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2020년 12월 16일 (수) 23:48 판
관련된 항목들
노트
- Quantum cryptography is the science of exploiting quantum mechanical properties to perform cryptographic tasks.[1]
- Quantum cryptography is a general subject that covers a broad range of cryptographic practices and protocols.[1]
- The goal of position-based quantum cryptography is to use the geographical location of a player as its (only) credential.[1]
- The study of such schemes is often referred to as post-quantum cryptography.[1]
- Section 2 introduces some related works about quantum cryptography.[2]
- Section 4 presents benefits that quantum cryptography brings to the future Internet and analyze the security of it.[2]
- Quantum cryptography stems from the concept of quantum money, which was proposed by Wiesner in 1969.[2]
- Based on quantum mechanics and classical cryptography, quantum cryptography is a novel one in the field of cryptography.[2]
- Then quantum cryptography is introduced with some of its variations.[3]
- And finally, the analysis has been carried out in terms of the pros and cons of implementing quantum cryptography for IoT security.[3]
- Companies that need to protect information or access for a very long time should start thinking about post-quantum cryptography.[4]
- Quantum cryptography uses the quantum properties of photons to create an unbreakable crypto algorithm.[5]
- One of the main issues to solve in quantum cryptography is the speed of establishing keys because of the complexity of entangling photons.[5]
- now it’s time to dive into one of its most publicized applications: quantum cryptography.[6]
- Quantum cryptography holds both promises and threats for our current cryptographic infrastructure.[6]
- When you hear the term quantum cryptography, more often than not what is being referred to is Quantum Key Distribution (QKD).[6]
- Quantum cryptography is a technology that uses quantum physics to secure the distribution of symmetric encryption keys.[7]
- In 2017 this achievement was awarded with two SESAMES Awards for post-quantum cryptography on a contactless security chip.[8]
- Quantum cryptography uses the same physics principles and similar technology to communicate over a dedicated communications link.[9]
- In practice, quantum cryptography has been demonstrated in the laboratory by IBM and others, but over relatively short distances.[10]
- Please note that this is a classical experiment that simulates the key principles used in quantum cryptography.[11]
- So-called device-independent quantum cryptography offers perfect security even when the equipment is less than perfect.[12]
- But there is a bigger message here: that flaws in device-independent quantum cryptography are still coming to light.[12]
- Quantum Cryptography addresses one of societies most pressing concerns for confidential and authenticated communication.[13]
소스
- ↑ 1.0 1.1 1.2 1.3 Quantum cryptography
- ↑ 2.0 2.1 2.2 2.3 Quantum Cryptography for the Future Internet and the Security Analysis
- ↑ 3.0 3.1 Quantum Cryptography for Internet of Things Security
- ↑ What next in the world of post-quantum cryptography?
- ↑ 5.0 5.1 Can quantum cryptography secure the Internet?
- ↑ 6.0 6.1 6.2 Quantum Cryptography Demystified: How It Works in Plain Language
- ↑ Quantum Cryptography - ID Quantique
- ↑ Post-quantum cryptography: cybersecurity in post-quantum computer world
- ↑ Quantum Key Distribution (QKD) and Quantum Cryptography (QC)
- ↑ What is quantum cryptography?
- ↑ Quantum Cryptography Analogy Demonstration Kit
- ↑ 12.0 12.1 There’s a new way to break quantum cryptography
- ↑ Quantum Cryptography :: Quantum Technologies