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Optimal Routing Protocol Secure against Malicious Adversary

Technology Benefits: High end-to-end performance Low Error rate communication High Throughput Rate Highly Secure, Resistant to attacks by malicious adversaries

Technology Application: Internet - Secure Banking, Purchasing, Identification and Communication Telephone Networks Transportation Networks Highly Secure Military Communications - Soldier System Network Privacy

Detailed Technology Description: UCLA scientists have created the first adaptive routing technique for a public key network that accounts for the possibility of malicious nodes. This innovative protocol is resilient to a number of malicious attacks to include: edge failures, malicious nodes, dynamic network changes, and deletion, modification or insertion of false data. This innovative protocol achieves high throughput rate while simultaneously operating with highly efficient processor memory.

Supplementary Information: Patent Number: US20110016316A1
Application Number: US2010922141A
Inventor: Amir, Yair | Bunn, Paul | Ostrovsky, Rafail
Priority Date: 13 Mar 2008
Priority Number: US20110016316A1
Application Date: 10 Sep 2010
Publication Date: 20 Jan 2011
IPC Current: H04L000900
US Class: 713168 | 726026
Assignee Applicant: The Regents of the University of California | The Johns Hopkins University,Baltimore
Title: AUTHENTICATED ADVERSARIAL ROUTING
Usefulness: AUTHENTICATED ADVERSARIAL ROUTING
Novelty: Method for sending messages from sender node to receiver node, involves identifying intermediate node as malicious based on status report and eliminating identified malicious intermediate node from subsequent transmission attempts

Industry: ICT/Telecom

Sub Category: Telecommunication

Application No.: 8984297

Others

Background

The Internet has become a ubiquitous tool in many aspects of society, yet remains surprisingly susceptible to attacks. Even a single malicious node along the pathway from sender to receiver can corrupt communication in a meaningful way. Secure routing protocols attempt to verify that packets of data are correctly delivered to their destination. However, the internet is large, heterogeneous, complex in topology, and dynamically changing. Failure localization and path-quality monitoring in the public key setting have therefore become two of the biggest challenges in communication. Current routing protocols such as link-state and distance-vector are susceptible to loops, slow convergence, oscillations, and suffer from high communication overhead. The number of network applications continues to increase, and the need for secure, dynamic routing that is resilient to malicious adversaries is evident.

Related Materials

Amir, Y., Bunn, P., and Ostrovsky, R. Authenticated Adversarial Routing. [more]
Amir, Y., Bunn, P, and Ostrovsky, R. Optimal-rate Coding in Adversarial Networks in the Public-key Setting. March (2008) [more]

Additional Technologies by these Inventors

Tech ID/UC Case

20225/2008-614-0

Related Cases

2008-614-0

*Abstract: Investigators at UCLA have developed a novel secure routing protocol for data transfer that achieves optimal transfer rate with negligible decoding error even if communication nodes are compromised by a malicious adversary. This advancement will vastly improve internet security and communication safety.

*IP Issue Date: Mar 17, 2015

*Principal Investigator: Name: Yair Amir
Department:

Name: Paul Bunn
Department:

Name: Rafail Ostrovsky
Department:

Country/Region: USA

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