WO2019237615A1 - Block chain application system - Google Patents

Abstract

Provided is a block chain application system, comprising: an information acquisition module for collecting and acquiring source data information of each type of object, a control module for receiving the source data information and conducting data processing thereon and for controlling the operation of application software and a block chain node program, a central server for storing the source data information and for operating the application software and the block chain node program according to a control requirement of the control module, a block chain network module for processing data exchange of each of the block chain nodes, and a communication module for realizing communication between various unit modules. The control module conducts data processing on the source data information and then uploads the processed data information and the source data information to the block chain network module and the central server, respectively, by means of the communication module. Compared with the related art, in the block chain application system of the present application, the source data information has high authenticity and is reliable.

Description

Blockchain application system Technical field

The invention relates to the field of Internet databases, and in particular to a blockchain application system.

Background technique

Blockchain technology (Blockchain technology, BT), also known as distributed ledger technology, is an Internet database technology, which is characterized by decentralization, openness and transparency, allowing everyone to participate in database records.

The related technology blockchain is mainly used in the Internet field. However, the related technology blockchain applications lack hardware support and are mainly run by software. Although the blockchain technology can ensure that the data cannot be tampered with and is open and transparent, the authenticity of the data source cannot be controlled, and the authenticity of the data source cannot be guaranteed only by running the software.

Therefore, it is necessary to provide a new blockchain application system to solve the above problems.

Summary of the Invention

In view of the shortcomings of the prior art, the present invention proposes a blockchain application system with high authenticity and good reliability.

In order to solve the above technical problems, the present invention provides a blockchain application system, including:

An information acquisition module is used to collect and obtain source data information of various objects, including object parameter data, object unique identification data, and object environment image and / or sound data; a control module is communicatively connected with the information acquisition module and used for receiving The source data information and data processing thereon; and for controlling the operation of application software and blockchain node programs; a central server for storing the source data information, and for The control requires running the application software and the blockchain node program; a blockchain network module, which includes a plurality of blockchain nodes, for processing data exchange of each of the blockchain nodes; and a communication module For implementing data transmission between the control module, the central server, and the blockchain network module; the control module performs data processing on the source data information and processes the processed data information and source data The information is uploaded to the blockchain network module and the central server through the communication module, respectively.

Preferably, the processing of the source data information by the control module includes: processing the source data information to form a standard data packet, and performing a hash operation on the source data information to extract a data fingerprint and process the data. Fingerprint for signature encryption.

Preferably, the information acquisition module includes a sensor module for acquiring the parameter data of the object, a radio frequency tag module for acquiring the unique identification data of the object, and an image of the environment of the object and / or the sound data Video audio module.

Preferably, the sensor module includes one or more of a temperature sensor, a humidity sensor, an acceleration sensor, an air detection sensor, a soil pH detection sensor, a pressure sensor, a gyroscope, and an optical sensor.

Preferably, the radio frequency tag module includes a high frequency tag and an ultra high frequency tag.

Preferably, the video and audio module includes a camera and a microphone.

Preferably, the blockchain network module includes at least one of a public chain, a private chain, and an alliance chain.

Preferably, the control module includes: an expansion interface connected to the central server for storage expansion, the expansion interface including at least one of an SD card interface and an SSD interface; an information acquisition data interface for communicating with all The information acquisition module is connected to realize communication; the video and audio processing module is used to decode the image of the object environment and / or the sound data; the main processor is used to control the operation of application software and blockchain node programs; A program running carrier for running application software and a blockchain node program; a hash operator for performing a hash operation on the source data information to extract a data fingerprint; an encryption unit for signing and encrypting the data fingerprint; A storage unit is used to store application software and a blockchain node program; and a communication unit is used to implement communication between various module units, and the main control unit uploads the source data information to all the units through the communication unit. The central server, and uploading the data fingerprint to the blockchain network module.

Preferably, each part of the control module is connected and communicated through a system bus, and the system bus includes AHB, APB, or AXI.

Preferably, the program running carrier includes SRAM and DDR.

