CN110888902A

CN110888902A - Intelligent control configuration method and system

Info

Publication number: CN110888902A
Application number: CN201911125861.1A
Authority: CN
Inventors: 樊波; 戴帅湘
Original assignee: Beijing Suddenly Cognitive Technology Co Ltd
Current assignee: Shandong Hongjun Shangyao Network Technology Co ltd
Priority date: 2019-11-18
Filing date: 2019-11-18
Publication date: 2020-03-17
Anticipated expiration: 2039-11-18
Also published as: CN110888902B

Abstract

The invention discloses an intelligent control configuration method, which comprises the following steps: the data center sends an attribute information acquisition instruction to a plurality of control devices; the control equipment generates an equipment-to-equipment control attribute data table based on the collected attribute information of the terminal equipment and sends the equipment-to-equipment control attribute data table to a data center; the data center sends a rule information acquisition instruction to a plurality of control devices, wherein the rule information acquisition instruction comprises a trigger rule reporting condition; and the plurality of control devices generate an inter-device control rule data table based on the received rule information acquisition instruction, judge whether the trigger rule reporting condition is met, and report the inter-device control rule data table to a data center if the trigger rule reporting condition is met. By the method, the control of the equipment among different platforms can be optimized, the equipment among different platforms can be linked intelligently, and the use experience of a user is improved.

Description

Intelligent control configuration method and system

Technical Field

The embodiment of the invention relates to the technical field of information processing, in particular to a method and a device for intelligently controlling configuration.

Background

With The rapid development of The Internet of Things (IOT for short), various smart home devices come into daily life. The intelligent equipment of the intelligent home at present under different platforms belongs to different platforms, and the user may have own brand preference respectively to products of different types or different home decoration layouts, when the equipment belongs to different platforms, because control protocols between the platforms are mutually exclusive, for example, brand A has an application layer protocol of the ecological environment of brand A, brand B has an application layer protocol of the ecological environment of brand B, control equipment or application of the intelligent home using brand A, intelligent equipment in the intelligent home in which brand B cannot be controlled, control equipment or application of the intelligent home using brand B, intelligent equipment in the intelligent home in which brand A cannot be controlled, and user use experience is seriously influenced.

How to manage equipment between different platforms, optimize equipment control between different platforms, equipment between different platforms links better, promotes user's use and experiences and becomes a problem that awaits solution urgently.

Disclosure of Invention

To address the problems in the prior art, the present invention provides a method, system, and computer-readable storage medium for intelligent control configuration.

The invention provides an intelligent control configuration method, which is characterized by comprising the following steps:

step 101, a data center sends an attribute information acquisition instruction to a plurality of control devices;

102, the control devices collect attribute information of one or more terminal devices related to the control devices based on the received attribute information collection instruction;

103, the control equipment generates an equipment-to-equipment control attribute data table based on the collected attribute information of the terminal equipment and sends the equipment-to-equipment control attribute data table to a data center;

104, the data center sends a rule information acquisition instruction to a plurality of control devices, wherein the rule information acquisition instruction comprises a trigger rule reporting condition;

and 105, the plurality of control devices generate an inter-device control rule data table based on the received rule information acquisition instruction, judge whether the trigger rule reporting condition is met, and report the inter-device control rule data table to a data center if the trigger rule reporting condition is met.

The invention also provides a system for intelligent control configuration, which is characterized by comprising:

the data center is in communication connection with the plurality of control devices, each of the plurality of control devices is in communication connection with one or more terminal devices, and the one or more terminal devices are managed;

the data center sends an attribute information acquisition instruction to a plurality of control devices;

the control devices collect attribute information of one or more terminal devices related to the control devices based on the received attribute information collection instruction;

the control equipment generates an equipment-to-equipment control attribute data table based on the collected attribute information of the terminal equipment and sends the equipment-to-equipment control attribute data table to a data center;

the data center sends a rule information acquisition instruction to a plurality of control devices, wherein the rule information acquisition instruction comprises a trigger rule reporting condition;

and the control devices generate an inter-device control rule data table based on the received rule information acquisition instruction, judge whether the trigger rule reporting condition is met, and report the inter-device control rule data table to a data center if the trigger rule reporting condition is met.

