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Should You Earn A Masters In Web Development Online? – Forbes

Editorial Note: We earn a commission from partner links on Forbes Advisor. Commissions do not affect our editors' opinions or evaluations.

Take a moment and ask yourself: How many things have you done online today before starting to read this article? Did you browse a few other websites, buy something or enter a search term?

By now, these online activities are so commonplace, we hardly give them a second thought. But you might give a second thought to the web developers who code the sites and build the apps we use all the time. The ubiquity of digital technology means that web developers are consistently in demandand theyre only likely to be more in demand as technology becomes increasingly intertwined with our daily lives.

Even if you already have a bachelors degree in web development or a related field, you can further expand your knowledge and update your skills with additional education. A masters degree in web development will teach you the latest innovations and help qualify you for careers with higher-than-average salaries.

If this idea appeals to you, use this guide to learn about the benefits of earning an online masters in web development.

An online masters in web development expands the coding and programming skills developers use to create websites and apps. These programs build a broader understanding of the technology underlying the internet and prepare workers for senior positions in the field.

A masters degree often requires two years of full-time study, though some programs only take one year. Costs vary by program, ranging from a few thousand to tens of thousands of dollars, so research prospective schools tuition. Credit requirements typically span 30 to 45 credits.

In remote learning programs, classes are often identical to in-person courses. Asynchronous classes post lectures and assignments for students to complete on more flexible schedules, while synchronous courses use technologies like web conferencing to facilitate live virtual classroom experiences.

Often, web development degrees focus on three varieties of development:

As with tuition, admission requirements vary by school. Common application components include:

In this course, students add intermediate and advanced JavaScript to their existing HTML and CSS skills. They use all three languages to create a working client-side (in other words, public-facing) application.

Through Structured Query Language (SQL), learners create relational databases, which store data in rows and columns. Classes like this often end with a capstone where students demonstrate their skills through projects like designing and building a functioning database.

This course explores the analysis and development of information technology (IT) applications from the initial stages of needs assessment and system feasibility through systems-level testing. Students learn to make graphical models of IT project requirements.

This course teaches learners best practices and policies for web graphics creation and manipulation through applications such as Adobe Photoshop. Hands-on assignments train students to correct, manipulate and modify images. The class also covers typography, web production techniques and the use of CSS to combine images and encode them into website layouts.

This class examines best practices for various levels of software development, from the front end to the database back end, which provides a grounding in full-stack development. Cloud-based software development and its attendant security issues are another focus.

The following professionals may benefit from a web development masters degree:

There are several advantagesand potential drawbacksto earning a masters in web development online. Consider these pros and cons before making a decision.

On the positive side, the cost of an online degree is often lower. Distance learners rarely have to pay for student housing or relocate or travel for school. Plus, some schools extend in-state tuition rates to all online students, regardless of where they live. Online degrees also typically offer more flexibility through asynchronous classes.

However, some learners benefit from the more rigid structure of a classroom environment, so evaluate your self-sufficiency before committing to an online degree. Additionally, distance learning programs may not give you opportunities for networking to the same degree as in-person programs.

Whichever option you choose, confirm that any potential online program holds institutional accreditation from an agency with Council for Higher Education Accreditation or Department of Education approval. Accreditation ensures your school meets standards of academic excellence.

An online masters program in web development can deepen your expertise in the field, helping you qualify for senior-level roles where you manage projects or lead a team of developers.

You may not need a college degree to start a web developer career, but many employers prefer candidates with relevant degrees. A bachelors degree in web development is a great entry point to the field.

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Web3LLM On-Chain Contract Analysis Tool "DeCipher" Sparks Excitement Among Developers and Researchers – Decrypt

Singapore, Singapore, August 3rd, 2023, Chainwire

Bunzz, a Singapore-based web3LLM tech web3-startup, is thrilled to announce the successful release of "DeCipher", a revolutionary AI-powered tool designed to transform the process of generating Smart Contract documentation. Users can create documents from nearly all Smart Contracts existing on each Blockchain with a single click.

Product Page: https://www.bunzz.dev/decipher

This is a powerful tool that strongly supports developers who want to develop new DApps based on existing contracts, traders and investors who want to understand complex DeFi protocols, and business owners of web3 products.

This Tool Empowers Web3 Folks with Contract Clarification

DeCipher quickly became a hot topic as a powerful tool, supporting developers who want to develop new DApps based on existing contracts, traders and investors seeking to understand complex DeFi protocols, and business owners of Web3 products. This is not surprising because DeCipher supports almost all blockchains, enabling the generation of "user-friendly manuals" for nearly all deployed contracts. This new technology makes DApp cloning and research much more accessible, clearly promoting the mass adoption of Web3.

Furthermore, the vulnerability of many assets due to weaknesses in the Vyper language has raised concerns. However, DeCipher's ability to learn vulnerability patterns in contracts, not limited to Vyper language, suggests the potential for an LLM-based auditing tool to be realized.

DeCipher's unique data processing algorithm

DeCipher leverages advanced AI models, ChatGPT3.5 and 4, specifically optimized for analyzing Smart Contracts. The resulting "Smart Contract-specialized GPT" is an incredibly precise tool that has even impressed the Bunzz team. The unique fine-tuning approach employed by DeCipher is currently undergoing patent processing, showcasing Bunzz's commitment to cutting-edge technology.

