Black hole attack prevention method using dynamic threshold in mobile ad hoc networks
Title | Black hole attack prevention method using dynamic threshold in mobile ad hoc networks |
Publication Type | Conference Paper |
Year of Publication | 2017 |
Authors | Noguchi, T., Yamamoto, T. |
Conference Name | 2017 Federated Conference on Computer Science and Information Systems (FedCSIS) |
Date Published | sep |
Keywords | Ad Hoc Network Security, black hole attack prevention method, black hole node detection rate, composability, data packets, dynamic threshold, fake routing information, Human Behavior, human factors, IP networks, malicious node, MANET, mobile ad hoc network, mobile ad hoc networks, mobile nodes, network infrastructure, pubcrawl, Resiliency, Routing, routing information exchange, Routing protocols, security attack, security issues, telecommunication security |
Abstract | A mobile ad hoc network (MANET) is a collection of mobile nodes that do not need to rely on a pre-existing network infrastructure or centralized administration. Securing MANETs is a serious concern as current research on MANETs continues to progress. Each node in a MANET acts as a router, forwarding data packets for other nodes and exchanging routing information between nodes. It is this intrinsic nature that introduces the serious security issues to routing protocols. A black hole attack is one of the well-known security threats for MANETs. A black hole is a security attack in which a malicious node absorbs all data packets by sending fake routing information and drops them without forwarding them. In order to defend against a black hole attack, in this paper we propose a new threshold-based black hole attack prevention method. To investigate the performance of the proposed method, we compared it with existing methods. Our simulation results show that the proposed method outperforms existing methods from the standpoints of black hole node detection rate, throughput, and packet delivery rate. |
URL | https://annals-csis.org/proceedings/2017/drp/101.html |
DOI | 10.15439/2017F101 |
Citation Key | noguchi_black_2017 |
- mobile ad hoc network
- telecommunication security
- security issues
- security attack
- Routing protocols
- routing information exchange
- Routing
- Resiliency
- pubcrawl
- network infrastructure
- mobile nodes
- mobile ad hoc networks
- Ad Hoc Network Security
- MANET
- malicious node
- IP networks
- Human Factors
- Human behavior
- fake routing information
- dynamic threshold
- data packets
- composability
- black hole node detection rate
- black hole attack prevention method