The invention also provides a computer-readable storage medium, characterized in that a computer program is stored in the computer-readable storage medium, which computer program is executable on a processor, and when executed implements the method as described above.

By the method, the equipment among different platforms can be managed, the equipment control among different platforms is optimized, the equipment among different platforms is better linked, and the use experience of a user is improved.

Drawings

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

FIG. 1 is a method of intelligent control configuration in one embodiment of the invention.

FIG. 2 is a system for intelligent control configuration in one embodiment of the invention.

Fig. 3 is a control method of a terminal device in an embodiment of the present invention.

Fig. 4 is a control apparatus of a terminal device in an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments and specific features of the embodiments of the present invention are detailed descriptions of technical solutions of the embodiments of the present invention, and are not limited to technical solutions of the present invention, and the technical features of the embodiments and the embodiments of the present invention may be combined with each other without conflict.

Example one

Referring to fig. 1, an embodiment of the present invention provides a method for intelligently controlling configuration, where the method includes:

Preferably, the plurality of control devices belong to different intelligent control platforms, wherein each control device is associated with one or more terminal devices.

Preferably, the inter-device control attribute data table contains a plurality of attribute fields, and the plurality of attribute fields include a control bit, a status bit, a function bit, a device unique identification code, a device class, a device location, a control attribution, and a reserved bit.

The inter-device control rule data table includes function parameters and condition parameters, the condition parameters include time condition parameters and execution condition parameters, and the function parameters include a device unique identification code, a device location, a device category, a device state, and a control attribution.

Preferably, said step 105 comprises

The control devices generate inter-device control rule data tables based on the received rule information acquisition instructions;

according to the task operation logic arrangement in the control equipment, filling the control rule data table between equipments,

and judging whether the triggering rule reporting condition is met, and if so, reporting the inter-equipment control rule data table to a data center.

In a preferred embodiment, the method is applied to a system configured by intelligent control, and the system comprises: the data center is in communication connection with the plurality of control devices, and each of the plurality of control devices is in communication connection with one or more terminal devices and manages the one or more terminal devices. Different control devices are communicatively connected or associated with different terminal devices.

The data center can be a terminal or a server which has storage and calculation functions, the control devices belong to different or the same intelligent control platform, each control device is associated with one or more terminal devices, a first mapping relation between the control device and the intelligent control platform is stored and maintained based on the attributions of the terminal devices and the control devices, and a second mapping relation between the control device and the terminal devices; one of the control platforms may correspond to a plurality of control devices, each control device corresponding to one control platform, one terminal device may correspond to one control device, or one terminal device may correspond to a plurality of control devices. For example, for the control platform 1, which includes a plurality of control devices, such as AI speakers, such as an intelligent gateway, the terminal device 1 may be controlled by the AI speakers or the intelligent gateway, but the terminal device cannot be controlled by other control devices except the control platform 1.

In a preferred embodiment, the step 101 of sending the attribute information acquisition command to the plurality of control devices by the data center includes,

and the data center sends the attribute information acquisition instruction to the plurality of control devices according to the preset time. The predetermined time may be a preset first time interval or may be a preset one or more second time points.

For example, it is preset to collect every 4 hours, every 6 hours or once a day, or to collect at 7, 12, 18, 22 spots.

In a preferred embodiment, step 102 comprises,

based on a second mapping relation between the control equipment and the terminal equipment, the plurality of control equipment send information query instructions to one or more terminal equipment associated with the control equipment;

and the one or more terminal devices receive the information query instruction and feed back attribute information to the control device according to the information query instruction. The terminal device obtains respective attribute information through query, and the attribute information includes: device unique identification code, device class, device location, and status information and device function. The device unique identification code may be an identification code, a serial number, an MAC address, and the like, which can uniquely identify a device; the device category represents a device classification, such as lighting, cleaning, etc., the device location represents a location of the device in space, such as a location describing a vehicle identification if the device belongs to an in-vehicle device, and a location describing a distribution area of the device in a room if the device belongs to an in-room device; the state information represents the operation state of the current equipment, such as equipment is turned on, the equipment is turned off, or specific data of operation is further marked, such as top light is turned on, and the brightness is 80; the device function represents whether the device is provided with a voice input and output function.