DeCipher's Chrome Extension Dramatically Enhances Block Explorer UX

Surprisingly, DeCipher has also launched a Chrome Extension simultaneously. By installing this, users can view documents just by clicking the generate button while keeping the contract page they want to analyze open in Block Explorer. This is similar to Etherscan's new feature, "Code Reader," but differs in the following points:

Editing and Deployment Capabilities with unique CLI

Using DeCipher is incredibly simple: developers can effortlessly generate documentation by copying and pasting the contract's URL. For those seeking continuous accessibility, DeCipher can be conveniently accessed through the Bunzz Chrome Extension, available on popular Block Explorers like Etherscan.

DeCipher's advantages are not limited to just Smart Contract analysis. By using the Bunzz CLI, developers can edit and deploy contracts after they've been analyzed. Moreover, it's a comprehensive solution that allows deployment to all EVM-compatible blockchains. These features hold substantial value for developers intending to create new applications by forking existing DApps, dramatically enhancing the efficiency of their product development process.

About the 'Machine-Readable Contract Layer' that connects AI and blockchain

DeCipher is not just a development tool, it envisions something bigger. By providing the vast amount of contract data generated from document creation in a data structure that is easy for AI to read, it aims to create an ecosystem where various AI services can connect on top of its "Machine-Readable Contract Layer". You can check the details on this Notion page.

Introducing Bunzz Eco-System

Introducing Bunzz v2, a state-of-the-art DApp development environment that includes DeCipher, Bunzz CLI, a repository, and a deployment environment. This breakthrough offering allows easy modularization and editing of all blockchain-deployed contracts using the Bunzz CLI, while securely deploying them with Metamask a first in web3 history.

CEOKenta AkutsuBunzz pte ltdinfo@bunzz.dev

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We need to fundamentally change how smart contracts operate – Cointelegraph

Smart contracts have reshaped the possibilities of what blockchain and crypto can achieve, and we can all acknowledge that. That doesnt mean theyre the be-all-end-all solution to widespread adoption.

Being overzealous about any kind of innovation can also contribute to its stalling, or even failure if other factors dont align. The mentality of assuming new technology is perfect and wondering why everyone hasnt caught up to its genius is outdated. Not only does it create an adversarial relationship when inevitabilities, such as regulation, arise, but it also diminishes the motivation to improve on new applications to maximize their value.

Smart contracts and companies building their products around their implementation are now nearing this impasse. So, what can be done to close these gaps and potentially set the stage for an alternative?

Mainstream smart contract adoption is already kneecapped by a lack of Bitcoin (BTC) support. Sure, the Ethereum network has become an industry heavyweight that hosts many of the worlds blockchain applications, but Bitcoin is still seen as being in a league of its own by practically every metric. And as BlackRock, the top dog of traditional institutions, looks to break the Securities and Exchange Commissions Bitcoin exchange-traded fund (ETF) glass ceiling, that glaring gap will only become more apparent as others follow suit.

Related: Dont be naive BlackRocks ETF wont be bullish for Bitcoin

We cant ignore ETF filings or recent developments in Bitcoin-driven finance, so saying smart contract aversion stalls Bitcoins interoperable potential or decentralized app integration is short-sighted.

The other elephant in the room is fiat. Hundreds of projects are working to make cross-ecosystem compatibility a reality, but there is no streamlined way to connect crypto and fiat through a smart contract framework.

Yes, you can introduce centralized intermediaries to foster fiat-to-crypto exchanges, but that opaque, trust-maximized, expensive solution defeats cryptos intended purpose altogether. And thats before touching on the security issues that inherently follow their implementation.

Smart contracts may be (and usually are) controlled by the team that develops them. The inspiring, deceptively logical mottos of verify, dont trust and code is the law are great in theory, but no one really reads the code before executing a smart contract.

Creating an implicit trust assumption is where hackers commonly emerge and exploit loopholes, code vulnerabilities and improper key management to crack smart contracts and steal funds.

Regulators are already well aware of smart contract vulnerabilities. Part of the reason why the European Unions Data Act garnered such divisive reactions stemmed from its kill switch mandate for any company using smart contracts. While the mandate may seem harsh, it illustrates an inherent technological risk that regulators arent likely to ignore as more international blockchain regulation moves forward.

If companies and institutions actually want an alternative to smart contracts, making that a reality requires a few major steps. Or, if an alternative seems out of reach at this point, smart contracts need severe alterations to seal up attack vectors when it comes to holding funds.

Again, smart contracts are great to enrich an application layer and amplify generic functionality, but theyre not necessarily needed or well-suited to hold funds indefinitely. This is why beloved comparisons likening smart contracts to vending machines fall a bit flat.

Related: Experiments show AI could help audit smart contracts, but not yet

To the average person, using a smart contract could make it seem like the equivalent of a stranger watching over you every time you access an ATM. And just because you might trust a smart contract doesnt mean you can necessarily trust the team that made it. In this case, its imperative to code smart contracts correctly to maximize security, with some developers even proposing new smart contract languages or implementing a fact check software into the code.

Right to be forgotten data privacy regulations, such as those in the European Unions General Data Protection Regulation, also complicate things. In countries where citizens have the legal right to demand their personal data be erased, that cant exactly happen if theyre bound to a digital legal agreement.

