The succeeding wireless network is Hybrid Wireless Networks. It can provide Quality of Service
(QoS) requirements in real time transmission for wireless application. But it stream including critical mission
application like military use or emergency recovery. Hybrid wireless networks is unified mobile ad-hoc network
(MANET) and wireless infrastructure networks. It inherits invalid reservation and race condition problem in
Mobile ad-hoc network (MANET). Whereas open medium and wide distribution of node make vulnerable to
malicious attackers in Hybrid wireless networks. How to secure the Quality of Service (QoS) routing in Hybrid
wireless networks. In this paper, we propose a Secure QoS-Oriented Distributed routing protocol (SQOD) to
upgrade the secure Quality of Service (QoS) routing in Hybrid wireless networks. SQOD contain two
contrivances: 1.QoS-Oriented Distributed Routing Protocol (QOD)-to reduce transmission delay, transmission
time. And also increase wireless network transmission throughput. 2. Enhanced Adaptive ACKnowledgment
(EAACK)-implement a new intrusion-detection system for Hybrid wireless networks. It protect Hybrid wireless
networks from attacks that have higher malicious behavior detection rate. Analytical and simulation result
based on the real human mobility mode. SQOD can provide high secure performance in terms of Intrusion detection,overhead, transmission delay.
Hybrid networks is integrate MANETs and infrastructure wireless networks
It have proven to be a better network structure for the next generation networks
It can act Base station and Ad hoc according to the environment conditions
The widespread use of mobile devices the increasing demand for mobile multimedia streaming services
The future of real time need of high Quality of Service (QoS) support in wireless and mobile networking environments
The QoS support reduces end to end transmission delay and enhances throughput to guarantee the seamless communication between mobile devices and wireless infrastructures
Specifically, infrastructure networks improve the scalability of MANETs, while MANETs automatically establish self-organizing networks, extending the coverage of the infrastructure networks
Qo s oriented distributed routing protocols : anna university 2nd review pptAAKASH S
To find a QoS path between source and destination, Which satisfies
The QoS requirements for each admitted connection and
Optimizes the use of network resources
Quality encompasses the data loss, latency, jitter, efficient use of network resources,..
QoS mechanisms for unfairness: managing queuing behavior, shaping traffic, control admission, routing, …
Usually, a hybrid network has widespread base stations
The data transmission in hybrid networks has two features:
An AP can be a source or a destination to any mobile node
It allows a stream to have anycast transmission along multiple transmission paths to its destination through base stations
The number of transmission hops between a mobile node and an AP is small
It enables a source node to connect to an AP through an intermediate node
In this paper introduce the QoS-Oriented Distributed routing protocol(QOD)
This QOD protocol makes five contributions:
QoS-guaranteed neighbor selection algorithm
Distributed packet scheduling algorithm
Mobility-based segment resizing algorithm
Soft-deadline based forwarding scheduling algorithm
Data redundancy elimination based transmission
A SECURE QOS ROUTING PROTCOL FOR HYBRID WIRELESS NETWORKSAAKASH S
A wireless hybrid network is integrates a mobile wireless ad-hoc network and a wireless infrastructure
It proven the better alternative for next generation Wireless network
It popular among critical mission applications like military use or emergency recovery
However, the open medium and wide distribution of nodes make HWN vulnerable to malicious attackers
In this case, it is crucial to develop efficient intrusion-detection mechanisms to protect HWN from attacks
To find a QoS path between source and destination, Which satisfies
The QoS requirements for each admitted connection and
Optimizes the use of network resources
Quality encompasses the data loss, latency, jitter, efficient use of network resources,..
