CN109246147B

CN109246147B - Intelligent home decryption system based on dynamic address table

Info

Publication number: CN109246147B
Application number: CN201811295302.0A
Authority: CN
Inventors: 刘伟良
Original assignee: Hefei Royalstar Electronic Appliance Group Co Ltd
Current assignee: Hefei Royalstar Electronic Appliance Group Co Ltd
Priority date: 2018-11-01
Filing date: 2018-11-01
Publication date: 2021-11-12
Anticipated expiration: 2038-11-01
Also published as: CN109246147A

Abstract

The invention relates to a decryption system of an intelligent home based on a dynamic address table, which comprises an internet of things, wherein the internet of things comprises a plurality of intelligent power utilization ends and control ends, each intelligent power utilization end is provided with corresponding address information, each intelligent power utilization end is configured with a forwarding address table, the forwarding address tables are used for storing the address information of all the intelligent power utilization ends in the internet of things, the intelligent power utilization ends finish information sending according to the forwarding address tables, control permission of the internet of things in a short time is realized in a permission condition mode, control instruction content is not modified, and virtual network addresses of each intelligent power utilization unit are directly modified, so that the corresponding power utilization equipment cannot be found by utilizing the original addresses, the power utilization equipment is controlled, the safety is high, and the response efficiency is not influenced.

Description

Intelligent home decryption system based on dynamic address table

Technical Field

The invention relates to the field of intelligent home, in particular to a decryption system based on a dynamic address table for intelligent home.

Background

The smart home (home automation) is characterized in that a home is used as a platform, facilities related to home life are integrated by utilizing a comprehensive wiring technology, a network communication technology, a safety precaution technology, an automatic control technology and an audio and video technology, an efficient management system of home facilities and home schedule affairs is constructed, home safety, convenience, comfort and artistry are improved, and an environment-friendly and energy-saving living environment is realized. Home automation refers to the integration or control of electronic appliances or systems in the home using microprocessor electronics technology, such as: lighting lamps, coffee stoves, computer equipment, security systems, heating and cooling systems, video and audio systems, etc. The home automation system mainly uses a Central Processing Unit (CPU) to receive messages from related electronic and electrical products (changes in external environmental factors, such as changes in light caused by the first rise of the sun or the west), and then sends appropriate information to other electronic and electrical products by a predetermined program. The central microprocessor must control the electrical products in the home through many interfaces, such as a keyboard, a touch screen, buttons, a computer, a telephone, a remote controller, etc.; the consumer may send signals to or receive signals from the central microprocessor.

A new problem occurs, because the home network generally sends signals to all other devices in the network through a centralized central processing unit or terminal, and thus, other devices in the network are prone to have a problem, because the command structure is simplified, the command information is very easy to intercept, and therefore, the security in the home internet of things is low, and if the actual control command is complex, the response efficiency of the corresponding home device is affected, so an unlocking system with a simple data structure but capable of verifying the information is required.

Disclosure of Invention

In view of the above, the present invention provides a decryption system based on a dynamic address table for smart home, so as to solve the above problem.

In order to solve the technical problems, the technical scheme of the invention is as follows: a decryption system of an intelligent home based on a dynamic address table comprises an Internet of things, wherein the Internet of things comprises a plurality of intelligent power utilization ends and a control end, each intelligent power utilization end is provided with corresponding address information, each intelligent power utilization end is configured with a forwarding address table, the forwarding address table stores the address information of all the intelligent power utilization ends in the Internet of things, and the intelligent power utilization ends finish information sending according to the forwarding address tables;

the control end comprises an input module, an instruction sending module and a feedback receiving module, a user inputs user information through the input module, and the user generates a control instruction or an unlocking instruction through the input module, the instruction sending module is used for sending the control instruction or the unlocking instruction, the control instruction comprises controlled equipment address information and control content, the control end is configured with a control address table which is the same as the forwarding address table, and the controlled equipment address information is obtained according to the control address table;

the intelligent power utilization end comprises a data receiving and transmitting module and a response module, the data receiving and transmitting module is used for receiving the control instruction, the response module is used for responding to the control instruction, the response module comprises a state configuration unit, and the state configuration unit is used for configuring the response module into a static service state or a dynamic service state;

when the response module is in a dynamic service state and receives the control instruction, verifying the control instruction through a verification strategy, sending the verified control instruction to a corresponding intelligent power utilization end through an internet of things according to the address information of the controlled equipment, and controlling the intelligent power utilization end to execute the control content in the control instruction;

when the response module is in a static service state and receives the unlocking instruction, generating a temporary permission address table according to a corresponding forwarding address table through a first updating algorithm, wherein each address information in the temporary permission address table corresponds to each address information in the forwarding address table one by one, and sending the temporary permission address table to the control terminal;