Getting smart contracts to cooperate with traditional financial institutions and fiat requires fundamentally altering how they operate. But since that kind of seismic change is impractical and completely unnecessary to consider at this stage, institutional onboarding requires urgently mitigating the security and privacy risks.

Smart contracts have many practical uses, but they may need to be viewed as a proof-of-concept rather than the key to universal adoption. Cryptos future requires a consistent dialogue with traditional finance in terms of fiat interoperability and ease of access. This can only happen by prioritizing that kind of development and addressing the obstacles preventing it from happening. If that involves steering away from complete reliance on smart contracts and exploring other options or primitives, so be it.

Eitan Katz is the CEO and co-founder of Kima. Prior to Kima, he served in leadership roles with the Israel Defense Forces (Intelligence/8200) and at Hewlett Packard and BMC. He helped to build HPs Global Innovation and Incubation program, leading HPEs Enterprise Mobile platform. He was also a founding member of the MPC-based Bitcoin wallet Aegis.

The opinions expressed are the authors alone and do not necessarily reflect the views of Cointelegraph. This article is for general information purposes and is not intended to be and should not be taken as legal or investment advice.

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ConsenSys releases ‘fuzzing’ tool to test smart contract vulnerabilities – Cointelegraph

Blockchain technology firm ConsenSys publicly released its Diligence Fuzzing tool for smart contract testing, according to an Aug. 1 announcement. The new tool produces random and invalid data points to find vulnerabilities in contracts before they are launched.

Over $2.8 billion was lost in decentralized finance hacks in 2022. According to ConsenSys, these losses are leading developers to embrace more sophisticated testing tools to help find vulnerabilities before attackers do.

The new tool used to be available in a closed beta version, where developers needed to get approval for access. This approval process is no longer necessary as of Aug. 1.Diligence Fuzzing is also now integrated with smart contract toolkit Foundry and features a free version for developers who want to test it out before spending any money.

Related: Crypto payment gateway CoinsPaid suspects Lazarus Group in $37M hack

In a conversation with Cointelegraph, ConsenSys security services lead Liz Daldalian explained how the tool works in more detail. Developers can annotate their contracts using a machine language called Scribble, also developed by ConsenSys. Once they do this, the annotations will be understood by the fuzzing tool. The tool produces unexpected inputs so as to test whether the contract can be forced to produce unintended actions.

ConsenSys security researcher Gonalo S said the tool is not a black box fuzzer. It does not produce completely random data. Instead, it is a grey-box fuzzer that employs an understanding of the programs current state to reduce the types of data produced, increasing the tool's efficiency.

S has seen developers becoming more interested in fuzzing recently. As Foundry has become more popular, developers have started to use its default black-box fuzzer and have grown accustomed to using it. On the other hand, some users want a more sophisticated fuzzer than the default one, which he argued Diligence Fuzzer could provide. He said:

Smart contract hacks have continued to pose a problem for users. Excluding rug pulls and phishing scams, over $471.43 million waslost from Web3 security vulnerabilities in the first half of 2023.Daldalian cautioned that Diligence Fuzzing is not a silver bullet that would eliminate all smart contract hacks. However, she argued that it is one tool in an arsenal that developers can use in order to write more secure smart contracts, which can at least set the Web3 community on a path to minimize losses from these attacks.

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Web 3.0: The Future of the Internet and its Cybersecurity Features … – tripwire.com

The World Wide Web, now simply referred to as the Internet, is by far the most significant technological revolution in tech history. The current generation of the internet is Web 2.0, which allows users to browse and write content powered by centralized data centers. Today the cyber world is rapidly progressing towards Web 3.0.

Web 3.0 is a decentralized database where users have complete control of their data without the need for a third-party platform to facilitate the content, and it is also an intelligent version equipped with Artificial Intelligence, Machine Learning, and Semantic Web. Web 3.0 also brings blockchain as a core feature. The decentralized record of transactions provides cryptocurrency with enhanced security, transparency, and immutability.

Identity native Vast amount of data breaches occurred in Web 2.0, and people had less control over what organizations did to their data. In Web 3.0, people have complete ownership and control of their data, which allows them to authorize access to their data with smart contracts and defend against privacy risks.

Zero trust Unlike Web 2.0, where businesses were given unlimited trust with their customers data and services, Web 3.0 operates on a zero trust principle, with data directly flowing peer-to-peer through decentralized apps.

Decentralized applications (dApps) dApps are software programs that operate on a blockchain or peer-to-peer network. They ensure privacy, provide freedom from censorship, and offer flexible development without centralized control.

Decentralized technologies Technologies such as Decentralized finance (DeFi) is an intermediary-free financial systems enabling transparent borrowing, lending, and sharing of digital assets. It enhances accessibility to financial services by eliminating third-party involvement. Non-fungible tokens (NFTs) enable the creation, replication, and transfer of digital assets such as gaming items, digital art, and collectibles.

Web 3.0 introduces new advantages, but along with them come additional risks and challenges. While Web 3.0 addresses important issues of its predecessors, it also brings advanced vulnerabilities requiring careful attention.

Novel attack methods distinct from traditional attacks relevant to blockchain networks and interfaces will be introduced.

