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Web 3.0: The Future of Internet

Authors:

Philip S. YuAuthors Info & Claims

WWW '23 Companion: Companion Proceedings of the ACM Web Conference 2023

Pages 1266 - 1275

https://doi.org/10.1145/3543873.3587583

Published: 30 April 2023 Publication History

Abstract

With the rapid growth of the Internet, human daily life has become deeply bound to the Internet. To take advantage of massive amounts of data and information on the internet, the Web architecture is continuously being reinvented and upgraded. From the static informative characteristics of Web 1.0 to the dynamic interactive features of Web 2.0, scholars and engineers have worked hard to make the internet world more open, inclusive, and equal. Indeed, the next generation of Web evolution (i.e., Web 3.0) is already coming and shaping our lives. Web 3.0 is a decentralized Web architecture that is more intelligent and safer than before. The risks and ruin posed by monopolists or criminals will be greatly reduced by a complete reconstruction of the Internet and IT infrastructure. In a word, Web 3.0 is capable of addressing web data ownership according to distributed technology. It will optimize the internet world from the perspectives of economy, culture, and technology. Then it promotes novel content production methods, organizational structures, and economic forms. However, Web 3.0 is not mature and is now being disputed. Herein, this paper presents a comprehensive survey of Web 3.0, with a focus on current technologies, challenges, opportunities, and outlook. This article first introduces a brief overview of the history of World Wide Web as well as several differences among Web 1.0, Web 2.0, Web 3.0, and Web3. Then, some technical implementations of Web 3.0 are illustrated in detail. We discuss the revolution and benefits that Web 3.0 brings. Finally, we explore several challenges and issues in this promising area.

References

[1]

Ayushi Abrol. 2022. Web 3.0 vs. Metaverse: A detailed comparison. https://www. blockchain-council.org/metaverse/web-3-0-vs-metaverse/

[2]

Faten Adel Alabdulwahhab. 2018. Web 3.0: the decentralized web blockchain networks and protocol innovation. In Proceedings of the 1st International Conference on Computer Applications & Information Security. IEEE, 1–4.

[3]

Maurizio Atzori, Georgia Koutrika, Barbara Pes, and Letizia Tanca. 2020. Special issue on Data exploration in the web 3.0 age. Future Generation Computer Systems 112 (2020), 1177–1179.

[4]

Juan Benet. 2014. IPFS-content addressed, versioned, P2P file system. arXiv:1407.3561 (2014), 1–11.

[5]

Tim Berners-Lee, James Hendler, and Ora Lassila. 2001. The semantic web. Scientific American 284, 5 (2001), 34–43.

[6]

Timothy John Berners-Lee. 1989. Information management: A proposal. Technical Report. European Organization for Nuclear Research. https://cds.cern.ch/record/369245/files/dd-89-001.pdf

[7]

Timonthy John Berners-Lee. 1998. Semantic web road map. https://www.emse.fr/ beaune/websem/SWRoadmapLee.pdf

[8]

Abraham Bernstein, James Hendler, and Natalya Noy. 2016. A new look at the semantic web. Communications of The ACM 59, 9 (2016), 35–37.

Digital Library

[9]

Piero Andrea Bonatti, Stefan Decker, Axel Polleres, and Valentina Presutti. 2019. Knowledge graphs: New directions for knowledge representation on the semantic web. Dagstuhl Reports 8, 9 (2019), 29–111.

[10]

Tom Brown, Benjamin Mann, Nick Ryder, Melanie Subbiah, Jared D Kaplan, Prafulla Dhariwal, Arvind Neelakantan, Pranav Shyam, and et al.2020. Language models are few-shot learners. Advances in Neural Information Processing Systems 33 (2020), 1877–1901.

[11]

Ryan Browne. 2022. The luna cryptocurrency has been resurrected after its $40 billion collapse. It’s already crashing. https://www.cnbc.com/2022/05/30/terra-2point0-new-luna-cryptocurrency-is-already-crashing.html

[12]

Vitalik Buterin. 2014. A next-generation smart contract and decentralized application platform. White Paper 3, 37 (2014), 1–36.

