CN108154036B - Control method and control device of intelligent equipment - Google Patents

Abstract

The invention discloses a control method and a control device of intelligent equipment, wherein the control method comprises the following steps: after a first control instruction for the intelligent equipment in the target space is received, acquiring first information contained in the first control instruction and current environment information of the target space; if the environment information does not contain factors contrary to the first information, analyzing whether the first control instruction is a valid control instruction or not; if the first control instruction is an effective control instruction, updating a target control instruction into the first control instruction; acquiring target execution time contained in the target control instruction; and if the current time is the target execution time, executing the target control instruction, and deleting the control instruction received before the target execution time. By adopting the control method, the problems of potential safety hazards, energy waste and the like can be avoided when a plurality of users control a plurality of intelligent devices in the same application scene, and the applicability is better.

Description

Control method and control device of intelligent equipment

Technical Field

The invention relates to the technical field of intelligent equipment, in particular to a control method and a control device of intelligent equipment.

Background

With the rapid development of the internet of things technology, intelligent devices become common devices for people to work and live in daily life, for example, intelligent household appliances used in most families at present belong to intelligent devices.

At present, a plurality of smart devices are usually equipped in the same Application scenario, and a plurality of users control each smart device in the Application scenario, for example, most families use a plurality of smart home devices at home, and each member in the same family can control each smart home device at home through control software or APP (Application) provided in the mobile terminal of the member. However, the control of the intelligent equipment in the same application scene by a plurality of users can cause the confusion of the control of the intelligent equipment, thereby affecting the use effect of the intelligent equipment, and the service life of the intelligent equipment can be affected even by the confusion of the control for a long time.

In the prior art, for the problem of controlling an intelligent device in an application scene by multiple users in the same application scene, the following solutions are disclosed: after receiving a control instruction of a certain user terminal to a certain intelligent device, firstly comparing the priority between the user terminal and other user terminals which currently have control right to the intelligent device, and then controlling the intelligent device according to the control instruction of the user terminal with higher priority according to the comparison result of the priority.

By adopting the prior art scheme, the problem of disordered control after a plurality of users control the same intelligent device in the same application scene can be avoided, however, if a plurality of users control a plurality of intelligent devices in the application scene in the current application scene, and the plurality of intelligent devices are operated at the same time, energy waste or potential safety hazard is caused, and the problems of potential safety hazard or energy waste and the like are easily caused by still adopting the prior control method.

Disclosure of Invention

The invention provides a control method and a control device of intelligent equipment, and aims to solve the problem that potential safety hazards or energy waste are easily caused when a plurality of users control a plurality of intelligent equipment in the same application scene in the existing control method of the intelligent equipment.

In a first aspect, the present invention provides a method for controlling an intelligent device, including: after a first control instruction for the intelligent equipment in a target space is received, acquiring first information and current environment information of the target space, wherein the first information is information of the running state of corresponding intelligent equipment after the execution of the first control instruction is finished; if the environment information does not contain factors contrary to the first information, analyzing whether the first control instruction is a valid control instruction or not; if the first control instruction is an effective control instruction, updating a target control instruction into the first control instruction; acquiring target execution time contained in the target control instruction; and if the current time is the target execution time, executing the target control instruction, and deleting the control instruction received before the target execution time.

Further, the process of analyzing whether the first control instruction is an effective control instruction specifically includes: acquiring second information contained in the second control instruction; the second control instruction is other currently received control instructions when the first control instruction is received; the second information is the information of the running state of the corresponding intelligent equipment after the execution of the second control instruction is finished; and if the second information does not contain the factor which is opposite to the first information, determining the first control instruction as the effective control instruction.

Further, the process of analyzing whether the first control instruction is an effective control instruction specifically includes: acquiring a first position of a network access point of the user terminal which sends the first control instruction and a second position of the network access point of the user terminal which sends the second control instruction; the second control instruction is other currently received control instructions when the first control instruction is received; and if the distance from the first position to the target space is smaller than the distance from the second position to the target space, determining the first control instruction as a valid control instruction.