Data reliability and confidentiality Due to decentralized data management, the accuracy, authenticity, and validity of the data published remain a question. It may lead to misinformation and security issues, and AI models will ingest these invalid data. Data availability issues arise since great control lies with end-user nodes, processes, and applications, which can be negatively affected if data becomes unavailable. Data can also be subjected to manipulation if a threat actor gains unauthorized access. Techniques such as injecting malicious scripts, eavesdropping or intercepting unencrypted data, and wallet cloning are used.

Privacy and compliance There are doubts regarding the privacy of the information that is published on and off the blockchain. While anonymity improves privacy, it also raises questions of accountability and liability. Decentralized IDs pose challenges for existing regulations in distinguishing between data controllers and data processors when it comes to Personally Identifiable Information (PII).

Following are best practices in mitigating risks of Web 3.0

Web 3.0 offers powerful possibilities along with unique cybersecurity challenges. Its decentralized blockchain technology increases privacy and data control but also results in various advanced novel threats and attacks that organizations need to be aware of. By embracing the potential of Web 3.0, it is crucial that organizations adopt the best security practices and measures to protect data and resources.

Editors Note:The opinions expressed in this guest author article are solely those of the contributor, and do not necessarily reflect those of Tripwire.

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Explaining the Basics of Blockchain Technology in Healthcare – HealthITAnalytics.com

August 07, 2023 -Like artificial intelligence (AI), machine learning (ML), robotics, and virtual reality (VR), blockchain has been hyped across sectors, including healthcare. But navigating the hype and assessing the potential value of blockchain remains a challenge for healthcare stakeholders.

In 2017, 83 percent of healthcare executives polled by the Pistoia Alliance reported that they expected the broad adoption of blockchain in the life sciences and pharmaceutical industries within the next five years.

Since then, some of that interest in adoption has led to real-world investment, with the global healthcare blockchain market projected to reach $829 million this year, according to MarketsandMarkets.

In this primer, HealthITAnalytics will explore what blockchain is, how it works, and its potential use cases, limitations, and risks in healthcare.

Blockchain is often associated with cryptocurrencies, as its introduction in 2008 helped enable the rise of Bitcoin. However, interest in the technology spread across industries as secure, transparent data-sharing has become critical.

IBM defines blockchain as a shared, immutable ledger that facilitates the process of recording transactions and tracking assets in a business network. These assets can be tangible, like a car, or intangible, like intellectual property.

As a type of distributed ledger technology (DLT), blockchain allows users to record, track, share, and synchronize assets and transactions without the need for a centralized entity to do so. This decentralization helps ensure that exchanges made on the blockchain are permanent, transparent, and immutable.

As a transaction occurs, it is recorded as a block of information and data. Each transaction on the blockchain can contain a wealth of information related to the movement of an asset, including who or what entity was involved and when, where, or how the transaction took place. Each block is also given a hash, which serves as a unique identifier that changes if the data contained in the block changes.

From there, the block is chained to the blocks before and after it as the asset changes ownership or moves from place to place. Each block confirms the exact time and sequence of a transaction. The links between each block prevent a new block from being inserted between two existing ones, in addition to ensuring that any block on the chain cannot be altered.

The chain is irreversible, and each additional block and hash helps strengthen the verification of the previous block and, in turn, the entire blockchain. This feature is what makes blockchains immutable and tamper-evident.

Previous blocks in the chain are difficult for malicious actors to tamper with, helping to increase trust between the members of a blockchain network. Transaction validation requires consensus from all network members to confirm the accuracy of the data. Since all transactions on a blockchain are permanently recorded, no one can delete a transaction or block, even a system administrator.

There are four types of blockchain networks: public, private, permissioned, and consortium.

Public blockchains are those that anyone can participate in, like various cryptocurrencies. Private blockchains function as decentralized peer-to-peer networks, similar to public blockchains, but controlled by one organization that governs who may participate, maintains the ledger, and executes consensus protocols.

Permissioned blockchain networks are generally established by stakeholders who create a private blockchain, but permissioned blockchains can also be public. This type of blockchain places certain restrictions on who can participate in the network, as users must receive permission or an invitation to join. Permissioned blockchains are also used to dictate which transactions users on the network are allowed to participate in.

Consortium blockchains are maintained by multiple organizations, which can be useful in business applications in which all participants must be permissioned and share responsibility for the blockchain. These organizations can then decide who may access the blockchains data or engage in transactions.

Hybrid blockchains combine elements of both public and private blockchain technology, enabling organizations to establish a private, permissioned system alongside a public, permissionless one. Doing so helps control which data will be public and who can access the blockchains data.

Regardless of blockchain type, blockchain databases must be cryptographically secure, according to McKinsey and Company. This means that to add or access data on the blockchain, users must possess two cryptographic keys, one private and one public.

Under this framework, known as public key cryptography or asymmetric encryption, the public key is used to scramble and encrypt the data on the blockchain. The data can then only be unscrambled and decrypted with the private key.

When the data is in transit from one user to another, this framework prevents it from being accessible and interpretable by a malicious actor who may wish to alter or exploit it. An alternative to this framework is symmetric cryptography, in which the same key is used for both encryption and decryption.

These characteristics of blockchain make it an effective method for secure, transparent record-keeping and data sharing.

Using a blockchain network helps achieve data parity, which determines whether data has been altered or lost during transmission, making it an attractive technology for application in healthcare.

