Ronghua Wang
Syracuse University
6 Papers
78 Citations
Ronghua Wang is an academic researcher from Syracuse University. The author has contributed to research in topics: Public-key cryptography & Wireless sensor network. The author has an hindex of 5, co-authored 6 publications. Previous affiliations of Ronghua Wang include Microsoft.
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Papers
SEED: A Suite of Instructional Laboratories for Computer Security Education
Wenliang Du,Ronghua Wang +1 more
- 01 Mar 2008
TL;DR: The SEED environment takes advantage of the simplicity of Minix and the completeness of Linux, and provides a unified platform to support a rich set of laboratories for computer security education, and develops a list of laboratories that cover a wide spectrum of security principles.
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SEED: a suite of instructional laboratories for computer SEcurity EDucation
Wenliang Du,Zhouxuan Teng,Ronghua Wang +2 more
- 07 Mar 2007
TL;DR: The SEED lab environment is based on VMware, Minix, and linux, all of which are free for educational uses, and ten labs are developed, covering a wide range of security principles.
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Containing denial-of-service attacks in broadcast authentication in sensor networks
Ronghua Wang,Wenliang Du,Peng Ning +2 more
- 09 Sep 2007
TL;DR: A dynamic window scheme is presented, where sensor nodes determine whether first to verify a message or first to forward the message by themselves, made possible with the information such as how far this node is away from the malicious attacker, and how many hops the incoming message has passed.
ShortPK: A short-term public key scheme for broadcast authentication in sensor networks
TL;DR: This work proposes ShortPK, an efficient Short-term Public Key broadcast authentication scheme that is secure, efficient, and packet-loss resilient, and can achieve a significant improvement on energy consumption.
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Containing bogus packet insertion attacks for broadcast authentication in sensor networks
TL;DR: This article proposes a dynamic window scheme to thwart bogus packet insertion attacks which permits sensor nodes to efficiently broadcast messages and proposes three strategies for finding the optimal parameters by an improved additive increase multiplicative decrease (AIMD) window updating function so that the proposed dynamicwindow scheme can achieve the best overall performance.
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