The one or more terminal devices feed back attribute information to the control device,

and the terminal equipment generates an inter-equipment control attribute data table based on the received attribute information and sends the inter-equipment attribute data table to a data center.

Wherein, the one or more terminal devices feed back attribute information to the control device, and specifically include:

the one or more terminal devices feed back the unique device identification code UID, the device type, the device position, the state information and the device function obtained by inquiry to the control device;

the terminal equipment generates an inter-equipment control attribute data table based on the collected attribute information, and the method specifically comprises the following steps:

and the control equipment fills an inter-equipment control attribute data table according to the equipment unique identification code, the equipment type, the equipment position, the state information, the equipment function and the control equipment attribute, wherein the inter-equipment control attribute data table comprises a plurality of attribute fields, and the plurality of attribute fields comprise a control bit, a state bit, a function bit, the equipment unique identification code, the equipment type, the equipment position, the control attribution and a reserved bit. As follows:

watch 1

Control bit

Status bit

Function position

Device UID

Device location

Class of devices

Control attribution

Reserved bit

The control bit is the identification bit of 1bit, and represents the equipment level, when the control bit is 1, the control bit represents that the equipment is control equipment, when the control bit is 0, the control bit represents that the equipment is terminal equipment, when the control bit is 1, the control attribution field can be empty or filled, for example, a gateway and an AI sound box under the same platform can be used as control equipment to control other terminal equipment, but can be controlled by the other party at the same time, and when the control bit is 0, the control attribution field must be filled. The control attribution field can be filled with a unique identification code of a control platform to which the terminal equipment belongs and/or a control equipment under the control platform, wherein the unique identification code of the control platform can be related information capable of uniquely identifying the control platform, such as a control platform name or a control platform number. The status bit is an identification bit of 1bit, which represents the controlled status of the current device, and when the status bit is 1, the status bit represents that the device is turned on, and when the status bit is 0, the status bit represents that the device is turned off, preferably, the status bit can be configured as an identification bit of 2 bits, when the status bit is 11, the status bit represents that the device is turned on, and the reserved bit is configured as running status specific data; when the state bit is 10, the device is started, and no specific data in the running state exist; when the status bit is 01, the equipment is closed, and the reserved bit is configured as specific data of a preset running state; and when the status bit is 00, the equipment is closed, and no specific data of the running status exists. The identification bit with the function bit of 1bit represents whether the equipment has the voice input and output functions, for example, when the function bit is 1, the equipment has the voice input and output functions; when the function bit is 0, the device does not have the voice input and output functions; or when the function bit is 2-bit identification bit and the function bit is 11, the device has voice input and output functions; when the function position is 10, the device has a voice input function and does not have a voice output function; when the function bit is 01, the device does not have the voice input function and has the voice output function; when the function bit is 00, the representative device does not have the voice input and output functions. The control attribution indicates a unique identification code of the control platform and/or the control equipment under the control platform. For example, for the control device 1, such as an AI loudspeaker box belonging to the first control platform, after it receives attribute information sent by a plurality of associated terminal devices, such as a desk lamp and a television, the unique identification code of itself and/or the unique identification code of the control platform to which it belongs, that is, the unique identification code of the AI loudspeaker box and/or the unique identification code of the first control platform to which it belongs, are populated in the generated inter-device control attribute data table by the control attribution. The device class represents a device classification, such as lighting, cleaning, etc., and the device location represents a location of the device in space, such as a location describing a vehicle identification if the device belongs to an in-vehicle device, and a location describing a distribution area of the device in a room if the device belongs to an in-room device.

The control equipment sends the unique identification code, the acquisition time and the attribute data table among the equipment to a data center;

and the data center stores a corresponding equipment-to-equipment attribute data table and the acquisition time as indexes according to the unique identification code of the control equipment.

In a preferred embodiment, the data center takes data and collection time in the attribute data table between devices collected for multiple times as first data samples, groups the data samples according to the device type, the device location, and the collection time, and performs statistical analysis on different groups, so as to obtain associated data of the terminal devices between different control platforms.

