Location
Grand Wailea, Hawaii
Event Website
https://hicss.hawaii.edu/
Start Date
8-1-2019 12:00 AM
End Date
11-1-2019 12:00 AM
Description
Significant valuable information can be determined by observing attackers in action. These observations provide significant insight into the attacker’s TTPs and motivations. It is challenging to continue observations when attackers breach operational networks. This paper describes a deception network methodology that redirects traffic from the compromised Operational Network (O-Net) to an identically configured Deception Network (D-Net) minimizing any further compromise of operational data and assets, while also allowing the tactics, techniques, and procedures of the attacker to be studied. To keep the adversary oblivious to the transfer from the O-Net to the D-Net, we employ a sophisticated and unique packet rewriting technique using Software Defined Networking (SDN) technology that builds on two other strategies. This paper discusses the foundational strategies and introduces a new strategy that improves behavior for our described scenarios. We then provide some preliminary test results and suggest topics for further research.
Cyber Deception Architecture: Covert Attack Reconnaissance Using a Safe SDN Approach
Grand Wailea, Hawaii
Significant valuable information can be determined by observing attackers in action. These observations provide significant insight into the attacker’s TTPs and motivations. It is challenging to continue observations when attackers breach operational networks. This paper describes a deception network methodology that redirects traffic from the compromised Operational Network (O-Net) to an identically configured Deception Network (D-Net) minimizing any further compromise of operational data and assets, while also allowing the tactics, techniques, and procedures of the attacker to be studied. To keep the adversary oblivious to the transfer from the O-Net to the D-Net, we employ a sophisticated and unique packet rewriting technique using Software Defined Networking (SDN) technology that builds on two other strategies. This paper discusses the foundational strategies and introduces a new strategy that improves behavior for our described scenarios. We then provide some preliminary test results and suggest topics for further research.
https://aisel.aisnet.org/hicss-52/st/cybersecurity_and_sw_assurance/4