Further, the process of analyzing whether the first control instruction is an effective control instruction specifically includes: acquiring first registration time contained in user registration information in the user terminal sending the first control instruction and second registration time contained in user registration information in the user terminal sending the second control instruction; the second control instruction is other currently received control instructions when the first control instruction is received; and if the first registration time is earlier than the second registration time, determining the first control instruction as a valid control instruction.

Further, the process of analyzing whether the first control instruction is an effective control instruction specifically includes: acquiring a first execution time contained in the first control instruction and a second execution time contained in the second control instruction; the second control instruction is other currently received control instructions when the first control instruction is received; determining the first control instruction as a valid control instruction if the first execution time is earlier than the second execution time.

Further, the control method further includes: if the first execution time is equal to the second execution time, acquiring a first position of a network access point of the user terminal sending the first control command and a second position of the network access point of the user terminal sending the second control command; and if the distance from the first position to the target space is smaller than the distance from the second position to the target space, determining the first control instruction as a valid control instruction.

Further, the control method further includes: if the distance from the first position to the target space is equal to the distance from the second position to the target space, acquiring the priority of the execution sequence of the user terminal sending the first control instruction and the user terminal sending the second control instruction; and if the priority of the execution sequence of the user terminal sending the first control instruction is higher than that of the execution sequence of the user terminal sending the second control instruction, determining the first control instruction as an effective control instruction.

Further, the control method further includes: if the first execution time is equal to the second execution time, second information contained in the second control instruction is obtained, and the second information is information of the running state of the corresponding intelligent equipment after the second control instruction is executed; and if the second information does not contain the factor which is opposite to the first information, determining the first control instruction as the effective control instruction.

Further, after the target execution time included in the target control instruction is obtained, the control method further includes: if the current time is earlier than the target execution time, repeatedly executing the steps of obtaining first information contained in a first control instruction and current environment information of the target space after receiving the first control instruction of the intelligent device in the target space, executing the target control instruction until the current time is the target execution time, and deleting the control instruction received before the target execution time.

In a second aspect, the present invention further provides a control apparatus for an intelligent device, including: the information acquisition module is used for acquiring first information contained in a first control instruction and current environment information of a target space after receiving the first control instruction for the intelligent equipment in the target space, wherein the first information is information of the running state of corresponding intelligent equipment after the execution of the first control instruction is finished; the analysis module is used for analyzing whether the first control instruction is an effective control instruction or not if the environment information does not contain a factor which is contrary to the first information; the instruction updating module is used for updating the target control instruction into the first control instruction if the first control instruction is an effective control instruction; the target execution time acquisition module is used for acquiring the target execution time contained in the target control instruction; and the first execution module is used for executing the target control instruction and deleting the control instruction received before the target execution time if the current time is the target execution time.

The technical scheme provided by the embodiment of the invention can have the following beneficial effects: the invention provides a control method and a control device of intelligent equipment. In the control method, whether a factor of conflict exists between a received control instruction for the intelligent device in a target space and current environment information is determined, after the factor of conflict does not exist between the received control instruction and the current environment information, whether the control instruction is an effective control instruction is determined, after the control instruction is determined to be the effective control instruction, namely the control instruction is determined to have no conflict with other currently received control instructions, the control instruction is updated to be the target control instruction, after a certain control instruction is updated to be the target control instruction, the target control instruction is executed only if the target execution time of the target control instruction is the same as the current time, and the control instruction received before the target execution time is deleted, so that the control method for the intelligent device provided by the embodiment of the invention can ensure that the executed control instruction has no conflict with the environment, the method has no conflict with other control instructions, and further ensures that when a plurality of users control a plurality of intelligent devices in the same application scene, the problems of potential safety hazards, energy waste and the like can not be generated, and the applicability is better.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious to those skilled in the art that other drawings can be obtained according to the drawings without any inventive exercise.