QoS mechanisms for unfairness: managing queuing behavior, shaping traffic, control admission, routing, …
Usually, a hybrid network has widespread base stations
The data transmission in hybrid networks has two features:
An AP can be a source or a destination to any mobile node
It allows a stream to have anycast transmission along multiple transmission paths to its destination through base stations
The number of transmission hops between a mobile node and an AP is small
It enables a source node to connect to an AP through an intermediate node
With the increase of usage of wireless networks for purposes where the nodes are either stationary or minimally mobile, focus is also on increasing the network capacity of wireless networks. One such way is to use non-overlapping multiple channels provided by 802.11 by using multiple interfaces per node. Multiple non overlapped channels exist in the 2.4 GHz and 5 GHz spectrum. Under this scenario, several challenges need to be addressed before all the available channels can be fully utilized.
Hybrid networks is integrate MANETs and infrastructure wireless networks
It have proven to be a better network structure for the next generation networks
It can act Base station and Ad hoc according to the environment conditions
The widespread use of mobile devices the increasing demand for mobile multimedia streaming services
The future of real time need of high Quality of Service (QoS) support in wireless and mobile networking environments
The QoS support reduces end to end transmission delay and enhances throughput to guarantee the seamless communication between mobile devices and wireless infrastructures
Specifically, infrastructure networks improve the scalability of MANETs, while MANETs automatically establish self-organizing networks, extending the coverage of the infrastructure networks
Qo s oriented distributed routing protocols : anna university 2nd review pptAAKASH S
To find a QoS path between source and destination, Which satisfies
The QoS requirements for each admitted connection and
Optimizes the use of network resources
Quality encompasses the data loss, latency, jitter, efficient use of network resources,..
QoS mechanisms for unfairness: managing queuing behavior, shaping traffic, control admission, routing, …
Usually, a hybrid network has widespread base stations
The data transmission in hybrid networks has two features:
An AP can be a source or a destination to any mobile node
It allows a stream to have anycast transmission along multiple transmission paths to its destination through base stations
The number of transmission hops between a mobile node and an AP is small
It enables a source node to connect to an AP through an intermediate node
In this paper introduce the QoS-Oriented Distributed routing protocol(QOD)
This QOD protocol makes five contributions:
QoS-guaranteed neighbor selection algorithm
Distributed packet scheduling algorithm
Mobility-based segment resizing algorithm
Soft-deadline based forwarding scheduling algorithm
Data redundancy elimination based transmission
A SECURE QOS ROUTING PROTCOL FOR HYBRID WIRELESS NETWORKSAAKASH S
A wireless hybrid network is integrates a mobile wireless ad-hoc network and a wireless infrastructure
It proven the better alternative for next generation Wireless network
It popular among critical mission applications like military use or emergency recovery
However, the open medium and wide distribution of nodes make HWN vulnerable to malicious attackers
In this case, it is crucial to develop efficient intrusion-detection mechanisms to protect HWN from attacks
To find a QoS path between source and destination, Which satisfies
The QoS requirements for each admitted connection and
Optimizes the use of network resources
Quality encompasses the data loss, latency, jitter, efficient use of network resources,..
QoS mechanisms for unfairness: managing queuing behavior, shaping traffic, control admission, routing, …
Usually, a hybrid network has widespread base stations
The data transmission in hybrid networks has two features:
An AP can be a source or a destination to any mobile node
It allows a stream to have anycast transmission along multiple transmission paths to its destination through base stations
The number of transmission hops between a mobile node and an AP is small
It enables a source node to connect to an AP through an intermediate node
With the increase of usage of wireless networks for purposes where the nodes are either stationary or minimally mobile, focus is also on increasing the network capacity of wireless networks. One such way is to use non-overlapping multiple channels provided by 802.11 by using multiple interfaces per node. Multiple non overlapped channels exist in the 2.4 GHz and 5 GHz spectrum. Under this scenario, several challenges need to be addressed before all the available channels can be fully utilized.
