enters a sleep state or a standby state. At this time, the voice controller receives the regular voice information of the user and does not act any more, and a special operation is needed to enable the voice controller to be out of the dormant state. The specific operation may be arbitrary. For example, pressing a specific key of the voice controller, or uttering a specific voice message to the voice controller. The specific voice information may be any preset information. Such as "hello, small X" or "call small X".

At 104, the one or more smart home devices receive a second control operation for entering the configuration mode. In some embodiments, the second control operation for entering the configuration mode may be any preset operation. For example, a certain key of the smart home device is pressed and not released, or a certain key of the smart home device is pressed for a long time and then released, or a certain key is pressed.

In some embodiments, an indicator light for indicating that the smart home device is in the configuration mode may be disposed on the smart home device. And after entering the configuration mode, the indicator lamp enters a flashing state.

At 106, the voice controller receives voice information for configuration, and determines a configuration instruction based on the voice information for configuration, wherein the configuration instruction comprises a feature code. In some embodiments, the voice information for configuration is an identity tag or a function tag or other common tags of one or more smart home devices currently entering the configuration mode. For example, the voice information for configuration may be "living room light", "bedroom light", "air conditioner", "television", or the like.

In some embodiments, the configuration instruction is a string of binary codes, and the feature code is a segment of the binary codes. For example, the configuration command is a 32-bit binary number, the feature code is a 16-bit binary number, and the feature code represents tags such as "living room light", "bedroom light", "air conditioner", "television", and the like. It should be noted that the binary numbers or the number of bits are examples and are not used to limit the scope of the present application. The protection scope of this application is subject to the claims.

In some embodiments, the correspondence between the voice information and the configuration instruction is predetermined. The user only needs to send corresponding voice information to the voice controller according to actual needs. For example, when the hall lantern enters the configuration mode, the customer only needs to send the word "hall lantern" or the phrase with the word "hall lantern" to the voice controller, and after the voice controller analyzes the voice information, the voice controller determines the configuration instruction corresponding to the "hall lantern" according to the table lookup.

At 108, the voice controller broadcasts the configuration instructions.

In 110, after one or more smart home devices entering the configuration mode receive the configuration command broadcasted by the voice controller, the feature codes in the configuration command are stored. The feature code is used for: in the subsequent control stage, after receiving the control instruction, one intelligent household device judges whether to execute the control instruction.

In some embodiments, there may be a situation where the voice controller is remote from the smart home device entering the configuration mode; at this time, the configuration instruction can be received and then forwarded by setting the intelligent household equipment. Through the relay mode, all the intelligent household equipment which is not in the broadcasting range of the voice controller receives the configuration instruction. However, in order to avoid a broadcast storm (i.e., one message is forwarded continuously in the system), the number of forwarding times for each configuration instruction may be limited, or the number of forwarding times for the same configuration instruction may be limited for each smart home device.

As mentioned above, the smart home devices include a voice controller and a plurality of smart home devices. And at 102, one or more smart home devices enter a configuration mode. One or more of the smart home devices at 102 may not be all smart home devices. Therefore, the process in fig. 1 needs to be executed multiple times to configure all the smart home devices in the smart home system. When the number of the plurality 102 is equal to the number of all the smart home devices, the process in fig. 1 only needs to be executed once. And at the moment, all the intelligent household equipment are controlled in a unified manner. For example, all smart lights are turned on or off by a voice controller.

And after the plurality of intelligent household devices in the intelligent household system store the feature codes, finishing the configuration stage. At this time, the intelligent home devices in the intelligent home system can be controlled through the voice controller. In some embodiments, the configuration phase ends when the voice controller and all smart home devices exit the configuration mode. The voice controller may exit the configuration mode in a particular manner. For example, a key of the voice controller is pressed for a long time. As another example, a particular voice message is sent to the voice controller. The voice information for ending the configuration mode may be specific voice information. For example, the voice controller receives and recognizes the voice message of "exiting the configuration mode" spoken by the user. Further, it is required to ensure that all the smart home devices also exit the configuration mode, and at this time, the configuration phase of the smart home system is finished.