Compared with related technologies, the blockchain application system of the present invention obtains source data information of an object through the information acquisition module, and transmits the source data information to the control module, and uses the control module to the source data The information is processed to form a standard data packet, and a hash operation is performed on the data information to extract a data fingerprint, and the data fingerprint is signed and encrypted, and finally the signature is encrypted and processed by the control module through the communication unit. The data fingerprint is automatically uploaded to the blockchain network module, while the source data information is uploaded to the central server. The above structure enables the blockchain application system to obtain source data directly from the source through the information acquisition module and perform encryption processing, on the one hand, ensuring the authenticity and reliability of the source data information, and at the same time, ensuring that the data cannot be tampered with, thereby This makes the data of the blockchain application system highly authentic and reliable.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention is described in detail below with reference to the drawings. The above or other aspects of the present invention will become clearer and easier to understand through the detailed description made in conjunction with the following drawings. In the drawings:

FIG. 1 is a structural block diagram of a blockchain application system of the present invention;

2 is a structural block diagram of a control module of a blockchain application system of the present invention;

FIG. 3 is a block diagram of a blockchain network module structure of the blockchain application system of the present invention.

detailed description

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The specific implementations / examples described herein are specific specific implementations of the present invention, and are used to explain the concept of the present invention. They are explanatory and exemplary, and should not be construed as limiting the implementation of the present invention and the scope of the present invention. limit. With the exception of the embodiments described herein, those skilled in the art can also adopt other obvious technical solutions based on the content disclosed in the claims and specification of this application, and these technical solutions include the use of any obvious changes made to the embodiments described herein. The replacement and modification technical solutions are all within the protection scope of the present invention.

Please refer to FIG. 1, the present invention provides a blockchain application system 100 provided by the present invention, which includes an information acquisition module 1, a control module 2, a central server 3, a blockchain network module 4, and a communication module 5.

The source data information of each object is collected and acquired by the information acquisition module 1, and the source data information is transmitted to the control module 2. The control module 2 processes the source data information, organizes a standard data packet, and performs a hash operation on the data packet to extract a data fingerprint. At the same time, the data fingerprint is signed and encrypted, and then the control module 2 The data fingerprint after the signature encryption process is automatically uploaded to the blockchain network module 4 through the communication module 5, and the assembled source data information is uploaded to the central server 3 at the same time.

The information acquisition module 1 is configured to collect and obtain source data information of various types of objects, including object parameter data, object unique identification data, and object environment image and / or sound data.

In this embodiment, the information acquisition module 1 includes a sensor module 11, a radio frequency tag module 12, and a video and audio module 13.

The sensor module 11 is configured to obtain the object parameter data. The sensor module 11 includes various sensors. For example, the sensor module 11 includes one or more of a temperature sensor, a humidity sensor, an acceleration sensor, an air detection sensor, a soil pH detection sensor, a pressure sensor, a gyroscope, and an optical sensor. Therefore, the obtained object parameter data includes temperature data, humidity data, acceleration data, air index data, soil pH value data, pressure data, center of gravity declination data, and light source data. Of course, the type of the sensor is not limited to this, and the corresponding object parameter data is not limited to this.

The radio frequency tag module 12 is configured to obtain unique identification data of the object. The radio frequency tag module 12 is an RFID tag, and includes a high frequency tag and an ultra high frequency tag. Of course, the type is not limited to this.

The video and audio module 13 is configured to acquire the target environment image and / or the sound data. It mainly includes audio, image, and video acquisition equipment. For example, the video and audio module 13 includes a camera and a microphone, which are also not limited to this example.

Please refer to FIG. 2, the control module 2 is in communication connection with the information acquisition module 1 for receiving the source data information and processing the data, and for controlling application software and blockchain node programs. Operation.

Specifically, the control module 2 performing data processing on the received source data information includes processing the source data information to form a standard data packet, performing a hash operation on the source data information to extract a data fingerprint, and The data fingerprint is signed and encrypted. Of course, the method of encrypting the source data information is not limited to this, but the principle is the same.

Specifically, in this embodiment, the control module 2 includes an expansion interface 21, an information acquisition data interface 22, a video and audio processing module 23, a main processor 24, a program running carrier 25, a hash operator 26, an encryption unit 27, and a storage. Unit 28, communication unit 29, and universal interface 210.

