Non-fungible tokens (NFTs) are unique digital items with blockchain managed ownership. Ethereum blockchain based smart contract created the environment for NFTs (ERC721) to reach its one of the most important future application domains. Non fungible tokens got more attention when the market saw record breaking sales in 2021. Virtually anything of value can be traced and traded on the blockchain network by minting them as NFTs. NFTs provide the users with a decentralized proof of ownership representation, as every transaction and trade of NFTs gets recorded in the Ethereum network blocks. The value of NFTs is derived from their being non fungible meaning that the token cannot be replaced with an identical token (giving it inherent scarcity). In this paper, we study the growth rate and evolutionary nature of the NFT network and try to understand the NFT ecosystem. We explore the evolving nature of the NFT interaction network from a temporal graph perspective. We study the growth rate and observer the semantics of the network. Here on the observer network, we will run two graph algorithms on the dataset. Lastly, observe and forecast the survival of NFTs bubble by applying the Logarithmic periodic power law (LPPL) model to the time series data on one of the most famous NFT collections CryptoPunks (predicting price increase), which has seen sales of around $23.7 million around mid of 2021.
翻译:不可互换的象征物(NFTs)是独有的数字化物品,具有连锁管理的所有权。基于Ethein的链式智能合同为NFTs(ERC721)创造了环境,以达到其未来最重要的应用域之一。当2021年市场看到破纪录的销售时,不可替代的象征物得到更多的注意。几乎所有任何价值都可以在连锁网络上追踪和交易,将它们作为NFTs。NFTs(NFTs) 向用户提供了所有权代表权的分散证明,因为NFTs(NFTs)的每一次交易和贸易都在Eieum网络块中记录。NFTs的价值来自不可互换的含义,即该符号不能被替换为同一的象征物(使其固有的稀缺)。在本文中,我们研究了NFT网络的增长率和进化性质,并试图通过将NFT互动网络的不断变化性质。我们研究了NFT的增长率并观察了网络的语义学。在观察者网络中,我们将在NfT的数据集上运行两个图表运算算法。最后,用一个定期的RPFTSBL 规则将增加NFSL 。