In a preferred embodiment, the condition for reporting the trigger rule in step 104 is specifically:

a third time condition, and/or a fourth event condition;

wherein the third time condition comprises a predetermined reporting time, and the reporting time may be a specific time point or a specific time interval; the fourth event condition includes the occurrence of new inter-device control rule data.

In a preferred embodiment, step 105 comprises:

the control devices inquire task operation logic settings stored by the control devices according to the received rule information acquisition instruction, or send a task inquiry instruction to the user terminal device or the cloud server to inquire the task operation logic settings under the corresponding control platform; and the task query instruction carries the UID of the control equipment and user account information. And the user terminal equipment or the cloud server judges a control platform to which the control equipment belongs according to the UID of the control equipment, and matches task operation logic setting under the control platform corresponding to the user account information based on the user account information.

The control devices fill an inter-device control rule data table based on task operation logic setting acquired by inquiry, the inter-device control rule data table comprises function parameters and condition parameters, the condition parameters comprise time condition parameters and event condition parameters, the time condition parameters comprise time for triggering execution of a result task, the event condition parameters comprise parameters for triggering other terminal devices to execute a task result, and the unique identification code, the device position, the device type, the device state and the control attribution of the conditional terminal device for triggering other terminal devices to execute the task result are specifically included. The function parameters comprise a result terminal equipment unique identification code used for executing a task result, equipment position, equipment type, equipment state and control attribution.

Specifically, for example, the control device in the first control platform receives a rule information acquisition instruction sent by the data center, queries and obtains task operation logic settings, where a specific task operation logic setting is exemplarily listed, for example: if the condition is satisfied: when the time is more than or equal to 18 points, if the human body sensing equipment, such as the human body sensing equipment with the unique identification code UIDa, detects that people exist in the current area LAa, executing the following steps: the lighting devices of the area LAa, for example wall lamps with a unique identification code UIDb, are switched on.

At this time, the inter-device control rule data table is populated based on the task operation logic settings as follows:

watch two

In particular, the above description simply illustrates a set of event condition parameters, which in some cases may include multiple sets, e.g., the result of performing a task when both event condition 1 and event condition 2 are satisfied. The inter-device control rule data table is configured as follows:

watch III

Wherein the specific contents of the event condition parameters not shown in the above table are represented by the same form items:

watch four

In addition, the time condition parameter and the event condition parameter may further include a flag bit, where the flag bit is a 1-bit flag, for example, a flag bit of 1 indicates that the condition parameter is a necessary condition, that is, the condition must be satisfied to trigger the device to execute an action, a flag bit of 0 indicates that the condition parameter is a non-necessary condition, and if the flag bits of all the condition parameters are 0, any one of the flag bits is satisfied to trigger the device to execute the action; for example, if the flag bit of the time condition parameter is 1, the status bit of the event condition parameter 1 is 1, and the flag bit of the event condition parameter 2 is 0, it indicates that the time condition parameter and the event condition parameter 1 must be satisfied to trigger the device to perform the action; if the flag bit of the time condition parameter is 0, the flag bit of the event condition parameter 1 is 1, and the flag bit of the event condition parameter 2 is 1, it means that the device is triggered to execute the action only when the event condition parameter 1 and the event condition parameter 2 must be satisfied, and if the flag bit of the time condition parameter is 0, the flag bit of the event condition parameter 1 is 0, and the flag bit of the event condition parameter 2 is 0, it means that the device is triggered to execute the action when any one of the time condition parameter, the event condition parameter 1, and the event condition parameter 2 is satisfied.

And the data center stores a corresponding inter-equipment control rule data table for the index according to the unique identification code of the control equipment.

In a preferred embodiment, the data center uses an inter-device control rule data table acquired multiple times as sample data, uses the time condition parameter and the event condition parameter as condition parameter data, uses the result parameter as result parameter data, groups the condition parameter data and the result parameter data according to a condition device type or a result device type, and performs statistical analysis on the condition parameter data and the result parameter data according to a control attribution in each group, thereby obtaining task-related control data of terminal devices between different control platforms, and further updating the inter-device control rule data table.