the data transceiver module is configured with a transceiver protocol, and when address information of controlled equipment in a control instruction meets preset address information in the transceiver protocol, the data transceiver module receives the control instruction;

the feedback receiving module is provided with a verification analysis unit, an updating unit and a permission unit, wherein the verification analysis unit is used for verifying the user information input by the input module; after verification is completed, the updating unit configures the obtained temporary permission address table as a new control address table, and the permission unit is used for generating a permission instruction and sending the permission instruction to the corresponding intelligent power utilization end;

the permission instruction comprises permission conditions, when the intelligent power utilization end receives the permission instruction, the state configuration unit configures the response module into a dynamic service state, the intelligent power utilization end sends temporary address requests to all intelligent power utilization ends in the Internet of things according to an original forwarding address table, and when other intelligent power utilization ends receive the temporary address requests, preset address information in a corresponding transceiving protocol is modified into corresponding address information in a temporary permission address table;

after the intelligent power consumption end meets the permission condition, the state configuration unit configures the response module from the dynamic service state to the static service state, simultaneously generates restoration request information to all intelligent power consumption ends in the internet of things, and restores preset address information in the transceiving protocol when the intelligent power consumption end receives the restoration request information.

Further, the input module includes a fingerprint input unit, a sound input unit, a key-in unit and an image input unit, the fingerprint input unit is used for inputting user fingerprint information in user information, the sound input unit is used for inputting user sound information in user information, the key-in unit is used for inputting user text information in user information, and the image input unit is used for inputting user image information in user information.

Further, the control terminal is configured as a mobile terminal.

Furthermore, the analysis unit is connected to a network verification database, and verifies the user information through the network verification database.

Furthermore, the control end is configured with an identification number value, and the identification number value is added to the sent control instruction when the instruction sending module sends the control instruction;

and when the intelligent power utilization end receives the identification number value, the identification number value is used as a verification strategy to verify the parameters of the control command.

Further, the identification number value has a size between 8 bits and 16 bits.

Further, the permission condition includes configuring a first preset time, and when the corresponding intelligent power consumption end does not receive the control instruction and exceeds the first preset time, the intelligent user end judges that the permission condition is met. Further, the permission condition includes configuring a first preset number of times, and when the number of times that the corresponding intelligent power consumption end receives the control instruction exceeds the first preset number of times, the intelligent user end determines that the permission condition is satisfied.

The technical effects of the invention are mainly reflected in the following aspects: through the setting, realize the control permission to the short time of thing networking with the mode of permission condition, and do not modify control command content, directly modify the virtual network address of every intelligent power consumption unit, so, and utilize original address just can't find corresponding consumer, say no to control this consumer, the security is high, and does not influence response efficiency.

Drawings

FIG. 1: the smart home system topology diagram of the decryption system based on the dynamic address table is disclosed;

FIG. 2: the invention discloses a control simplified diagram of a decryption system of an intelligent home based on a dynamic address table.

Reference numerals: 100. an intelligent power utilization end; 110. a data transceiver module; 120. a response module; 200. a control end; 210. an input module; 220. an instruction sending module; 230. a feedback receiving module; 231. a verification analysis unit; 232. a decryption unit; 233. a licensing unit.

Detailed Description

The following detailed description of the embodiments of the present invention is provided in order to make the technical solution of the present invention easier to understand and understand.

A smart home decryption system based on a dynamic address table comprises an Internet of things, wherein the Internet of things comprises a plurality of intelligent power consumption ends 100 and a control end 200, each intelligent power consumption end 100 has corresponding address information, each intelligent power consumption end 100 is configured with a forwarding address table, the forwarding address table stores the address information of all the intelligent power consumption ends 100 in the Internet of things, and the intelligent power consumption ends 100 finish information sending according to the forwarding address table; firstly, the intelligent power consumption end 100 includes all intelligent units in the intelligent home system, and as long as the intelligent units have a signal transceiving function and can perform embedded control through instructions, the intelligent units can be used as intelligent power consumption units, such as power consumption devices of a switch, a television, a refrigerator, and lights, and it should be noted that the internet of things can forward data to other intelligent power consumption ends 100 for communication only through any one intelligent power consumption end 100, that is, a general internet of things can control any other intelligent power consumption device through one intelligent power consumption device, the internet of things has the advantage that the intelligent power consumption end 100 at any position can be controlled to operate at any position in a room, the control end 200 is generally selected as a mobile terminal, and the mobile terminal defines each module through an embedded program.

