CN109067820B - Internet of things centralized intelligent equipment management method and system based on router - Google Patents

Abstract

The invention discloses a router-based internet of things centralized intelligent equipment management method and a router-based internet of things centralized intelligent equipment management system, wherein the method comprises the following steps: receiving and analyzing a control instruction sent by intelligent equipment; acquiring an intelligent device list, a device state and an IP address corresponding to the device type in the control instruction according to the analysis result; returning the acquired intelligent equipment list, equipment state and IP address to the intelligent equipment; and receiving the intelligent equipment to be controlled, which is sent by the intelligent equipment, and sending a control instruction to the intelligent equipment to be controlled. According to the method, each intelligent device is used as a small unit, the router is used as a central device to realize management, a user does not need to use a third-party central control device to do additional work, convenience is brought to the user in the intelligent home system, and the user experience is improved.

Description

Internet of things centralized intelligent equipment management method and system based on router

Technical Field

The invention belongs to the field of intelligent home, and particularly relates to an Internet of things centralized intelligent equipment management method and system based on a router.

Background

The intelligent home is a management system for high-efficiency home facilities and family schedule things, which is constructed by integrating home related facilities by using a comprehensive wiring technology, a network communication technology, a security technology, an automatic control technology and an audio-video technology as a platform, and the intelligent home is an embodiment of internet-based influence.

At present, the intelligent home Internet depends on a central control robot, an intelligent sound box, an intelligent mobile phone and the like, and intelligent equipment in a home can be managed through the central control robot, the intelligent sound box, the intelligent mobile phone and the like, but a user is required to carry control equipment, so that the use flexibility is not enough, and if the user is in a place such as a toilet or a kitchen and the like, the intelligent equipment cannot be controlled.

The patent of publication number CN108062029A discloses an intelligent home control management system, which comprises a home equipment module, a management control module, a network connection module and a mobile terminal module, wherein the home equipment module is connected with the management control module, and the management control module is connected with the mobile terminal module through the network connection module; the household equipment module comprises wired equipment and wireless equipment; the network connection module comprises Wi-Fi, 3G and 4G networks; the network connection module comprises a data receiving module and a data transmission module; the mobile terminal module comprises a mobile phone, a computer, a tablet and other equipment; the mobile terminal module comprises a reading module and a wireless sending module. According to the method, the household equipment is connected with the network, management and control of the household equipment are realized through the mobile terminal connected with the network, a user is required to carry the mobile terminal equipment, otherwise, management and control of the household equipment cannot be realized, the flexibility is poor, the burden of the user is easily caused, the user experience is influenced, the household equipment can be controlled only by the mobile terminal equipment of the user in the aspect, and the real Internet of things is not realized.

Compared with the prior art, each intelligent device is regarded as a small unit, the router is regarded as the central device to realize management, the user does not need to use the central device of a third party to do additional work, convenience is brought to the user in the intelligent home system, and the user experience is improved.

Disclosure of Invention

Aiming at the defects and improvement demands of the prior art, the invention provides a router-based intelligent device management method and system for the Internet of things centralization, and aims to provide the intelligent device management method which has high flexibility, is convenient and quick and has the Internet of things, thereby solving the technical problems of dependence on third party centralized control equipment and poor flexibility in the prior art.

In order to achieve the above purpose, the present invention provides a router-based management method for an intelligent device centralized in the internet of things, comprising the steps of:

s1, receiving a control instruction sent by intelligent equipment and analyzing the control instruction;

s2, acquiring an intelligent device list, a device state and an IP address corresponding to the device type in the control instruction according to the analysis result;

s3, returning the acquired intelligent equipment list, equipment state and IP address to the intelligent equipment;

s4, receiving intelligent equipment to be controlled, which is sent by the intelligent equipment, and sending a control instruction to the intelligent equipment to be controlled.

Further, step S2 further includes the steps of:

inquiring an intelligent device list corresponding to the device type in the control instruction and all IP addresses in the list according to the analysis result, and acquiring the intelligent device state corresponding to the IP addresses according to the IP addresses.

Further, before step S1, the method further includes the steps of:

and receiving a network allocation request sent by the intelligent equipment, generating a corresponding unique IP address after successful network allocation, and sending the unique IP address to the intelligent equipment.

