Using k-nearest neighbor method to identify poison message failure
| Title | Using k-nearest neighbor method to identify poison message failure |
| Publication Type | Conference Paper |
| Year of Publication | 2004 |
| Authors | Du, Xiaojiang |
| Conference Name | IEEE Global Telecommunications Conference, 2004. GLOBECOM '04 |
| Date Published | 29 Nov.-3 Dec. 2 |
| ISBN Number | 0-7803-8794-5 |
| Keywords | AI Poisoning, Computer bugs, Computer science, control systems, data mining, Human Behavior, IP networks, Large-scale systems, learning (artificial intelligence), machine learning, network fault management, poison message failure identification, probabilistic k-nearest neighbor method, Probability distribution, Protocols, pubcrawl, resilience, Resiliency, Routing, Scalability, statistical distributions, System testing, telecommunication computing, telecommunication network management, telecommunication network reliability, telecommunication security, telecommunications networks, Telephony, Toxicology, unstable network |
| Abstract | Poison message failure is a mechanism that has been responsible for large scale failures in both telecommunications and IP networks. The poison message failure can propagate in the network and cause an unstable network. We apply a machine learning, data mining technique in the network fault management area. We use the k-nearest neighbor method to identity the poison message failure. We also propose a "probabilistic" k-nearest neighbor method which outputs a probability distribution about the poison message. Through extensive simulations, we show that the k-nearest neighbor method is very effective in identifying the responsible message type. |
| URL | https://ieeexplore.ieee.org/document/1378384/ |
| DOI | 10.1109/GLOCOM.2004.1378384 |
| Citation Key | du_using_2004 |
- pubcrawl
- unstable network
- Toxicology
- Telephony
- telecommunications networks
- telecommunication security
- telecommunication network reliability
- telecommunication network management
- telecommunication computing
- System testing
- statistical distributions
- Scalability
- Routing
- Resiliency
- resilience
- AI Poisoning
- Protocols
- Probability distribution
- probabilistic k-nearest neighbor method
- poison message failure identification
- network fault management
- machine learning
- learning (artificial intelligence)
- Large-scale systems
- IP networks
- Human behavior
- Data mining
- control systems
- computer science
- Computer bugs