Fig. 2 is a control phase schematic diagram of a smart home system control method according to some embodiments of the present application.

At 202, the voice controller receives voice information for controlling the smart home device. For example, hall lantern is turned on. Turn off the television, etc.

At 204, the voice controller determines a first control instruction based on the voice information for controlling the smart home device, and broadcasts the first control instruction, where the first control instruction includes a feature code. In some embodiments, the first control instruction is a string of binary codes, and the feature code is a segment of the binary codes. For example, the first control command is a 32-bit binary number, the feature code is a 16-bit binary number, and the feature code represents tags such as "living room light", "bedroom light", "air conditioner", "television", and the like. It should be noted that the binary numbers or the number of bits are examples and are not used to limit the scope of the present application. The protection scope of this application is subject to the claims. It should also be noted that, although the number of the feature codes is not limited, the feature codes here are the same as the feature codes in 106, and the feature codes here are necessarily consistent with the feature codes stored in a certain smart home device.

In 206, each smart home device receives a first control instruction, forwards the first control instruction, compares a feature code in the first control instruction with a feature code stored in the smart home device, and executes the first control instruction when the two feature codes are consistent. Further, when the two feature codes are inconsistent, the first control instruction is not executed.

And each intelligent household device can receive the first control instruction. This is because, as described in 206, the smart home device may forward the first control instruction. The first control instruction can be relayed, so that each intelligent household device can receive the first control instruction. However, in order to avoid a broadcast storm (i.e., one message is continuously forwarded in the system), the number of forwarding times of each first control instruction may be limited, or the number of forwarding times for each smart home device may be limited. For example, the forwarding times of the first control instruction do not exceed 5 times, or the forwarding times of each smart home device do not exceed 2 times. And then guarantee that every smart machine can all receive first control command, also avoided the broadcast storm.

As an example, the voice controller receives a voice message of "turn on bedroom light" and determines a first control instruction of "1010011011110001"where the underlined part is a feature code in the first control instruction, a plurality of smart home devices (e.g., a smart television, a bedroom lamp, etc.) can all receive the first control instruction, and only if the feature code stored in the bedroom lamp is" 11110001 ", the bedroom lamp is configured to receive the first control instructionThe lamp further interprets the specific content of the control command "on" and executes it.

In some embodiments, the broadcast range of the voice controller is too wide, or the two sets of smart home systems are not spatially far apart. The second set of smart home devices may receive control commands from the voice controller of the first set of smart home systems. At this moment, the two intelligent home systems have interference. Therefore, a distinction needs to be made between smart home systems. In some embodiments of the present application, the distinction is made by one system ID. And the system ID indicates that the voice controller and the intelligent household equipment entering the configuration mode are in the same intelligent household system.

Further, the system ID may be shared in the marking process, for example, the configuration instruction further includes a system ID, and the smart home device entering the configuration mode stores the system ID in the configuration instruction after receiving the configuration instruction broadcasted by the voice controller.

In some embodiments, when the voice controller and one or more smart home devices are configured in the smart home system, they also need to communicate using a preset ID (corresponding to a system ID), where the preset ID may be factory-set. However, the preset IDs used by the smart home systems in the same batch or the smart home systems shipped by the same manufacturer may be the same. Therefore, there are situations where two sets of smart home systems that are spatially close (e.g., your home and neighboring homes have purchased the same brand of smart home systems) use the same preset ID. Therefore, the system ID needs to be replaced with another system ID during configuration, so as to avoid misoperation of two smart home systems that are close in space during control.

And after the system ID and the feature code are stored in the plurality of intelligent household devices in the intelligent household system, the configuration stage is ended. At this time, one or more intelligent home devices in the intelligent home system can be controlled through the voice controller. Fig. 3 is a schematic diagram of another control phase of a smart home system control method according to some embodiments of the present application.