Design and implementation of new routingIJCNCJournal
Energy consumption is a key element in the Wireless Sensor Networks (WSNs) design. Indeed, sensor nodes are really constrained by energy supply. Hence, how to improve the network lifetime is a crucial and challenging task. Several techniques are available at different levels of the OSI model to maximize the WSN lifetime and especially at the network layer which uses routing strategies to maintain the routes in the network and guarantee reliable communication. In this paper we intend to propose a new protocol called
Combined Energy and Distance Metrics Dynamic Routing Protocol (CEDM-DR). Our new approach considers not only the distance between wireless sensors but also the energy of node acting as a router in order to find the optimal path and achieve a dynamic and adaptive routing.
The performance metrics exploited for the evaluation of our protocol are average energy consumed, network lifetime and packets lost. By comparing our proposed routing strategy to protocol widely used in WSN namely Ad hoc On demand Distance Vector(AODV), simulation results show that CEDM-DR strategy might effectively balance the sensor power consumption and permits accordingly to enhance the network
lifetime. As well, this new protocol yields a noticeable energy saving compared to its counterpart.
A novel routing technique for mobile ad hoc networks (manet)ijngnjournal
Actual network size depends on the application and the protocols developed for the routing for this kind of
networks should be scalable and efficient. Each routing protocol should support small as well as large
scale networks very efficiently. As the number of node increase, it increases the management functionality
of the network. Graph theoretic approach traditionally was applied to networks where nodes are static or
fixed. In this paper, we have applied the graph theoretic routing to MANET where nodes are mobile. Here,
we designed all identical nodes in the cluster except the cluster head and this criterion reduces the
management burden on the network. Each cluster supports a few nodes with a cluster head. The intracluster
connectivity amongst the nodes within the cluster is supported by multi-hop connectivity to ensure
handling mobility in such a way that no service disruption can occur. The inter-cluster connectivity is also
achieved by multi-hop connectivity. However, for inter-cluster communications, only cluster heads are
connected. This paper demonstrates graph theoretic approach produces an optimum multi-hop connectivity
path based on cumulative minimum degree that minimizes the contention and scheduling delay end-toend.
It is applied to both intra-cluster communications as well as inter-cluster communications. The
performance shows that having a multi-hop connectivity for intra-cluster communications is more power
efficient compared to broadcast of information with maximum power coverage. We also showed the total
number of required intermediate nodes in the transmission from source to destination. However, dynamic
behavior of the nodes requires greater understanding of the node degree and mobility at each instance of
time in order to maintain end-to-end QoS for multi-service provisioning. Our simulation results show that
the proposed graph theoretic routing approach will reduce the overall delay and improves the physical
layer data frame transmission.
DATA TRANSPARENT AUTHENTICATION USING QOD IN HYBRID NETWORKSEditor IJMTER
Hybrid networks are next generation of wireless networks that could be a
combination of Mobile wireless adhoc (MANET) networks and Wireless Infrastructure
networks. They are increasingly utilized in wireless communications that are extremely
supporting real time transmission with restricted Quality of Service. Invalid reservation and
race condition issues happens in MANET. In existing system, QoS-Oriented Distributed
routing protocol (QOD) is employed to boost the QoS support capability of hybrid networks,
it transforms the packet routing problem to resource scheduling problem that has 5
algorithms. They are, QoS guaranteed neighbor selection algorithm, Distributed packet
scheduling algorithm, Mobility based segment resizing algorithm, Traffic redundant
elimination algorithm and Data redundancy elimination based transmission algorithm. The
main drawback of hybrid networks is so far examined in minimum transmission hops and has
less beneficial feature with restricted number of mobile access points, mobility speeds, and
mobile workloads and with different network sizes. It will extremely perform on random
way point model and less in real mobility model. This paper present Data Transparent
Authentication to authenticates data streams by adjusting interpacket delay. Data Transparent
Authentication while not Communication overhead is an approach which reduces breakdown
of original information or sends out of band authentication data.
