[1] |
W. Martin, F. Sarro, Y. Jia, Y. Zhang, and M. Harman. A Survey of App Store Analysis for Software Engineering. IEEE Transactions on Software Engineering, 43(9):817 -- 847, 2017. [ bib | DOI ] |
[2] |
T. Erdbrink and V. Goel. Apple, Citing U.S. Sanctions, Removes Popular Apps in Iran. https://www.nytimes.com/2017/08/24/technology/apple-iran.html, Date Accessed: Sep. 2, 2021. [ bib ] |
[3] |
J. Li, A. Grintsvayg, J. Kauffman, and C. Fleming. LBRY: A Blockchain-Based Decentralized Digital Content Marketplace. In 2020 IEEE International Conference on Decentralized Applications and Infrastructures (DAPPS), pages 42--51. IEEE, 2020. [ bib | DOI ] |
[4] |
J. Crussell, C. Gibler, and H. Chen. Attack of the Clones: Detecting Cloned Applications on Android Markets. In European Symposium on Research in Computer Security, page 37–54. Springer, 2012. [ bib | DOI ] |
[5] |
J. Crussell, C. Gibler, and H. Chen. AnDarwin: Scalable Detection of Semantically Similar Android Applications. In European Symposium on Research in Computer Security, page 182–199. Springer, 2013. [ bib | DOI ] |
[6] |
A. Reyna, C. Martín, J. Chen, E. Soler, and M. Díaz. On blockchain and its integration with IoT. Challenges and opportunities. Future Generation Computer Systems, 88:173--190, 2018. [ bib | DOI ] |
[7] |
S. Pech. Copyright Unchained: How Blockchain Technology Can Change the Administration and Distribution of Copyright Protected Works. Nw. J. Tech. & Intell. Prop., 18, 2020. [ bib | DOI ] |
[8] |
K. Thompson. Reflections on Trusting Trust. Communications of the ACM, 27(8):761--763, 1984. [ bib | DOI ] |
[9] |
A. Litchfield and J. Herbert. ReSOLV: Applying Cryptocurrency Blockchain Methods to Enable Global Cross-Platform Software License Validation. Cryptography, 2(2), 2018. [ bib | DOI ] |
[10] |
X. Xu, I. Weber, and M. Staples. Architecture for Blockchain Applications. Springer, 2019. [ bib ] |
[11] |
A. Narayanan, J. Bonneau, E. Felten, A. Miller, and S. Goldfeder. Bitcoin and Cryptocurrency Technologies: A Comprehensive Introduction. Princeton University Press, 2016. [ bib ] |
[12] |
D. Reed, M. Sporny, D. Longley, C. Allen, R. Grant, M. Sabadello, and J. Holt. Decentralized Identifiers (Dids) V1. 0: Core Architecture Data Model and Representations. 2020. DecentralizedIdentifiers(DIDs)v1.0(w3.org), Date Accessed: May. 10, 2021. [ bib ] |
[13] |
N. Mohammadzadeh, S. Dorri Nogoorani, and J. Muñoz-Tapia. Decentralized Factoring for Self-Sovereign Identities. Electronics, 10(12), 2021. [ bib | DOI ] |
[14] |
P. Braendgaard and T. Joel. EIP-1056: Ethereum Lightweight Identity. https://eips.ethereum.org/EIPS/eip-1056, Date Accessed: Sep. 2, 2021. [ bib ] |
[15] |
J. Benet. IPFS - Content Addressed, Versioned, P2P File System. arXiv preprint arXiv:1407.3561, 2014. [ bib | DOI ] |
[16] |
G. S. Mendes, D. Chen, B. M. Silva, C. Serrao, and J. Casal. A Novel Reputation System for Mobile App Stores Using Blockchain. Computer, 54(2):39 -- 49, 2021. [ bib | DOI ] |
[17] |
C. Cassano. Deco.Network Alpha Smart Contracts. https:/medium.com/deconet/e6ac31f7ef35, Date Accessed: June. 7, 2022. [ bib ] |
[18] |
B. Ahmad, J. Dujaka, E. Herwin, and N. Sauer. Serverless Software License. Project Report, 2020. [ bib ] |
[19] |
D. Tkachenko. How to Develop an Ethereum Smart Contract for Licensing? https://www.apriorit.com/dev-blog/557-ethereum-smart-contract-licensing, Date Accessed: June. 7, 2022. [ bib ] |
[20] |
V. Stepanova and I. Erinš. Blockchain-Based Model for Software Licensing. In 2019 4th International Conference on System Reliability and Safety (ICSRS), pages 30--34. IEEE, 2019. [ bib | DOI ] |
[21] |
C. Fortin. Master Bitcoin - The Proof of Ownership. Technical Report, 2011. https://frozenlock.files.wordpress.com/2011/11/master-bitcoin.pdf. [ bib ] |
[22] |
J. Herbert and A. Litchfield. A Novel Method for Decentralised Peer-to-peer Software License Validation Using Cryptocurrency Blockchain Technology. In Proceedings of the 38th Australasian computer science conference (ACSC 2015). AUT, 2015. [ bib | DOI ] |
[23] |
D. Shabun. Spheris Whitepaper. Technical Report, 2017. https://spheris.io/spheris_whitepaper.pdf. [ bib ] |
[24] |
A. Seitz, D. Henze, D. Miehle, B. Bruegge, J. Nickles, and M. Sauer. Fog Computing as Enabler for Blockchain-Based IIoT App Marketplaces - A Case Study. In 2018 Fifth International Conference on Internet of Things: Systems, Management and Security, pages 182--188. IEEE, 2018. [ bib | DOI ] |
[25] |
F. Magnanini, L. Ferretti, and M. Colajanni. Efficient License Management Based on Smart Contracts Between Software Vendors and Service Providers. In 2019 IEEE 18th International Symposium on Network Computing and Applications (NCA), pages 1--6. IEEE, 2019. [ bib | DOI ] |
[26] |
J. Park, S. Lee, G. Kim, and J. Ryou. Decentralized Blockchain-Based Android App Store with P2P File System. In Advances in Computer Science and Ubiquitous Computing, page 525–532. Springer, 2018. [ bib | DOI ] |
[27] |
M. Moharrer Monem and S. D. Nogoorani. A Decentralized App Store Using the Blockchain Technology. In 2020 17th International ISC Conference on Information Security and Cryptology (ISCISC), pages 14--21. IEEE, 2018. [ bib | DOI ] |
[28] |
A. P. Kryukov and A. Demichev. Decentralized Data Storages: Technologies of Construction. Programming and Computer Software, 44(5):303–315, 2018. [ bib | DOI ] |
[29] |
F. Vogelsteller and V. Buterin. EIP-20: Token Standard. Technical Report, 2015. https://eips.ethereum.org/EIPS/eip-20. [ bib ] |
[30] |
Android Developers Documentation. App Licensing. https://developer.android.com/google/play/licensing, Date Accessed: Aug. 17, 2021. [ bib ] |
[31] |
W. Entriken and D. Shirley and J. Evans and N. Sachs. EIP-721: Non-Fungible Token Standard. Technical Report, 2021. https://eips.ethereum.org/EIPS/eip-721. [ bib ] |