Research and Markets projects that the global blockchain in healthcare market will grow to $6.11 billion in 2027, with much of the innovation being driven by the uptake of private, permissioned, and permissionless blockchains.

Deloitte indicates that blockchain presents significant opportunities to improve health information exchange (HIE) and interoperability.

Research published in 2021 in the International Journal of Intelligent Networks underscores that blockchain could play a critical role in healthcares digital transformation, with potential applications in managing EMR data, protecting that data, supporting interoperability, point-of-care genomics management and safeguarding, and tracking disease outbreaks.

The technology may also facilitate the transition from institution-driven interoperability to patient-centered interoperability, allowing patients to assign access rules for their medical data, according to a 2019 Healthcare Informatics Research study.

Additionally, it has been proposed that blockchain architecture can help preserve data privacy and provide security against healthcare cyberattacks. Blockchain-based cybersecurity models, discussed in Scientific Reports, have been shown to be effective at improving the security of patient data. HIPAA-compliant models for medical care information preservation have also been developed.

Healthcare supply chain management may also benefit from blockchain implementation, particularly the management of medical devices, drugs, and blood, organs, and tissues, according to researchers writing earlier this year in Applied Sciences.

In the clinical and lab setting, blockchain may be useful in DNA classification and sequencing to support the early detection of viruses and diseases. Blockchain networks may also enhance life sciences data sharing and bolster clinical research.

Major healthcare stakeholders are already launching blockchain-based initiatives to enable research into and adoption of the technology. In 2019, Aetna, Anthem, and Health Care Service Corporation launched a collaboration with PNC Bank and IBM to drive innovations in healthcare blockchain.

Meanwhile, Mount Sinai and the Institute for Next Generation Healthcare established the Center for Biomedical Blockchain Research in 2018 with the goal of exploring blockchain potential to advance biomedical research and clinical decision-making.

Like any hyped technology, blockchain does have limitations, some of which are especially relevant for healthcare.

One 2022 study in BMC Medical Informatics and Decision Making highlights that many providers interested in blockchain for HIE are concerned about a lack of knowledge, implementation issues, technological challenges, and regulatory questions surrounding the technology.

Another research paper demonstrates that a lack of standardization, accessibility, ownership, and change management significantly weakens blockchain applications in healthcare.

Blockchains basis in consensus, decentralized architecture, and cryptography makes it more secure than other data-sharing frameworks, but its security protections have weaknesses. For example, hashing is not sufficient to prevent tampering entirely, according to the United States Department of Health and Human Services (HHS) Cybersecurity Program.

Further, certain types of blockchain networks face unique legal challenges.

Members-only blockchains can utilize smart contracts, which are designed to automate aspects of a consensus agreement between the members or organizations governing a blockchain network. However, the enforceability of these contracts can be a thorny issue, according to researchers from the Harvard Law School Forum on Corporate Governance.

There is no federal contract law in the United States; rather, the enforceability and interpretation of contracts is determined at the state level, the authors explained. Thus, while certain core principles apply consistently across state lines, and there has been a drive to harmonize state laws by the National Conference of Commissioners on Uniform State Laws, any conclusions regarding smart contracts must be tempered by the reality that states may adopt different views.

This issue would particularly impact multi-state health systems or multi-system organizations, as smart contracts between them may not necessarily be binding or enforceable in a court of law. Negotiating, drafting, and adjudicating these contracts could also present a challenge for non-technical stakeholders, the researchers noted.

Blockchain technologies deployed for many use cases in healthcare would also need to comply with certain regulatory standards and privacy laws, including HIPAA. Experts writing in a 2019 Journal of Network and Computer Applications article indicate that this presents a massive challenge due to limited regulatory frameworks for advanced technologies in the US.

Aside from legal and regulatory concerns, the hype surrounding blockchain can overstate its potential. A report from the Organisation for Economic Co-operation and Development (OECD) indicates that most research into healthcare blockchain presents theoretical models and frameworks, with few details about how those architectures could be practically developed. Prototypes or pilots of these frameworks are seldom offered, and deployment of blockchain in healthcare at the national scale is rare.

To help advance the technology into real-world application, the OECD recommends deploying it in well-suited use cases in combination with other technologies operating under a well-governed health information ecosystem. Potential applications of the technology can also be assessed using the four parameters outlined in the Recommendation of the OECD Council on Health Data Governance: fitness of the technology for the use to which it will be applied; alignment with laws and regulations; incremental adoption to allow time for evaluation; and a training and communications plan.

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Introducing ChainGPT V1, The AI-Powered Dashboard for … – Finbold – Finance in Bold

With a vision to unite all of theChainGPTproducts into one intuitive, user-friendly interface, and enable an engaging AI-powered experience for all Web3 participants, ChainGPT will be releasing the highly-anticipated V1 web application to the public.

Starting on August 10, at 12:00 pm UTC, every participant of the crypto, blockchain, and Web3 space will have access to the most sophisticated AI with on-chain and off-chain capabilities to date.

Acting as an AI powered operating system of fundamental tools for traders, investors, researchers, developers, and everyone in between, the ChainGPT V1 is a dashboard that encompasses the full suite of ChainGPT products including the NFT Generator, smart contract auditor, and chat assistant, with its ecosystem components including the ChainGPT DAO, the staking modules, and API access that will facilitate a new generation of informational management and discovery for all in the crypto and blockchain space. The ultimate hub forCrypto AI Tools.