[13]

CAICT. 2021. Mobile Internet application personal information protection and governance. Technical Report. China Academy of Information and Communications Technology. http://www.caict.ac.cn/kxyj/qwfb/bps/202111/P020211119513519660276.pdf

[14]

Keyan Cao, Yefan Liu, Gongjie Meng, and Qimeng Sun. 2020. An overview on edge computing research. IEEE Access 8 (2020), 85714–85728.

[15]

Amber Case. 2015. Why the Internet needs IPFS before it’s too late. https://techcrunch.com/2015/10/04/why-the-internet-needs-ipfs-before-its-too-late/

[16]

Yao Chen, Yijie Gui, Hong Lin, Wensheng Gan, and Yongdong Wu. 2022. Federated learning attacks and defenses: A survey. (2022), 4256–4265.

[17]

Zefeng Chen, Jiayang Wu, Wensheng Gan, and Zhenlian Qi. 2022. Metaverse security and privacy: An overview. In The 10th International Conference on Big Data. IEEE, 2950–2959.

[18]

Usman W Chohan. 2018. The concept and criticisms of steemit. CBRI Working Papers (2018), 1–10.

[19]

Usman W Chohan. 2022. Cryptocurrencies: A brief thematic review. Available at SSRN 3024330 (2022), 1–38.

[20]

Nupur Choudhury. 2014. World Wide Web and its journey from Web 1.0 to Web 4.0. International Journal of Computer Science and Information Technologies 5, 6 (2014), 8096–8100.

[21]

Shumo Chu and Sophia Wang. 2018. The curses of blockchain decentralization. arXiv:1810.02937 (2018), 1–7.

[22]

Kyle Croman, Christian Decker, Ittay Eyal, Adem Efe Gencer, Ari Juels, Ahmed Kosba, Andrew Miller, Prateek Saxena, Elaine Shi, and Emin Gün Sirer. 2016. On scaling decentralized blockchains. In Proceedings of the 20th International Conference on Financial Cryptography and Data Security. Springer, 106–125.

[23]

Ru-Xi Ding, Iván Palomares, Xueqing Wang, Guo-Rui Yang, Bingsheng Liu, Yucheng Dong, Enrique Herrera-Viedma, and Francisco Herrera. 2020. Large-Scale decision-making: Characterization, taxonomy, challenges and future directions from an Artificial Intelligence and applications perspective. Information Fusion 59 (2020), 84–102.

[24]

Dieter Fensel, Umutcan Şimşek, Kevin Angele, Elwin Huaman, Elias Kärle, Oleksandra Panasiuk, Ioan Toma, Jürgen Umbrich, and Alexander Wahler. 2020. Introduction: what is a knowledge graph? In Knowledge Graphs. Springer, 1–10.

[25]

Carlos Flavián, Sergio Ibáñez-Sánchez, and Carlos Orús. 2019. The impact of virtual, augmented and mixed reality technologies on the customer experience. Journal of Business Research 100 (2019), 547–560.

[26]

Wensheng Gan, Jerry Chun-Wei Lin, Han-Chieh Chao, and Justin Zhan. 2017. Data mining in distributed environment: a survey. Wiley Interdisciplinary Reviews: Data Mining and Knowledge Discovery 7, 6 (2017), e1216.

[27]

Wood Gavin. 2018. Why we need Web 3.0. https://gavofyork.medium.com/why-we-need-web-3-0-5da4f2bf95ab

[28]

GeeksforGeeks. 2021. How Web 3.0 is going to impact the digital world?https://www.geeksforgeeks.org/how-web-3-0-is-going-to-impact-the-digital-world/

[29]

Adem Efe Gencer, Soumya Basu, Ittay Eyal, Robbert van Renesse, and Emin Gün Sirer. 2018. Decentralization in bitcoin and ethereum networks. In Proceedings of the 22nd International Conference on Financial Cryptography and Data Security. Springer, 439–457.