Fig. 1 is a block diagram of a control system of an intelligent device according to an embodiment of the present invention;

fig. 2 is a schematic flowchart of a control method for an intelligent device according to an embodiment of the present invention;

fig. 3 is a flowchart illustrating a method for analyzing whether a first control instruction is a valid control instruction according to an embodiment of the present invention;

FIG. 4 is a flowchart illustrating another method for analyzing whether a first control instruction is a valid control instruction according to an embodiment of the present invention;

fig. 5 is a block diagram of a control apparatus of an intelligent device according to an embodiment of the present invention.

Detailed Description

As can be known from the background art, for a plurality of users in the same application scenario, for example, a plurality of family members in the same family or a plurality of employees in the same company, when the plurality of users control a plurality of intelligent devices in the application scenario, the existing control method for the intelligent devices is adopted, which is likely to cause problems such as potential safety hazard or energy waste. In order to solve the problem, the invention provides a control method and a control device of intelligent equipment.

The following describes a control method and a control device for an intelligent device in detail with reference to the accompanying drawings.

Before describing the control method and control apparatus for an intelligent device provided by the present invention, a control system for an intelligent device provided by an embodiment of the present invention is first described.

Referring to fig. 1, fig. 1 is a block diagram illustrating a control system of an intelligent device according to an embodiment of the present invention. As can be seen in fig. 1, the control system includes: a plurality of user terminals 1, a control device 2 for smart devices, and a plurality of smart devices 3. The plurality of intelligent devices 3 are located in the same space, and the geographic range covered by the space is smaller than or equal to the geographic range covered by one local area network, for example, the plurality of intelligent devices 3 are located in different positions of a living room of the same family; each user terminal 1 is installed with control software or an APP, and a user holding the user terminal can send a control instruction for any one intelligent device 3 to the control device 2 of the intelligent device through the control software or the APP; the control device 2 of the intelligent device is configured to receive a control instruction for any one of the intelligent devices 3 in the space in real time, analyze the control instruction after receiving each control instruction, and determine execution of the control instruction according to an analysis result (refer to the content of the subsequent embodiments specifically).

The control device 2 of the smart device may be provided in a cloud platform or a server located at a distance from the space where the smart device 3 is located, may be provided in any one of the smart devices 3, or may be provided separately in the space where the smart device 3 is located.

Each user terminal 1 may establish a communication link with the control device 2 of the intelligent device through a mobile cellular network technology, or may access the internet through a WIreless-Fidelity (WIFI) technology, and establish a communication link with the control device 2 of the intelligent device; likewise, each smart device 3 may also establish a communication link with the control apparatus 2 of the smart device through a mobile cellular network technology or a WIFI wireless technology. Based on this, the user can control any one of the smart devices 3 remotely through the user terminal 1 owned by the user, or can control any one of the smart devices 3 at a short distance in the space where the smart device 3 is located.

Referring to fig. 2, fig. 2 is a schematic flowchart illustrating a control method of an intelligent device according to an embodiment of the present invention. The control method is used on the side of a control device of an intelligent device (for example, the control device 2 of the intelligent device shown in fig. 1), and as can be seen from fig. 2, the control method includes:

step 101, after receiving a first control instruction for an intelligent device in a target space, acquiring first information contained in the first control instruction and current environment information of the target space.

In order to ensure that in the same currently controlled application scenario (in the embodiment of the present invention, the application scenario is subsequently defined as a target space, and the geographic range covered by the target space is less than or equal to the geographic range covered by one local area network), when a plurality of users control a plurality of intelligent devices, problems such as control confusion, energy waste or potential safety hazard and the like do not occur, in the control method of the intelligent devices provided in the embodiment of the present invention, the intelligent devices are controlled according to a fixed control cycle, the control cycle can be set according to actual needs, for example, the control cycle can be set to one day, after each control cycle starts, the control device of the intelligent device receives the control instruction of the intelligent device in the target space in real time, and for each received control instruction, the control device of the intelligent device analyzes the control instruction according to the control methods of steps 101 to 106, in the embodiment of the present invention, the control instruction currently being analyzed is defined as the first control instruction.