In 302, the voice controller receives voice information for controlling the smart home device. For example, hall lantern is turned on. Turn off the television, etc.

In 304, the voice controller determines a second control command based on the voice information for controlling the smart home device, and broadcasts the second control command, where the second control command includes a system ID and a feature code. The second control instruction differs from the first control instruction only in that the second control instruction includes a system ID. This may be achieved by adding a system ID to the control instructions as they are generated, more particularly, the system ID precedes the feature code.

The generation of the system ID is random or specific. For example, the firmware code of the voice controller may be used as the system ID. As another example, an algorithm may be employed to randomly generate the system ID.

In 306, after each smart home device receives the second control instruction, comparing the system ID in the second control instruction with the system ID stored in the smart home device, forwarding the second control instruction when the two system IDs are consistent, comparing the feature code in the second control instruction with the feature code stored in the smart home device, and executing the second control instruction when the two feature codes are consistent. In some embodiments, when the two system IDs do not coincide, it is indicated that the received control instruction is from a voice controller not in the present system, and no action may be taken; or record the system ID to mask it.

In some embodiments, the smart home system further includes a controller, a sensor, and the like. For example, a certain sensor stores a control instruction for controlling one or more smart home devices, and when the sensor (for example, the sensor is a light-sensitive switch or a sound-sensitive switch of a lamp) is triggered, the third control instruction is broadcasted and is used for controlling one or more other smart home devices associated with the sensor. Fig. 4 is a schematic diagram of a stage of a sensor configuration according to some embodiments of the present application.

At 402, a sensor receives a third control operation for entering a configuration mode, the sensor being associated with the one or more smart home devices. In some embodiments, the third control operation for entering the configuration mode may be a preset human-specific operation. For example, a key on the sensor is pressed for a long time. The sensor is associated with the one or more smart home devices, that is, in the control phase, the sensor can control the one or more smart home devices associated with the sensor when being triggered.

In 404, the voice controller broadcasts a third control instruction, where the third control instruction is used to control the one or more smart home devices, and the third control instruction includes a feature code stored in the one or more smart home devices.

In some embodiments, the voice controller has completed the configuration of the one or more smart home devices, and the one or more smart home devices have the same feature code stored therein. The third control instruction is a control instruction for the one or more intelligent household devices stored with the same feature code. For example, a toilet light is turned on.

At 406, after receiving a third control command broadcast by the voice controller, the sensor entering the configuration mode stores the third control command, and the sensor is configured to: when triggered, broadcasting the third control instruction.

In some embodiments, the triggering refers to the case of non-voice controller triggering. For example, the sensor is a light-sensitive switch or a sound-sensitive switch or a combination of the two, and the one or more smart home devices corresponding to the sensor are one or more lamps used in toilets. The third control command is to turn on a toilet light. After the sensor configuration is completed, the voice controller is not active. The triggering may be that when the ambient light illuminance is lower than a threshold value, the sensor broadcasts the third control instruction of turning on the toilet lamp; or when the received sound is larger than the decibel threshold value, the sensor broadcasts the third control instruction of turning on the toilet lamp. After one or more smart home devices associated with the sensor receive the third control instruction, the feature codes in the third control instruction are compared with the feature codes stored in the smart home devices, and then specific operations (for example, opening) can be analyzed and executed. After other intelligent household equipment which is not associated with the sensor receives the third control instruction, the feature code in the third control instruction is compared with the feature code stored by the intelligent household equipment, and the third control instruction is not executed. Further, the third control instruction may further include a system ID. The control process is similar to the process in fig. 2.

It should be noted that although the voice controller configures the sensor, the voice controller can still perform voice control on one or more smart home devices corresponding to the sensor through voice information.

