CN113297551A - Man-machine interaction system based on block chain - Google Patents

Abstract

The invention discloses a human-computer interaction system based on a block chain, which comprises a user login system and an instruction input system for inputting instructions, wherein the user login system comprises a login place detection system for detecting a login place of a user, a login state detection system for detecting a login state of the user, a login time detection system for detecting login time of the user and a login account detection system for detecting a login account of the user, the instruction input system comprises an action instruction input system for inputting an action instruction and a real instruction input system for inputting a real instruction, and the human-computer interaction system based on the block chain can ensure the authenticity of data acquisition to a certain degree, is convenient for retaining the acquired instruction data and is convenient for distinguishing and identifying different instructions simultaneously, the response speed of the human-computer interaction system is improved, and the practicability is high.

Description

Man-machine interaction system based on block chain

Technical Field

The invention belongs to the technical field of human-computer interaction, and particularly relates to a human-computer interaction system based on a block chain.

Background

Blockchains are a term of art in information technology. In essence, the system is a shared database, and the data or information stored in the shared database has the characteristics of 'unforgeability', 'whole-course trace', 'traceability', 'public transparency', 'collective maintenance', and the like. Based on the characteristics, the block chain technology lays a solid 'trust' foundation, creates a reliable 'cooperation' mechanism and has wide application prospect.

The existing man-machine interaction system based on the block chain acquires data through network retrieval in the using process, the authenticity of the acquired data is greatly questioned, so that the data judgment of the man-machine interaction system is influenced, and the instruction data cannot be stored after the instruction is acquired by the existing man-machine interaction system, so that the data tracing is difficult, and meanwhile, the situation of distinguishing and identifying different instructions is inconvenient, and the response of the man-machine interaction system is slow.

Disclosure of Invention

The present invention is directed to a human-computer interaction system based on a block chain, so as to solve the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: a man-machine interaction system based on a block chain comprises a user login system and an instruction input system for inputting an instruction;

the user login system comprises a login place detection system for detecting a user login place, a login state detection system for detecting a user login state, a login time detection system for detecting user login time and a login account detection system for detecting a user login account.

Preferably, the instruction entry system includes an action instruction input system for entering an action instruction, a real instruction input system for entering a real instruction, a virtual instruction input system for entering a virtual instruction, and an AI instruction input system for entering an AI instruction.

Preferably, the action instruction input system and the reality instruction input system are connected with a photographing and retaining system for recording, and the photographing and retaining system comprises an action instruction storage system for retaining action instructions and a reality instruction storage system for retaining reality instructions.

Preferably, the virtual instruction input system and the AI instruction input system are commonly connected with a new temporary area block, and the new temporary area block includes a virtual instruction entry system for reserving a virtual instruction and an AI instruction entry system for reserving an AI instruction.

Preferably, the instruction recording system is connected with an instruction judging system for judging instructions, and the instruction judging system includes an action instruction judging system for judging action instructions, a real instruction judging system for judging real instructions, a virtual instruction judging system for judging virtual instructions, and an AI instruction judging system for judging AI instructions.

Preferably, the instruction discrimination system is connected with a control server system for controlling the human-computer interaction system, and the control server system includes a real data search system for searching real data, a network data search system for searching data on the network, a block chain search system for searching and searching block chains, and an AI intelligent learning system for learning an AI instruction.

Preferably, the real data searching system, the network data retrieving system and the block chain retrieving system are commonly connected with a comparing system for comparing the acquired data of the three.

Preferably, the control server system is connected with an instruction execution system for outputting an instruction through the comparison system, the instruction execution system includes an action instruction output system for outputting an action instruction, a real instruction output system for outputting a real instruction, a virtual instruction output system for outputting a virtual instruction, and an AI instruction output system for outputting an AI instruction, and the instruction execution system is connected with an log-out system for pushing out a user log-in.

The invention has the technical effects and advantages that: the man-machine interaction system based on the block chain has the advantages that due to the arrangement of a control server system, the data existing in reality are searched through a real data searching system, the data corresponding to the relevant instructions are searched on the Internet through a network data searching system, meanwhile, the relevant data corresponding to the instructions in the block chain at the current stage are searched through the block chain searching system, and as the block chain has the characteristics of 'unforgeability', 'trace in the whole process', 'traceability', 'open transparency', 'collective maintenance' and the like, the authenticity of data acquisition can be ensured to a certain degree, and more accurate data can be acquired by comparing the data acquired by the real data searching system, the network data searching system and the block chain searching system;

thanks to the arrangement of the instruction input system, the photographing retention system and the newly-built temporary region block, action, reality, virtual and AI instructions can be respectively input through the action instruction input system, the reality instruction input system, the virtual instruction input system and the AI instruction input system, the instructions input by the action instruction input system and the reality instruction input system are stored through the photographing retention system, and a temporary region block is newly built through the newly-built temporary region block and is used for storing the instructions input by the virtual instruction input system and the AI instruction input system, so that the obtained instruction data can be conveniently retained;

by means of the arrangement of the instruction judging system, the action instruction judging system, the real instruction judging system, the virtual instruction judging system and the AI instruction judging system can respectively judge the action, the real, the virtual and the AI instructions and respectively execute the corresponding instructions, so that different instructions can be distinguished and identified conveniently, and the response speed of the human-computer interaction system can be increased.

