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㈠ How to set private privacy in Jack Ma's blockchain

As a decentralized database technology, the private privacy setting of blockchain is a very important part. Jack Ma may set up the following aspects of privacy protection on his own blockchain:
1. Identity verification: On Jack Ma’s blockchain, individual users can protect their privacy through identity verification. This means that only authenticated users can access specific information.
2. Encrypted data: Jack Ma can use blockchain technology to encrypt personal data to prevent unauthorized access. This encryption technology protects user privacy by ensuring that only authorized users can access data.
3. Anonymous transactions: An anonymous transaction function can be set up on Jack Ma’s blockchain, allowing users to conduct transactions without exposing their identities. This approach can protect user privacy to the greatest extent.
4. Restrict access rights: Jack Ma can set access limits on the blockchain to only allow specific users or organizations to access specific information. This approach protects user privacy by ensuring that only authorized people have access to sensitive information.
In short, Jack Ma can protect his blockchain privacy through various means such as identity or verification, encrypted data, anonymous transactions and restricted access rights. These measures ensure that users’ data and privacy are protected to the greatest extent possible.

㈡ Blockchain distributed storage: a new storage model for ecological big data

Blockchain is undoubtedly the most beautiful word in 2019. It shines in the field of technology and in the physical world. The industry is star-studded.

The 1024 speech in 2019 gave the word blockchain a new look. In the past, it was always associated with pyramid schemes and fraud, and the word "blockchain" was always cast in a layer of gray. But now, blockchain is closely connected with the integration of the real economy and has become a strategic technology for the country. The word instantly shines with passionate red and vibrant green.

"Industrial blockchain" came into being in the context of this era. It is another hot word after "Internet". The core is that blockchain must be integrated with real industries and move away from virtuality to reality. , it is the right way to let blockchain technology find more business scenarios.

The essence of the blockchain is a database, and it uses a distributed storage method. As a blockchain practitioner, today I will talk about the sparks generated by the collision of distributed storage of blockchain and ecological big data.

Most of the current storage is centralized storage, which is stored on traditional centralized servers. If the server goes down or malfunctions, or if the server ceases operations, a lot of data will be lost.

For example, the pictures we post in WeChat Moments, the videos uploaded on Douyin, etc. are all centralized storage. Many friends store things onlineHowever, after opening it one day, the web page displays 404, which means that the stored things are gone.

Blockchain, as a distributed database, can solve this problem very well. This is determined by the technical characteristics of the blockchain. Digital records on the blockchain cannot be tampered with or forged. Smart contracts allow everyone to collaborate more efficiently to establish a credible digital economic order, which can improve the efficiency of data flow, break down data silos, and create a new storage model.

Ecological big data is actually closely related to our daily lives, such as daily weather forecasts, traceability data of agricultural products we eat, etc., which are all part of ecological big data. To talk about this combination, first let's take a look at the characteristics of ecological big data storage.

With the development of the Internet, currently, ecological big data has the following characteristics in terms of storage:

From the perspective of data scale, the volume of ecological data It’s huge, and data has jumped from the TB level to the PB level.

With the development of various sensor technologies, satellite remote sensing, radar and video sensing technologies, data not only comes from traditional manual monitoring data, but also includes aviation, aerospace and ground data. Together, they have generated a massive amount of ecological data. environmental data. In the past 10 years, ecological data has grown by hundreds of terabytes per year.

Ecological environment big data requires a combination of dynamic new data and historical data for processing, and real-time continuous observation is particularly important. Only by processing and analyzing these dynamic new data in real time and combining them with existing historical data can we unearth useful information and provide scientific decisions for solving ecological and environmental problems.

For example, in the current urban construction, the ecological environment restoration and ecological model construction advocated require a large amount of ecological big data to be used for analysis, modeling and plan formulation. However, currently a lot of historical data disappears due to improper storage, resulting in the loss of data value.

Since ecological big data has these characteristics, what are its storage requirements?

Currently, ecological big data is facing serious security risks, and strong secure storage is imperative for ecological big data.

The security of big data mainly includes the security of big data itself and the security of big data technology. For example, in the data storage of big data, data information leakage occurs due to external network attacks by hackers and improper human operations. External attacks include data transmission attacks on static and dynamic data, data content attacks, data management and cyber-physical attacks.

For example, many massive data for wild ecological environment monitoring require network transmission, which increases the risk of cyber attacks. If it involves some ecological and environmental data used by the military, if these data are obtained by hackers, it may be possible to infer some information about our military, or obtainTaking sensitive ecological and environmental data will have disastrous consequences.

The commercial application of ecological big data requires the integration of data from multiple sources of society such as governments, enterprises, and scientific research institutes. Only when different types of ecological environment big data are connected, collided and shared can the value of ecological environment big data be released.

Taking the current smart city construction as an example, many cities are establishing agricultural information big data centers on intellectual property, germplasm resources, agricultural materials, agricultural products, pests and diseases in all aspects and dimensions to provide agricultural products with Supply and marketing provide full information services. The construction of such a big data center is inseparable from the sharing of ecological big data among various departments.