Further, before step S1, the method further includes the steps of:

and receiving the equipment type sent by the intelligent equipment, and storing the generated IP address into a list of corresponding types according to the received intelligent equipment type.

Further, after step S4, the method further includes the steps of:

and feeding back the result of executing the control instruction.

Correspondingly, the utility model also provides a router-based internet of things centralized intelligent equipment management system, which comprises:

the first receiving module is used for receiving a control instruction sent by the intelligent equipment;

the analysis module is used for analyzing the received control instruction;

the acquisition module is used for acquiring an intelligent device list, a device state and an IP address corresponding to the device type in the control instruction according to the analysis result;

the feedback module returns the acquired intelligent equipment list, the equipment state and the IP address to the intelligent equipment;

the second receiving module is used for receiving the intelligent equipment which is transmitted by the intelligent equipment and needs to be controlled;

and the sending module is used for sending a control instruction to the intelligent equipment to be controlled.

Further, the method further comprises the following steps:

and the inquiring unit is used for inquiring the intelligent equipment list corresponding to the equipment type in the control instruction and all IP addresses in the intelligent equipment list according to the analysis result.

Further, the method further comprises the following steps:

the third receiving module is used for receiving a network allocation request sent by the intelligent equipment;

the generation module is used for generating a corresponding unique IP address after the successful network allocation;

and the sending module is used for sending the generated IP address to the intelligent equipment.

Further, the method further comprises the following steps:

the third receiving module is used for receiving the equipment type sent by the intelligent equipment;

and the storage module is used for storing the generated IP address into a list of corresponding types according to the received equipment type.

Further, the method further comprises the following steps:

and the feedback module is used for feeding back the result of executing the control instruction.

Compared with the prior art, the invention has the following advantages:

and each intelligent device is used as a small unit, the router is used as a central device to realize management, a user does not need to use a third-party central control device to do additional work, convenience is brought to the user in the intelligent home system, and the user experience is improved.

Drawings

Fig. 1 is a flowchart of a method for managing an internet of things centralized intelligent device based on a router according to the first embodiment;

fig. 2 is a diagram of a centralized intelligent device management system of internet of things based on a router according to the first embodiment;

fig. 3 is a flowchart of a method for managing an internet of things centralized intelligent device based on a router according to the second embodiment;

fig. 4 is a structural diagram of an internet of things centralized intelligent device management system based on a router according to the second embodiment.

Detailed Description

The following are specific embodiments of the present invention and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

Example 1

The embodiment provides a router-based internet of things centralized intelligent device management method, as shown in fig. 1, comprising the following steps:

s11, receiving and analyzing a control instruction sent by the intelligent equipment;

s12, acquiring an intelligent device list, a device state and an IP address corresponding to the device type in the control instruction according to the analysis result;

s13, returning the acquired intelligent equipment list, equipment state and IP address to the intelligent equipment;

s14, receiving intelligent equipment to be controlled, which is sent by the intelligent equipment, and sending a control instruction to the intelligent equipment to be controlled.

The user informs other intelligent devices which are required to be controlled by the intelligent device which is accessed to the network through voice, after the intelligent device receives the voice command of the user, the voice command is analyzed through voice recognition, a corresponding control command is generated, and the control command is sent to the router through an HTTP mode; the router analyzes after receiving the control instruction sent by the intelligent device, searches other intelligent devices meeting the conditions according to keywords generated by analysis, acquires a corresponding intelligent device list, a device state and an IP address, then sends the acquired information to the intelligent device which carries out voice interaction with the user, and the intelligent device which carries out voice interaction with the user displays the received intelligent device list, the device state and the IP address meeting the conditions acquired by the router to the user; the user selects the intelligent device which the user wants to control from the displayed intelligent device list, when the intelligent device which carries out voice interaction with the user senses the selection of the user, the selection of the user is immediately sent to the router, the router controls the intelligent device according to the IP address of the intelligent device which is selected by the user and needs to be controlled, and finally the control instruction is executed.

Further, step S12 further includes the steps of:

inquiring an intelligent device list corresponding to the device type in the control instruction and all IP addresses in the list according to the analysis result, and acquiring the intelligent device state corresponding to the IP address according to the IP address.