Loaded with all of the individual products ChainGPT has released over the last few months, the V1 web app has a rich set of functionality that builds on previous versions of ChainGPT.

AI ChatbotAlready deployed throughout a multitude of Web3 communities via Telegram and Discord, the ChainGPT AI Chatbot has already become a staple as an interactive, dynamic database for engaging and entertaining users. With the release of the V1 the Chatbot is receiving an upgrade with new capabilities & bug fixes that supersede its predecessor beta version.

Its capabilities now extend across a much broader range of sources for gathering live Web3 news and insights. It will be able to conduct much deeper, more granular market analysis through the application of technical indicators (such as the RSI and EMA) to aid traders and investors in their research. It has been tuned to track all major launchpad and IDO platforms, providing a more holistic view of the startup landscape. Initially having a surface level set of assets that were limited in scope, the upgraded chatbot has been plugged in to service over 5,000 coins/tokens (and will be constantly expanding).

As it pertains to the bug fixes, all minor and major points of friction for the users have been mended. Response times have been compressed, accuracy has been calibrated for higher contextual fidelity, and error potential has been minimized.

Master Dashboard

User experience with slow, clunky and disorganized applications has kept many away from participating in the world of Web3; ChainGPT decided to approach this problem head on and was able to construct what might be the most complete AI interface in the industry.

Integrating every $CGPT application, while being able to neatly package the visual elements without disrupting its aesthetics, the V1 dashboard is transforming user accounts into AI-powered Web3 operating systems.

Automated AI Newsfeed

Staying up-to-date in the fast paced crypto, blockchain, and Web3 space has been notoriously challenging, until now.

The first (and only) of its kind, ChainGPTs automated AI newsfeed has been developed from the ground up to deliver the most complete informational experience. Scanning the entire internet, the ChainGPT AI newsfeed aggregates all the leading trusted outlets and social sources, digests the information, and produces succinct summarizations in an comprehensive manner.

Prompt Marketplace

An AI is only as useful as the prompt that it is given. Quickly becoming one of the most sought after skills in the greater tech industry, prompting is a form of vernacular art; in fact prompts have become a digital asset class of its own.

Catering to the evolving demands of AI communities, the V1 dashboard is equipped with its own prompt marketplace, becoming a focal point for the exchange of generative AI ideas. Users will be able to buy, bell, & trade prompts with the expansive $CGPT community; effectively adding a vector for users to monetize their skills.

AI NFT Generator

ChainGPT released the first everAI NFT Generatoron June 1st, with already over 4,500,000 NFTs generated!In the evolving landscape of digital art, ChainGPTs AI NFT Generator stands out as an avant-garde tool, seamlessly melding technology with artistic expression. With just a simple text prompt, this groundbreaking generator harnesses the power of advanced AI to bring to life high-quality NFT collections, ranging from distinctive single pieces to vast galleries of up to 10,000 NFTs, all within an astonishing 30 to 60 seconds. Offering unparalleled versatility, it supports a myriad of platforms including BNB Chain, opBNB Chain, Polygon, Avalanche, and Ethereum. While individual NFT creation and minting are graciously offered for free, those aiming to craft expansive 10,000 NFT collections can easily do so under the umbrella of ChainGPTs Freemium or Paid plans. The ChainGPT AI NFT Generator is not just a toolits a revolution, redefining the boundaries of whats possible in the world of NFT creation.

AI Powered Solidity Smart-Contracts Auditor & Generator

Navigating the intricate realm of Solidity smart-contracts just became remarkably intuitive with ChainGPTs cutting-edge AI models and tools. Whether youre looking to birth a new contract or rigorously assess an existing one, ChainGPT simplifies the process. Users can effortlessly generate tailor-made smart-contracts by merely articulating their requirements, eliminating the technical jargon and complexities traditionally associated with such tasks. Similarly, auditing a contract is now as straightforward as presenting its code to ChainGPTs AI. This innovation heralds a new era, making the creation and assessment of Solidity smart-contracts more accessible and efficient than ever before.

The V1 release will be engaging a three tier membership system based on what applications and the degree of access that users desire to have.

Free Plan

The basic configuration of functions granted to every account on the V1. Restricted from the more advanced applications, the free plan provides limited access to five of the core applications including the General AI model (chatbot), the news feed, the Ask Crypto People app, Single NFT Generation, and participation in the prompt marketplace.

PPP Plan

The pay-per-prompt plan offers unlimited, flexible access to the entire application suite. Smart Contact auditing and generations, multi-NFT (collection) generation, the trading assistant, as well as everything in the free plan.

Freemium Plan

The Freemium plan requires that users accumulate 20,000 CGPTsp by staking $CGPT tokens. This plan provides 20,000 monthly CGPT credits for use as needed throughout any and every single application. In addition to the full product suite, users at the Freemium level will also be granted DAO proposal rights, allowing them to submit ideas for the ChainGPT DAO to vote on.

In order to unlock the full spectrum of functionality, a user will be able to swiftly create their accounts by linking their Web3 wallets (Metamask, Trust Wallet, Rainbow wallet, etc..)