In some embodiments, a plurality of voice controllers may be configured in the smart home system, so that the smart home system may be controlled at a plurality of locations in a home. This effect can be achieved in a number of ways. For example, the system ID, voice information-instruction generation rules in a first voice controller are copied directly to even more voice controllers in a second voice controller. For another example, the smart home devices may be configured for different voice controllers. And then, a plurality of intelligent home systems exist, each intelligent home device belongs to the plurality of intelligent home systems, a voice controller is arranged in each intelligent home system, and each intelligent home device stores a plurality of system IDs corresponding to the plurality of intelligent home systems and a plurality of feature codes generated by the plurality of voice controllers. In some embodiments, there may also be a case of partial intersection, i.e., there is partial intersection of smart home devices in 2 smart home systems, rather than all being the same. However, whether all or some of the same, marking two or even more times requires a significant amount of repetitive work.

Fig. 5 is a schematic diagram of a smart home system according to some embodiments of the present application. As shown in fig. 4, the smart home system includes a voice controller 510, a smart home device 520, a smart home device 530, and a smart home device 540.

The smart home system shown in fig. 5 may perform the methods described in fig. 1-3. For example, the voice controller 510 enters the configuration mode, and the smart home device 530 and the smart home device 540 also enter the configuration mode. The voice controller 510 broadcasts and sends a configuration instruction to the smart home devices 530 and 540, and the smart home devices 530 and 540 store the system ID and the feature code in the configuration instruction. In the subsequent control phase, the voice controller may control the smart home device 530 and the smart home device 540 using the system ID and the feature code. Likewise, the voice controller 510 may control the smart home device 520 by marking the smart home device 520 using the system ID and another feature code.

It should be noted that the dashed lines in fig. 5 do not indicate that the voice controller directly controls the three smart home devices. There may also be a situation where a certain smart home device is not within the broadcast range of the voice controller, and at this time, forwarding/relaying of other smart home devices is required.

Fig. 6 is a schematic diagram of another smart home system according to some embodiments of the present application. The smart home system shown in fig. 6 corresponds to the situation described in fig. 4 where the sensor is associated with one or more smart home devices in the smart home system.

As shown in fig. 6, after the voice controller 610 completes the configuration of the smart home devices 620 and 650, the smart home devices 620 and 650 may be controlled through voice information. The smart home devices 630 and 650 store the same feature code. In addition, after the voice controller 610 completes configuration of the sensor 660, the sensor 660 can control the smart home devices 630 and 650 when being triggered.

In summary, the present application provides an intelligent home device, an intelligent home system, and a control method thereof, which have the following beneficial effects in comparison with the existing intelligent home system:

the system can complete intelligent home applications such as voice control and sensor linkage control under the condition of offline without central equipment by separating from the central equipment (for example, by a mobile phone APP in the existing means);

secondly, a gateway is not needed, even networking is not needed, and only the information can be broadcasted and sent between the voice controller and the intelligent household equipment;

thirdly, the installation is simple, the reliability is high, and the use is simple.

The flowchart and block diagrams in the figures illustrate the architecture, functionality, and operation of possible implementations of apparatus, methods and computer program products according to various embodiments of the present application. In this regard, each block in the flowcharts or block diagrams may represent a module, a program segment, or a portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). It should also be noted that, in some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. It will also be noted that each block of the block diagrams and/or flowchart illustration, and combinations of blocks in the block diagrams and/or flowchart illustration, can be implemented by special purpose hardware-based systems which perform the specified functions or acts, or combinations of special purpose hardware and computer instructions.

The units or modules described in the embodiments of the present application may be implemented by software or hardware. The units or modules described may also be provided in a processor, and the names of the units or modules do not in some cases constitute a limitation of the units or modules themselves.

As another aspect, the present application also provides a computer-readable storage medium, which may be the computer-readable storage medium included in the apparatus in the above-described embodiment; or it may be a separate computer readable storage medium not incorporated into the device. The computer readable storage medium stores one or more programs for use by one or more processors in performing the methods described herein.

