280 research outputs found
Recommended from our members
Detecting unauthorized and compromised nodes in mobile ad hoc networks
Security of mobile ad-hoc networks (MANET) has become a more sophisticated problem than security in other networks, due to the open nature and the lack of infrastructure of such networks. In this paper, the security challenges in intrusion detection and authentication are identified and the different types of attacks are discussed. We propose a two-phase detection procedure of nodes that are not authorized for specific services and nodes that have been compromised during their operation in MANET. The detection framework is enabled with the main operations of ad-hoc networking, which are found at the link and network layers. The proposed framework is based on zero knowledge techniques, which are presented through proofs
A Protective Mechanism to Avoid Eavesdropping Attack in MANET
Wireless ad hoc network is self-directed and infrastructure less network. Wireless ad hoc network is particularly inclined due to its basic characteristics, such as open medium, dynamic topology, distributed cooperation, and capability constraint. Routing plays an imperative part in the security of the whole system. Secure transmission of data in wireless ad hoc environment is an imperative concern. Any aggressor get remote flag by using transceiver and without being caught. The objective of this paper is to propose new secure unobservable routing protocol where attacker gets blocked while making spoofing or DOS attacks. Only oblivious message could be gathered by attacker. Proposed protocol will also protect privacy information among network and will detect and block attacking nodes through trust mechanism.
DOI: 10.17762/ijritcc2321-8169.160412
BLACK HOLE ATTACK IN AODV & FRIEND FEATURES UNIQUE EXTRACTION TO DESIGN DETECTION ENGINE FOR INTRUSION DETECTION SYSTEM IN MOBILE ADHOC NETWORK
Ad-hoc network is a collection of nodes that are capable to form dynamically a temporary network without the support of any centralized fixed infrastructure. Since there is no central controller to determine the reliable & secure communication paths in Mobile Adhoc Network, each node in the ad hoc network has to rely on each other in order to forward packets, thus highly cooperative nodes are required to ensure that the initiated data transmission process does not fail. In a mobile ad hoc network (MANET) where security is a crucial issue and they are forced to rely on the neighbor node, trust plays an important role that could improve the number of successful data transmission. Larger the number of trusted nodes, higher successful data communication process rates could be expected. In this paper, Black Hole attack is applied in the network, statistics are collected to design intrusion detection engine for MANET Intrusion Detection System (IDS). Feature extraction and rule inductions are applied to find out the accuracy of detection engine by using support vector machine. In this paper True Positive generated by the detection engine is very high and this is a novel approach in the area of Mobile Adhoc Intrusion detection system
Secure Routing for Mobile Ad hoc Networks
The emergence of the Mobile Ad Hoc Networking (MANET) technology advocates
self-organized wireless interconnection of communication devices that would
either extend or operate in concert with the wired networking infrastructure
or, possibly, evolve to autonomous networks. In either case, the proliferation
of MANET-based applications depends on a multitude of factors, with
trustworthiness being one of the primary challenges to be met. Despite the
existence of well-known security mechanisms, additional vulnerabilities and
features pertinent to this new networking paradigm might render such
traditional solutions inapplicable. In particular, the absence of a central
authorization facility in an open and distributed communication environment is
a major challenge, especially due to the need for cooperative network
operation. In particular, in MANET, any node may compromise the routing
protocol functionality by disrupting the route discovery process. In this
paper, we present a route discovery protocol that mitigates the detrimental
effects of such malicious behavior, as to provide correct connectivity
information. Our protocol guarantees that fabricated, compromised, or replayed
route replies would either be rejected or never reach back the querying node.
