Quantum-Based Encryption

Organization Name

Bank of America Corporation

Inventor(s)

Raghavendra Veerupakshappa of Telangana (IN)

Umme Kulsum Shaik of Hyderabad (IN)

John Dinakar Iruvanti of Telangana (IN)

Nagaraja Peddi of Hyderabad (IN)

Quantum-Based Encryption - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240333481 titled 'Quantum-Based Encryption

Simplified Explanation

This patent application describes arrangements for quantum-based encryption. Input data and a superposition collapse value are received from a user computing device. The input data is converted into quantum bits, and superpositions of these bits are collapsed based on the superposition collapse value. The collapsed quantum states are then used to obtain an encoded result of the input data, which is converted into alphanumeric code and stored in a data store.

• Input data and superposition collapse value received from user computing device
• Conversion of input data into quantum bits
• Collapse of superpositions based on collapse value
• Obtaining encoded result from collapsed quantum states
• Conversion of encoded result into alphanumeric code and storage in data store

Potential Applications

This technology can be used for secure communication, data encryption, and information storage where quantum-based encryption is required.

Problems Solved

This technology addresses the need for secure and efficient encryption methods that leverage quantum principles to enhance data security.

Benefits

The benefits of this technology include enhanced data security, efficient encryption methods, and the ability to store information in a secure manner using quantum-based encryption.

Commercial Applications

• Secure communication systems
• Data encryption services
• Information storage solutions for sensitive data

Questions about Quantum-Based Encryption

How does quantum-based encryption differ from traditional encryption methods?

Quantum-based encryption utilizes quantum principles such as superposition and entanglement to secure data, offering enhanced security compared to traditional encryption methods that rely on mathematical algorithms.

What are the potential challenges in implementing quantum-based encryption technology?

One potential challenge is the need for specialized hardware and expertise to implement quantum-based encryption systems effectively. Additionally, ensuring the scalability and reliability of quantum encryption systems can be a complex task.

Original Abstract Submitted

arrangements for quantum-based encryption are provided. in some aspects, input data and a superposition collapse value associated with the input data may be received from a user computing device. in addition, the superposition collapse value may include a threshold percentage indicating a percentage of quantum bits to be collapsed. the input data may be converted into a set of quantum bits. superpositions of the set of quantum bits may be collapsed based on the superposition collapse value. in addition, collapsing the superpositions may include forcing each quantum bit of the set of quantum bits to take a single value. an encoded result of the input data may be obtained by determining quantum states of the collapsed set of quantum bits. the encoded result of the input data may be converted into alphanumeric code and stored in a data store with the superposition collapse value associated with the input data.