For example, based on the sample data statistics acquired for many times, the intelligent detector in the control platform 1 is controlled, the identification code is UID2, the equipment state is PM2.5 greater than or equal to 75, the air purifier in the control platform 1 is controlled, the identification code is UID1, and the fresh air in the control platform 2 is controlled, the identification code is UID4, and the air purifier is started to be task-related control data. The inter-device control rule data table may be updated at this time. For a simple example, a scenario with a set of event condition parameters is as follows:

watch five

The first two rows of table entries are data in an inter-device control rule data table collected by the data center, and the third row is a table entry for updating the data center.

In addition, a control rule data table among the devices acquired for multiple times can be used as a training sample, and the condition parameter data can be quantized to be used as an input vector; quantizing result parameter data corresponding to each condition parameter data as a target vector; and carrying out sample training according to the condition parameter data and the result parameter data corresponding to each condition parameter data to obtain a task training model.

Meanwhile, the training model is further modified based on subsequent continuous sample accumulation, so that manual setting of a user is reduced by using the training model, and control rules among equipment are optimized and perfected.

By the method, the equipment among different platforms can be managed, the equipment control among different platforms is optimized, the equipment among different platforms is linked, and the use experience of a user is improved.

Example two

On the basis of the first embodiment, referring to fig. 2, the second embodiment of the present invention further provides a system for intelligent control configuration, where the system includes:

Preferably, the inter-device control attribute data table contains attribute information corresponding to a plurality of attribute fields, where the plurality of attribute fields include a control bit, a status bit, a function bit, a device unique identification code, a device type, a device location, a control attribution, and a reserved bit; .

The inter-device control rule data table includes function parameters and condition parameters, the condition parameters include time condition parameters and execution condition parameters, and the function parameters include a unique device identification code, a location, a device type, a device state, and a control attribution.

Preferably, the plurality of control devices send information inquiry instructions to one or more terminal devices associated with the control devices;

and the one or more terminal devices receive the information query instruction and feed back attribute information to the control device according to the information query instruction.

Preferably, the plurality of control devices generate an inter-device control rule data table based on the received rule information collection instruction,

EXAMPLE III

On the basis of the first and second embodiments, referring to fig. 3, the second embodiment of the present invention further provides a method for controlling a terminal device, where the method includes:

step 201, receiving a first voice instruction of a user, where the first voice instruction includes a start instruction for at least one first terminal device;

step 202, waking up a first control device based on the first voice instruction, and judging whether the control attribution of the at least one first terminal device comprises the first control device; if not, go to step 203;

step 203, acquiring a second control device included in the control attribution of the first terminal device;

step 204, acquiring a first position of the first control device and a second position of a second control device; judging whether the first position and the second position belong to the same position area, if so, executing step 205;

step 205, the first control device generates a second control instruction, and sends the second control instruction to a second control device, where the second control instruction includes a start instruction for the first terminal device.

In a preferred embodiment, the step 201 of receiving a first voice instruction of a user, where the first voice instruction includes a start instruction for at least one first terminal device includes:

a first voice instruction of a user is received,

the first voice instruction comprises a first awakening word and a starting instruction aiming at least one first terminal device,

or

The first voice instruction comprises a starting instruction aiming at least one first terminal device and does not comprise a first awakening word.

In a preferred embodiment, the first voice instruction containing a start instruction for at least one first terminal device includes:

the first voice instruction comprises an identification keyword of the first terminal equipment, wherein the identification keyword comprises a name keyword and/or a position keyword.

Or

The first voice command contains a category keyword of the first terminal device.

Specifically, when the first voice instruction includes a category keyword of the first terminal device, at least one first terminal device targeted by the start instruction is determined based on the category keyword of the first terminal device, or based on the category keyword of the first terminal device and a position of the user.

For example, the user inputs "small a, turn on the second lamp", and determines that the first voice command is an activation command for the second lamp. Or, the user inputs "small a, turn on light", and at this time, based on the semantic analysis, it is determined that the first voice command of the user is to turn on light, but it is not clear whether to turn on a specific light or turn on all lights, and at this time, default setting may be set to turn on all lights, or based on the user position determination, turn on the light at the position where the user is located.