However, ecological big data sharing faces huge challenges. First of all, my country's ecological environment big data includes big data from meteorology, water conservancy, ecology, land, agriculture, forestry, transportation, social economy and other departments, involving multi-field, multi-sector and multi-source data. Although these departments have currently established their own data platforms, these platforms are not connected to each other and are just isolated data islands.

Secondly, the relevant departments cannot share the data because they are unable to track the trajectory of the data and are worried about the ownership of the data’s interests. Therefore, in order to explore the potential value hidden behind ecological big data, achieving secure data sharing is the key, and it is also the premise and basis for the value of ecological big data.

Ecological big data is hard-won and is the collective wisdom of research institutes, enterprises, individuals and other social sources.

Among them, many ecological big data involve the protection of intellectual property rights. However, the current centralized storage cannot guarantee the protection of intellectual property rights and cannot perform traceability management of data use, which can easily lead to the infringement of intellectual property rights and the leakage of private data.

These are the storage needs of ecological big data. Today, with the rapid development of industrial blockchain, the distributed storage of blockchain can provide a new storage method for ecological big data storage. This core premise is the distributed storage, non-tampering and data tracking characteristics of the blockchain.

Using blockchain as the underlying technology, build such a platform to specifically store ecological big data. You can set up node management, storage management, user management, license management, business channel management, etc. Implementation of the underlying services of the blockchain network that provides high availability and dynamic expansion for upper-layer business applications. In the application layer of this platform, API interfaces can be built to make the use of the entire platform flexible and scalable. Blockchain distributed storage has the following characteristics:

Utilizing the distributed storage of blockchain can achieve truly secure storage of ecological big data.

First, data is never lost. This is particularly friendly to the historical data of ecological big data, making it easier to call and compare new and old data.

Secondly, the data is notEasily leaked or attacked. Because the data is stored in a distributed manner, if there is an attack, only the data fragments stored in some nodes can be obtained, and the complete data information or data segments cannot be completely obtained.

Blockchain can realize the storage and confirmation of ecological data, so as to avoid the infringement of intellectual property rights and achieve safe sharing. After all, the acquisition of ecological big data requires ecological workers to be stationed in the wild all year round to extract data.

Ecological big data is hard-won and is the hard work of many ecological workers. It needs to be protected by property rights, so that the data can reflect its application value and commercial value, and the work motivation of ecological workers can be protected. They can go deep into the front line and collect more high-quality big data.

At the same time, the use of blockchain's data security sharing mechanism can also break down data barriers in departments such as meteorology, forestry, and wetlands, and build a safe and reliable data sharing mechanism to make data flow more valuable.

Nowadays, some ecological workers will tamper with ecological data for personal gain. If you use blockchain technology, it is not so easy.

Using encryption technology, the stored data is placed on a distributed storage platform for encryption processing. If the ecological big data changes, the platform can record its different versions to facilitate subsequent tracing and verification.

This protection mechanism mainly takes advantage of the non-tamperability of data to meet the requirements for data security in various business processes that use ecological big data.

The blockchain can provide secure monitoring of data, record the operation logs of the application system and the operation log data of the database, encrypt and store them on the system, provide log warning functions, and browse through the blockchain for abnormal situations The device is displayed to facilitate timely detection of illegal operations and the provision of evidence.

The above is the role that distributed storage of blockchain can play in ecological big data. In the future, there will definitely be many platforms for ecological big data storage.

Ecological big data is an important basic data for the construction of smart cities. Using blockchain technology to create a relevant ecological big data storage and management platform can ensure the safe storage and effective sharing of ecological big data and provide wisdom for the future. Contribute to urban construction and promote the development of industrial blockchain.

Author: Justina, WeChat public account: Miaoyishenghua, engaged in blockchain operations, good at content operations and overseas media operations.

The title picture comes from Unsplash, based on the CC0 agreement.

㈢ A brief discussion on the accumulation of blockchain storage and traffic technology - the era of real WEB3 is coming

What breakthroughs and advances in storage and traffic technology have modern society made? Let’s briefly summarize it for you.

The current Internet isIt is centralized traffic and storage. With the development of the world, the bt network was born. The bt network is a distributed storage and traffic system. But it also has its limitations. First, the bt network can only transfer and share single files. Second, the bt network does not have an incentive mechanism. To put it simply, everyone joins the bt network, but there is no willingness to actively save or distribute files, because this is not beneficial to the participants.

With the exposure of bt network flaws, IPFS was born. That is, the IPFS system developed by the Filecoin project party’s protocol laboratory. IPFS is an upgraded version of the bt network. It adds a folder system based on the bt network. In the IPFS system, folders can be transferred and shared directly. Others can also browse related data, files, etc. directly from the folder.

But IPFS, like the bt network, has several problems. First: There is no incentive system. Second: In the early stage of file transmission, because there are very few nodes to store files, the efficiency is very low. For example, if A uploads a file and B needs to retrieve it, it can only retrieve it from A. Therefore, the efficiency is very low. If C wants to retrieve, it can only retrieve from the two nodes A and B. If both A and B are shut down, the files will not be retrieved. This is the problem with IPFS and BitTorrent networks. Their initial transmission efficiency is extremely low. Only when files are retrieved countless times and widely distributed among nodes, the transmission speed will become very fast. So the bt network and IPFS system are both a process from slow to fast. If you retrieve a file that is distributed less among nodes, the retrieval capability is very weak and the transmission speed is also very slow. In order to solve this incentive mechanism problem, Protocol Labs developed the Filecoin supply chain.

