RANDOMIZING SERVER-SIDE ADDRESSES

Organization Name

Cisco Technology, Inc.

Inventor(s)

David A. Maluf of Mountain View CA (US)

Srinath Gundavelli of San Jose CA (US)

Pascal Thubert of Roquefort les Pins (FR)

Pradeep Kumar Kathail of Los Altos CA (US)

Eric Levy-abegnoli of Roquefort les Pins (FR)

Eric Voit of Bethesda MD (US)

Ali Sajassi of Alamo CA (US)

RANDOMIZING SERVER-SIDE ADDRESSES - A simplified explanation of the abstract

This abstract first appeared for US patent application 18659296 titled 'RANDOMIZING SERVER-SIDE ADDRESSES

Simplified Explanation:

The patent application discusses techniques for using Network Address Translation (NAT), Mobile Internet Protocol (MIP), and/or other techniques in conjunction with Domain Name System (DNS) to anonymize server-side addresses in data communications. Instead of DNS providing a client device with the IP address of a server, it returns a random IP address mapped to the client device and the server. This random IP address masks the actual server IP address, ensuring anonymity.

Key Features and Innovation:

• Utilizes NAT, MIP, and DNS to obfuscate server IP addresses in data communications.
• DNS returns a random IP address mapped to the client device and the server, ensuring anonymity.
• Allows client devices to communicate with servers using the random IP address as the destination address.

Potential Applications: This technology can be applied in various industries where data privacy and anonymity are crucial, such as:

• Secure communication networks
• Online banking and financial transactions
• Healthcare data exchange

Problems Solved:

• Protects server-side addresses from being exposed in data communications.
• Enhances data privacy and security for client-server interactions.

Benefits:

• Ensures anonymity of server IP addresses.
• Enhances data security and privacy for sensitive communications.
• Mitigates the risk of unauthorized access to server information.

Commercial Applications: Potential commercial uses include:

• Secure communication platforms for businesses
• Data exchange services in healthcare and finance sectors
• Privacy-focused applications in various industries

Prior Art: Readers can explore prior art related to this technology in the fields of network security, data privacy, and communication protocols.

Frequently Updated Research: Stay informed about the latest advancements in network security, data privacy, and communication technologies relevant to this innovation.

Questions about Network Address Translation (NAT), Mobile Internet Protocol (MIP), and Domain Name System (DNS): 1. How does this technology impact data privacy in online communications? 2. What are the potential implications of using NAT, MIP, and DNS for anonymizing server-side addresses in data communications?

Original Abstract Submitted

Techniques for using Network Address Translation (NAT), Mobile Internet Protocol (MIP), and/or other techniques in conjunction with Domain Name System (DNS) to anonymize server-side addresses in data communications. Rather than having DNS provide a client device with an IP address of an endpoint device, such as a server, the DNS instead returns a random IP address that is mapped to the client device and the endpoint device. In this way, IP addresses of servers are obfuscated by a random IP address that cannot be used to identify the endpoint device or service. The client device may then communicate data packets to the server using the random IP address as the destination address, and a gateway that works in conjunction with DNS can convert the random IP address to the actual IP address of the server using NAT and forward the data packet onto the server.