ChainGPT is the leading provider of AI-powered Infrastructure for the crypto, blockchain, and Web3 industry. From automated smart contract generation and auditing, to autonomous community management, advanced Web3 AI chatbot, AI-powered news aggregation, and NFT generation, ChainGPT is the most sophisticated, end-to-end AI solution on the market.

ChainGPT Links:Website|AI App|ChainGPT Pad|WhitepaperDAO|NFT Generator|Staking v2|Staking v1|Blog

Community and Social Media:Twitter|Telegram|Discord|Instagram|LinkedIn|Youtube|TikTok

BD

Contact Person(s):Jake Wallace / Cameron French / Ilan RakhmanovContact Email(s):[emailprotected] /[emailprotected]/ [emailprotected]

> To learn more about ChainGPT visit the officialChainGPT.org website

> For all other inquiries, please contact [emailprotected]

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Unlocking the Potential of AI and Smart Contracts: Biometrics as the … – Fagen wasanni

Exploring the Power of AI and Smart Contracts: The Role of Biometrics in Enhancing Security and Efficiency in Telecommunications

The telecommunications industry is on the brink of a significant transformation, driven by the convergence of artificial intelligence (AI), smart contracts, and biometrics. This powerful combination has the potential to revolutionize the way we communicate, offering unprecedented levels of security and efficiency.

AI, with its ability to learn and adapt, is already making waves in the telecommunications sector. Its being used to predict network congestion, optimize resource allocation, and even detect fraudulent activities. However, the true potential of AI in telecommunications lies in its integration with smart contracts and biometrics.

Smart contracts, a key feature of blockchain technology, are self-executing contracts with the terms of the agreement directly written into code. They offer a secure, transparent, and tamper-proof way of conducting transactions. In the context of telecommunications, smart contracts could automate various processes, such as billing, dispute resolution, and service provisioning, thereby reducing operational costs and improving efficiency.

However, the security of these smart contracts is paramount. This is where biometrics comes into play. Biometrics, the measurement and statistical analysis of peoples unique physical and behavioral characteristics, offers a robust and reliable method of authentication. By integrating biometrics with smart contracts, telecommunications companies can ensure that only authorized individuals can execute contracts, thereby enhancing security.

For instance, a telecom company could use a customers biometric data, such as a fingerprint or facial recognition, to authenticate their identity before allowing them to execute a smart contract. This would not only prevent unauthorized access but also provide a seamless and frictionless user experience.

Moreover, the use of biometrics could also help in combating telecom fraud, a major issue plaguing the industry. By verifying the identity of users through biometrics, telecom companies can prevent fraudulent activities such as SIM card cloning and identity theft.

The integration of AI, smart contracts, and biometrics could also pave the way for personalized services in telecommunications. AI algorithms, fed with user data and preferences, could tailor services to individual needs. Smart contracts could then be used to automate the delivery of these services, while biometrics ensures the security of the entire process.

However, the implementation of these technologies is not without challenges. Issues such as data privacy, interoperability, and regulatory compliance need to be addressed. Telecom companies need to ensure that the biometric data they collect is stored securely and used ethically. They also need to work with regulators to develop standards and guidelines for the use of these technologies.

Despite these challenges, the potential benefits of integrating AI, smart contracts, and biometrics in telecommunications are too significant to ignore. By unlocking the potential of these technologies, telecom companies can not only enhance security and efficiency but also deliver a superior customer experience.

In conclusion, the convergence of AI, smart contracts, and biometrics is set to redefine the telecommunications landscape. Its a powerful combination that promises to deliver secure, efficient, and personalized telecommunications services. As we move towards a more connected world, these technologies will play a crucial role in shaping the future of telecommunications.

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Diving into Zilliqa’s Development: Tools, SDKs, and Resources – Auralcrave

Welcome to our comprehensive guide on Zilliqas development ecosystem, where we dive deep into the tools, SDKs, and resources that can empower developers to build scalable and secure decentralized applications (dApps) on the Zilliqa blockchain. In this article, we will explore the various components of Zilliqas development toolkit, highlighting their features and advantages. By the end of this guide, you will have a solid understanding of how Zilliqas development environment can accelerate your dApp development process and enable you to stay ahead in the rapidly evolving blockchain landscape. Explore your automated trading options with Immediate Edge trading platform! AI backed and packed with pro features. Try now!

Zilliqa stands as a revolutionary blockchain platform, specifically engineered to tackle the scalability limitations encountered by conventional blockchains. It brings forth pioneering solutions that facilitate high-throughput transaction processing and streamlined consensus mechanisms. At the core of Zilliqas advancements lies its distinctive sharding technology, which empowers the network to scale in direct proportion to the number of participating nodes. This breakthrough approach guarantees accelerated transaction confirmation times and augmented network capacity, paving the way for a more efficient and scalable blockchain ecosystem.

At the heart of Zilliqas development ecosystem is Scilla, a secure-by-design smart contract language. Scilla provides developers with a robust framework for building secure and reliable smart contracts. Its emphasis on formal verification techniques ensures that contracts are free from vulnerabilities, minimizing the risk of potential security breaches. Scillas syntax is intuitive and easy to learn, making it an excellent choice for both experienced and novice developers.