Filecoin and IPFS are two concepts. Filecoin actually puts the real-life IPFS onto the blockchain. The characteristic of blockchain is decentralization, and nodes do not trust each other. Data transmitted between nodes must be re-checked. This results in very poor performance of the blockchain. After IPFS was put on the chain, Filecoin was formed. Therefore, Filecoin is also subject to the impact of blockchain performance, resulting in the inability to match valid data and the inability to perform efficient retrieval. Filecoin realizes the storage of data on the blockchain, which is a very significant contribution. Subsequently, SWARM and BZZ appeared, but BZZ has no block incentive mechanism and only has a traffic settlement system, which currently seems to be a failure. However, BZZ has also made certain improvements compared to IPFS and Filecoin: a set of active distribution mechanisms. For example: when I upload a video, the video will be actively distributed by the node. The video will be quickly cached to multiple nodes. Therefore, BZZ has made very outstanding contributions in traffic settlement and efficient retrieval.offer. Although it left behind technical contributions, it remained a failed project.

From the current point of view, most of the problems in traffic and storage have been solved in the blockchain field. The second is the issue of blockchain performance. After years of evolution, Layer0, Layer1, and Layer2 have also undergone continuous experiments. In recent years, research in the field of Layer 1 has achieved a lot of results and patents. I believe that breakthroughs in high-performance public chains will appear soon.

Therefore, if you want to build a blockchain network that is truly similar to web3, you should achieve breakthroughs in three aspects: First: efficient retrieval. Second: Incentivize storage and traffic separately. The third is that there must be an authorized access system. The authorized access system is similar to when people watch video websites and need to pay to obtain data. In the traditional Internet world, there are many monetization channels. The Internet world of blockchain has just taken shape. Therefore, ecological builders can directly obtain certain benefits. Only in this way can the prosperity of the ecosystem be promoted, and the builders of the ecosystem can continue to contribute more useful applications. Finally, the breakthrough of high-performance public chains is also an indispensable part. Therefore, with the above four conditions, web3 is getting closer and closer to us.

This content is authorized by the original teacher Zeng Bo and may not be modified or reproduced without permission

㈣ About storing information on the block

On the block The way to store information on the chain: call the API provided by the blockchain platform

Generally, the blockchain platform will provide corresponding interfaces, such as RPC, JSON-RPC, HTTP, etc., of course, the platform has different friendliness. It’s different

Some companies that specialize in APIs, such as BlockCypher, can provide friendly calling interfaces. It’s not very convenient to write answers on your mobile phone. Search for them

As for the stored content In addition, on the file hash record chain, in addition to conventional cloud storage, there are also blockchain-based storage solutions for file entities, such as ipfs, storej, etc.

㈤ What technology is applied to the blockchain to achieve this? Function

Blockchain applies the following technologies to achieve
The first is the consensus mechanism. Commonly used consensus mechanisms mainly include PoW, PoS, DPoS, PBFT, PAXOS, etc. Since there is no center in the blockchain system, there needs to be a preset rule to guide the nodes of all parties to reach an agreement on data processing. All data interactions must be carried out in accordance with strict rules and consensus;
The second It is cryptography technology. Cryptography technology is one of the core technologies of blockchain. Many classic algorithms of modern cryptography are used in current blockchain applications, mainly including: hash algorithm, symmetric encryption, asymmetric encryption, digital Signature etc.
The third type is distributed storage, and blockchain is a peer-to-peerIn the distributed ledger on the Dot network, each participating node will independently and completely store the written block data information. The advantages of distributed storage compared with traditional centralized storage are mainly reflected in two aspects: data information is backed up on each node to avoid data loss due to single point failure; data on each node is stored independently, effectively avoiding Malicious tampering with historical data.
Smart contracts: Smart contracts allow trusted transactions without a third party. As long as one party reaches the pre-set goals of the agreement, the contract will automatically execute the transaction. These transactions are trackable and irreversible. It has the advantages of transparency, credibility, automatic execution, and mandatory performance. Blockchain technology has many unique features that make it a unique invention and give it unlimited horizons to explore.