The router analyzes the equipment type in the control instruction according to the received control instruction, then inquires the equipment of the type from the central control routing table, so that a corresponding intelligent equipment list and all IP addresses in the list are inquired, after the router acquires all the IP addresses in the list, the router asynchronously sends requests for acquiring equipment states to the different IP addresses respectively in an HTTP mode, and after the intelligent equipment receives the requests, the intelligent equipment returns the current state of the equipment to the router.

Further, before step S11, the method further includes the steps of:

and receiving a network allocation request sent by the intelligent equipment, generating a corresponding unique IP address after successful network allocation, and sending the unique IP address to the intelligent equipment.

Further, before step S11, the method further includes the steps of:

and receiving the equipment type sent by the intelligent equipment, and storing the generated IP address into a list of corresponding types according to the received intelligent equipment type.

Before a user controls any other intelligent device through any intelligent device, the intelligent device is required to be distributed, and the intelligent device can be controlled through the router only after the intelligent device is successfully distributed.

The intelligent equipment sends a network allocation request to the router, and after the network allocation is successful, the router automatically generates a unique IP address to the intelligent equipment and sends the IP address to the intelligent equipment; after the intelligent equipment is successfully allocated to the network, the intelligent equipment sends the equipment type of the intelligent equipment to a router in an HTTP mode, the router starts to add new equipment after receiving the equipment type, and if a list of the equipment type is found, the IP address of the intelligent equipment is added to the list of the type; if the type list is not found, the type list is created, and after the creation is successful, the IP of the intelligent equipment is added into the list. The intelligent household equipment is characterized in that the types of a plurality of equipment are the same, for example, the intelligent socket is likely to be multiple, the equipment of the same type is classified, when a user instructs to control the intelligent equipment of a certain type, the list of the intelligent equipment of the type is displayed to the user, so that the user can accurately select the specific intelligent equipment to be controlled without misoperation to execute control instructions on other intelligent equipment.

Correspondingly, a router-based internet of things centralized intelligent device management system is also provided, as shown in fig. 2, including:

the first receiving module 10 is configured to receive a control instruction sent by the intelligent device;

the parsing module 11 is configured to parse the received control instruction;

the obtaining module 12 is configured to obtain, according to the analysis result, an intelligent device list, a device state, and an IP address corresponding to a device type in the control instruction;

the feedback module 13 returns the acquired intelligent device list, device state and IP address to the intelligent device;

a second receiving module 14, configured to receive an intelligent device to be controlled, which is sent by the intelligent device;

and the sending module 15 is used for sending a control instruction to the intelligent equipment to be controlled.

The first receiving module 10 receives a control instruction sent by the intelligent device, the analyzing module 11 analyzes the received control instruction, the acquiring module 12 acquires a corresponding intelligent device list, a device state and an IP address according to an analysis result, then the acquired information is sent to the feedback module 13, the feedback module 13 returns the acquired intelligent device list, the acquired intelligent device state and the acquired IP address to the intelligent device, after the feedback, the second receiving module 14 receives the intelligent device to be controlled sent by the intelligent device, then the intelligent device to be controlled is sent to the sending module 15, and the sending module 15 sends the control instruction to the intelligent device to be controlled.

Further, the method further comprises the following steps:

and the query unit 16 is configured to query, according to the analysis result, a list of intelligent devices corresponding to the device types in the control instruction and all IP addresses in the list.

After the analysis of the analysis module 11, the query unit 16 in the acquisition module 12 queries the intelligent device list corresponding to the device type in the control instruction and all the IP addresses in the list according to the analysis result.

Further, the method further comprises the following steps:

a third receiving module 17, configured to receive a network allocation request sent by an intelligent device;

a generating module 18, configured to generate a corresponding unique IP address after the network allocation is successful;

and the sending module 15 is used for sending the generated IP address to the intelligent equipment.

Further, the method further comprises the following steps:

a third receiving module 17, configured to receive a device type sent by the intelligent device;

a storage module 19, configured to store the generated IP address in a list of corresponding types according to the received device type.