Furthermore, the protocol responsiveness is safeguarded under different types
of attacks that exploit the routing protocol itself. The sole requirement of
the proposed scheme is the existence of a security association between the node
initiating the query and the sought destination. Specifically, no assumption is
made regarding the intermediate nodes, which may exhibit arbitrary and
malicious behavior. The scheme is robust in the presence of a number of
non-colluding nodes, and provides accurate routing information in a timely
manner.Comment: arXiv admin note: text overlap with arXiv:1208.3486, arXiv:1303.7300
by other author
Reputation-Based Internet Protocol Security: A Multilayer Security Framework for Mobil Ad Hoc Networks
This research effort examines the theory, application, and results for a Reputation-based Internet Protocol Security (RIPSec) framework that provides security for an ad-hoc network operating in a hostile environment. In RIPSec, protection from external threats is provided in the form of encrypted communication links and encryption-wrapped nodes while internal threats are mitigated by behavior grading that assigns reputations to nodes based on their demonstrated participation in the routing process. Network availability is provided by behavior grading and round-robin multipath routing. If a node behaves faithfully, it earns a positive reputation over time. If a node misbehaves (for any number of reasons, not necessarily intentional), it earns a negative reputation. Each member of the MANET has its own unique and subjective set of Reputation Indexes (RI) that enumerates the perceived reputation of the other MANET nodes. Nodes that desire to send data will eliminate relay nodes they perceive to have a negative reputation during the formulation of a route. A 50-node MANET is simulated with streaming multimedia and varying levels of misbehavior to determine the impact of the framework on network performance. Results of this research were very favorable. Analysis of the simulation data shows the number of routing errors sent in a MANET is reduced by an average of 52% when using RIPSec. The network load is also reduced, decreasing the overall traffic introduced into the MANET and permitting individual nodes to perform more work without overtaxing their limited resources. Finally, throughput is decreased due to larger packet sizes and longer round trips for packets to traverse the MANET, but is still sufficient to pass traffic with high bandwidth requirements (i.e., video and imagery) that is of interest in military networks
A Survey of Security in UAVs and FANETs: Issues, Threats, Analysis of Attacks, and Solutions
Thanks to the rapidly developing technology, unmanned aerial vehicles (UAVs)
are able to complete a number of tasks in cooperation with each other without
need for human intervention. In recent years, UAVs, which are widely utilized
in military missions, have begun to be deployed in civilian applications and
mostly for commercial purposes. With their growing numbers and range of
applications, UAVs are becoming more and more popular; on the other hand, they
are also the target of various threats which can exploit various
vulnerabilities of UAV systems in order to cause destructive effects. It is
therefore critical that security is ensured for UAVs and the networks that
provide communication between UAVs. In this survey, we aimed to present a
comprehensive detailed approach to security by classifying possible attacks
against UAVs and flying ad hoc networks (FANETs). We classified the security
threats into four major categories that make up the basic structure of UAVs;
hardware attacks, software attacks, sensor attacks, and communication attacks.
In addition, countermeasures against these attacks are presented in separate
groups as prevention and detection. In particular, we focus on the security of
FANETs, which face significant security challenges due to their characteristics
and are also vulnerable to insider attacks. Therefore, this survey presents a
review of the security fundamentals for FANETs, and also four different routing
attacks against FANETs are simulated with realistic parameters and then
analyzed. Finally, limitations and open issues are also discussed to direct
future wor
Recommended from our members
Traffic engineering multi-layer optimization for wireless mesh network transmission a campus network routing protocol transmission performance inhancement
This thesis was submitted for the degree of Doctor of Philosophy and awarded by Brunel UniversityThe wireless mesh network is a potential network for the future due to its excellent inherent characteristic for dynamic self-healing, self-configuration and self-organization. It also has the advantage of easy interoperability networking and the ability to form multi-linked ad-hoc networks. It has a decentralized topology, is cheap and highly scalable. Furthermore, its ease in deployment and easy maintenance are other inherent networking qualities. These aforementioned qualities of the wireless mesh network bring advantages to transmission capability of heterogeneous networks. However, transmissions in wireless mesh network create comparative performance based challenges such as congestion, load-balancing, scalability over increasing networks and coverage capacity. Consequently, these challenges and problems in the routing and switching of packets in the wireless mesh network routing protocols led to a proposal on the resolution of these failures with a combination algorithm and a management based security for the network and its transmitted packets. There are equally contentious services like reliability of the network and quality of service for real-time multimedia traffic flows with other challenges such as path computation and selection in the wireless mesh network.
This thesis is therefore a cumulative proposal to the resolution of the outlined challenges and open research areas posed by using wireless mesh network routing protocol. It advances the resolution of these challenges in the mesh environment using a hybrid optimization – traffic engineering, to increase the effectiveness and the reliability of the network. It also proffers a cumulative resolution of the diverse contributions on wireless mesh network routing protocol and transmission. Adaptation and optimization are carried out on the wireless mesh network designed network using traffic engineering mechanism and technique. The research examines the patterns of mesh packet transmission and evaluates the challenges and failures in the mesh network packet transmission. It develops a solution based algorithm for resolutions and proposes the traffic engineering based solution.. These resultant performances and analysis are usually tested and compared over wireless mesh IEEE802.11n or other older proposed documented solution.