Digital Library

[30]

Michael Haenlein and Andreas Kaplan. 2019. A brief history of artificial intelligence: On the past, present, and future of artificial intelligence. California Management Review 61, 4 (2019), 5–14.

[31]

Yoseph Hailemariam, Abbas Yazdinejad, Reza M Parizi, Gautam Srivastava, and Ali Dehghantanha. 2020. An empirical evaluation of AI deep explainable tools. In Proceedings of the International IEEE Globecom Workshops. IEEE, 1–6.

[32]

Peter Halfpenny and Rob Procter. 2009. Special issue on e-social science. Social Science Computer Review 27, 4 (2009), 459–466.

Digital Library

[33]

Pascal Hitzler. 2021. A review of the semantic web field. Communications of The ACM 64, 2 (2021), 76–83.

Digital Library

[34]

IAPP. 2017. Assessing mobile app data privacy risk. Technical Report. International Association of Privacy Professionals. https://iapp.org/media/pdf/resource_center/Kryptowire-Report-2017-final.pdf

[35]

Navin V Keizer, Fan Yang, Ioannis Psaras, and George Pavlou. 2021. The case for AI based Web3 reputation systems. In Proceedings of the 20th IFIP Networking Conference. IEEE, 1–2.

[36]

Aggelos Kiayias and Philip Lazos. 2022. SoK: Blockchain governance. arXiv preprint arXiv:2201.07188 (2022), 1–22.

[37]

Soo Jin Kim. 2021. An impossible trinity in blockchain-based transactions: decentralization, privacy, and lower transaction costs. SSRN (2021), 1–30.

[38]

Gaurish Korpal and Drew Scott. 2022. Decentralization and Web3 technologies. TechRxiv preprint https://doi.org/10.36227/techrxiv.19727734.v1 (2022), 1–9.

[39]

Hong Lin, Shicheng Wan, Wensheng Gan, Jiahui Chen, and Han-Chieh Chao. 2022. Metaverse in education: vision, opportunities, and challenges. In The 10th International Conference on Big Data. IEEE, 2857–2866.

[40]

Zhuotao Liu, Yangxi Xiang, Jian Shi, Peng Gao, Haoyu Wang, Xusheng Xiao, Bihan Wen, Qi Li, and Yih-Chun Hu. 2021. Make Web 3.0 connected. IEEE Transactions on Dependable and Secure Computing (2021), 2965–2981.

[41]

A Manoj Athreya, Ashwin A Kumar, SM Nagarajath, HL Gururaj, V Ravi Kumar, DN Sachin, and KR Rakesh. 2021. Peer-to-peer distributed storage using InterPlanetary file system. In Advances in Artificial Intelligence and Data Engineering. Springer, 711–721.

[42]

Deborah L McGuinness and Frank Van Harmelen. 2004. OWL web ontology language overview. W3C Recommendation 10, 10 (2004), 1–12.

[43]

Eric Miller. 1998. An introduction to the resource description framework. D-Lib Magazine (1998), 1–5.

Digital Library

[44]

San Murugesan. 2007. Understanding Web 2.0. IT Professional 9, 4 (2007), 34–41.

Digital Library

[45]

Satoshi Nakamoto. 2008. Bitcoin: A peer-to-peer electronic cash system. Decentralized Business Review (2008), 21260–21269.

[46]

Tim O’reilly. 2007. What is Web 2.0: Design patterns and business models for the next generation of software. Communications & Strategies 1 (2007), 17.

[47]

Tim O’Reilly. 2021. Why it is too early to get excited about Web3. https://www.oreilly.com/radar/why-its-too-early-to-get-excited-about-web3/

[48]

Long Ouyang, Jeff Wu, Xu Jiang, Diogo Almeida, Carroll L Wainwright, Pamela Mishkin, Chong Zhang, Sandhini Agarwal, Katarina Slama, Alex Ray, John Schulman, Jacob Hilton, Fraser Kelton, Luke Miller, Maddie Simens, Amanda Askell, Peter Welinder, Paul Christiano, Jan Leike, and Ryan Lowe. 2022. Training language models to follow instructions with human feedback. arXiv:2203.02155 (2022), 1–68.

