AES / Amazon / Google / KDDI Labs / Comcast / Time Warner / ab aB / Verizon / D. Path Publishing / /
Continent
North America / /
Country
United States / /
Facility
tunnel IPsec / Rutgers University Tsinghua University / /
IndustryTerm
anonymous communication systems / cleanslate Internet architecture / secure offline server / anonymous forwarding protocol / software implementation confirm / malicious server / anti-censorship systems / Web applications / broader Internet / anonymity with high latency and systems / e-path / anonymous overlay systems / Internet protocols / Internet In / network-based solution / non-anonymous communication systems / communication systems / online organizations / real Internet topology / publiclyaccessible path server / online activities / negligible computational overhead on routers / anonymity systems / anonymous forwarding protocols / e-paths / mechanism to abstract network / online users / legacy routers / Internet topology / Internet traffic / anonymous protocols / path server / latency-sensitive applications / packet processing / lightweight protocol / inter-domain routing protocol / network-based solutions / gateway router / Internet architectures / heterogeneous networks / Internet users / anonymous systems / encryption algorithm / border router / Internet user / mobilitycentric future Internet architecture / wireless devices / privacy solutions / overlay systems / be forwarded using the bi-directional e-path / /
Organization
AD (ADi ) / Rutgers University Tsinghua University / /
Person
Chun Hsiao / Tor Instead / Adrian Perrig† Akira Yamada / Samuel C. Nelson / Marco Gruteser§ Wei Meng / Chun Hsiao† Tiffany / Bob / Alice / Akira Yamada‡ Samuel / Tiffany Hyun-Jin Kim / /
LAP: Lightweight Anonymity and Privacy