Drawings

FIG. 1 is a schematic block diagram of the system of the present invention;

FIG. 2 is a schematic block diagram of a user login system of the present invention;

FIG. 3 is a schematic block diagram of the command entry system of the present invention;

FIG. 4 is a schematic block diagram of a command discrimination system of the present invention;

FIG. 5 is a schematic block diagram of a control server system of the present invention;

FIG. 6 is a schematic block diagram of an instruction execution system of the present invention.

In the figure: 1. a user logs in the system; 101. logging in a site detection system; 102. logging in a state detection system; 103. a login time detection system; 104. logging in an account detection system; 2. an instruction entry system; 201. an action instruction input system; 202. a real instruction input system; 203. a virtual command input system; 204. an AI instruction input system; 3. a photographing and retaining system; 301. a real instruction storage system; 302. an action instruction storage system; 4. newly building a temporary area block; 401. virtual instructions are recorded into the system; 402. an AI instruction is recorded into the system; 5. an instruction discrimination system; 501. an action instruction judgment system; 502. a real instruction judgment system; 503. a virtual instruction judgment system; 504. an AI instruction judgment system; 6. a control server system; 601. a reality data lookup system; 602. a network data retrieval system; 603. a block chain retrieval system; 604. an AI intelligent learning system; 7. a comparison system; 8. an instruction execution system; 801. an action instruction output system; 802. a real instruction output system; 803. a virtual instruction output system; 804. an AI instruction output system; 9. logging out of the system.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In order to ensure the security of user login, as shown in fig. 1 and fig. 2, the human-computer interaction system based on the blockchain includes a user login system 1 and an instruction entry system 2 for entering an instruction, where the user login system 1 includes a login location detection system 101 for detecting a login location of a user, a login status detection system 102 for detecting a login status of the user, a login time detection system 103 for detecting a login time of the user, and a login account detection system 104 for detecting a login account of the user.

For facilitating user input and retention of instructions, as shown in fig. 1 and fig. 3, the instruction entry system 2 includes an action instruction input system 201 for entering action instructions, a real instruction input system 202 for entering real instructions, a virtual instruction input system 203 for entering virtual instructions, and an AI instruction input system 204 for entering AI instructions, the action instruction input system 201 and the real instruction input system 202 are commonly connected with a photographing retention system 3 for recording, the photographing retention system 3 includes an action instruction storage system 302 for retaining action instructions and a real instruction storage system 301 for retaining real instructions, the virtual instruction input system 203 and the AI instruction input system 204 are commonly connected with a newly-built temporary area block 4, the newly-built temporary area block 4 includes a virtual instruction entry system 401 for retaining virtual instructions and a virtual instruction for retaining AI instructions The stored AI instruction recording system 402 benefits from the instruction recording system 2, the photographing retention system 3 and the new temporary region block 4, the action, reality, virtualization and AI instructions can be respectively input through the action instruction input system 201, the reality instruction input system 202, the virtual instruction input system 203 and the AI instruction input system 204, the instructions input by the action instruction input system 201 and the reality instruction input system 202 are stored through the photographing retention system 3, a temporary region block is newly built through the new temporary region block 4 and is used for storing the instructions input by the virtual instruction input system 203 and the AI instruction input system 204, and the obtained instruction data can be conveniently retained.

In order to facilitate the judgment of the type of the instruction input by the user, as shown in fig. 1 and 4, the instruction entry system 2 is connected with an instruction judgment system 5 for judging the instruction, and the instruction judgment system 5 includes an action instruction judgment system 501 for judging the action instruction, a real instruction judgment system 502 for judging the real instruction, a virtual instruction judgment system 503 for judging the virtual instruction, and an AI instruction judgment system 504 for judging the AI instruction, which benefit from the setting of the instruction judgment system 5, the action command determination system 501, the real command determination system 502, the virtual command determination system 503 and the AI command determination system 504 can respectively determine the action, real, virtual and AI commands, and corresponding instructions are executed respectively, so that different instructions can be distinguished and identified conveniently, and the response speed of a human-computer interaction system can be improved.

In order to ensure the authenticity of the searched data, as shown in fig. 1 and fig. 5, the command discrimination system 5 is connected with a control server system 6 for controlling the human-computer interaction system (in the specific implementation, the control server system 6 is used for outputting a response of a control command), the control server system 6 includes a real data search system 601 for searching real data, a network data search system 602 for searching data on the network, a block chain search system 603 for searching and searching block chains, and an AI intelligent learning system 604 for learning AI commands, the real data search system 601, the network data search system 602, and the block chain search system 603 are connected with a comparison system 7 for comparing the acquired data of the three, and thanks to the setting of the control server system 6, the data existing in reality is searched and searched by the real data search system 601, the network data retrieval system 602 searches data corresponding to the relevant instruction on the internet, and the blockchain retrieval system 603 retrieves the relevant data corresponding to the instruction in the blockchain at the present stage, so that the block chain has the characteristics of ' unforgeability ', ' whole trace ', traceability ', ' public transparency ', ' collective maintenance ', and the like, authenticity of data acquisition can be ensured to a certain extent, and more accurate data can be acquired by comparing the data acquired by the real data retrieval system 601, the network data retrieval system 602 and the blockchain retrieval system 603.