㈥ How blockchain technology protects the privacy and rights of information subjects

Privacy protection methods can be divided into three categories:
First, the privacy protection of transaction information; Privacy protection for senders, transaction recipients, and transaction amounts, including currency mixing, ring signatures, and confidential transactions.
The second is privacy protection for smart contracts, and protection solutions for contract data, including zero-knowledge proof, multi-party secure calculation, homomorphic encryption, etc.
The third is the privacy protection of data on the chain, which mainly includes solutions such as ledger isolation, private data and data encryption authorized access.
Extended information:
1. Blockchain encryption algorithm isolates identity information and transaction data
1. Transaction data on the blockchain, including transaction address, amount, transaction time, etc., are open, transparent and queryable . However, the identity of the user corresponding to the transaction address is anonymous. Through the blockchain encryption algorithm, the separation of user identity and user transaction data is achieved. Before the data is saved on the blockchain, the user's identity information can be hashed, and the resulting hash value is used as the user's unique identifier. The user's hash value is stored on the chain instead of the real identity data information. Transaction data is bundled with hash values ​​rather than user identity information.
2. Therefore, the data generated by users is real. When using these data for research and analysis, due to the irreversibility of the blockchain, no one can restore the name, phone number, and email address of registered users through hash values. and other private data, playing a role in protecting privacy.
2. Blockchain "Encrypted Storage + Distributed Storage"
Encrypted storage means that a private key must be provided to access data. Compared with ordinary passwords, private keys are more secure and almost impossible to be cracked by violence. . Distributed storage and decentralized features reduce the risk of all data being leaked to a certain extent. However, with centralized database storage, once the database is attacked by hackers, all data can easily be stolen. Through "encrypted storage + distributed storage", users' data privacy can be better protected.
3. Blockchain consensus mechanism prevents individual risks
The consensus mechanism is a mechanism for blockchain nodes to reach a consensus on block information across the entire network, which can ensure that the latest blocks are accurately added to the blockchain and node storageThe blockchain information is consistent and unforked, which can resist malicious attacks. One of the values ​​of the blockchain lies in the consensus governance of data, that is, all users have equal management rights to the data on the chain. Therefore, the risk of individual mistakes is first eliminated from the operation. Data decentralization is solved through the network-wide consensus of the blockchain, and zero-knowledge proofs can be used to solve verification problems and realize the scenario of using user privacy data in a public decentralized system. While meeting the needs of the Internet platform, it also So that part of the data is still only in the hands of the user.
4. Blockchain Zero-Knowledge Proof
Zero-knowledge proof means that the prover can make the verifier believe that a certain assertion is correct without providing any useful information to the verifier, that is, proof The investor can fully prove that he is the legal owner of certain rights and interests without leaking relevant information, that is, the "knowledge" given to the outside world is "zero". By applying zero-knowledge proof technology, data correlation verification can be achieved in the context of ciphertext, and data sharing can be achieved while ensuring data privacy.

㈦ How blockchain data can be queried and searched

Blockchain is a new application model of computer technologies such as distributed data storage, point-to-point transmission, consensus mechanism, and encryption algorithm. The so-called consensus mechanism is a mathematical algorithm in the blockchain system that enables different nodes to establish trust and obtain rights and interests.

In a narrow sense, blockchain is a chain data structure that combines data blocks in a sequential manner in chronological order, and is cryptographically guaranteed to be non-tamperable and non-tamperable. Unforgeable distributed ledger.

Broadly speaking, blockchain technology uses block chain data structures to verify and store data, uses distributed node consensus algorithms to generate and update data, and uses cryptography to ensure data mastery. Security of transmission and access, a new distributed infrastructure and computing paradigm that utilizes smart contracts composed of automated script code to program and manipulate data.

Generally speaking, the blockchain system consists of the data layer, network layer, consensus allocation layer, incentive layer, contract layer and application layer working together to complete the query and search of data.

㈧ How to define blockchain and what are the application scenarios of blockchain?

Nowadays, many people think that blockchain is a universal technology that can do anything, which is somewhat different. Blockchain technology is a myth!
Regarding the definition of blockchain technology, American scholar Melanie Swann defined blockchain technology as an open, transparent and decentralized technology in her book "Blockchain: A New Economic Blueprint and Introduction" database.

Definition of Blockchain: Narrow VS Broad

As for the application scenarios of blockchain technology, it is natural to combine the differences between blockchain and other technologies. In terms of system characteristics.

Blockchain technology features include:

Blockchain is a database storage system that is distributed around the world and can operate collaboratively. It is different from traditional database operations - read Write permission is in the hands of a company or a centralized authority (a characteristic of centralization). Blockchain believes that anyone with the ability to set up a server can participate. Nuggets from all over the world have deployed their own servers locally and connected to the blockchain network to become a node in this distributed database storage system; once joined, the node enjoys exactly the same rights as all other nodes and obligations (decentralized, distributed characteristics).

At the same time, people who provide services on the blockchain can perform read and write operations on any node in the system. In the end, all nodes around the world will complete the process again and again according to a certain mechanism. Synchronize in sequence to achieve complete consistency of data in all nodes in the blockchain network.

At the beginning of this year, the term blockchain began to enter everyone’s lives. From national leaders to aunts who dance square dances, everyone knows this term. This term is widely known by Bit Brought by coins.

As we all know, the first few dozen bitcoins could only be exchanged for one pizza. At its peak, it was more than 20,000 US dollars each, which has skyrocketed by more than a thousand times, which has also benefited a large number of wealthy people. Currently, there are blockchain The virtual currency generated by technology is gradually entering into everyone's life, and many people have joined the ranks of currency speculation. I often hear people say that if you buy the right currency a hundred times, a bicycle will become a sports car, and one coin will turn a young model. You can imagine how many of them are involved. Attractive.