[49]

Zhigeng Pan, Adrian David Cheok, Hongwei Yang, Jiejie Zhu, and Jiaoying Shi. 2006. Virtual reality and mixed reality for virtual learning environments. Computers & Graphics 30, 1 (2006), 20–28.

Digital Library

[50]

Tony Parisi. 2021. The seven rules of the metaverse. https://medium.com/meta-verses/the-seven-rules-of-the-metaverse-7d4e06fa864c

[51]

Osterman Research. 2022. The state of mobile app security 2022. Technical Report. Osterman Research. https://ostermanresearch.com/2022/07/15/approov-mobile-app-security-2022

[52]

Kevin Roose. 2022. An AI-generated picture won an art prize: artists aren’t happy. https://www.nytimes.com/2022/09/02/technology/ai-artificial-intelligence-artists.html

[53]

Kevin Roose. 2022. Is this crypto’s Lehman moment?https://www.nytimes.com/2022/11/09/technology/cryptocurrency-binance-ftx.html

[54]

Tiago Rosado and Jorge Bernardino. 2014. An overview of openstack architecture. In Proceedings of the 18th International Database Engineering & Applications Symposium. ACM, 366–367.

Digital Library

[55]

Riaan Rudman 2015. Web 3.0: governance, risks and safeguards. Journal of Applied Business Research 31, 3 (2015), 1037–1056.

[56]

Michele Ruta, Floriano Scioscia, Saverio Ieva, Giovanna Capurso, and Eugenio Di Sciascio. 2017. Semantic blockchain to improve scalability in the internet of things. Open Journal of Internet Of Things 3, 1 (2017), 46–61.

[57]

Nigel Shadbolt, Tim Berners-Lee, and Wendy Hall. 2006. The semantic web revisited. IEEE Intelligent Systems 21, 3 (2006), 96–101.

Digital Library

[58]

Juan M Silva, Abu Saleh Md Mahfujur Rahman, and Abdulmotaleb El Saddik. 2008. Web 3.0: a vision for bridging the gap between real and virtual. In Proceedings of the 1st ACM International Workshop on Communicability Design and Evaluation in Cultural and Ecological Multimedia System. ACM, 9–14.

Digital Library

[59]

Amit Singhal. 2012. Introducing the knowledge graph: things, not strings. https://blog.google/products/search/introducing-knowledge-graph-things-not/

[60]

Lou Steinberg. 2022. Four cybersecurity risks of Web 3.0. https://www.securitymagazine.com/ articles/96998-4-cybersecurity-risks-of-web-30

[61]

Jiayi Sun, Wensheng Gan, Han-Chieh Chao, and Philip S Yu. 2022. Metaverse: Survey, applications, security, and opportunities. arXiv:2210.07990 (2022), 1–35.

[62]

Jiayi Sun, Wensheng Gan, Han-Chieh Chao, Philip S Yu, and Weiping Ding. 2023. Internet of behaviors: A survey. IEEE Internet of Things Journal. (2023), 1–18.

[63]

Jiayi Sun, Wensheng Gan, Zefeng Chen, Junhui Li, and Philip S Yu. 2022. Big data meets metaverse: A survey. arXiv preprint, arXiv:2210.16282 (2022).

[64]

Heru Susanto, Leu Fang Yie, Desi Setiana, Yani Asih, Ambar Yoganingrum, Slamet Riyanto, and Fadly Akbar Saputra. 2021. Digital ecosystem security issues for organizations and governments: Digital ethics and privacy. In Web 2.0 and Cloud Technologies for Implementing Connected Government. IGI Global, 204–228.

[65]

Abeba Nigussie Turi. 2020. Currency under the Web 3.0 economy. In Technologies for Modern Digital Entrepreneurship. Springer, 1–210.

