encipherment

简明释义

英[ɪnˈsaɪfəmənt]美[enˈsɪfərmənt]

n. [计] 加密

英英释义

单词用法

同义词

反义词

例句

1.The random number generator, the encipherment scheme of the dynamic password and the fingerprint sequence are designed. And the performance and security of the authentication system are analysed.

研究动态口令随机数生成器、动态口令及指纹序列的加密方案的设计，并对认证系统的性能和安全性进行分析。

2.The random number generator, the encipherment scheme of the dynamic password and the fingerprint sequence are designed. And the performance and security of the authentication system are analysed.

研究动态口令随机数生成器、动态口令及指纹序列的加密方案的设计，并对认证系统的性能和安全性进行分析。

3.The mechanical parts act in such a way as to form a varying electrical circuit - the actual encipherment of a letter is performed electrically.

机械的部件以这样的方式动作形成一条多样化的电子回路- - -以电力执行实际加密程序的字母。

4.It can embed into other software, so it seems that the software has professional encipherment function.

能直接嵌入各类应用软件，仿佛使其具有加密功能一般。

5.The process of encipherment ensures that sensitive data remains secure during transmission.

进行加密的过程确保敏感数据在传输过程中保持安全。

6.With the new software, encipherment of files has become much easier for users.

使用新软件，文件的加密对用户来说变得更加简单。

7.Understanding the principles of encipherment is essential for cybersecurity professionals.

理解加密的原则对网络安全专业人员至关重要。

8.The encipherment technique used by the agency was highly sophisticated.

该机构使用的加密技术非常复杂。

9.After the encipherment, the message was unreadable to anyone without the key.

经过加密后，消息对没有密钥的人来说是不可读的。

作文

In the digital age, where information is constantly exchanged, the importance of data security cannot be overstated. One of the fundamental methods used to protect sensitive information is through a process known as encipherment. This technique involves converting plain text into a coded format, making it unreadable to anyone who does not possess the key to decode it. The practice of encipherment has been around for centuries, evolving from simple ciphers used by ancient civilizations to complex algorithms employed in modern computing. The primary goal of encipherment is to safeguard confidential information from unauthorized access. For instance, when individuals send personal data over the internet, such as credit card numbers or social security information, encipherment ensures that this data remains secure during transmission. Without encipherment, cybercriminals could easily intercept and exploit this information, leading to identity theft and financial loss. One of the most widely recognized forms of encipherment is the use of the Advanced Encryption Standard (AES), which is a symmetric encryption algorithm. AES encrypts data in blocks and requires a secret key for both encryption and decryption. The strength of AES lies in its ability to use various key lengths, making it adaptable to different security needs. As technology advances, so do the methods of encipherment. Quantum computing, for example, poses new challenges to traditional encryption methods, prompting researchers to develop quantum-resistant algorithms that can withstand potential future threats. Moreover, encipherment is not only vital for individual privacy but also crucial for businesses and governments. Companies often need to protect proprietary information, trade secrets, and customer data. A breach in security can result in significant financial repercussions and damage to a company's reputation. Similarly, governments utilize encipherment to secure classified information, ensuring national security and protecting sensitive diplomatic communications. Despite its importance, encipherment is not foolproof. As technology evolves, so do the tactics used by hackers and cybercriminals. Therefore, it is essential for organizations to stay updated with the latest advancements in encryption technology and implement robust security measures. Regularly updating encryption protocols and educating employees about cybersecurity best practices can significantly reduce the risk of data breaches. In conclusion, the practice of encipherment plays a crucial role in maintaining the confidentiality and integrity of sensitive information in our increasingly digital world. As we continue to rely on technology for communication and commerce, understanding the significance of encipherment becomes imperative. By prioritizing data security through effective encipherment techniques, we can protect ourselves and our information from the ever-evolving threats posed by cybercriminals.

在数字时代，信息不断被交换，数据安全的重要性不容小觑。保护敏感信息的基本方法之一是通过一种称为加密的过程。这种技术涉及将明文转换为编码格式，使其对没有解码密钥的人不可读。加密的做法已经存在了几个世纪，从古代文明使用的简单密码演变为现代计算中采用的复杂算法。 加密的主要目标是保护机密信息免受未经授权的访问。例如，当个人通过互联网发送个人数据时，如信用卡号码或社会安全信息时，加密确保这些数据在传输过程中保持安全。如果没有加密，网络犯罪分子就可以轻易拦截并利用这些信息，导致身份盗窃和经济损失。 最广为人知的加密形式之一是使用高级加密标准（AES），这是一种对称加密算法。AES以块为单位加密数据，并需要一个秘密密钥进行加密和解密。AES的强大之处在于它能够使用不同的密钥长度，使其适应不同的安全需求。随着技术的进步，加密的方法也在发展。例如，量子计算对传统加密方法提出了新的挑战，促使研究人员开发出能够抵御潜在未来威胁的量子抗性算法。 此外，加密不仅对个人隐私至关重要，对企业和政府同样至关重要。公司通常需要保护专有信息、商业秘密和客户数据。安全漏洞可能导致重大的财务损失和公司声誉受损。同样，政府利用加密来保护机密信息，确保国家安全和保护敏感的外交通信。 尽管加密至关重要，但并非万无一失。随着技术的发展，黑客和网络犯罪分子的战术也在演变。因此，组织必须及时了解加密技术的最新进展，并实施强有力的安全措施。定期更新加密协议并教育员工关于网络安全的最佳实践，可以显著降低数据泄露的风险。 总之，在我们日益数字化的世界中，加密的做法在维护敏感信息的机密性和完整性方面发挥着至关重要的作用。随着我们继续依赖技术进行沟通和商业活动，理解加密的重要性变得尤为关键。通过通过有效的加密技术优先考虑数据安全，我们可以保护自己和我们的信息，免受网络犯罪分子不断演变的威胁。