Each part of the control module 2, namely the extension interface 21, the information acquisition data interface 22, the video and audio processing module 23, the main processor 24, the program execution carrier 25, and the hash operation The device 26, the encryption unit 27, the storage unit 28, the communication unit 29, and the universal interface 210 are all connected and communicated through a system bus 211. For example, the system bus 211 includes AHB, APB, or AXI, and may also be another system bus, which is not limited to examples.

The expansion interface 21 is connected to the central server 3 and is used for storage expansion. For example, the expansion interface includes at least one of an SD card interface and an SSD interface, and is used to connect a storage device such as an expansion SD card, or an SSD device.

The information acquisition data interface 22 is configured to connect with the information acquisition module 1 to implement communication and control. The information acquisition data interface 22 specifically includes a sensor interface 221, a radio frequency tag reader / writer 222, and a video audio interface 223.

The sensor interface 221 is used to connect the sensor module 11, and the main controller communicates with various sensors and obtains source data information, and controls each sensor at the same time.

The radio frequency tag reader / writer 222 is configured to connect and communicate with the radio frequency tag module 12, obtain data information inside the radio frequency tag module 12, and perform operations such as writing back to the radio frequency tag module 12.

The video and audio interface 223 is configured to connect the video and audio module 13 to implement communication to read the image of the target environment and / or the sound data.

The video and audio processing module 23 is configured to perform decoding processing on the target environment image and / or the sound data.

The main processor 24 controls the entire blockchain application system 100, for example, it is used to control application software and blockchain node programs to run through a bus, and to process and schedule various transactions.

The program running carrier 25 is used to run application software and a blockchain node program, that is, to provide a carrier for the normal operation of the application software and the blockchain node program. For example, the program execution carrier 25 may be SRAM, DDR, or the like. The main processor 24 accesses it through a memory controller connected to the system bus 211.

The hash operator 26 is configured to perform a hash operation on the source data information to extract a data fingerprint.

The encryption unit 27 is configured to perform signature encryption on the data fingerprint. The hash operator 26 and the encryption unit 27 jointly implement a true source of the source data information and an anti-tampering function to ensure the authenticity and reliability of the source data information.

The storage unit 28 is configured to store application software and a blockchain node program. In this embodiment, the storage unit 28 is a non-volatile storage interface. Through this structure, a nandflash or norflash unit can be connected for program storage or data storage.

The communication unit 29 is used to implement communication between various module units. The main control unit uploads the source data information to the central server 3 through the communication unit 29, and uploads the data fingerprint to all Mentioned blockchain network module 4. For example, the communication unit 29 is not limited to Ethernet, 4G / 5G, WiFi, or Bluetooth.

The universal interface 210 is a commonly used interface for expanding or communicating with an external chip.

The central server 3 is configured to store the source data information and to run the application software and the blockchain node program according to the control requirements of the control module 2.

As shown in FIG. 3, the blockchain network module 4 includes a plurality of blockchain nodes for processing data operations such as data exchange of each of the blockchain nodes. In this embodiment, the blockchain network module 4 includes at least one of a public chain, a private chain, and an alliance chain. The network of the blockchain network module 4 includes multiple nodes, and each of the communication modules 5 serves as a part of the blockchain network module 4.

The communication module 5 is configured to implement data transmission between the control module 2, the central server 3, and the blockchain network module 4. Specifically, after the control module 2 performs data processing on the source data information, the processed data information and source data information are uploaded to the blockchain network module 4 and the central server through the communication module 5, respectively. 3.

A program run by the main processor 24 of the control module 2 controls the information acquisition interface 22 to obtain source data information, and performs data caching on the program running carrier 25. The source data is applied by an application program. The information is assembled to form a standard data packet, and then the drivers of the hash operator 26 and the encryption unit 27 are called, and hash data and signature encryption processing are performed on the data of the data packet to obtain the data fingerprint. Then run the blockchain node program, upload it to the blockchain network module 4 through the communication unit 29, and upload the source data to the centralized server 3 through the communication unit 29 at the same time.