Modified q aware scheduling algorithm for improved fairness in 802.16 j networksIJCNCJournal
Deployment of Multi-hop Relays in WiMax based Cellu
lar Networks is considered as a cost effective
solution to increase the Coverage area of Base Stat
ion and also to improve the Network Capacity with h
igh
quality short links. Scheduling became a challengin
g task in these Multi-hop Relay Wireless Cellular
Networks of IEEE 802.16j standard. H. Chen, X. Xie
and H. Wu proposed a Q-aware Scheduling
Algorithm in which back-pressure flow control mecha
nism is used to reflect current Q size of the Relay
s
and considered high back-pressure links to include
in Concurrent Transmission Scenarios, to maximize t
he
throughput. This focus on high back-pressure links,
leads to starvation of Mobile Stations having low
back-
pressure links, resulting unfairness in some cases.
To remedy this situation, a Fair Link Inclusion (F
LI)
mechanism is applied in Greedy Algorithm of Q-aware
Scheduling Algorithm. Simulation results show that
Modified Q-aware Scheduling Algorithm with FLI mech
anism has reasonable improvement in fairness and
maintaining steady throughput when compared with ex
isting algorithms.
A Survey of Various Routing and Channel Assignment Strategies for MR-MC WMNsijsrd.com
One fundamental problem of WMNs with a limited number of radio interfaces and orthogonal channels is that the performance degrades significantly as the network size grows. This results from increased interference between nodes and diminished spatial reuse over the network. A WMN node needs to share a common channel with each of its neighbours in the communication range, requiring it to set up a virtual link. Moreover, to reduce network interference, a node should minimize the number of neighbours that it shares a common channel with. The objective of a channel assignment strategy is to ensure efficient utilization of the available channels (e.g., by minimizing interference) while maximizing connectivity in the network. However, since these two requirements are conflicting with each other, the goal is to achieve a balance between these two. The major constraints which need to be satisfied by a channel assignment scheme include fixed number of channels in the network, limited number of radios in mesh nodes, common channel between two communicating nodes, and limited channel capacity. Also, a channel assignment scheme should take the amount of traffic load supported by each mesh node into consideration.
ENERGY LOCATION AWARE ROUTING PROTOCOL (ELARP) FOR WIRELESS MULTIMEDIA SENSOR...ijcsit
Wireless Sensor Networks (WSNs)have sensor nodes that sense and extract information from surrounding
environment, processing information locally then transmit it to sink wirelessly. Multimedia data is larger in
volume than scalar data, thus transmitting multimedia data via Wireless Multimedia Sensor Networks
(WMSNs) requires stick constraints on quality of services in terms of energy, throughput and end to end
delay.Multipath routing is to discover multipath during route discovery from source to sink. Discover
multipath and sending data via these different paths improve the bandwidth and decrease the end to end
delay. This paper introduces an Energy Location Aware Routing Protocol (ELARP) which is reactive
multipath routing protocol establishing three paths with awareness of node’s residual energy and distance.
ELARP has experimented with NS2 simulator. The simulation results show that ELARP enhances QoS for
multimedia data in terms of end to end delay and packet delivery ratio.
A QUALITY OF SERVICE ARCHITECTURE FOR RESOURCE PROVISIONING AND RATE CONTROL ...ijasuc
Prioritized flow control is a type of QoS provisioning in which each class is provided a different QoS by
assigning priority to one class over another in terms of allocating resources. It is an effective means to
provide service differentiation to different class of service in mobile ad hoc networks. So the objective is to
achieve a desired level of service to high-priority flows so that the wireless medium is completely utilized
using adaptive rate control. In this paper, we propose to design QoS architecture for Bandwidth
Management and Rate Control in MANET. Our proposed QoS architecture contains an adaptive
bandwidth management technique which measures the available bandwidth at each node in real-time and
it is then propagated on demand by the QoS routing protocol. The source nodes perform call admission
control for different priority of flows based on the bandwidth information provided by the QoS routing.
The network bandwidth utilization is monitored continuously and network congestion is detected in
advance. Then a rate control mechanism is used to regulate best-effort traffic.