And the first information is information of the running state of the corresponding intelligent equipment after the execution of the first control instruction is finished. The current environmental information of the target space includes: the information of the air in the target space, the information of the operating state of the intelligent device in the target space, the information acquired by the intelligent device in the target space, and the like, for example, the temperature and humidity of the air, the opening or closing of an intelligent door and window, the opening or closing of an air conditioner, the operating temperature of the air conditioner, the image information shot by an intelligent camera, and the like. Wherein, the temperature and the humidity of the air can be obtained by a temperature and humidity sensor.

And 102, if the environment information does not contain a factor contrary to the first information, analyzing whether the first control instruction is a valid control instruction.

In the embodiment of the present invention, two or more factors that may cause problems such as energy waste, potential safety hazard, or increase in power supply pressure are stored in the system in advance, and a set of all the factors stored in the system in advance is defined as a preset factor set, and when determining whether the environmental information includes a factor that is contrary to the first information, the following method may be implemented: analyzing whether the first information contains factors in a preset factor set, if so, recording the factors as target factors, then analyzing whether the environmental information contains the factors which are correspondingly stored together with the target factors, and if so, determining that the environmental information contains the factors which are contrary to the first information; or, if not, determining that the environmental information does not include a factor that is contrary to the first information.

For example, the environment information is: opening the intelligent door and window; the first information is: the air conditioner is started, and the temperature is adjusted to 26 ℃. Because energy waste can be caused between the opening of the door and the window and the opening of the air conditioner, the two factors of the opening of the door and the window and the opening of the air conditioner can be correspondingly stored in the system in advance, and then after the first information including the factor of the opening of the air conditioner is determined, if the environmental information including the factor of the opening of the door and the window is determined, the environmental information including the factor which is contrary to the first information can be determined.

Or, the environment information is: the intelligent camera shoots that a certain area in a target space has a user; the first information is: the intelligent sweeping robot cleans the area. When a user exists in a certain area, the intelligent sweeping robot cleans the user in the area and trips the area, so that potential safety hazards are caused, the user existing in the same area and the intelligent sweeping robot cleans the area can be correspondingly stored in the system in advance, then after the first information including the factor that the intelligent sweeping robot cleans the area is determined, if the environment information including the factor that the user exists in the area is determined, the environment information including the factor which is contrary to the first information can be determined.

In some optional embodiments, the process of analyzing whether the first control instruction is a valid control instruction specifically includes: acquiring second information contained in the second control instruction; determining the first control instruction as a valid control instruction if the second information does not include a factor that is contrary to the first information; or, if the second information contains a factor that is contrary to the first information, determining the first control instruction as an invalid control instruction.

The second control instruction is other currently received control instructions when the first control instruction is received, that is, the control instructions except the first control instruction in all the currently received control instructions for the intelligent device in the target space when the first control instruction is received. The second information is the information of the running state of the corresponding intelligent equipment after the execution of the second control instruction is finished.

In particular, determining whether the second information includes a factor that is contrary to the first information may be implemented as follows: analyzing whether the first information contains factors in a preset factor set or not, if so, marking the factors as target factors, then analyzing whether the second information contains the factors which are correspondingly stored together with the target factors or not, and if so, determining that the second information contains the factors which are contrary to the first information; or, if not, determining that the second information does not include a factor that is contrary to the first information.

For example, the second information is: the bath heater is started; the first information is: starting the washing machine; because instantaneous high power and increased power supply pressure can be caused by the fact that the bath heater and the washing machine are started simultaneously, the two factors of the bath heater starting and the washing machine starting can be correspondingly stored in the system in advance, and then after the first information is determined to contain the factor of the washing machine starting, if the second information is determined to contain the factor of the bath heater starting, the second information can be determined to contain the factor which is contrary to the first information.

In some other optional embodiments, the process of analyzing whether the first control instruction is a valid control instruction specifically includes: acquiring a first position of a network access point of the user terminal which sends the first control instruction and a second position of the network access point of the user terminal which sends the second control instruction; if the distance from the first position to the target space is smaller than the distance from the second position to the target space, determining the first control instruction as a valid control instruction; or, if the distance from the first position to the target space is greater than or equal to the distance from the second position to the target space, determining the first control instruction as an invalid control instruction.