[66]

Blesson Varghese, Nan Wang, Sakil Barbhuiya, Peter Kilpatrick, and Dimitrios S Nikolopoulos. 2016. Challenges and opportunities in edge computing. In Proceedings of the 1st IEEE International Conference on Smart Cloud. IEEE, 20–26.

[67]

Qin Wang, Rujia Li, Qi Wang, and Shiping Chen. 2021. Non-fungible token (NFT): Overview, evaluation, opportunities and challenges. arXiv:2105.07447 (2021), 1–22.

[68]

Shiqiang Wang, Tiffany Tuor, Theodoros Salonidis, Kin K Leung, Christian Makaya, Ting He, and Kevin Chan. 2019. Adaptive federated learning in resource constrained edge computing systems. IEEE Journal on Selected Areas in Communications 37, 6 (2019), 1205–1221.

[69]

Nicholas Weaver. 2021. The Web3 fraud. https://www.usenix.org/publications/loginonline/web3-fraud

[70]

Sage A Weil, Scott A Brandt, Ethan L Miller, Darrell DE Long, and Carlos Maltzahn. 2006. Ceph: A scalable, high-performance distributed file system. In Proceedings of the 7th USENIX Symposium on Operating Systems Design and Implementation. USENIX Association, 307–320.

[71]

Gavin Wood. 2014. Ethereum: A secure decentralised generalised transaction ledger. Ethereum Project Yellow Paper 151, 2014 (2014), 1–32.

[72]

Dylan Yaga, Peter Mell, Nik Roby, and Karen Scarfone. 2018. Blockchain technology overview. Technical Report. National Institute of Standards and Technology, U.S. Department of Commerce. https://www.nist.gov/publications/blockchain-technology-overview

[73]

Caiming Zhang and Yang Lu. 2021. Study on artificial intelligence: The state of the art and future prospects. Journal of Industrial Information Integration 23 (2021), 100224.

[74]

Zibin Zheng, Shaoan Xie, Hong-Ning Dai, Xiangping Chen, and Huaimin Wang. 2018. Blockchain challenges and opportunities: A survey. International Journal of Web and Grid Services 14, 4 (2018), 352–375.

[75]

Zhi Zhou, Xu Chen, En Li, Liekang Zeng, Ke Luo, and Junshan Zhang. 2019. Edge intelligence: Paving the last mile of artificial intelligence with edge computing. Proceedings of The IEEE 107, 8 (2019), 1738–1762.

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Index Terms

Web 3.0: The Future of Internet
1. Computer systems organization
  1. Dependable and fault-tolerant systems and networks
    1. Redundancy
  2. Embedded and cyber-physical systems
    1. Embedded systems
    2. Robotics
2. Networks
  1. Network properties
    1. Network reliability

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cover image ACM Conferences

WWW '23 Companion: Companion Proceedings of the ACM Web Conference 2023

April 2023

1567 pages

ISBN:9781450394192

DOI:10.1145/3543873

Copyright © 2023 ACM.

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Published: 30 April 2023

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Natural Science Foundation of Guangdong Province
National Natural Science Foundation of China
Guangzhou Basic and Applied Basic Research Foundation

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WWW '23: The ACM Web Conference 2023

April 30 - May 4, 2023

TX, Austin, USA

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Rai SShah KYedavalli KModi NSingh R(2024)Auditing Risks of Web 3.0Advances in Enterprise Technology Risk Assessment10.4018/979-8-3693-4211-4.ch008(201-244)Online publication date: 18-Oct-2024
https://doi.org/10.4018/979-8-3693-4211-4.ch008
Gonçalves MOliveira AAbreu AMesquita A(2024)Social Networks and Digital Influencers in the Online Purchasing Decision ProcessInformation10.3390/info1510060115:10(601)Online publication date: 30-Sep-2024
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Zhou EGuo SHong ZJensen CXiao YZhang DLiang JPei Q(2024)VeriDKG: A Verifiable SPARQL Query Engine for Decentralized Knowledge GraphsProceedings of the VLDB Endowment10.14778/3636218.363624217:4(912-925)Online publication date: 5-Mar-2024
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