EFFICIENT MULTI-PATH PROTOCOL FOR WIRELESS SENSOR NETWORKSijwmn
Wireless sensor networks are useful for streaming multimedia in infrastructure-free and hazardous environments. However, these networks are quite different from their wired counterpart and are composed of nodes with constrained bandwidth and energy. Multiple-path transmission is one of the methods for ensuring QoS routing in both wired and wireless environment. Directed diffusion, a well known wireless sensor network protocol, only routes packets through a single path, which barely meets the throughput requirement of multimedia data. Instead, we propose a multipath algorithm based on directed diffusion that reinforces multiple routes with high link quality and low latency. This algorithm retains the merits of the original directed diffusion algorithms, including its energy efficiency and scalability. A hybrid metric of link quality and latency is used as the criterion for path selection. In order to select disjoint paths, we propose a scheme for reinforced nodes to respond negatively to multiple reinforcement messages. We use the NS-2 simulation tool with video trace generated by Multiple Description Coding (MDC) to evaluate the performance. The results show that our algorithm gives better throughput and delay performance, i.e higher video quality, than standard directed diffusion that transmits over a single path, with low overheads and energy consumption.
Evaluation of Energy Consumption using Receiver–Centric MAC Protocol in Wirel...IJECEIAES
At present day’s wireless sensor networks, obtain a lot consideration to researchers. Maximum number of sensor nodes are scattered that can communicate with all others. Reliable data communication and energy consumption are the mainly significant parameters that are required in wireless sensor networks. Many of MAC protocols have been planned to improve the efficiency more by enhancing the throughput and energy consumption. The majority of the presented medium access control protocols to only make available, reliable data delivery or energy efficiency does not offer together at the same time. In this research work the author proposes a novel approach based on Receiver Centric-MAC is implemented using NS2 simulator. Here, the author focuses on the following parametric measures like - energy consumption, reliability and bandwidth. RC-MAC provides high bandwidth without decreasing energy efficiency. The results show that 0.12% of less energy consumption, reliability improved by 20.86% and bandwidth increased by 27.32% of RC-MAC compared with MAC IEEE 802.11.
Interference Aware Multi-path Routing in Wireless Sensor NetworksRakesh Behera
Routing in wireless sensor networks has been considered an important field of research over the past decade. Wireless sensor network essentially consists of data Sensor Nodes and Video Sensor Nodes, which senses both sound and motion of events. Single path routing protocol has been used for route discovery. Though this protocol reduces computation complexity and resource utilization, there are some disadvantages like reduced network throughput, network performance, increased traffic load and delay in data delivery. To overcome these drawbacks a new protocol called Interference Aware Multi-path Routing(IAMR) is proposed to improve the reliability of data transmission, fault-tolerance, Quality of Service. Here, the traffic intersection spread out among the multiple paths. This technique is applied between the sources and sink to reduce routing overhead and energy consumption. The proposed protocol is simulated using NS2
Reduce Handover Delay Using the HSBCC Based Buffer Over Flow In Wimax Networkinventionjournals
In wireless networks to improve the competence for event account. Due to the in complete transmission size of nodes, a single path often cannot meet the condition of data transmission. Consequently, multipath show is needed. However, not every path originate by multipath routing algorithms maybe appropriate for conveying image, because a extended routing pathway with a long end to end show delay may not satisfied the time constraint. Furthermore, each data stream includes two kinds of material data handover. We have coming a novel explicit rate-based congestion control method, for supportive requests hand over process. Handover Streaming based Congestion Control (HSBCC), a new adaptive media handover streaming congestion organization in which the assembly packet broadcast rate is adjusted rendering to the active bandwidth share of the connection. They prepare not maintain or continually inform their route tables with the newest route in network. If a node requirements to send a pack to another node then this protocol explorations for the route in an on-demand method and begins the joining in order to communicate and receive the packet. The route detection usually happens by flooding the route application packets throughout the network. It makes sense to simply disregard a packet loss due to random frequency errors than to multiplicatively reduction the current transport rate and it is more suitable to periodically investigation the network during interruption period for a prompt retrieval than to slow down and exponentially increase the retransmission timer.
