"암호학"의 두 판 사이의 차이

개요

• 암호학은 정보를 의도하지 않은 수신자가 이해할 수 없는 형태로 변환하여 정보를 안전하게 유지하는 과학이다.
• 암호학은 현대의 통신환경에서 필수적이다.
• 공개 키 암호화는 모든 시민에게 강력한 암호화를 사용할 수 있게 해주는 기술이다.

메모

• Elias, Yara, Kristin E. Lauter, Ekin Ozman, and Katherine E. Stange. “Ring-LWE Cryptography for the Number Theorist.” arXiv:1508.01375 [cs, Math], August 6, 2015. http://arxiv.org/abs/1508.01375.

노트

• In all cases, cryptography, the coding enabling information to be kept secret, was flawed or missing.^[1]
• For years online security has focused on hard technical problems: Fixing software bugs or concealing data with cryptography.^[1]
• When you hear the word "cryptography," your brain probably jumps to someone sitting in a dark room staring at lines of code.^[2]
• Secret key cryptography uses one key across both the sending encryption and the receiver's decryption.^[2]
• Public Key Cryptography allows for the use of two keys, which are different for the sender and receiver.^[2]
• Drawing back to the question at hand, what is cryptography, the answer is fairly simple.^[2]
• Asymmetric encryption (or public-key cryptography) uses a separate key for encryption and decryption.^[3]
• Today, cryptography is used to protect digital data.^[4]
• An example of basic cryptography is a encrypted message in which letters are replaced with other characters.^[4]
• Therefore, modern cryptography involves developing encryption methods that are difficult for even supercomputers to break.^[4]
• The OECD Recommendation Concerning Guidelines for Cryptography Policy were adopted on 27 March 1997.^[5]
• However, the widespread use of cryptography raises a number of important issues.^[5]
• Traditionally, cryptography was most often used only by governments.^[5]
• Effective cryptography is an essential tool in a network environment for addressing these concerns.^[5]
• Cryptography uses two main styles or forms of encrypting data; symmetrical and asymmetrical.^[6]
• A key tool to secure the confidentiality of electronic communications is encryption or cryptography.^[7]
• In other words cryptography can be used as an electronic signature.^[7]
• Public-key cryptography is typically based on mathematical problems that are relatively easy to perform but cannot be easily reversed.^[8]
• "The Joy of Cryptography" is a silly title, but all the sensible titles were already taken.^[9]
• It was at least better than "You Can't Spell Cryptography without Cry".^[9]
• Cryptography is the art and science of keeping information secure from unintended audiences, of encrypting it.^[10]
• Public key cryptography adds a very significant benefit - it can serve to authenticate a source (e.g. a digital signature).^[10]
• Public key cryptography was invented by Whitfield Diffie and Martin Hellman in 1975.^[10]
• Provides a Cryptography Next Generation (CNG) implementation of the Elliptic Curve Diffie-Hellman (ECDH) algorithm.^[11]
• TripleDESCng Provides a Cryptography Next Generation (CNG) implementation of the Triple Data Encryption Standard (3DES) algorithm.^[11]
• The second phase, the mechanization of cryptography, began shortly after World War I and continues even today.^[12]
• It is tempting to equate this phase with the appearance of public-key cryptography, but that is too narrow a view.^[12]
• It could be said that cryptography, or the art of secret writing, was born with writing itself.^[13]
• The world we know today would be impossible without cryptography.^[13]
• For this reason, public-key cryptography is also known as asymmetric cryptography.^[13]
• None of these marvels would be possible without cryptography.^[13]
• As of Android 9 (API level 28), the Crypto Java Cryptography Architecture (JCA) provider has been removed.^[14]
• Public key encryption is a technological revolution offering every citizen the opportunity to use robust cryptography.^[15]
• Cryptography techniques Cryptography is closely related to the disciplines of cryptology and cryptanalysis.^[16]
• However, cryptography makes it harder for attackers to access messages and data protected by encryption algorithms.^[16]
• Cryptography is the science of keeping information secure by transforming it into form that unintended recipients cannot understand.^[17]
• Encryption is an important part of cryptography, but doesn't encompass the entire science.^[17]
• For most of history, cryptography consisted of various substitution ciphers deployed to keep government and military communications secure.^[17]
• In fact, the development of computers and advances in cryptography went hand in hand.^[17]
• Cryptography is associated with the process of converting ordinary plain text into unintelligible text and vice-versa.^[18]
• Symmetric-key Cryptography: Both the sender and receiver share a single key.^[18]
• In Public-Key Cryptography two related keys (public and private key) are used.^[18]
• With symmetric cryptography, the same key is used for both encryption and decryption.^[19]
• Prior to the early 20th century, cryptography was mainly concerned with linguistic and lexicographic patterns.^[20]
• Computer use has thus supplanted linguistic cryptography, both for cipher design and cryptanalysis.^[20]
• Extensive open academic research into cryptography is relatively recent; it began only in the mid-1970s.^[20]
• Since then, cryptography has become a widely used tool in communications, computer networks, and computer security generally.^[20]
• But it is important to note that while cryptography is necessary for secure communications, it is not by itself sufficient.^[21]
• The second is to provide some real examples of cryptography in use today.^[21]
• It is no surprise, then, that new forms of cryptography came soon after the widespread development of computer communications.^[21]
• In cryptography, we start with the unencrypted data, referred to as plaintext.^[21]
• Cryptography deals with the actual securing of digital data.^[22]
• The primary objective of using cryptography is to provide the following four fundamental information security services.^[22]
• Cryptography may also refer to the art of cryptanalysis, by which cryptographic codes are broken.^[23]
• Collectively, the science of secure and secret communications, involving both cryptography and cryptanalysis, is known as cryptology.^[23]
• The principles of cryptography are today applied to the encryption of fax, television, and computer network communications.^[23]
• This Edureka video about what is Cryptography and why it is essential to protect the information shared across the internet.^[24]
• That’s where Encryption or Cryptography comes in.^[24]
• Further drilling down, Classical Cryptography is divided into Transposition Cipher and Substitution Cipher.^[24]
• cryptography is a package which provides cryptographic recipes and primitives to Python developers.^[25]
• In this segment, we'll discuss the fundamental concepts behind modern cryptography.^[26]
• Asymmetric keys and symmetric keys are two basic types of algorithms that are used in modern cryptography.^[26]
• In addition, cryptography also covers the obfuscation of information in images using techniques such as microdots or merging.^[27]
• When transmitting electronic data, the most common use of cryptography is to encrypt and decrypt email and other plain-text messages.^[27]
• In public key cryptography, we use a public and a private key.^[28]
• In general, cryptography provides us with a mechanism to protect data at rest, in motion, and, to a certain extent, in use.^[28]
• Provides a Cryptography Next Generation (CNG) implementation of the Triple Data Encryption Standard (3DES) algorithm.^[29]

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