In some other optional embodiments, the process of analyzing whether the first control instruction is a valid control instruction specifically includes: acquiring first registration time contained in user registration information in the user terminal sending the first control instruction and second registration time contained in user registration information in the user terminal sending the second control instruction; determining the first control instruction as a valid control instruction if the first registration time is earlier than the second registration time; or, if the first registration time is equal to or later than the second registration time, determining the first control instruction as an invalid control instruction.

Referring to fig. 3, fig. 3 is a flowchart illustrating a method for analyzing whether a first control instruction is a valid control instruction according to an embodiment of the present invention. As can be seen from fig. 3, in some other alternative embodiments, the process of analyzing whether the first control instruction is a valid control instruction specifically includes:

step 201, a first execution time included in the first control instruction and a second execution time included in the second control instruction are obtained.

Wherein, the first execution time refers to the time when the instruction contained in the first control instruction starts to execute; the second execution time refers to a time at which the instruction included in the second control instruction starts execution.

Step 202, if the first execution time is earlier than the second execution time, determining the first control instruction as a valid control instruction.

Step 203, if the first execution time is later than the second execution time, determining the first control instruction as an invalid control instruction.

Step 204, if the first execution time is equal to the second execution time, acquiring a first position of the network access point of the user terminal sending the first control instruction and a second position of the network access point of the user terminal sending the second control instruction.

Step 205, if the distance from the first position to the target space is smaller than the distance from the second position to the target space, determining the first control command as a valid control command.

Step 206, if the distance from the first position to the target space is greater than the distance from the second position to the target space, determining the first control command as an invalid control command.

Step 207, if the distance from the first location to the target space is equal to the distance from the second location to the target space, acquiring priorities of execution sequences of the user terminal sending the first control instruction and the user terminal sending the second control instruction.

In some optional embodiments, obtaining the priority of the execution order of the user terminal sending the first control instruction and the user terminal sending the second control instruction may be implemented as follows: and determining the priority of the execution sequence of the user terminal sending the first control instruction and the user terminal sending the second control instruction according to a preset priority determination mode. For example, the preset priority determining mode is an old people priority mode, and if the age contained in the user registration information in the user terminal sending the first control instruction is larger than the age contained in the user registration information in the user terminal sending the second control instruction, it is determined that the priority of the execution sequence of the user terminal sending the first control instruction is higher than the priority of the execution sequence of the user terminal sending the second control instruction. In addition, the preset priority determination mode may be set to a child priority mode or an energy consumption priority mode, and the like, which is not illustrated here.

In some other optional embodiments, obtaining the priority of the execution order of the user terminal sending the first control instruction and the user terminal sending the second control instruction may be implemented as follows: sending request information for generating control conflict and requesting to reply negotiation opinion to both the user terminal sending the first control instruction and the user terminal sending the second control instruction; and after receiving response information containing negotiation opinions, determining the priority of the execution sequence of the user terminal sending the first control instruction and the user terminal sending the second control instruction according to the response information. For example, if the response information indicates that the first control instruction can be executed preferentially, the priority of the execution order of the user terminal sending the first control instruction is determined to be higher than the priority of the execution order of the user terminal sending the second control instruction.

In some other optional embodiments, obtaining the priority of the execution order of the user terminal sending the first control instruction and the user terminal sending the second control instruction may be implemented as follows: generating a user ranking list according to registration time contained in user registration information in a user terminal; and determining the priority of the execution sequence of the user terminal sending the first control instruction and the user terminal sending the second control instruction according to the sequence of the users in the user sequence list. For example, in the user ordered list, if the registration time included in the user registration information in the user terminal that sends the first control instruction is earlier than the registration time included in the user registration information in the user terminal that sends the second control instruction, it is determined that the priority of the execution order of the user terminal that sends the first control instruction is higher than the priority of the execution order of the user terminal that sends the second control instruction.