Since 2008, various games applying blockchain technology have also become popular, such as development games (Network Letts Dog, 360 Block Cat), mining games (NetEase Planet, Virtual Earth, Gongxinbao), these are attracting everyone to join in the name of blockchain, and of course there are some that are really reliable, which requires everyone to identify them carefully.

Blockchain is a distributed ledger (database) that connects data blocks in an orderly manner and cryptographically ensures that it cannot be tampered with or forged. technology. In layman's terms, blockchain technology can achieve openness, transparency, non-tampering, non-forgery, and traceability of all data information in the system without the need for third-party endorsement. As an underlying protocol or technical solution, blockchain can effectively solve the problem of trust and realize the free transfer of value. It has broad prospects in the fields of digital currency, financial asset transaction settlement, digital government affairs, and certificate deposit and anti-counterfeiting data services.

Digital currency

After experiencing physical objects, precious metals, banknotes and other forms, digital currency has become the development direction of the digital economy era. Compared with physical currency, digital currency has the characteristics of easy portability and storage, low circulation cost, convenient use, easy anti-counterfeiting and management, breaking geographical restrictions, and better integration, etc.Features.

Bitcoin technically implements an electronic cash system in which both parties to the transaction can directly transfer funds to each other without the need for third-party transfer or arbitration. In June 2019, the Internet giant Facebook also released a white paper on its cryptocurrency Libra. Whether it is Bitcoin or Libra, the underlying technology they rely on is blockchain technology.

my country began the development of central bank digital currency as early as 2014. my country's digital currency DC/EP adopts a two-tier operating system: the central bank does not directly issue digital currency to the public. Instead, the central bank redeems the digital currency to various commercial banks or other legal operating institutions, and then these institutions exchange it for public supply. its use. In early August 2019, the central bank held a video conference on work for the second half of the year. The meeting called for accelerating the pace of research and development of the national legal digital currency.

Financial asset transaction settlement

Blockchain technology naturally has financial attributes, and it is causing disruptive changes in the financial industry. In terms of payment and settlement, under the blockchain distributed ledger system, multiple market participants jointly maintain and synchronize a "general ledger" in real time. Payment, clearing, and settlement that currently take two or three days can be completed in just a few minutes. tasks, reducing the complexity and cost of cross-bank and cross-border transactions. At the same time, the underlying encryption technology of the blockchain ensures that participants cannot tamper with the ledger, ensuring that transaction records are transparent and safe. Regulators can easily track transactions on the chain and quickly locate high-risk capital flows. In terms of securities issuance transactions, traditional stock issuance has long procedures, high costs, and complex links. Blockchain technology can weaken the role of underwriting institutions and help all parties establish fast and accurate information exchange and sharing channels. Issuers handle issuance on their own through smart contracts, and regulatory authorities With unified review and verification, investors can also bypass intermediaries and conduct direct operations. In terms of digital bills and supply chain finance, blockchain technology can effectively solve the financing difficulties of small and medium-sized enterprises. It is difficult for current supply chain finance to benefit small and medium-sized enterprises in the upper reaches of the industrial chain, because they often do not have direct trade relations with core enterprises, and it is difficult for financial institutions to evaluate their credit qualifications. Based on blockchain technology, we can establish a consortium chain network covering core enterprises, upstream and downstream suppliers, financial institutions, etc. The core enterprises issue accounts receivable vouchers to their suppliers. After the bills are digitized and uploaded to the chain, they can be uploaded to the supplier Transfer between them, each level of supplier can realize the corresponding amount of financing with the digital bill certificate.

Digital Government Affairs

Blockchain can make data run and greatly streamline the service process. The distributed technology of blockchain can allow government departments to be centralized on one chain, and all service processes are delivered to smart contracts. As long as the service personnel pass the identity authentication and electronic signature in one department, the smart contracts can be automatically processed and transferred, and the subsequent steps can be completed in sequence. All approvals and signatures. Blockchain invoice is the earliest application of domestic blockchain technology. The tax department launched the blockchain electronic invoice "Tax Chain" platform, and the tax department, the invoice issuer and the payee passed a uniqueUnique digital identities join the "Tax Chain" network to truly realize "instant invoicing upon transaction" and "immediate reimbursement upon invoicing" - invoicing in seconds and reimbursement in minutes, significantly reducing tax collection and management costs and effectively solving data tampering and multiple votes. issues such as tax evasion and tax evasion. Poverty alleviation is another practical application of blockchain technology. Utilize the characteristics of openness, transparency, traceability, and non-tampering of blockchain technology to achieve transparent use, precise investment, and efficient management of poverty alleviation funds.

Evidence-based anti-counterfeiting

Blockchain can prove the existence of a file or digital content at a specific time through hash timestamps, and it is open, non-tamperable, and traceable. It provides perfect solutions for judicial forensics, identity certification, property rights protection, anti-counterfeiting and traceability, etc. In the field of intellectual property, the digital signature of blockchain technology and on-chain certificates can confirm the rights of text, pictures, audio and video, etc., and create and execute transactions through smart contracts, allowing creators to regain pricing power and preserve data formation in real time. The evidence chain covers the three major scenarios of rights confirmation, transaction and rights protection. In the field of anti-counterfeiting and traceability, blockchain technology can be widely used in various fields such as food and medicine, agricultural products, alcohol, and luxury goods through supply chain tracking.