The control end 200 includes an input module 210, an instruction sending module 220, and a feedback receiving module 230, where a user inputs user information through the input module 210, and the user generates a control instruction or an unlocking instruction through the input module 210, the instruction sending module 220 is configured to send the control instruction or the unlocking instruction, the control instruction includes address information of a controlled device and control content, and the control end 200 is configured with a control address table that is the same as the forwarding address table and obtains the address information of the controlled device according to the control address table; the input module 210 includes a fingerprint input unit, a sound input unit, a key-in unit, and an image input unit, where the fingerprint input unit is used to input user fingerprint information in user information, the sound input unit is used to input user sound information in user information, the key-in unit is used to input user text information in user information, and the image input unit is used to input user image information in user information. The input module 210 is not described in detail, may input user information, and the user verifies the identity of the user, and may also input a control instruction or an unlocking instruction through an interface presented by the control terminal 200 or a preset control policy, and all the intelligent power consumers 100 are in a static state under a normal condition, that is, in a standby state, and only by sending the unlocking instruction, the corresponding intelligent power consumer 100 can be unlocked, and the feedback receiving module 230 is configured to receive information fed back by the intelligent power consumer 100 to confirm that the intelligent power consumer 100 receives the unlocking instruction. For example, the intelligent power consumer 100A receives the control command, and the control command is address information of the intelligent power consumer 100X, so that a needs to forward the information to the intelligent power consumer 100X through the internet of things, and all other intelligent power consumers 100 can be controlled through the intelligent power consumer 100A.

The intelligent power consumption terminal 100 includes a data transceiver module 110 and a response module 120, where the data transceiver module 110 is configured to receive the control instruction, the response module 120 is configured to respond to the control instruction, and the response module 120 includes a state configuration unit, where the state configuration unit is configured to configure the response module 120 into a static service state or a dynamic service state; the data transceiver module 110 has two functions, one is to communicate with the control terminal 200 for receiving an unlocking command or a control command, and the other is to transmit the control command to the inside of the internet of things in a forwarding manner, which has two advantages: 1. the limitation of a control space caused by a centralized control mode is avoided, that is, in any space, as long as the space is connected with the nearest intelligent power utilization terminal 100, all equipment in the internet of things can be controlled to work through the intelligent power utilization terminal 100; 2. the safety of the internet of things is ensured, and the method has the advantages that all other intelligent power consumption ends 100 cannot receive the instruction sent by other intelligent power consumption ends 100 in the control process, so that external control (including the control end 200) is avoided; 3. when one intelligent power consumption terminal 100 is selected, the control command is simplified enough, so that high-speed and high-efficiency control can be realized. The purpose of the response module 120 is to configure the intelligent power consumer 100 into a dynamic service state or a static service state according to the situation, it should be noted that only the intelligent power consumer 100 "activated" by the control terminal 200 is in the dynamic service state, and the other intelligent power consumers 100 are in the static service state.

When the response module 120 is in a dynamic service state and receives the control instruction, verifying the control instruction through a verification policy, sending the verified control instruction to the corresponding intelligent power consumption end 100 through the internet of things according to the address information of the controlled device, and controlling the intelligent power consumption end 100 to execute the control content in the control instruction; the response module 120 responds to the whole system, so that a safe and effective effect can be achieved, and the reliability and the safety of the system are ensured. The response module 120 does not receive an external control instruction in the static service state, that is, only after "activation" in a preset manner, the control instruction can be sent, and the address information is used as a verified "key", and if the address information does not correspond to the verified "key", the corresponding intelligent power consumer 100 does not receive the logic of the control instruction, so as to construct a dynamic key system.

When the response module 120 is in a static service state and receives the unlocking instruction, a temporary permission address table is generated according to a corresponding forwarding address table through a first updating algorithm, each address information in the temporary permission address table corresponds to each address information in the forwarding address table one to one, and the temporary permission address table is sent to the control terminal 200; it should be noted that, if an intelligent power consumption end 100 needs to be activated, and after an unlocking instruction is sent, the intelligent power consumption end 100 generates a new corresponding temporary permission address table according to an original forwarding address table, and address information in the address table corresponds to each other one by one but is completely different, that is, when one intelligent power consumption end 100 is activated, the intelligent power consumption end 100 generates new address information for all the intelligent power consumption ends 100 in the internet of things.

The data transceiver module 110 is configured with a transceiver protocol, and when address information of a controlled device in a control instruction meets preset address information in the transceiver protocol, the data transceiver module 110 receives the control instruction; here, it is simpler, that is, when the conditions of the transceiving protocol are satisfied, the corresponding control command is received, that is, the intelligent power consumer 100 in the static service state may also receive the control command from another intelligent power consumer 100, but needs to have certain address information.

The feedback receiving module 230 is configured with a verification parsing unit 231, an updating unit, and a permission unit 233, where the verification parsing unit 231 is used to verify the user information input by the input module 210; after the verification is completed, the updating unit configures the obtained temporary permission address table as a new control address table, and the permission unit 233 is configured to generate a permission instruction and send the permission instruction to the corresponding intelligent power consumer 100; the input module 210 includes a fingerprint input unit, a voice input unit, a key input unit and an image input unit, the fingerprint input unit is used for inputting user fingerprint information in the user information, the voice input unit is used for inputting user voice information in the user information, the key input unit is used for inputting user text information in the user information, and the image input unit is used for inputting user image information in the user information. After the verification is completed, the built-in address table can be updated, and the data is processed through the built-in address table. The purpose of the permission command is to unify address information corresponding to all the intelligent power consumers 100 and address information of the control address table. As another embodiment, the parsing unit is connected to a network authentication database, and verifies the user information through the network authentication database.