And step 208, if the priority of the execution sequence of the user terminal sending the first control instruction is higher than the priority of the execution sequence of the user terminal sending the second control instruction, determining the first control instruction as an effective control instruction.

Step 209, if the priority of the execution sequence of the user terminal sending the first control instruction is lower than the priority of the execution sequence of the user terminal sending the second control instruction, determining the first control instruction as an invalid control instruction.

Referring to fig. 4, fig. 4 is a flowchart illustrating another method for analyzing whether a first control instruction is a valid control instruction according to an embodiment of the present invention. As can be seen from fig. 4, in some other alternative embodiments, the process of analyzing whether the first control instruction is a valid control instruction specifically includes:

step 301, a first execution time included in the first control instruction and a second execution time included in the second control instruction are obtained.

Step 302, if the first execution time is earlier than the second execution time, determining the first control instruction as a valid control instruction.

Step 303, if the first execution time is later than the second execution time, determining the first control instruction as an invalid control instruction.

Step 304, if the first execution time is equal to the second execution time, acquiring second information included in the second control instruction.

Step 305, if the second information does not include a factor contrary to the first information, determining the first control command as an effective control command.

Step 306, if the second information includes a factor contrary to the first information, determining the first control command as an invalid control command.

And 103, if the first control instruction is an effective control instruction, updating a target control instruction into the first control instruction.

And 104, acquiring the target execution time contained in the target control instruction.

And 105, if the current time is the target execution time, executing the target control instruction, and deleting the control instruction received before the target execution time.

And 106, if the current time is earlier than the target execution time, repeatedly executing the step 101 until the current time is the target execution time, and executing the step 105.

In the method for controlling an intelligent device according to an embodiment of the present invention, it is determined whether a received control command for the intelligent device in a target space and current environment information are contradictory, after determining that there is no contradictory factor between the two, it is determined whether the control command is an effective control command, after determining that the control command is an effective control command, that is, after determining that the control command does not conflict with other currently received control commands, the control command is updated to a target control command, and after updating a control command to a target control command, the target control command is executed only if a target execution time of the target control command is the same as a current time, and the control command received before the target execution time is deleted, so that it can be known that the control command executed without conflict with the environment can be ensured by using the method for controlling an intelligent device according to an embodiment of the present invention, the method has no conflict with other control instructions, and further ensures that when a plurality of users control a plurality of intelligent devices in the same application scene, the problems of potential safety hazards, energy waste and the like can not be generated, and the applicability is better.

Corresponding to the control method of the intelligent equipment, the embodiment of the invention also discloses a control device of the intelligent equipment.

Referring to fig. 5, fig. 5 is a block diagram illustrating a structure of a control apparatus of an intelligent device according to an embodiment of the present invention. As can be seen from fig. 5, the control device includes:

the information obtaining module 501 is configured to, after receiving a first control instruction for an intelligent device in a target space, obtain first information and current environment information of the target space, where the first information is information of an operating state of the corresponding intelligent device after the execution of the first control instruction is completed; an analysis module 502, configured to analyze whether the first control instruction is a valid control instruction if the environment information does not include a factor that is contrary to the first information; an instruction updating module 503, configured to update the target control instruction to the first control instruction if the first control instruction is a valid control instruction; a target execution time obtaining module 504, configured to obtain a target execution time included in the target control instruction; a first executing module 505, configured to execute the target control instruction and delete the control instruction received before the target execution time if the current time is the target execution time.

Further, the analysis module 502 is configured to analyze whether the first control instruction is an effective control instruction, and specifically includes: acquiring second information contained in the second control instruction; the second control instruction is other currently received control instructions when the first control instruction is received; the second information is the information of the running state of the corresponding intelligent equipment after the execution of the second control instruction is finished; and if the second information does not contain the factor which is opposite to the first information, determining the first control instruction as the effective control instruction.

Further, the analysis module 502 is configured to analyze whether the first control instruction is an effective control instruction, and specifically includes: acquiring a first position of a network access point of the user terminal which sends the first control instruction and a second position of the network access point of the user terminal which sends the second control instruction; the second control instruction is other currently received control instructions when the first control instruction is received; and if the distance from the first position to the target space is smaller than the distance from the second position to the target space, determining the first control instruction as a valid control instruction.

