Revolutionizing Cryptography Blockchain as a Catalyst for Advanced Security Systems

Author:

Aldweesh Amjad1ORCID,Alauthman Mohammad2ORCID,al-Qerem Ahmad3ORCID,Ishtaiwi Abdelraouf4,Almomani Ammar5,Al Khaldy Mohammad A.6ORCID

Affiliation:

1. College of Computing and IT, Shaqra University, Saudi Arabia

2. Department of Information Security, Faculty of Information Technology, University of Petra, Jordan

3. Computer Science Department, Faculty of Information Technology, Zarqa University, Jordan

4. Data Science and Artificial Intelligence, University of Petra, Jordan

5. Computer Information Science, Higher Colleges of Technology, UAE

6. University of Petra, Jordan

Abstract

Blockchain's decentralized trust models are spurring rapid advances in applied cryptography. This chapter explores the accelerating convergence between cryptographic innovations and next-gen blockchain platforms. The authors provide background on modern cryptography and the distributed ledger tech behind blockchains. They then analyze how blockchain architectures are driving progress in zero-knowledge proofs, digital signatures, and secure multiparty computation. In turn, these advancing cryptographic mechanisms enable critical blockchain capabilities around privacy, scalability, accountability, and governance. The authors highlight gaps in existing cryptography-blockchain integration and present post-quantum research directions that fulfill decentralized ledgers' unique security needs. Their work frames a symbiotic blockchain-cryptography ecosystem where progress in both fields builds on each other to overcome limitations. This interdisciplinary synergy will catalyze more secure, functional, and efficient decentralized technologies.

Publisher

IGI Global

Reference18 articles.

1. Bakas, C., Choi, S. G., Ghiush, A., Kim, B., Laber, E., Mie, T., & Zhu, H. (2021). Cybercrypt: secure multiparty computation as a service. IACR Cryptol. ePrint Arch., 800.

2. Bano, S., Sonnino, A., Al-Bassam, M., Azouvi, S., McCorry, P., Meiklejohn, S., & Danezis, G. (2017). Consensus in the age of blockchains. arXiv preprint arXiv:1711.03936.

3. Anonymous Attestation Using the Strong Diffie Hellman Assumption Revisited

4. Report on Post-Quantum Cryptography

5. Goldfeder, S., Gennaro, R., Kalodner, H., Bonneau, J., Chator, A., Chiesa, A., & Narayanan, A. (2021). Sok: Threshold Cryptography for Blockchain. In 2022 IEEE European Symposium on Security and Privacy Workshops (EuroS&PW) (pp. 63-76). IEEE.

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