School of Information Systems

What is Data Encryption and Why is it Important

Data encryption is like a secret code for your sensitive information. It’s a way of transforming your data so that it becomes unreadable to anyone who doesn’t have the right key to unlock it. Encryption is important because it helps keep your personal information, financial data, and confidential communications safe from prying eyes. There are different methods of encryption, including symmetric key encryption, asymmetric key encryption, and hashing. Symmetric key encryption uses a single key to both encrypt and decrypt the data, while asymmetric key encryption uses two keys – a public key for encryption and a private key for decryption. Hashing involves converting data into a fixed-length string of characters that can’t be easily reversed to obtain the original data.

Encryption is widely used in various industries, such as healthcare, finance, and government, to protect sensitive data from unauthorized access. It helps maintain the confidentiality, integrity, and availability of information. However, encryption can be broken if the encryption key is compromised or if there are weaknesses in the encryption algorithm. In summary, data encryption is an important tool for keeping your sensitive information safe from unauthorized access. It transforms your data into an unreadable format that can only be decoded by those with the correct decryption key. While encryption isn’t foolproof, it’s still an essential part of data security in today’s digital world.

Why is Data Encryption Important

Data encryption is important because it helps protect sensitive information from unauthorized access in today’s digital world. Encryption is like a secret code that transforms your data into an unreadable format that can only be decrypted by those with the correct decryption key.

Encryption helps maintain the confidentiality, integrity, and availability of information in various industries, such as healthcare, finance, and government.

For instance, in the healthcare industry, patient information is protected by HIPAA, which requires that all patient data be encrypted to ensure that it is kept confidential and secure. In the finance industry, encryption is used to protect financial transactions and customer information, which is essential for preventing identity theft and financial fraud. Encryption is also used by governments to protect confidential information and communications, including sensitive military and diplomatic communications.

While encryption is an important tool for data security, it’s not foolproof. Encryption can be broken if the encryption key is compromised or if there are weaknesses in the encryption algorithm. Therefore, it’s important to choose strong encryption algorithms and to keep encryption keys secure. Additionally, it’s essential to keep encryption software up-to-date to ensure that any vulnerabilities are patched.

How Does Encryption Work and Different types of Data Encryption

In conclusion, data encryption is important because it helps protect sensitive information from unauthorized access. It transforms data into an unreadable format that can only be decrypted by those with the correct decryption key, and it helps maintain the confidentiality, integrity, and availability of information.

Now that we know what data encryption is, and how is it so important in today’s digital society. We will go through the various encryption methods used to secure data as well as how data encryption functions.

A mathematical procedure, commonly referred to as a cipher, is used in encryption to convert plain text into cipher text. The cipher text is produced by the algorithm using the plain text as input and a secret key as the output. The data is encrypted and decrypted using a secret key; without it, the cipher text cannot be converted back to plain text. Data is encrypted using one of two encryption methods: symmetric encryption or asymmetric encryption.

Symmetric Encryption

Symmetric encryption is when data is encrypted and decrypted using the same secret key in symmetric encryption, also referred to as secret-key encryption. The same key must be available to both the sender and the recipient. The Advanced Encryption Standard (AES) and the Data Encryption Standard are the two most popular symmetric encryption algorithms (DES). The plain text is divided into fixed-length blocks for symmetric encryption, and each block is encrypted separately using the secret key. The cipher text, which is sent to the recipient, is the result of the encryption process. The receiver converts the encrypted text back to plain text using the same secret key. Symmetric encryption’s key benefit is that it is quick and effective because it uses less computing resources than asymmetric encryption. Sharing the secret key securely between sender and receiver while avoiding attacker interception is difficult, though.

Asymmetric Encryption

On the other hand, in asymmetric encryption a public key and a private key are used in, commonly referred to as public-key encryption. While the private key is kept private by the recipient and is used to decrypt the data, the public key is publicly accessible to anybody who wishes to send encrypted material to the recipient.

Due to the fact that the private key and its corresponding public key cannot be extracted from one another, asymmetric encryption is more secure than symmetric encryption. Elliptic Curve Cryptography and Rivest-Shamir-Adleman (RSA) are the two most popular asymmetric encryption techniques (ECC). A public key and a private key are used in asymmetric encryption, commonly referred to as public-key encryption. While the private key is kept private by the recipient and is used to decrypt the data, the public key is publicly accessible to anybody who wishes to send encrypted material to the recipient. Due to the fact that the private key and its corresponding public key cannot be extracted from one another, asymmetric encryption is more secure than symmetric encryption. Elliptic Curve Cryptography and Rivest-Shamir-Adleman (RSA) are the two most popular asymmetric encryption techniques (ECC).

Conclusion

To sum it up, data encryption is like a secret code that keeps your sensitive information safe from prying eyes. It transforms your data into an unreadable format that can only be decoded by those with the correct decryption key. Encryption is important because it helps protect personal information, financial data, and confidential communications in various industries such as healthcare, finance, and government. There are different methods of encryption, including symmetric key encryption, asymmetric key encryption, and hashing. While encryption isn’t foolproof, it’s still an essential part of data security in today’s digital world. So, if you want to keep your data safe and secure, make sure you use strong encryption algorithms, keep encryption keys secure, and keep encryption software up-to-date.

References

· IBM. (n.d.). Encryption. https://www.ibm.com/id-en/topics/encryption

· Forcepoint. (n.d.). Data encryption. https://www.forcepoint.com/cyber-edu/data-encryption

· Kaspersky. (n.d.). Encryption. https://www.kaspersky.com/resource-center/definitions/encryption

Mohammad Darrell Amrullah, Raihan Mahardhika, Felix, Matthew Budiharjo, Adele Mailangkay