Further, the analysis module 502 is configured to analyze whether the first control instruction is an effective control instruction, and specifically includes: acquiring first registration time contained in user registration information in the user terminal sending the first control instruction and second registration time contained in user registration information in the user terminal sending the second control instruction; the second control instruction is other currently received control instructions when the first control instruction is received; and if the first registration time is earlier than the second registration time, determining the first control instruction as a valid control instruction.

Further, the analysis module 502 is configured to analyze whether the first control instruction is an effective control instruction, and specifically includes: acquiring a first execution time contained in the first control instruction and a second execution time contained in the second control instruction; the second control instruction is other currently received control instructions when the first control instruction is received; determining the first control instruction as a valid control instruction if the first execution time is earlier than the second execution time.

Further, the analysis module 502 is further configured to: if the first execution time is equal to the second execution time, acquiring a first position of a network access point of the user terminal sending the first control command and a second position of the network access point of the user terminal sending the second control command; and if the distance from the first position to the target space is smaller than the distance from the second position to the target space, determining the first control instruction as a valid control instruction.

Further, the analysis module 502 is further configured to: if the distance from the first position to the target space is equal to the distance from the second position to the target space, acquiring the priority of the execution sequence of the user terminal sending the first control instruction and the user terminal sending the second control instruction; and if the priority of the execution sequence of the user terminal sending the first control instruction is higher than that of the execution sequence of the user terminal sending the second control instruction, determining the first control instruction as an effective control instruction.

Further, the analysis module 502 is further configured to: if the first execution time is equal to the second execution time, second information contained in the second control instruction is obtained, and the second information is information of the running state of the corresponding intelligent equipment after the second control instruction is executed; and if the second information does not contain the factor which is opposite to the first information, determining the first control instruction as the effective control instruction.

Further, the control device further includes: a second executing module 506, configured to repeatedly execute, if the current time is earlier than the target execution time, the step of obtaining the first information included in the first control instruction and the current environment information of the target space after receiving the first control instruction for the intelligent device in the target space, until the current time is the target execution time, execute the target control instruction, and delete the control instruction received before the target execution time.

By adopting the control device of the intelligent equipment provided by the embodiment of the invention, the steps in the control method of the intelligent equipment can be implemented, and the same beneficial effects can be obtained. When a plurality of users control a plurality of intelligent devices in the same application scene, the control device is adopted to control the intelligent devices in the application scene, the problems of energy waste, potential safety hazards and the like can be avoided, and the applicability is better.

In specific implementation, the present invention further provides a computer storage medium, where the computer storage medium may store a program, and the program may include some or all of the steps in each embodiment of the control method for an intelligent device provided by the present invention when executed. The storage medium may be a magnetic disk, an optical disk, a read-only memory (ROM) or a Random Access Memory (RAM).

Those skilled in the art will readily appreciate that the techniques of the embodiments of the present invention may be implemented as software plus a required general purpose hardware platform. Based on such understanding, the technical solutions in the embodiments of the present invention may be essentially or partially implemented in the form of a software product, which may be stored in a storage medium, such as ROM/RAM, magnetic disk, optical disk, etc., and includes several instructions for enabling a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method according to the embodiments or some parts of the embodiments.

The same and similar parts among the various embodiments in this specification may be referred to each other. For the control device embodiment of the intelligent device, since it is basically similar to the method embodiment, the description is simple, and the relevant points can be referred to the description in the method embodiment. The above-described embodiments of the present invention should not be construed as limiting the scope of the present invention.

Claims (10)

1. A control method of an intelligent device is characterized by comprising the following steps:

after a first control instruction for the intelligent equipment in a target space is received, acquiring first information and current environment information of the target space, wherein the first information is information of the running state of corresponding intelligent equipment after the execution of the first control instruction is finished;

if the environment information does not contain factors contrary to the first information, analyzing whether the first control instruction is a valid control instruction or not;

if the first control instruction is an effective control instruction, updating a target control instruction into the first control instruction;

acquiring target execution time contained in the target control instruction;

and if the current time is the target execution time, executing the target control instruction, and deleting the control instruction received before the target execution time.