Compared with related technologies, the blockchain application system of the present invention obtains source data information of an object through the information acquisition module, and transmits the source data information to the control module, and uses the control module to the source data The information is processed to form a standard data packet, and a hash operation is performed on the data information to extract a data fingerprint, and the data fingerprint is signed and encrypted, and finally the signature is encrypted and processed by the control module through the communication unit. The data fingerprint is automatically uploaded to the blockchain network module, while the source data information is uploaded to the central server. The above structure enables the blockchain application system to obtain source data directly from the source through the information acquisition module and perform encryption processing, on the one hand, ensuring the authenticity and reliability of the source data information, and at the same time, ensuring that the data cannot be tampered with, thereby This makes the data of the blockchain application system highly authentic and reliable.

It should be noted that the embodiments described above with reference to the drawings are only used to illustrate the present invention and not to limit the scope of the present invention. Those skilled in the art should understand that without departing from the spirit and scope of the present invention Modifications or equivalent substitutions to the present invention shall all be covered within the scope of the present invention. In addition, words in the singular include the plural unless the context indicates otherwise, and vice versa. In addition, all or part of any embodiment may be used in combination with all or part of any other embodiment, unless specifically stated otherwise.

Claims (10)

1. A blockchain application system is characterized in that it includes:

   An information acquisition module is used to collect and obtain source data information of various objects, including object parameter data, object unique identification data, and object environment image and / or sound data;

   A control module, which is communicatively connected with the information acquisition module, and is configured to receive the source data information and perform data processing on the source data information; and to control the operation of application software and a blockchain node program;

   A central server for storing the source data information and for running the application software and the blockchain node program according to the control requirements of the control module;

   A blockchain network module comprising a plurality of blockchain nodes for processing data exchange of each said blockchain node; and,

   A communication module, configured to implement data transmission between the control module, the central server, and the blockchain network module;

   After the control module performs data processing on the source data information, the processed data information and source data information are uploaded to the blockchain network module and the central server through the communication module, respectively.
2. The blockchain application system according to claim 1, wherein the controlling module performs data processing on the source data information comprises: processing the source data information to form a standard data packet, and processing the source data information. The data information is hashed to extract data fingerprints and sign and encrypt the data fingerprints.
3. The blockchain application system according to claim 1, wherein the information acquisition module includes a sensor module for acquiring the object parameter data, a radio frequency tag module for acquiring the object's unique identification data, and a A video and audio module for acquiring the object environment image and / or the sound data.
4. The blockchain application system according to claim 3, wherein the sensor module comprises a temperature sensor, a humidity sensor, an acceleration sensor, an air detection sensor, a soil pH detection sensor, a pressure sensor, a gyroscope, and an optical sensor. One or more.
5. The blockchain application system according to claim 3, wherein the radio frequency tag module includes a high frequency tag and an ultra high frequency tag.
6. The blockchain application system according to claim 3, wherein the video and audio module comprises a camera and a microphone.
7. The blockchain application system according to claim 1, wherein the blockchain network module comprises at least one of a public chain, a private chain, and an alliance chain.
8. The blockchain application system according to claim 3, wherein the control module comprises:

   An expansion interface connected to the central server for storage expansion; the expansion interface includes at least one of an SD card interface and an SSD interface;

   An information acquisition data interface, configured to connect with the information acquisition module for communication;

   A video and audio processing module, configured to decode the target environment image and / or the sound data;

   The main processor is used to control the operation of application software and blockchain node programs;

   Program running carrier for running application software and blockchain node programs;

   a hash operator, configured to perform a hash operation on the source data information to extract a data fingerprint;

   An encryption unit, configured to perform signature encryption on the data fingerprint;

   Storage unit for storing application software and blockchain node programs; and

   A communication unit for implementing communication between various module units, the main control unit uploading the source data information to the central server through the communication unit, and uploading the data fingerprint to the blockchain Network module.
9. The blockchain application system according to claim 8, wherein each part of the control module is connected and communicated through a system bus, and the system bus includes AHB, APB, or AXI.
10. The blockchain application system according to claim 8, wherein the program execution carrier comprises SRAM and DDR.

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