It is to be understood that the above-described embodiments of the present application are merely illustrative of or illustrative of the principles of the present application and are not to be construed as limiting the present application. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present application shall be included in the protection scope of the present application. Further, it is intended that the appended claims cover all such changes and modifications that fall within the scope and range of equivalents of the appended claims, or the equivalents of such scope and range.

Claims (15)

1. A control method of an intelligent home system is provided, the intelligent home system comprises a voice controller and a plurality of intelligent home devices, and is characterized in that the control method is applied to the intelligent home system, the control method comprises a configuration stage and a control stage, and the configuration stage comprises:

the voice controller receives a first control operation for entering a configuration mode;

one or more intelligent household devices receive second control operation for entering a configuration mode;

the voice controller receives voice information for configuration, and determines configuration instructions based on the voice information for configuration, wherein the configuration instructions comprise a feature code;

the voice controller broadcasts and sends the configuration instruction;

and after one or more intelligent household devices entering the configuration mode receive the configuration instruction broadcasted by the voice controller, storing the feature codes in the configuration instruction.

2. The method according to claim 1, wherein the configuration phase is ended when all the plurality of smart home devices in the smart home system store the feature codes, and the control phase comprises:

the voice controller receives voice information for controlling the intelligent household equipment;

the voice controller determines a first control instruction based on the voice information for controlling the intelligent household equipment and broadcasts the first control instruction, wherein the first control instruction comprises a feature code;

each intelligent household device receives a first control instruction, forwards the first control instruction, compares a feature code in the first control instruction with a feature code stored by the intelligent household device, and executes the first control instruction when the two feature codes are consistent.

3. The method according to claim 1, wherein the configuration instruction further includes a system ID, and after receiving the configuration instruction broadcasted by the voice controller, the smart home device entering the configuration mode stores the system ID in the configuration instruction, where the system ID indicates that the voice controller and the smart home device entering the configuration mode are in the same smart home system.

4. The method according to claim 3, wherein the configuration phase is ended after a plurality of smart home devices in the smart home system all store the system ID and the feature code, and the control phase comprises:

the voice controller receives voice information for controlling the intelligent household equipment;

the voice controller determines a second control instruction based on the voice information for controlling the intelligent household equipment, and broadcasts the second control instruction, wherein the second control instruction comprises a system ID and a feature code;

after each intelligent household device receives a second control instruction, comparing a system ID in the second control instruction with a system ID stored by the intelligent household device, forwarding the second control instruction when the two system IDs are consistent, comparing a feature code in the second control instruction with a feature code stored by the intelligent household device, and executing the second control instruction when the two feature codes are consistent.

5. The method of claim 1, wherein the smart home system further comprises a sensor that controls the one or more smart home devices, the method further comprising:

receiving, by a sensor associated with the one or more smart home devices, a third control operation for entering a configuration mode;

the voice controller broadcasts a third control instruction, wherein the third control instruction is used for controlling the one or more intelligent household devices and comprises feature codes stored in the one or more intelligent household devices;

after receiving a third control instruction broadcasted by the voice controller, the sensor entering the configuration mode stores the third control instruction, and the sensor is used for: when triggered, broadcasting the third control instruction.

6. The intelligent household equipment control method is applied to intelligent household equipment, and comprises a configuration stage and a control stage, wherein the configuration stage comprises the following steps:

receiving a second control operation for entering a configuration mode;

receiving a configuration instruction broadcast by a voice controller, wherein the configuration instruction is determined by the voice controller based on voice information used for configuration, and the configuration instruction comprises a feature code;

and storing the feature codes in the configuration instructions.

7. The method of claim 6, wherein the control phase comprises:

receiving and forwarding a first control instruction broadcasted by a voice controller, wherein the first control instruction comprises a feature code;

comparing the feature codes in the first control instruction with the feature codes stored in the first control instruction, and executing the first control instruction when the two feature codes are consistent.