2. The control method according to claim 1, wherein analyzing whether the first control instruction is a valid control instruction process specifically comprises:

acquiring second information contained in the second control instruction; the second control instruction is other currently received control instructions when the first control instruction is received; the second information is the information of the running state of the corresponding intelligent equipment after the execution of the second control instruction is finished;

and if the second information does not contain the factor which is opposite to the first information, determining the first control instruction as the effective control instruction.

3. The control method according to claim 1, wherein analyzing whether the first control instruction is a valid control instruction process specifically comprises:

acquiring a first position of a network access point of the user terminal which sends the first control instruction and a second position of the network access point of the user terminal which sends the second control instruction; the second control instruction is other currently received control instructions when the first control instruction is received;

and if the distance from the first position to the target space is smaller than the distance from the second position to the target space, determining the first control instruction as a valid control instruction.

4. The control method according to claim 1, wherein analyzing whether the first control instruction is a valid control instruction process specifically comprises:

acquiring first registration time contained in user registration information in the user terminal sending the first control instruction and second registration time contained in user registration information in the user terminal sending the second control instruction; the second control instruction is other currently received control instructions when the first control instruction is received;

and if the first registration time is earlier than the second registration time, determining the first control instruction as a valid control instruction.

5. The control method according to claim 1, wherein analyzing whether the first control instruction is a valid control instruction process specifically comprises:

acquiring a first execution time contained in the first control instruction and a second execution time contained in the second control instruction; the second control instruction is other currently received control instructions when the first control instruction is received;

determining the first control instruction as a valid control instruction if the first execution time is earlier than the second execution time.

6. The control method according to claim 5, characterized by further comprising:

if the first execution time is equal to the second execution time, acquiring a first position of a network access point of the user terminal sending the first control command and a second position of the network access point of the user terminal sending the second control command;

and if the distance from the first position to the target space is smaller than the distance from the second position to the target space, determining the first control instruction as a valid control instruction.

7. The control method according to claim 6, characterized by further comprising:

if the distance from the first position to the target space is equal to the distance from the second position to the target space, acquiring the priority of the execution sequence of the user terminal sending the first control instruction and the user terminal sending the second control instruction;

and if the priority of the execution sequence of the user terminal sending the first control instruction is higher than that of the execution sequence of the user terminal sending the second control instruction, determining the first control instruction as an effective control instruction.

8. The control method according to claim 5, characterized by further comprising:

if the first execution time is equal to the second execution time, second information contained in the second control instruction is obtained, and the second information is information of the running state of the corresponding intelligent equipment after the second control instruction is executed;

and if the second information does not contain the factor which is opposite to the first information, determining the first control instruction as the effective control instruction.

9. The control method according to claim 1, wherein after the target execution time included in the target control instruction is acquired, the control method further comprises:

if the current time is earlier than the target execution time, repeatedly executing the steps of obtaining first information contained in a first control instruction and current environment information of the target space after receiving the first control instruction of the intelligent device in the target space, executing the target control instruction until the current time is the target execution time, and deleting the control instruction received before the target execution time.

10. A control device of an intelligent device, comprising:

the information acquisition module is used for acquiring first information contained in a first control instruction and current environment information of a target space after receiving the first control instruction for the intelligent equipment in the target space, wherein the first information is information of the running state of corresponding intelligent equipment after the execution of the first control instruction is finished;

the analysis module is used for analyzing whether the first control instruction is an effective control instruction or not if the environment information does not contain a factor which is contrary to the first information;

the instruction updating module is used for updating the target control instruction into the first control instruction if the first control instruction is an effective control instruction;

the target execution time acquisition module is used for acquiring the target execution time contained in the target control instruction;

and the first execution module is used for executing the target control instruction and deleting the control instruction received before the target execution time if the current time is the target execution time.

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