Data services

Blockchain technology will greatly optimize existing big data applications and play a huge role in data circulation and sharing. In the future, the Internet, artificial intelligence, and the Internet of Things will generate massive amounts of data. The existing centralized data storage (computing model) will face huge challenges. Edge storage (computing) based on blockchain technology is expected to become a future solution. Furthermore, the non-tampering and traceability mechanism of blockchain ensures the authenticity and high quality of data, which becomes the basis for all data applications such as big data, deep learning, and artificial intelligence. Finally, blockchain can realize multi-party collaborative data calculations while protecting data privacy, and is expected to solve the problems of "data monopoly" and "data islands" and realize the value of data circulation. In response to the current blockchain development stage, in order to meet the blockchain development and application needs of general business users, many traditional cloud service providers have begun to deploy their own BaaS ("Blockchain as a Service") solutions. The combination of blockchain and cloud computing will effectively reduce enterprise blockchain deployment costs and promote the implementation of blockchain application scenarios. In the future, blockchain technology will also play an important role in many fields such as charity, insurance, energy, logistics, and the Internet of Things.

The three words "blockchain" were completely ignited during the Spring Festival that just passed. The limelight overshadowed everything. Some people said that this was the arrival of a new era. The past It has become a classic, and some people say that it is all hype and is ultimately a bubble.

In fact, blockchain technology is not a new concept. It has been applied to many industries, such as electronic signatures, as early as the past two years. Recently, the third-party electronic signature platform eShanbao revealed to NewSeed the latest trends in blockchain applications.new progress.

Currently, blockchain technology is mainly used in e-signing products for certificate deposit and certificate issuance. The application scenarios include copyright protection and online signing. , web page forensics, phone recording, email storage of evidence, etc.

Take the rights protection of online works as an example. Since online rights protection generally adopts the method of collecting evidence after the fact, real-time confirmation of rights is not carried out in the process of evidence generation, so the entire confirmation process is difficult. The copyright process is time-consuming, difficult and costly to obtain evidence, and extremely difficult to prove and trace the source. It cannot meet the characteristics of rapid dissemination and large quantity of online works.

eShanbao's new intellectual property protection solution based on timestamp + blockchain starts from the user's real-name authentication and solidifies the information generated in the process in real time. Electronic data, and through the time source service synchronized with the National Time Service Center, online works are stamped with legally valid timestamps to prove that electronic files have not been tampered with in a certain period of time. Blockchain technology can establish point-to-point trust in the network, ensuring that all blockchain nodes can record complete copyright confirmation and transaction records, and can trace their origins, truly realizing anti-repudiation and anti-tampering, and realizing a kind of distribution. trust infrastructure.

Founder and CEO Jin Hongzhou believes that the application of decentralized blockchain technology has greatly improved the efficiency of data storage and certification, and The credibility of the identity of the parties reduces the cost of trust, but it cannot replace the original centralized public key encryption technology. The two should complement each other. Through the combination of the two, it can provide users with real-time and reliable Confirmation plan.

Next, e-Shanbao will also focus on building a smart contract platform based on blockchain technology. Jin Hongzhou said that data storage, Issuing certificates is only a relatively superficial application based on blockchain technology. It is the first step to implement blockchain technology, and the realization of real smart contracts is the second step. "Smart contracts cannot simply be understood as electronic contracts. They refer to a process, from the conclusion of the contract to the confirmation to the final execution." Jin Hongzhou explained.

From a technical perspective, blockchain is not a brand-new technology, but a new application model of computer technologies such as distributed data storage, point-to-point transmission, consensus mechanisms, encryption algorithms, and smart contracts. Specifically, blockchain technology is a technical solution that collectively maintains a reliable database in a decentralized, high-trust manner.

Due to its advantages such as "decentralization", "distributed data storage", "traceability", "anti-tampering", and "openness and transparency", blockchain technology can effectively solve data problems. issues of data authenticity, security and openness in the field. By establishing a trustworthy data management environment, we can prevent and avoid various types ofData management issues such as data fraud, tampering, and loss promote the efficient sharing and application of data. In the process of practice and exploration, the application scope of blockchain technology continues to expand, especially in the field of public resource transactions, and continues to empower public resource transaction management services.

Facilitate transaction data sharing and transaction witnessing

Facilitate transaction data Share

Currently, the data of different trading centers are not interoperable, and the subject information of different trading centers needs to be entered repeatedly. It is difficult to verify the off-site performance provided by the bidders during the bid evaluation process. It is difficult to troubleshoot the same person repeatedly serving as project manager. Issues such as low cost of breach of trust. Establishing a cross-regional subject database based on blockchain can well alleviate the above problems.

The distributed ledger feature based on the blockchain can effectively ensure the real-time or quasi-real-time sharing of data, and can reduce the repeated entry of subject information; the use of blockchain information that cannot be tampered with can ensure the data circulation process on the chain. The authenticity of the bidders in the regional alliance is directly obtained from the on-chain data, making it impossible to hide the fake performance. At the same time, the sharing of bidding behavior data through the blockchain provides a data basis for the development of "joint punishment of dishonest enterprises".