Efficient and stable route selection by using cross layer concept for highly...Roopali Singh
Efficient and stable route selection by using cross layer concept for highly mobile network with predictive features by Rupali Singh, Gajendra Singh Dhakad
published in International Journal of Research & Technology, Volume 3, Issue 4_November_2015
A Cross-Layer Based Multipath Routing Protocol To Improve QoS In Mobile Adhoc...IDES Editor
In Mobile ad hoc networks, due to the high packet loss rates
and frequent topological changes, the unbalanced transport
layer and reserved amount of traffic is carried out by the
network. In a QoS based routing metric for MANETs, it is
necessary to combine the minimum available bandwidth and
end-to-end delay along with the congestion around a link. In
this paper, a cross layer based multipath routing (CBMR)
protocol to improve QoS in mobile ad hoc networks to allot
weights to individual links, depending on the metrics link
quality, channel quality and end-to-end delay is developed. In
order to validate load balancing and interference between the
links using the same channel, the individual link weights are
integrated into a routing metric. Therefore, the weight value
helps the routing protocol to avoid the routing traffic through
the congested area hence the traffic is balanced and the
network capacity is improved. Then the proportion of traffic
to be routed to each neighbor is selected to execute routing
such that the weight of the node is a minimum. We also
propose an enhanced TCP congestion control mechanism for
wireless networks, based on a cross-layer scheme. By our
simulation results, the robustness of our protocol achieves
increased packet delivery ratio with reduced latency was
demonstrated.
Mtadf multi hop traffic aware data for warding for congestion control in wir...ijwmn
In the past few years there is a remarkable change in the field of wireless sensor networks. Congestion occurs when there is a heavy traffic in the network. The heavy traffic in the network leads to wastage of energy and packet loss. Traffic Aware Dynamic Routing algorithm mitigates congestion by using one hop neighbor routing, hence throughput of the network is low. This paper proposed a Multi hop based Data Forwarding Technique to mitigate congestion. Queue length field and depth potential field play a major role to divert the traffic in the network to the alternate paths. The high traffic load leads to data queue overflow in the sensor nodes, these results in loss of important information about important events. Multi hop Traffic-Aware Dynamic Routing algorithm addresses congestion using depth potential field and queue length potential field. The algorithm forwards data packets around the congestion areas and scatters the excessive along multiple paths. The nodes with less load are efficiently utilized in response to congestion. The main aspect of the algorithm is to construct two independent potential fields using depth and queue length. Queue length field solves the traffic-aware problem. Depth field creates a backbone to forward packets to the sink. Both fields are combined to yield a hybrid potential field to make dynamic decision for data forwarding. Simulations are conducted to evaluate the performance of our proposed algorithm and our proposed scheme performs better compared to previous work.
Detecting of routng misbehavion in hybrid wireless networks used and acknowle...AAKASH S
The succeeding wireless network is Hybrid Wireless Networks. It can provide Quality of Service (QoS) requirements in real time
transmission for wireless application. But it stream including critical mission application like military use or emergency
recovery. Hybrid wireless networks is unified mobile ad-hoc network (MANET) and wireless infrastructure networks. It inherits
invalid reservation and race condition problem in Mobile ad-hoc network (MANET). Whereas open medium and wide
distribution of node make vulnerable to malicious attackers in Hybrid wireless networks. How to secure routing in Hybrid
wireless networks. In this paper, we propose a Enhanced Adaptive ACKnowledgment (EAACK)-implement a new intrusiondetection
system for Hybrid wireless networks. It protect Hybrid wireless networks from attacks that have higher malicious
behavior detection rate. Analytical and simulation result based on the real human mobility mode. EAACK can provide high secure performance in terms of Intrusion-detection, overhead, transmission delay
International Journal of Computer Science, Engineering and Information Techno...ijcseit
International Journal of Computer Science, Engineering and Information Technology (IJCSEIT) will provide an excellent international forum for sharing knowledge and results in theory, methodology and applications of Computer Science, Engineering and Information Technology. The Journal looks for significant contributions to all major fields of the Computer Science and Information Technology in theoretical and practical aspects. The aim of the Journal is to provide a platform to the researchers and practitioners from both academia as well as industry to meet and share cutting-edge development in the field.
