encryption
简明释义
n. 加密;加密术
英英释义
The process of converting information or data into a code, especially to prevent unauthorized access. | 将信息或数据转换为代码的过程,特别是为了防止未经授权的访问。 |
单词用法
加密算法;编码算法 | |
数据加密 |
同义词
| 加密 | 数据通过加密技术得到保护。 | ||
| 编码 | 我们使用编码来确保通信的安全性。 | ||
| 密码化 | Encipherment of sensitive information is essential for privacy. | 对敏感信息的密码化对隐私至关重要。 | |
| 密码学 | 密码学是网络安全中的一个重要领域。 |
反义词
| 解密 | The data was secured through encryption, but it needs decryption for analysis. | 数据通过加密保护,但需要解密才能进行分析。 | |
| 暴露 | Without proper encryption, sensitive information is at risk of exposure. | 没有适当的加密,敏感信息面临暴露的风险。 |
例句
1.It supports digital signatures and Encryption.
该语法支持数据签名和数据加密。
2.What does encryption not do?
加密无法做什么呢?
3.You have not chosen an encryption key.
您还没有选择一个加密密钥。
4.This is a brand-new salvo in the war against encryption.
这是反加密战争中的一场全新的攻击。
5.Confidentiality is provided using encryption.
使用加密提供机密性。
6.Encryption: The network encryption trust attribute.
ENCRYPTION:网络加密信任属性。
7.Many messaging apps offer encryption to ensure that your conversations remain private.
许多消息应用程序提供加密,以确保您的对话保持私密。
8.The company implemented encryption protocols to safeguard customer data.
公司实施了加密协议以保护客户数据。
9.Without proper encryption, sensitive data can be easily intercepted by hackers.
没有适当的加密,敏感数据可能很容易被黑客拦截。
10.The bank uses encryption to protect your personal information during online transactions.
银行使用加密来保护您在网上交易中的个人信息。
11.End-to-end encryption ensures that only the communicating users can read the messages.
端到端加密确保只有通信用户可以阅读消息。
作文
In today's digital age, the importance of data security cannot be overstated. With the increasing amount of information being shared online, protecting sensitive data has become a top priority for individuals and organizations alike. One of the most effective ways to safeguard this information is through the use of encryption, which is the process of converting data into a code to prevent unauthorized access. 加密的过程涉及将可读数据(明文)转换为不可读的格式(密文),只有拥有正确密钥的人才能解密并访问原始信息。The concept of encryption is not new; it has been used for centuries in various forms. Historically, military and government communications relied on simple ciphers to protect sensitive information from enemies. However, in the modern world, encryption has evolved significantly, especially with the advent of advanced technology and the Internet. Today, we rely on complex algorithms and mathematical principles to ensure that our data remains secure.There are two primary types of encryption: symmetric and asymmetric. Symmetric encryption uses the same key for both encryption and decryption, meaning that both the sender and the receiver must have access to this key. This method is typically faster and more efficient for large amounts of data. On the other hand, asymmetric encryption utilizes a pair of keys: a public key, which can be shared freely, and a private key, which is kept secret. This approach enhances security, as the private key is never transmitted over the network.The significance of encryption extends beyond individual privacy; it plays a crucial role in securing online transactions, protecting intellectual property, and maintaining the integrity of communications. For example, when you make a purchase online, your credit card information is often protected by encryption, ensuring that your sensitive data is not intercepted by malicious actors. Without such protection, the risk of identity theft and financial fraud would be alarmingly high.Moreover, as cyber threats continue to grow in sophistication, the need for robust encryption methods has become more pressing. Organizations are investing heavily in cybersecurity measures, and encryption is at the forefront of these efforts. In fact, many regulatory frameworks now mandate the use of encryption for protecting personal data, further emphasizing its importance in today's digital landscape.Despite its advantages, encryption also poses challenges, particularly for law enforcement agencies. The very features that make encryption a powerful tool for privacy can also hinder investigations into criminal activities. Striking a balance between protecting individual rights and ensuring public safety is an ongoing debate in many countries.In conclusion, encryption is a vital component of modern data security that protects sensitive information from unauthorized access. Whether for personal use or within corporate environments, understanding and implementing encryption practices is essential in safeguarding our digital lives. As technology continues to advance, the methods and importance of encryption will undoubtedly evolve, but its fundamental role in protecting our data will remain critical.
在当今数字时代,数据安全的重要性不容小觑。随着在线共享信息的数量不断增加,保护敏感数据已成为个人和组织的首要任务。保护这些信息的最有效方法之一就是使用加密,这是一种将数据转换为代码以防止未经授权访问的过程。加密的过程涉及将可读数据(明文)转换为不可读的格式(密文),只有拥有正确密钥的人才能解密并访问原始信息。加密的概念并不是新的;它在各种形式上已经使用了几个世纪。历史上,军事和政府通信依赖于简单的密码来保护敏感信息免受敌人的攻击。然而,在现代社会,随着先进技术和互联网的出现,加密已经发生了重大变化。今天,我们依靠复杂的算法和数学原理来确保我们的数据保持安全。加密主要有两种类型:对称和非对称。对称加密使用相同的密钥进行加密和解密,这意味着发送者和接收者必须都能访问该密钥。这种方法通常对于大量数据来说更快、更高效。另一方面,非对称加密利用一对密钥:一个可以自由共享的公钥和一个保密的私钥。这种方法增强了安全性,因为私钥从未通过网络传输。加密的重要性不仅仅体现在个人隐私上;它在保护在线交易、保护知识产权和维护通信完整性方面发挥着至关重要的作用。例如,当您在线购物时,您的信用卡信息通常会受到加密的保护,确保您的敏感数据不会被恶意行为者拦截。如果没有这样的保护,身份盗窃和金融欺诈的风险将会非常高。此外,随着网络威胁的不断增长,强大的加密方法的需求变得更加紧迫。组织正在大量投资网络安全措施,而加密正处于这些努力的前沿。事实上,许多监管框架现在要求使用加密来保护个人数据,进一步强调了其在当今数字环境中的重要性。尽管有其优势,加密也带来了挑战,特别是对于执法机构而言。使加密成为隐私强大工具的特性也可能妨碍对犯罪活动的调查。在保护个人权利与确保公共安全之间取得平衡是许多国家正在进行的辩论。总之,加密是现代数据安全的重要组成部分,可以保护敏感信息免受未经授权的访问。无论是个人使用还是企业环境中,理解和实施加密实践在保护我们的数字生活中至关重要。随着技术的不断进步,加密的方法和重要性无疑会不断发展,但其在保护我们数据方面的基本作用将始终至关重要。