To facilitate efficient development, Zilliqa offers an integrated development environment (IDE) tailored specifically for building dApps on the platform. The Zilliqa IDE provides a user-friendly interface equipped with powerful features such as code autocompletion, syntax highlighting, and debugging tools. Developers can write, test, and deploy their smart contracts seamlessly, streamlining the entire development workflow.

Zilliqa Devex is an extensive developer experience program designed to offer robust support and foster the expanding community of developers working on the Zilliqa platform. The program goes above and beyond by providing a diverse range of resources, such as comprehensive documentation, step-by-step tutorials, and readily available sample code, to aid developers at every phase of their dApp development journey. Furthermore, Zilliqa Devex actively promotes collaboration and skill enrichment through regular hackathons, workshops, and developer meetups. By cultivating a collaborative environment for knowledge sharing and skill enhancement, Zilliqa Devex empowers developers to unlock the full potential of the Zilliqa platform and drive the growth of innovative decentralized applications.

Zilliqa offers comprehensive developer documentation that encompasses all aspects of the platforms features and functionality. It provides detailed explanations, code samples, and best practices for developers of all levels of expertise. Whether youre a beginner or an experienced blockchain developer, the documentation is an invaluable resource for understanding and implementing Zilliqas features.

Engaging with a vibrant developer community can greatly enhance your learning and development experience. Zilliqas community forum provides a platform for developers to connect, collaborate, and seek assistance from fellow enthusiasts. The forum hosts discussions on various development topics, showcases innovative projects, and serves as a hub for exchanging ideas and insights.

Zilliqa encourages developers to build groundbreaking dApps on its platform through its Grants Program. The program offers funding and support to individuals and teams with innovative project proposals. By participating in the Grants Program, developers can receive financial assistance, mentorship, and access to resources that can significantly accelerate their dApp development journey.

In conclusion, Zilliqas development ecosystem offers a wide array of tools, SDKs, and resources that empower developers to build scalable and secure dApps. With its smart contract language Scilla, integrated development environment (IDE), and comprehensive SDKs, Zilliqa provides a seamless development experience. By leveraging the available resources, developers can unlock the full potential of Zilliqas platform and create transformative decentralized applications. Stay connected with the Zilliqa community, explore the developer documentation, and make use of the Grants Program to further enhance your journey as a Zilliqa developer.

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The Intersection of Blockchain and Energy Trading: Exploring Smart … – EnergyPortal.eu

The Future of Decentralized Energy Markets: Unlocking the Potential of Blockchain and Smart Contracts

The intersection of blockchain and energy trading is a rapidly evolving space that holds the potential to revolutionize the way we generate, distribute, and consume energy. By leveraging the power of blockchain technology and smart contracts, decentralized energy markets can be created, allowing for increased efficiency, transparency, and security in energy transactions. As the world moves towards a more sustainable and decentralized energy future, the role of blockchain and smart contracts in energy trading will only become more significant.

Blockchain technology, at its core, is a decentralized digital ledger that allows for secure and transparent transactions between parties without the need for intermediaries. This technology has gained significant attention in recent years, primarily due to its role in enabling cryptocurrencies like Bitcoin. However, the potential applications of blockchain extend far beyond digital currencies and have the potential to disrupt various industries, including energy trading.

One of the key features of blockchain technology is its ability to facilitate peer-to-peer transactions, which can be particularly beneficial in the context of energy trading. Traditionally, energy markets have been dominated by large utilities and energy companies that act as intermediaries between energy producers and consumers. This centralized model can lead to inefficiencies, high transaction costs, and a lack of transparency in the pricing and distribution of energy.

By leveraging blockchain technology, decentralized energy markets can be created where energy producers and consumers can directly trade energy with one another, eliminating the need for intermediaries. This can lead to more efficient energy distribution, as well as increased transparency in pricing and reduced transaction costs. Moreover, the decentralized nature of blockchain technology can also help to increase the resilience of energy systems by reducing the reliance on centralized energy infrastructure.

One of the key enablers of decentralized energy markets is the use of smart contracts, which are self-executing contracts with the terms of the agreement directly written into code. Smart contracts can be programmed to automatically execute transactions when certain conditions are met, providing a secure and efficient means of facilitating energy trading. For example, a smart contract could be used to automatically release payment to an energy producer once a specified amount of energy has been delivered to a consumer.

The use of smart contracts in energy trading can also help to enable the integration of renewable energy sources into the grid. As the world moves towards a more sustainable energy future, the need for flexible and responsive energy systems becomes increasingly important. Smart contracts can be used to create dynamic pricing mechanisms that incentivize the use of renewable energy sources, helping to drive the adoption of clean energy technologies.

One of the most promising applications of blockchain and smart contracts in energy trading is the creation of local energy markets, where communities can generate, store, and trade energy at a local level. This can help to reduce the reliance on centralized energy infrastructure, increase the resilience of energy systems, and empower individuals and communities to take control of their energy consumption.

In conclusion, the intersection of blockchain and energy trading holds significant potential for the creation of decentralized energy markets that are more efficient, transparent, and secure. By leveraging the power of blockchain technology and smart contracts, we can unlock the potential of decentralized energy markets and drive the transition towards a more sustainable and decentralized energy future. As the world continues to grapple with the challenges of climate change and the need for clean, reliable energy sources, the role of blockchain and smart contracts in energy trading will only become more important.

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