Further, the first control device queries the unique identification code of the first terminal device according to the location keyword and/or the category keyword. Specifically, the first control device sends a first query instruction to the data center, wherein the first query instruction carries a position keyword and/or a category keyword, acquires all terminal devices conforming to the position keyword and/or the category keyword from the data center, and acquires unique identification codes of the terminal devices.

In a preferred embodiment, the waking up the first control device based on the first voice instruction in step 202 specifically includes:

and when the first voice command contains a first awakening word, awakening the first control equipment based on the first awakening word.

For example, the user enters "small a, light on", at which time control device a is awakened to perform light on based on the voice instruction determination.

Or

And when the first voice instruction does not contain the first awakening word, judging whether one or more first control devices in the position area where the user is located support awakening by the awakening-free word, and if so, awakening the one or more first control devices.

For example, the user enters "light on," and the user is in location area LA1, which contains control device a, control device B, where control device a supports wake-up free words, and based on the voice command determination, control device a is woken up to perform light on.

The step 202 of determining whether the control attribution of the at least one terminal device includes the first control device specifically includes

Inquiring a control list of the first control device, and if the control list contains the first terminal device, judging that the control attribution of the at least one terminal device contains the first control device; and if the control list does not contain the first terminal equipment, judging that the control attribution of the at least one terminal equipment does not contain the first control equipment.

Specifically, the control device locally maintains a list of terminal devices that the control device can control, or the control device obtains the list of terminal devices that the control device can control by querying the cloud server.

In a preferred embodiment, the step 203 of acquiring the second control device included in the control attribution of the first terminal device includes:

and acquiring second control equipment contained in the control attribution item of the first terminal equipment by inquiring the control attribute data table between the equipment.

Referring to the first embodiment, the inter-device control attribute data table includes a plurality of attribute fields, and the plurality of attribute fields include a control bit, a status bit, a function bit, a device unique identifier, a device type, a device location, a control home, and a reserved bit.

Specifically, a second query request is sent to the data center, the query request includes a device UID of the first terminal device, device attribution information corresponding to the device UID is determined according to the device UID, and second control devices included in a control attribution project of the first terminal device are obtained.

In a preferred embodiment, step 204 comprises:

determining a first position of the first control device, and determining a second position of a second control device by querying an inter-device control attribute data table;

judging whether the first position and the second position belong to the same position area, if so, executing step 205;

if not, acquiring one or more pieces of second terminal equipment information including the first control equipment of the control attribution of the same location area with the second location, judging whether the second terminal equipment supports the voice output function, and if so, executing step 206.

In a preferred embodiment, said determining a first location of said first control device and determining a second location of a second control device by querying an inter-device control attribute data table comprises

Determining a first position of the first control equipment according to local information of the first control equipment, or determining the first position of the first control equipment by inquiring an inter-equipment control attribute data table;

and determining a second location of the second control device by querying the inter-device control attribute data table.

In a preferred embodiment, step 205 specifically includes:

and when the first position and the second position belong to the same position area, controlling the first control equipment to generate a second control instruction, wherein the second control instruction can be a second voice instruction, and waking up the second control equipment according to the voice instruction. The second control instruction comprises a wake-up word and an identification keyword of the first terminal device, such as a terminal device UID.

For example, if it is determined that the control device a and the control device B belong to the same location area, the voice is considered to be reachable, and at this time, the control device a sends a second voice instruction: "Small B, turn on XX lamp".

In a preferred embodiment, the step 204 of acquiring one or more pieces of second terminal device information including the first control device to which the control attribute in the same location area as the second location belongs, and determining whether the second terminal device supports the voice output function specifically includes:

when the first location and the second location do not belong to the same location area,

and controlling the first control equipment to generate a third query instruction, wherein the third query instruction comprises position information and a unique identification code of the first control equipment, screening an inter-equipment control attribute data table by taking the unique identification code of the first control equipment as an index, and re-screening and determining one or more pieces of second terminal equipment information which comprises the first control equipment and belongs to the control in the same position area with the second position based on the position information. Judging whether the second terminal equipment supports a voice output function or not based on the one or more second terminal equipment function bit information, specifically, when the function bit is an identification bit of 1bit, and when the function bit is 1, representing equipment has the voice input and output functions; when the function bit is 0, the device does not have the voice input and output functions; the function bit is 2-bit identification bit, and when the function bit is 11, the function bit represents whether the equipment has the voice input and output functions; when the function position is 10, the device has a voice input function and does not have a voice output function; when the function bit is 01, the device does not have the voice input function and has the voice output function; when the function bit is 00, the representative device does not have the voice input and output functions. And screening the second terminal equipment with the function bit of 1, or with the function bit of 11, or with the function bit of 01.