In order to realize output response of the corresponding instruction, as shown in fig. 1 and 6, the control server system 6 is connected to an instruction execution system 8 for outputting the instruction through the comparison system 7, the instruction execution system 8 includes an operation instruction output system 801 for outputting the operation instruction, a real instruction output system 802 for outputting the real instruction, a virtual instruction output system 803 for outputting the virtual instruction, and an AI instruction output system 804 for outputting the AI instruction, and the instruction execution system 8 is connected to a log-out system 9 for pushing out the log-in of the user.

The working principle is as follows: when the man-machine interaction system based on the block chain is used, a user can log in the system through the user login system 1, the login place, state, time and account number of the user are detected through the login place detection system 101, the login state detection system 102, the login time detection system 103 and the login account number detection system 104 respectively while logging in, the login safety of the user is ensured, the user can input an instruction through the instruction input system 2 after logging in, the type of the instruction input by the user is judged through the instruction judgment system 5, data search relative to the instruction is carried out through the instruction input system 2 after judgment is finished, more comprehensive data search is carried out through the real data search system 601, the network data retrieval system 602 and the block chain search system 603, the data acquisition authenticity is ensured through the comparison system 7, and the relative instruction is output through the instruction execution system 8 after the data search is finished, this human-computer interaction system based on block chain can guarantee the authenticity that data acquireed to a certain extent, and is convenient for preserve the instruction data after acquireing, conveniently distinguishes the discernment to the instruction of difference simultaneously, promotes human-computer interaction system's response speed, and the practicality is strong.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (8)

1. A man-machine interaction system based on a block chain comprises a user login system (1) and an instruction entry system (2) for entering an instruction;

the method is characterized in that: the user login system (1) comprises a login place detection system (101) for detecting a login place of a user, a login state detection system (102) for detecting a login state of the user, a login time detection system (103) for detecting login time of the user and a login account detection system (104) for detecting a login account of the user.

2. The system of claim 1, wherein the human-computer interaction system based on the blockchain comprises: the instruction entry system (2) comprises an action instruction input system (201) for entering action instructions, a real instruction input system (202) for entering real instructions, a virtual instruction input system (203) for entering virtual instructions and an AI instruction input system (204) for entering AI instructions.

3. The system of claim 2, wherein the human-computer interaction system based on the blockchain comprises: the action instruction input system (201) and the reality instruction input system (202) are connected with a photographing and retaining system (3) for recording, and the photographing and retaining system (3) comprises an action instruction storage system (302) for retaining action instructions and a reality instruction storage system (301) for retaining reality instructions.

4. The system of claim 3, wherein the human-computer interaction system comprises: the virtual instruction input system (203) and the AI instruction input system (204) are connected with a new temporary region block (4) together, and the new temporary region block (4) comprises a virtual instruction recording system (401) for reserving a virtual instruction and an AI instruction recording system (402) for reserving an AI instruction.

5. The system of claim 1, wherein the human-computer interaction system based on the blockchain comprises: the instruction recording system (2) is connected with an instruction judging system (5) for judging instructions, and the instruction judging system (5) comprises an action instruction judging system (501) for judging action instructions, a real instruction judging system (502) for judging real instructions, a virtual instruction judging system (503) for judging virtual instructions and an AI instruction judging system (504) for judging AI instructions.

6. The system of claim 5, wherein the human-computer interaction system comprises: the instruction distinguishing system (5) is connected with a control server system (6) used for controlling a human-computer interaction system, and the control server system (6) comprises a real data searching system (601) used for searching real data, a network data searching system (602) used for searching data on the network, a block chain searching system (603) used for searching a block chain and an AI intelligent learning system (604) used for learning an AI instruction.

7. The system of claim 6, wherein the human-computer interaction system based on the blockchain comprises: the real data searching system (601), the network data retrieving system (602) and the block chain retrieving system (603) are connected with a comparison system (7) for comparing the acquired data of the three.

8. The system of claim 7, wherein the human-computer interaction system comprises: the control server system (6) is connected with an instruction execution system (8) used for outputting instructions through a comparison system (7), the instruction execution system (8) comprises an action instruction output system (801) used for outputting action instructions, a real instruction output system (802) used for outputting real instructions, a virtual instruction output system (803) used for outputting virtual instructions and an AI instruction output system (804) used for outputting AI instructions, and the instruction execution system (8) is connected with a log-out system (9) used for pushing out user logs.

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