C. Shields. Secure Hierarchical Multicast Routing and Multicast Internet Anonymity. PhD thesis, Computer Engineering, University of California, Santa Cruz, 1999.  Home/Search   Document Not in Database   Summary   Related Articles   Check

....process to trace each on demand ad hoc route. The design of route pseudonymity is based on a network security concept called broadcast with trapdoor information , which is newly proposed in this work. Multicast broadcast is a network based mechanism that has been explored in previous research [50], 51] to provide recipient anonymity support. Trapdoor information is a security concept that has been widely used in encryption and authentication schemes. ANODR is realized upon a hybrid form of these two concepts. The contribution of this work is to present a untraceable and intrusion ....

....such expensive on demand flooding process, routing performance is expected to deteriorate significantly (as demonstrated in Section 6) It is imperative for our design to avoid such ominous combinations. 3.2. Design rationales Broadcasting with trapdoor assignment As shown in previous research [50], 51] multicasts and broadcasts without specifically identifying the receiver(s) are effective means to achieve recipient anonymity. In this work we extensively explore the mechanism of broadcasting with trapdoor assignment, that is, by embedding a trapdoor information known only to the ....

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C. Shields. Secure Hierarchical Multicast Routing and Multicast Internet Anonymity. PhD Thesis, Computer Engineering, University of California, Santa Cruz, June 1999.

....process to trace each on demand ad hoc route. The design of route pseudonymity is based on a network security concept called broadcast with trapdoor information , which is newly proposed in this work. Multicast broadcast is a networkbased mechanism that has been explored in previous research [31, 32] to provide recipient anonymity support. Trapdoor information is a security concept that has been widely used in encryption and authentication schemes. ANODR is realized upon a hybrid form of these two concepts. The contribution of this work is to present a untraceable and intrusion tolerant ....

....discovery phase. The cryptographic functions are needed to establish route pseudonyms, which in turn efficiently realize local trapdoors without cryptographic operation overhead. 3. ANODR SYSTEM DESIGN 3. 1 Design rationales Broadcasting with trapdoor assignment As shown in previous research [31, 32], multicasts and broadcasts without specifically identifying the receiver(s) are effective means to achieve recipient anonymity. In this work we extensively explore the mechanism of broadcasting with trapdoor assignment, that is, by embedding a trapdoor information known only to the receiver(s) ....

C. Shields. Secure Hierarchical Multicast Routing and Multicast Internet Anonymity. PhD Thesis, Computer Engineering, University of California, Santa Cruz, June 1999.

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C. Shields. Secure Hierarchical Multicast Routing and Multicast Internet Anonymity. PhD thesis, Computer Engineering, University of California, Santa Cruz, 1999.

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