The third receiving module 17 receives a network allocation request sent by the intelligent device, after the network allocation is successful, the generating module 18 automatically generates a corresponding unique IP address, the sending module 15 sends the generated IP address to the intelligent device, then the intelligent device sends the device type to the router, the third receiving module 17 receives the IP address and sends the IP address to the storage module 19, and the storage module 19 classifies and stores the IP address generated by the generating module 18 into a list of corresponding types according to the device type of the intelligent device.

According to the embodiment, the unique IP addresses are obtained through the distribution network of the intelligent devices, the router classifies and stores the IP addresses, when a user wants to control other intelligent devices through any intelligent device, the router obtains other intelligent device lists and IP addresses which meet the requirements and the user wants to control according to the user instruction, and the user can control the selected intelligent devices through selection. And each intelligent device is used as a small unit, the router is used as a central device to realize management, a user does not need to use a third-party central control device to do additional work, convenience is brought to the user in the intelligent home system, and the user experience is improved.

Example two

The embodiment provides a router-based internet of things centralized intelligent device management method, as shown in fig. 3, comprising the following steps:

s21, receiving and analyzing a control instruction sent by the intelligent equipment;

s22, acquiring an intelligent device list, a device state and an IP address corresponding to the device type in the control instruction according to the analysis result;

s23, returning the acquired intelligent equipment list, equipment state and IP address to the intelligent equipment;

s24, receiving intelligent equipment to be controlled, which is sent by the intelligent equipment, and sending a control instruction to the intelligent equipment to be controlled.

Further, step S22 further includes the steps of:

inquiring an intelligent device list corresponding to the device type in the control instruction and all IP addresses in the list according to the analysis result, and acquiring the intelligent device state corresponding to the IP address according to the IP address.

Further, before step S21, the method further includes the steps of:

and receiving a network allocation request sent by the intelligent equipment, generating a corresponding unique IP address after successful network allocation, and sending the unique IP address to the intelligent equipment.

Further, before step S21, the method further includes the steps of:

and receiving the equipment type sent by the intelligent equipment, and storing the generated IP address into a list of corresponding types according to the received intelligent equipment type.

Further, after step S24, the method further includes the steps of:

s25, feeding back the result of executing the control instruction.

Unlike the first embodiment, the method further includes step S25:

and feeding back the result of executing the control instruction.

After the router executes the control instruction sent by the intelligent device, the result of executing the control instruction should be fed back, so that the user can know the result conveniently, and the user can conveniently select whether other operations or pause operations are needed.

Compared with the first embodiment, the present embodiment has the following advantages:

after the router executes the control instruction sent by the intelligent device, the execution result of the control instruction is fed back, so that a user knows the execution result, and the user experience is improved.

Correspondingly, a router-based internet of things centralized intelligent device management system is also provided, as shown in fig. 4, including:

the first receiving module 20 is configured to receive a control instruction sent by the intelligent device;

the parsing module 21 is configured to parse the received control instruction;

the obtaining module 22 is configured to obtain, according to the analysis result, an intelligent device list, a device state, and an IP address corresponding to a device type in the control instruction;

the feedback module 23 returns the acquired intelligent device list, device state and IP address to the intelligent device;

a second receiving module 24, configured to receive an intelligent device to be controlled sent by the intelligent device;

and the sending module 25 is used for sending a control instruction to the intelligent equipment to be controlled.

Further, the method further comprises the following steps:

and the query unit 26 is configured to query, according to the analysis result, a list of intelligent devices corresponding to the device types in the control instruction and all IP addresses in the list.

Further, the method further comprises the following steps:

a third receiving module 27, configured to receive a network allocation request sent by the intelligent device;

a generating module 28, configured to generate a corresponding unique IP address after the network allocation is successful;

and the sending module 25 is configured to send the generated IP address to an intelligent device.

Further, the method further comprises the following steps:

a third receiving module 27, configured to receive a device type sent by the intelligent device;

a storage module 29, configured to store the generated IP address into a list of corresponding types according to the received device type.

Further, the method further comprises the following steps:

and the feedback module 23 is used for feeding back the result of executing the control instruction.

Unlike the first embodiment, a feedback module 23 is also included.

After the sending module 25 sends the control instruction to the intelligent device to be controlled, the intelligent device after executing the control instruction returns the execution result to the feedback module 23, and the feedback module 23 should feedback the result of instruction execution, so that the user knows, and the user can conveniently select whether the next operation is needed or not.