Blockchain-based transaction witness

"Guiding Opinions on Deepening the Integration and Sharing of Public Resource Trading Platforms" ( The State Office Letter [2019] No. 41) pointed out the need to optimize services such as witnessing, venues, information, files, and expert extraction. However, at present, public resource transaction process witnessing is mainly based on manual on-site witnessing, which has limited witnessing intensity, high occupation of human resources, and limited witnessing effect. Due to its centralized characteristics, the traditional digital witness system is prone to data tampering, and the data is easily damaged or lost during the storage and migration process, which has certain flaws in terms of security and usability.

Utilize the distributed, difficult to tamper, and traceable characteristics of the blockchain to solidify and store the data generated in each transaction link, and accurately record the data generated through time stamp technology, summary algorithm, and electronic signature technology. Time, content, data source. According to the technical characteristics of the blockchain, simple structured data can be directly saved on the blockchain. For unstructured layout files, videos, audio and other large files, the summary information and original files can be saved through the blockchain. Save via a distributed file storage service. When there are disputes or problems in a transaction, the blockchain can provide a set of credible transaction process data and clarify the responsibilities of all parties involved in the transaction. Achieve the goals of risk prevention and control in all aspects, traceability of the entire process, and improvement of all-round services.

Promote the rationalization of electronic guarantee rates

Promote financial services and corporate financing for bidding companies

Promote the rationalization of electronic guarantee rates

At present, electronic bidding deposit guarantee letters have certain applications in the field of bidding, providing bidding enterprises with Solved the problem of capital occupation in bidding deposit. However, because financial institutions currently do not have reliable historical bidding behavior data of bidders, they are unable to judge the default risks of different bidders. As a result, the guarantee services charged to bidders adopt fixed rates, which makes a small number of bids with high default risks The cost of personal guarantee is allocated to most bidders with low default risk, which increases the guarantee rates for most bidders to a certain extent.

At present, it is up to the bidder to choose whether to use an electronic letter of guarantee, and the rate is the main choice basis for the bidder. If the bidder performance records are shared through the blockchain and the performance risks of different bidders are analyzed, it will be Different bidders provide different guarantee rates, which not only reduces the risks of financial institutions, but also reduces the use costs of most bidders and promotes the use of bid guarantees. To a certain extent, it can also encourage bidders to abide by their promises and maintain the order of the bidding market. .

Promote financial services for bidding companies

The bidding behavior of bidders is scattered in various trading centers, and the data is simply aggregated In a centralized information system, there is a risk of data tampering (untrustworthy), and valuable bidder transaction behavior data cannot be gathered and shared safely and reliably. Through blockchain technology, bidders from multiple trading centers are gathered, and historical bidding, winning bids, defaults, violations and other behavioral records provide data support for financial institutions to evaluate the bidders' credit in the bidding sub-sector.

Solving the financing problems of successful bidders

Traditional corporate loans mainly evaluate the company's solvency: collateral, audit There are requirements for accurate financial statements and sustained profitability, but most small and medium-sized enterprises cannot provide these "proofs" at all. Difficulty and expensive financing have become problems faced by many small and medium-sized enterprises in bidding activities. Using the methods of the past will no longer work. To solve the financing difficulties of small and medium-sized enterprises, we can only rely on new technologies and new tools. With the help of the non-tamperable characteristics of blockchain, primary business data from multiple trading centers are gathered, and big data analysis technology is combined to build a portrait of a credible bidder. On the one hand, it improves the risk control level of financial institutions and taps high-quality bidding companies. On the other hand, it lowers the loan threshold for bidding companies and optimizes the service experience.

Drawing on the supply chain finance model, the bidder is a core enterprise with good credit in government departments, national enterprises and institutions, and the winning contract obtained by the winning bidder as a supplier is considered by financial institutions to be a high-quality asset. Apply for a loan from a financial institution. Under the traditional paper-based model, there is a risk of order and contract fraud and the process is cumbersome, and a centralized information system requires operators with strong capabilities.of authority. The distributed ledger and difficult-to-tamper characteristics of the blockchain will help solve the above problems. The contract signing between the tenderer and the bidder and the subsequent financial service links will be realized on the blockchain, which not only solves the problem of data trustworthiness but also reduces the risk of corruption. The entire system relies on a centralized authority.

Through further analysis, we found that credit sales are currently prevalent among domestic enterprises, and the upstream suppliers of the winning bidder have a large funding gap. The credit of the bidder can only be passed to the winning bidder (the winning contract cannot be split or transferred), and the upstream suppliers Business owners are unable to obtain high-quality loans from financial institutions. If the winning contract is converted into a "pass" on the chain, the "pass" can be split, and the winning bidder holding the "pass" can pay part or all of the voucher to the upstream supplier, making it discountable and financing. The "tokens" on the chain can be split and transferred from first-level suppliers to second-level (and multi-level) suppliers, thereby allowing core enterprise credit to be transferred to multi-level suppliers. The shortage of funds from suppliers due to credit sales has been solved, improving the business environment; through value transfer through the blockchain, the financing cycle has been greatly shortened; the cost of supplier loans has been reduced, which will help reduce the production costs of raw materials or intermediate products, and ultimately Increase bidders' profit margins and indirectly reduce bidders' costs.

