About Cybersecurity
Cybersecurity
About this Collection
Cybersecurity is a crucial field in the digital age, where an increasing amount of sensitive information is being transmitted and stored online. As computing technology has evolved over the years, so has the field of cybersecurity.
In classical computing, cybersecurity has been centered around encryption techniques that are based on mathematical algorithms. These algorithms rely on the computational complexity of certain mathematical operations to make it difficult for unauthorized users to access sensitive data. However, with the advent of faster and more powerful computers, these algorithms are becoming easier to crack.
Quantum computing, on the other hand, has the potential to render many of the current encryption techniques used in classical computing obsolete. This is because quantum computers can perform certain operations much faster than classical computers, including breaking many of the current encryption techniques used in classical computing.
As quantum computing continues to advance, it will be important for cybersecurity professionals to adapt and develop new techniques to ensure the security of sensitive information. While the future of cybersecurity in the quantum age is uncertain, the field will continue to be a crucial aspect of digital security.
Using the F1000Research open and transparent peer review model we are looking to create a forum for discussion and dissemination of research around these areas:
Any questions about this collection? Please get in contact with research@f1000.com
In classical computing, cybersecurity has been centered around encryption techniques that are based on mathematical algorithms. These algorithms rely on the computational complexity of certain mathematical operations to make it difficult for unauthorized users to access sensitive data. However, with the advent of faster and more powerful computers, these algorithms are becoming easier to crack.
Quantum computing, on the other hand, has the potential to render many of the current encryption techniques used in classical computing obsolete. This is because quantum computers can perform certain operations much faster than classical computers, including breaking many of the current encryption techniques used in classical computing.
As quantum computing continues to advance, it will be important for cybersecurity professionals to adapt and develop new techniques to ensure the security of sensitive information. While the future of cybersecurity in the quantum age is uncertain, the field will continue to be a crucial aspect of digital security.
Using the F1000Research open and transparent peer review model we are looking to create a forum for discussion and dissemination of research around these areas:
- Network Security
- Application Security
- Cloud Security
- Cryptography
- Identity and Access Management
- Mobile Security
- Quantum Cryptography
- Quantum Key Distribution
- Quantum Secure Direct Communication or QSDC
- Quantum Secure Communications
- Post-Quantum Cryptography or PQC
- Quantum-safe Network Security
- Quantum-safe Application Security
- Public Key Infrastructure
- Zero-Knowledge Prove
- Cryptanalysis
- Machine learning and Quantum Machine Learning for cryptanalysis, privacy, and access protection
Any questions about this collection? Please get in contact with research@f1000.com
Collection Advisor
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Randy Kuang