8. The method according to claim 6, wherein the configuration instruction further includes a system ID, and after receiving the configuration instruction broadcasted by the voice controller, the smart home device entering the configuration mode stores the system ID in the configuration instruction, where the system ID indicates that the voice controller and the smart home device entering the configuration mode are in the same smart home system.

9. The method of claim 8, wherein the control phase comprises:

receiving a second control instruction, wherein the second control instruction comprises a system ID and a feature code;

comparing the system ID in the second control instruction with the system ID stored in the second control instruction, forwarding the second control instruction when the two system IDs are consistent, comparing the feature code in the second control instruction with the feature code stored in the second control instruction, and executing the second control instruction when the two feature codes are consistent.

10. A control method of a sensor of a smart home device is characterized in that the control method is applied to the sensor of the smart home device, the sensor is associated with one or more smart home devices, and the control method comprises a configuration phase and a control phase, wherein:

the configuration phase comprises:

receiving a third control operation for entering a configuration mode;

a sensor entering a configuration mode receives a third control instruction, the third control instruction is broadcasted by a voice controller and is used for controlling the one or more intelligent household devices, and the third control instruction comprises feature codes stored in the one or more intelligent household devices;

the control phase comprises:

when triggered, broadcasting the third control instruction.

11. The utility model provides an intelligent home systems, its characterized in that, intelligent home systems includes speech controller and a plurality of intelligent home equipment, wherein:

the voice controller is configured to:

receiving a first control operation for entering a configuration mode;

after entering a configuration mode, receiving voice information for configuration, and determining a configuration instruction based on the voice information for configuration, wherein the configuration instruction comprises a feature code;

broadcasting the configuration instruction;

the intelligent household equipment is used for:

receiving a second control operation for entering a configuration mode;

and after entering a configuration mode, receiving a configuration instruction broadcasted by the voice controller and storing the feature code in the configuration instruction.

12. The system of claim 11, wherein:

the voice controller is further configured to:

receiving voice information for controlling the intelligent household equipment;

determining a first control instruction based on the voice information for controlling the intelligent household equipment, and broadcasting the first control instruction, wherein the first control instruction comprises a feature code;

the intelligent household equipment is also used for:

and receiving and forwarding the first control instruction, comparing the feature codes in the first control instruction with the feature codes stored by the first control instruction, and executing the first control instruction when the two feature codes are consistent.

13. The system according to claim 11, wherein the configuration instruction further includes a system ID, and after receiving the configuration instruction broadcasted by the voice controller, the smart home device entering the configuration mode stores the system ID in the configuration instruction, where the system ID indicates that the voice controller and the smart home device entering the configuration mode are in the same smart home system.

14. The system of claim 13, wherein:

the voice controller is further configured to:

receiving voice information for controlling the intelligent household equipment;

determining a second control instruction based on the voice information for controlling the intelligent household equipment, and broadcasting the second control instruction, wherein the second control instruction comprises a system ID and a feature code;

the intelligent household equipment is also used for:

and receiving the second control instruction, comparing the system ID in the second control instruction with the system ID stored in the second control instruction, forwarding the second control instruction when the two system IDs are consistent, comparing the feature code in the second control instruction with the feature code stored in the second control instruction, and executing the second control instruction when the two feature codes are consistent.

15. The system of claim 11, further comprising one or more sensors, each sensor associated with one or more smart home devices, the configuration process for each sensor comprising:

the sensor receives a third control operation for entering the configuration mode;

the voice controller broadcasts a third control instruction, wherein the third control instruction is used for controlling the one or more intelligent household devices and comprises feature codes stored in the one or more intelligent household devices;

after receiving a third control instruction broadcasted by the voice controller, the sensor entering the configuration mode stores the third control instruction, and the sensor is used for: when triggered, broadcasting the third control instruction.

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