This thesis used a carefully designed campus mesh network to show a comparative evaluation of an optimal performance of the mesh nodes and routers over a normal IEE802.11n based wireless domain network to show differentiation by optimization using the created algorithms. Furthermore, the indexes of performance being the metric are used to measure the utility and the reliability, including capacity and throughput at the destination during traffic engineered transmission. In addition, the security of these transmitted data and packets are optimized under a traffic engineered technique. Finally, this thesis offers an understanding to the security contribution using traffic engineering resolution to create a management algorithm for processing and computation of the wireless mesh networks security needs. The results of this thesis confirmed, completed and extended the existing predictions with real measurement
Unified architecture of mobile ad hoc network security (MANS) system
In this dissertation, a unified architecture of Mobile Ad-hoc Network Security (MANS) system is proposed, under which IDS agent, authentication, recovery policy and other policies can be defined formally and explicitly, and are enforced by a uniform architecture. A new authentication model for high-value transactions in cluster-based MANET is also designed in MANS system. This model is motivated by previous works but try to use their beauties and avoid their shortcomings, by using threshold sharing of the certificate signing key within each cluster to distribute the certificate services, and using certificate chain and certificate repository to achieve better scalability, less overhead and better security performance. An Intrusion Detection System is installed in every node, which is responsible for colleting local data from its host node and neighbor nodes within its communication range, pro-processing raw data and periodically broadcasting to its neighborhood, classifying normal or abnormal based on pro-processed data from its host node and neighbor nodes. Security recovery policy in ad hoc networks is the procedure of making a global decision according to messages received from distributed IDS and restore to operational health the whole system if any user or host that conducts the inappropriate, incorrect, or anomalous activities that threaten the connectivity or reliability of the networks and the authenticity of the data traffic in the networks. Finally, quantitative risk assessment model is proposed to numerically evaluate MANS security
Two-tier Intrusion Detection System for Mobile Ad Hoc Networks
Nowadays, a commonly used wireless network (i.e. Wi-Fi) operates with the aid of a fixed
infrastructure (i.e. an access point) to facilitate communication between nodes when they
roam from one location to another. The need for such a fixed supporting infrastructure
limits the adaptability of the wireless network, especially in situations where the
deployment of such an infrastructure is impractical. In addition, Wi-Fi limits nodes'
communication as it only provides facility for mobile nodes to send and receive
information, but not reroute the information across the network. Recent advancements in
computer network introduced a new wireless network, known as a Mobile Ad Hoc
Network (MANET), to overcome these limitations.
MANET has a set of unique characteristics that make it different from other kind of
wireless networks. Often referred as a peer to peer network, such a network does not have
any fixed topology, thus nodes are free to roam anywhere, and could join or leave the
network anytime they desire. Its ability to be setup without the need of any infrastructure is
very useful, especially in geographically constrained environments such as in a military
battlefield or a disaster relief operation. In addition, through its multi hop routing facility,
each node could function as a router, thus communication between nodes could be made
available without the need of a supporting fixed router or an access point. However, these
handy facilities come with big challenges, especially in dealing with the security issues.
This research aims to address MANET security issues by proposing a novel intrusion
detection system that could be used to complement existing prevention mechanisms that
have been proposed to secure such a network.
A comprehensive analysis of attacks and the existing security measures proved that there is
a need for an Intrusion Detection System (IDS) to protect MANETs against security threats.
The analysis also suggested that the existing IDS proposed for MANET are not immune
against a colluding blackmail attack due to the nature of such a network that comprises
autonomous and anonymous nodes. The IDS architecture as proposed in this study utilises
trust relationships between nodes to overcome this nodes' anonymity issue. Through a
friendship mechanism, the problems of false accusations and false alarms caused by
blackmail attackers in global detection and response mechanisms could be eliminated.
The applicability of the friendship concept as well as other proposed mechanisms to solve
MANET IDS related issues have been validated through a set of simulation experiments.
Several MANET settings, which differ from each other based on the network's density
level, the number of initial trusted friends owned by each node, and the duration of the
simulation times, have been used to study the effects of such factors towards the overall
performance of the proposed IDS framework. The results obtained from the experiments
proved that the proposed concepts are capable to at least minimise i f not fully eliminate the
problem currently faced in MANET IDS
- …