Web 3.0 is a culmination of various stages of development of the Internet, which actually got its start at CERN in Switzerland at the end of the 1980s. Namely, out of the need to share scientific knowledge with the rest of the world. The scientist Tim Berners-Lee developed a platform that would enable users worldwide to share, create and make information publicly available.
The basic idea was that everyone should have a platform online that would enable the exchange of ideas and communication free of barriers or censorship. The integration of private users, as well as large companies or governments, was important here. If it goes as the experts expect, you could earn a lot of money as you can play blackjack online, bet on crypto games, create NFTs, invest, trade, stake, and lend.
The first approaches were static websites that only provided information and were linked to each other by hyperlinks. In the early 00s, these static websites then developed into interactive websites on which information could also be entered.
At the end of the last decade, new protocols were created that made Web 3.0 possible: artificial intelligence is now used to read data records, evaluate them and forward them to users in filtered form. Web 3.0 is designed to make web content machine-readable. To do this, new HTML protocols are being developed that actively work with each other and form a fundamental network that enables artificial intelligence. A duality arises, so that the Internet is no longer just a means to an end, but also a platform for non-human communication and automated data exchange.
Web 3.0 is a network that can basically be understood as a brain created by natural selection: Information and data are fed in, and protocols and programs try to process and digest this input and then play relevant information back to the user if these are required or requested.
To stick with this metaphor: Web 1.0 was a purely reactionary brain that could only gather information without being able to influence it. In Web 2.0, the first signs of “consciousness” are present – content can be imported and spit out again. Content can now be edited from both sides and the “hard disk” can be written to. Web 3.0 uses its own intelligence to create targeted output and execute it.
We are moving from a «read-only» web (1.0) to a «read and write» web (2.0) to a «read-write execute» web (3.0)
In order to keep this output relevant and to find the correct data sets as quickly and easily as possible, artificial intelligence must be created. This intelligence is enhanced by various programs. One principle here is language comprehension. Programs and machines learn to understand and read human language. This understanding leads to the introduction of personal assistants like Siri or Cortana, which are a symptom of the new direction and show the first approaches of the next generation: artificial intelligence that actively works and collaborates with human intelligence.
With this understanding, it is subsequently possible to have various processes automatically controlled by computers: self-driving cars, automatic diagnoses in medicine, or drones that independently deliver packages to the correct address are made possible by means of Web 3.0 and its protocols, as the information that is available is intelligently analyzed and linked using the correct parameters.
Web 3.0 is primarily determined by mobile devices. Everything has to be optimized for mobile devices today because that’s where most of the traffic comes from. The introduction of the first smartphone ushered in a new era that freed the Internet from static access via a permanently connected computer. Mobile devices are an integral part of both work and personal life. From a cultural point of view, this also leads to a change. You can now be reached anytime, anywhere and anytime and you can create and share information immediately and without filters.
This has allowed the democratic approach on which the Internet was invented by Tim Berners-Lee to be further expanded since the neutrality of network access now has even fewer geographical restrictions and is more internationally accessible.
Messages reach us in real-time and can be received instantly by millions of people. People spread all over the world can work together in teams without the need for an actual office.
By the year 2025, there will be 3 to 4 times as many devices connected to the Internet as there are people – that means up to 24 billion devices will be connected to each other. It’s no longer just about computers or cell phones. Smart devices are now found in all walks of life. The Internet of Things is the new network that brings together and connects all aspects of society.
The protocols driving Web 3.0 can be extended to devices because they rely on the same fundamentals: information processing.
The program that analyzes the contents of the refrigerator can intelligently and independently notice or decide when the milk is running out and order new milk directly via the Internet. This output is sent through programs that then fire a trigger in the store’s database, resulting in the delivery of the milk by drone. What still sounds utopian is already common practice in many large cities such as New York or Singapore and is no longer science fiction. Companies like Amazon already deliver their products automatically, and even microwave ovens have Internet access to research recipes or shorten waiting times by playing YouTube videos.
intelligence-output-action/result enables total automation of daily life on a level previously unimaginable.
Therefore, Web 3.0 can be understood as an Internet of Things: Devices communicate with each other without the need for human intelligence or our input. This automation is already well developed in many areas of the working world, such as in mail processing, production chains and data transmission.
The development of the Internet of Things and the relation to artificial intelligence.
The definition of the Internet of Things, or IoT for short, is a network of devices that have independent protocols that enable them to communicate with each other and exchange, enrich and exploit data.
With the further development of the Internet and the introduction of the new web protocols in Web 3.0, it became easier to read out and use diverse data sets. New devices can now access a rich pool of data (the so-called, big data) and thus only read out the information that is relevant. For example, a heart monitor can follow the patient’s diet and make suggestions for changing behaviour.