After the router executes the control instruction sent by the intelligent device, the execution result of the control instruction is fed back, so that a user knows the execution result, and the user experience is improved.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the invention. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (5)

1. The router-based internet of things centralized intelligent equipment management method is characterized by comprising the following steps:

s1, receiving a control instruction sent by intelligent equipment and analyzing the control instruction;

s2, acquiring an intelligent device list, a device state and an IP address corresponding to the device type in the control instruction according to the analysis result;

s3, returning the acquired intelligent equipment list, equipment state and IP address to the intelligent equipment;

s4, receiving intelligent equipment to be controlled, which is sent by the intelligent equipment, and sending a control instruction to the intelligent equipment to be controlled;

the user informs other intelligent devices which are required to be controlled by the intelligent device which is accessed to the network through voice, after the intelligent device receives the voice command of the user, the voice command is analyzed through voice recognition, a corresponding control command is generated, and the control command is sent to the router through an HTTP mode; the router analyzes after receiving the control instruction sent by the intelligent device, searches other intelligent devices meeting the conditions according to keywords generated by analysis, acquires a corresponding intelligent device list, a device state and an IP address, then sends the acquired information to the intelligent device which carries out voice interaction with the user, and the intelligent device which carries out voice interaction with the user displays the received intelligent device list, the device state and the IP address meeting the conditions acquired by the router to the user; the user selects the intelligent device which the user wants to control from the displayed intelligent device list, when the intelligent device which carries out voice interaction with the user senses the selection of the user, the selection of the user is immediately sent to the router, the router controls the intelligent device according to the IP address of the intelligent device which is selected by the user and needs to be controlled, and finally a control instruction is executed;

before step S1, the method further comprises the steps of:

receiving a network allocation request sent by intelligent equipment, generating a corresponding unique IP address after successful network allocation, and sending the unique IP address to the intelligent equipment; receiving a device type sent by intelligent equipment, and storing the generated IP address into a list of corresponding types according to the received intelligent equipment type;

the step S2 specifically comprises the steps of:

inquiring an intelligent device list corresponding to the device type in the control instruction and all IP addresses in the list according to the analysis result, and acquiring the intelligent device state corresponding to the IP address according to the IP address; the router analyzes the equipment type in the control instruction according to the received control instruction, then inquires the equipment of the type from the central control routing table, so as to inquire a corresponding intelligent equipment list and all IP addresses in the list, after the router acquires all the IP addresses in the list, the router asynchronously sends requests for acquiring equipment states to the different IP addresses respectively in an HTTP mode, and after the intelligent equipment receives the requests, the intelligent equipment returns the current state of the equipment to the router;

after step S4, the method further comprises the steps of: and feeding back the result of executing the control instruction.

2. A management system for the router-based internet of things centralized intelligent device management method of claim 1, comprising:

the first receiving module is used for receiving a control instruction sent by the intelligent equipment;

the analysis module is used for analyzing the received control instruction;

the acquisition module is used for acquiring an intelligent device list, a device state and an IP address corresponding to the device type in the control instruction according to the analysis result;

the feedback module returns the acquired intelligent equipment list, the equipment state and the IP address to the intelligent equipment;

the second receiving module is used for receiving the intelligent equipment which is transmitted by the intelligent equipment and needs to be controlled;

the sending module is used for sending a control instruction to intelligent equipment to be controlled;

the third receiving module is used for receiving a network allocation request sent by the intelligent equipment;

the generation module is used for generating a corresponding unique IP address after the successful network allocation;

and the sending module is used for sending the generated IP address to the intelligent equipment.

3. The router-based internet of things centralized intelligent device management system of claim 2, further comprising:

and the inquiring unit is used for inquiring the intelligent equipment list corresponding to the equipment type in the control instruction and all IP addresses in the intelligent equipment list according to the analysis result.

4. The router-based internet of things centralized intelligent device management system of claim 2, further comprising:

the third receiving module is used for receiving the equipment type sent by the intelligent equipment;

and the storage module is used for storing the generated IP address into a list of corresponding types according to the received equipment type.

5. The router-based internet of things centralized intelligent device management system of claim 2, further comprising:

and the feedback module is used for feeding back the result of executing the control instruction.