In a preferred embodiment, said step 206 comprises

Controlling the first control device to generate a third control instruction, wherein the third control instruction comprises a voice playing instruction and sending the third control instruction to the second terminal device;

and controlling the second terminal equipment to generate a fourth control instruction according to the third control instruction, wherein the fourth control instruction comprises a wakeup word and an identification keyword of the first terminal equipment, such as the terminal equipment UID, and sending the fourth control instruction to the second control equipment.

For example, it is determined that the control device a and the control device B belong to different location areas, and the voice is not reachable, and the terminal device c that is located in the same location area as the control device B at this time is controlled by the control device a and has a voice output function, and the control device a sends and generates a third control instruction, where the third control instruction includes a voice playing instruction, and the voice playing instruction carries voice information to be played, sends the third control instruction to the terminal device c, and plays through the terminal device c: the "small B, turn on XX lamp" wakes up the control device B.

In a preferred embodiment, the woken first control device sends a fourth query request to the data center, the woken second control device sends a fifth query request to the data center, the fourth query request carries the current executed operation information of the first control device, including the terminal device UID and the first terminal device state information, and the fifth query request carries the current executed operation information of the second control device, including the terminal device UID and the terminal device state information. And querying an inter-device control rule data table based on the fourth query request and the fifth query request. Specifically, the first terminal device UID and terminal device state information are used as a condition device UID and a condition device state, a control rule data table between devices is queried, and whether a related table entry exists is judged. If the result equipment UID exists, the table entry is called, and task operation logic is determined based on the result equipment UID, the result equipment position, the result equipment type, the result equipment control attribution and the result equipment state in the table entry, so that a corresponding control instruction is generated.

Specifically, for example, after the user inputs "small a, light on", all the lights are turned on by default, at which time the first control apparatus turns on the light a and the light B belonging to its control, while controlling the second control apparatus to turn on the light C belonging to its control based on the above steps. At this time, based on the operation information of turning on the lamp A and the lamp B and turning on the lamp C, inquiring an inter-device control rule data table, assuming that condition parameter data in the representation of the inter-device control rule data table includes the platform 2, controlling the device B and the lamp C, turning on, and acquiring corresponding result parameter data: such as the platform 1, the control device a, the curtain 1, closed. Based on the result, a control command is generated to control the curtain 1 to be closed.

In a preferred embodiment, step 201 further comprises

Receiving a first voice instruction of a user, and acquiring identity information of the user based on the first voice instruction of the user. The identity information of the user comprises a user ID and a user grade.

In a preferred embodiment, the feedback mode and the control authority of the control device are set according to the identity information of the user.

Specifically, the device voice packet is controlled based on the user ID matching, for example, the voice packet 1 is called for the user1, and when the user2 is recognized, the voice packet 2 is called.

Specifically, the control authority of the terminal device is determined according to the User grades, different User IDs correspond to different User identities, for example, User1 is a master and has the highest User grade, and User2 is a child and has a lower User grade. And when the result device UID in the corresponding result parameter data is not in the control authority range of the user, a corresponding control instruction is not generated by inquiring the inter-device control rule data table.

By the method, the equipment among different platforms can be managed, the equipment control among different platforms is optimized, the equipment among different platforms is interestingly linked, and the use experience of a user is improved.