The permission instruction includes a permission condition, when the intelligent power consumer 100 receives the permission instruction, the state configuration unit configures the response module 120 into a dynamic service state, the intelligent power consumer 100 sends a temporary address request to all the intelligent power consumers 100 in the internet of things according to an original forwarding address table, and when other intelligent power consumers 100 receive the temporary address request, preset address information in a corresponding transceiving protocol is modified into corresponding address information in a temporary permission address table; that is to say, when the intelligent power consumption terminal 100 receives the permission instruction, the intelligent power consumption terminal 100 updates according to the corresponding address information, updates the corresponding temporary permission address table through the temporary permission address table which is the same as the control address table, and meanwhile, the selected intelligent power consumption terminal 100 is in a dynamic service state, that is, a unique communication interface is established, so that communication is facilitated. The control end 200 is configured with an identification number value, and the identification number value is added to the sent control instruction when the instruction sending module 220 sends the control instruction; when the control terminal 200 sends a permission instruction to the corresponding intelligent power consumption terminal 100, the identification number value is sent at the same time, and when the intelligent power consumption terminal 100 receives the identification number value, the identification number value is used as a verification strategy to verify the parameter of the control instruction. The data security is improved, and the control end 200 is ensured to verify the intelligent power consumption end 100. The identification number value is between 8 bits and 16 bits in size.

After the intelligent power consumption end 100 meets the permission condition, the state configuration unit configures the response module 120 from the dynamic service state to the static service state, and simultaneously generates restoration request information to all the intelligent power consumption ends 100 in the internet of things, and when the intelligent power consumption end 100 receives the restoration request information, restores preset address information in the transceiving protocol. The permission condition includes configuring a first preset time, and when the corresponding intelligent power consumption end 100 does not receive the control instruction and exceeds the first preset time, the intelligent user end judges that the permission condition is met. The permission condition includes configuring a first preset number of times, and when the number of times that the corresponding intelligent power consumption terminal 100 receives the control instruction exceeds the first preset number of times, the intelligent user terminal determines that the permission condition is satisfied. The permission condition may be, but is not limited to, a time when another smart user is activated, and a time when the smart user is deactivated, and a time when the smart user is activated. And after the permission condition is met, the address information needs to be restored at the same time to wait for the next permission.

The above are only typical examples of the present invention, and besides, the present invention may have other embodiments, and all the technical solutions formed by equivalent substitutions or equivalent changes are within the scope of the present invention as claimed.

Claims

1. The intelligent household decryption system based on the dynamic address table is characterized by comprising an internet of things, wherein the internet of things comprises a plurality of intelligent power utilization ends and a control end, each intelligent power utilization end is provided with corresponding address information, each intelligent power utilization end is configured with a forwarding address table, the forwarding address tables store the address information of all the intelligent power utilization ends in the internet of things, and the intelligent power utilization ends finish information transmission according to the forwarding address tables;

2. The smart home dynamic address table-based decryption system according to claim 1, wherein the input module comprises a fingerprint input unit, a voice input unit, a key-in unit and an image input unit, the fingerprint input unit is used for inputting user fingerprint information in user information, the voice input unit is used for inputting user voice information in the user information, the key-in unit is used for inputting user text information in the user information, and the image input unit is used for inputting user image information in the user information.

3. The smart home dynamic address table-based decryption system according to claim 1, wherein the control terminal is configured as a mobile terminal.

4. The smart home dynamic address table-based decryption system according to claim 1, wherein the parsing unit is connected to a network authentication database, and authenticates the user information through the network authentication database.

5. The smart home dynamic address table-based decryption system according to claim 1, wherein the control end is configured with an identification number value, and the identification number value is added to the sent control instruction when the instruction sending module sends the control instruction;

6. The smart home dynamic address table-based decryption system according to claim 5, wherein the identification number value is between 8 bits and 16 bits.

7. The smart home decryption system based on the dynamic address table as claimed in claim 1, wherein the permission condition includes configuring a first preset time, and when the corresponding smart power consumption end does not receive the control command and exceeds the first preset time, the smart power consumption end determines that the permission condition is satisfied.

8. The smart home decryption system based on the dynamic address table according to claim 1, wherein the permission condition includes configuring a first preset number of times, and when the number of times that the corresponding smart user receives the control command exceeds the first preset number of times, the smart user determines that the permission condition is satisfied.