Regarding blockchain, we can imagine a decentralized management model and technical processing method.

Let me give you an example. There are five people in your family, and they have never been able to figure out how to arrange work and handle family relationships.

So, you and your family discuss it together and simply use voting to solve the problem.

Then this way of voting to solve problems can be called the most elementary blockchain.

Decentralization solves problems.

What application scenarios can blockchain have?

In fact, many of our families and many organizations use blockchain management forms every day

However, this kind of blockchain application for organizational relationships cannot produce Economic Value.

What are the economic applications of blockchain?

The first type is used for tax deposit certificates, bank transfers, etc.

Make full use of the traceability function of the blockchain so that all records can be retrieved and queried at any time

The second type is applied to enterprise operation and management

Enterprises using blockchain management can better solve the problems of enterprise development and allow enterprises to Able to develop faster and make more money.

Summary: The application scenarios of blockchain include taxation, bank transfers, etc., and can also be applied to business operations.

The characteristics of blockchain are distributed accounting and decentralization, but the ultimate goal is to make people get along more equally.Technology is meaningful only when it serves human values, and technology that meets human value needs will develop. Therefore, blockchain is in line with human pursuit of freedom and equality, so its trend to become mainstream is unstoppable.

Currently, there are many blockchain gimmicks, which are basically used to issue coins. The newly launched ono is a decentralized, free and global social platform. Due to decentralization, your chat communication information is peer-to-peer and cannot be viewed by others. In other words, your every word and deed will no longer be recorded and reviewed at any time like it is now on WeChat, QQ, and Facebook, freeing you from the trouble of surveillance.

In fact, blockchain technology can be used in any field. Information that previously required third-party confirmation can be completed online and confirmed at multiple nodes, making it difficult (almost impossible) to delete.

At present, blockchain is still in its infancy, and the technology is not mature enough, but it is also a better time to enter.

Blockchain is a decentralized technology. Blockchain can be applied to all products currently covered by the Internet.

The most popular application industry at present is the financial industry.

An application that has been implemented is product traceability. Alibaba and JD.com are already using blockchain technology to fully trace the origin of some of the products they sell. Consumers can trace the origin of the purchased products. There are also many blockchain applications in the digital advertising industry. Since traffic fraud in digital advertising causes losses of tens of billions of dollars every year, there are already blockchain application projects based on digital advertising, such as DCAD, which is based on blockchain. The digital advertising application of blockchain technology mainly solves the problem of traffic fraud

In the future, as the application of blockchain technology becomes more mature, it will be applied in many industries, creating a new ecosystem based on technological trust. Mode

What is blockchain

If you explain blockchain in non-technical terms, blockchain is a place where data is stored. However, the data stored in the blockchain is safe and reliable and does not need to be managed by anyone. Therefore, in the Internet, a place where data and information are exploding, having such a place will be like a magical treasure land.

What can the blockchain do?

If you ask what the blockchain can do, it is better to say what applications require the use of the blockchain. As mentioned earlier, blockchain is a safe place, so wherever data needs to be protected securely on the Internet, blockchain technology needs to be used. For example:

Because the use of blockchain technology can better protect the data of policyholders, in today’s Internet, data is value and wealth, so value protection and value transmission are the future development directions of the Internet. And blockchain technology can really do just that.

If there are any deficiencies, you are welcome to comment and correct me.

In a narrow sense, blockchain is aTime sequence combines data blocks into a chained data structure in a sequential manner, and is cryptographically guaranteed to be a distributed ledger that cannot be tampered with or forged.

The two parties involved in the transaction do not need to know who the other party is, nor do they need a third party for trust endorsement. They only need to trust a common algorithm to establish mutual trust and conduct direct transactions.

Its characteristics are trustlessness and decentralization. The destruction of each node's ledger has no impact on the entire blockchain. The blockchain runs point-to-point payments without a center that may cheat, and the security is greatly improved. Improved, the entire transaction network has changed from a star structure to a point-to-point P2P structure.

In the future, blockchain will be used in many fields and will have a great impact on human life. . It can be widely used in fields ranging from digital currency to securities and financial contracts, medical care, games, artificial intelligence, smart contracts, Internet of Things, e-commerce, file storage and other fields.

1. Cloud storage

This is the statistics of current cloud storage on the Internet. In terms of volume, Google has the largest volume, which is 8,000PB. So what if we share the idle data on the Internet?

Starlight Cloud builds a blockchain data computing and storage lake through Starlight Chain, with a total storage capacity of 15,000P (approximately 15.72864 billion G) in the future. This will be more than 10 times that of Alibaba Cloud's 1500PB! It is also more than four times the size of the Taizhou Storage Center, the largest storage lake in the world after expansion.

2. Medical aspects

Using blockchain technology to save personal medical records also retains personal medical historical data, which can be used when seeing a doctor or planning for your own health in the future. Historical data can be called directly. These data are highly private, and the use of blockchain technology also helps protect patient privacy.