Example four

On the basis of the third embodiment, referring to fig. 4, the second embodiment of the present invention further provides a control apparatus for a terminal device, where the apparatus includes:

the input module is used for receiving a first voice instruction of a user, wherein the first voice instruction comprises a starting instruction aiming at least one first terminal device;

a control attribution judging module, configured to wake up a first control device based on the first voice instruction, and judge whether the control attribution of the at least one first terminal device includes the first control device;

the control attribution determining module is used for acquiring second control equipment contained in the control attribution of the first terminal equipment;

the position acquisition module is used for acquiring a first position of the first control equipment and a second position of the second control equipment; judging whether the first position and the second position belong to the same position area;

and the control module is used for controlling the first control equipment to generate a second control instruction and sending the second control instruction to the second control equipment, wherein the second control instruction comprises a starting instruction aiming at the first terminal equipment.

Preferably, the control attribution judging module is further used for

Preferably, the control attribution determination module is further configured to

Preferably, the location obtaining module is further configured to determine a first location of the first control device, and determine a second location of the second control device by querying an inter-device control attribute data table; judging whether the first position and the second position belong to the same position area; if not, acquiring one or more pieces of second terminal equipment information of the first control equipment contained in the control attribution of the same location area with the second location,

the function judging module is used for judging whether the second terminal equipment supports a voice output function or not;

the control module is used for controlling the first control device to generate a third control instruction and sending the third control instruction to the second terminal device; and the second terminal equipment sends a fourth control instruction to the second control equipment according to the third control instruction, wherein the fourth control instruction comprises a starting instruction aiming at the first terminal equipment.

The invention also provides a smart device characterized in that it comprises a processor and a memory, in which a computer program is stored that is executable on the processor, said computer program implementing the method as described above when executed by said processor.

The invention provides a computer-readable storage medium, characterized in that a computer program is stored in the computer-readable storage medium, which computer program is executable on a processor, and when executed implements a method as described above.

Any combination of one or more computer-readable media may be employed. The computer readable medium may be a computer readable signal medium or a computer readable storage medium. A computer readable storage medium may be, for example, but not limited to, an electronic, magnetic, optical, electromagnetic, infrared, or semiconductor system, apparatus, or device, or any combination of the foregoing. The computer-readable storage medium may include: an electrical connection having one or more wires, a portable computer diskette, a hard disk, a Random Access Memory (RAM), a read-only memory (ROM), a flash memory, an erasable programmable read-only memory (EPROM), an optical fiber, a portable compact disc read-only memory (CD-ROM), an optical storage device, a magnetic storage device, or any suitable combination of the foregoing. In the context of this document, a computer readable storage medium may be any tangible medium that can contain, or store a program for use by or in connection with an instruction execution system, apparatus, or device.

Computer program code for carrying out operations of the present invention may be written in one or more programming languages, or a combination thereof.

The above description is only an example for the convenience of understanding the present invention, and is not intended to limit the scope of the present invention. In the specific implementation, a person skilled in the art may change, add, or reduce the components of the apparatus according to the actual situation, and may change, add, reduce, or change the order of the steps of the method according to the actual situation without affecting the functions implemented by the method.

While embodiments of the invention have been shown and described, it will be understood by those skilled in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents, and all changes that come within the meaning and range of equivalency of the claims are to be embraced within their scope.

Claims

1. A method of intelligently controlling configuration, the method comprising:

2. The method of claim 1,

the plurality of control devices belong to different intelligent control platforms, wherein each control device is associated with one or more terminal devices.

3. The method of claim 1,

the inter-device control attribute data table contains attribute information corresponding to a plurality of attribute fields, wherein the attribute fields comprise control bits, status bits, function bits, unique device identification codes, device types, device positions, control attributions and reserved bits;

4. The method of claim 2, wherein step 102 comprises

The control devices send information inquiry instructions to one or more terminal devices associated with the control devices;

5. The method of claim 2, wherein step 105 comprises

The plurality of control devices generating an inter-device control rule data table based on the received rule information acquisition instruction,

6. A system for intelligently controlling configuration, the system comprising:

7. The system of claim 6,

8. The system of claim 6,

the inter-device control attribute data table contains attribute information corresponding to a plurality of attribute fields, wherein the attribute fields comprise control bits, status bits, function bits, unique device identification codes, device types, device positions, control attributions and reserved bits; .

9. The system of claim 7,

10. The system of claim 7,

11. A computer-readable storage medium, in which a computer program that is executable on a processor is stored, which computer program, when being executed, carries out the method according to any one of claims 1 to 5.