International Conference on Mathematical Modeling for Cryptographic Protocols (IC2MCP - 26)

This track explores the underlying mathematical principles that form the basis of cryptographic systems. Topics include number theory, algebraic structures, and their applications in secure communication.

This session focuses on the development and analysis of mathematical models for various cryptographic protocols. Participants will discuss methodologies for ensuring protocol security and efficiency.

This track delves into the theory and practical applications of zero-knowledge proofs in secure systems. Emphasis will be placed on their role in privacy preservation and authentication.

This session highlights advancements in homomorphic encryption, allowing computations on encrypted data without decryption. Researchers will present new algorithms and their implications for secure data processing.

This track examines lattice-based methods as a promising approach to post-quantum cryptography. Discussions will center on algorithmic security and the resilience of lattice structures against attacks.

This session focuses on the role of algorithms in enhancing the security of cryptographic systems. Participants will explore new algorithms and their effectiveness in various security contexts.

This track emphasizes the use of formal methods in the verification of cryptographic protocols. Researchers will present techniques for ensuring correctness and security in protocol design.

This session investigates the relationship between computational complexity and cryptographic security. Topics include hardness assumptions and their implications for cryptographic constructions.

This track explores the mathematical modeling of blockchain protocols and their security implications. Discussions will focus on consensus mechanisms, transaction verification, and privacy issues.

This session addresses various techniques for preserving privacy in cryptographic systems. Participants will discuss methods such as secure multiparty computation and their applications in real-world scenarios.

This track focuses on the development of cryptographic techniques that are resistant to quantum computing threats. Researchers will present novel approaches and their potential impact on future security paradigms.