Candidate solutions to improve Wireless Mesh Networks WMNs performance to mee...ijcseit
96% market share of existing Smart Grid network installations is wireless mesh networks [1]. The paper starts by justifying the selection of WMNs as opposed to any other communication technology based on quantifying the bandwidth/latency/QoS constraints of a number of Smart Grid applications. The main objective of this paper, however, is to discuss some optimization techniques that found in the literature and can be implemented to overcome some of the challenges currently being faced by WMNs deployment in Smart Grid’s NANs. Hybrid WMN (HWMN) is proposed as an optimization on the topology level to leverage WMNs convergence. Distributed Autonomous Data Routing DADR, multigate and diversity routing are optimizations on the protocol level to minimize the down time of WMNs. Cognitive Radio is investigated as an optimization on the physical level. The paper also explores the feasibility of using Wireless Software Defined Networks WSDN to improve the overall visibility and manageability of WMNs
Design and implementation of new routingIJCNCJournal
Energy consumption is a key element in the Wireless Sensor Networks (WSNs) design. Indeed, sensor nodes are really constrained by energy supply. Hence, how to improve the network lifetime is a crucial and challenging task. Several techniques are available at different levels of the OSI model to maximize the WSN lifetime and especially at the network layer which uses routing strategies to maintain the routes in the network and guarantee reliable communication. In this paper we intend to propose a new protocol called
Combined Energy and Distance Metrics Dynamic Routing Protocol (CEDM-DR). Our new approach considers not only the distance between wireless sensors but also the energy of node acting as a router in order to find the optimal path and achieve a dynamic and adaptive routing.
The performance metrics exploited for the evaluation of our protocol are average energy consumed, network lifetime and packets lost. By comparing our proposed routing strategy to protocol widely used in WSN namely Ad hoc On demand Distance Vector(AODV), simulation results show that CEDM-DR strategy might effectively balance the sensor power consumption and permits accordingly to enhance the network
lifetime. As well, this new protocol yields a noticeable energy saving compared to its counterpart.
A novel routing technique for mobile ad hoc networks (manet)ijngnjournal
Actual network size depends on the application and the protocols developed for the routing for this kind of
networks should be scalable and efficient. Each routing protocol should support small as well as large
scale networks very efficiently. As the number of node increase, it increases the management functionality
of the network. Graph theoretic approach traditionally was applied to networks where nodes are static or
fixed. In this paper, we have applied the graph theoretic routing to MANET where nodes are mobile. Here,
we designed all identical nodes in the cluster except the cluster head and this criterion reduces the
management burden on the network. Each cluster supports a few nodes with a cluster head. The intracluster
connectivity amongst the nodes within the cluster is supported by multi-hop connectivity to ensure
handling mobility in such a way that no service disruption can occur. The inter-cluster connectivity is also
achieved by multi-hop connectivity. However, for inter-cluster communications, only cluster heads are
connected. This paper demonstrates graph theoretic approach produces an optimum multi-hop connectivity
path based on cumulative minimum degree that minimizes the contention and scheduling delay end-toend.
It is applied to both intra-cluster communications as well as inter-cluster communications. The
performance shows that having a multi-hop connectivity for intra-cluster communications is more power
efficient compared to broadcast of information with maximum power coverage. We also showed the total
number of required intermediate nodes in the transmission from source to destination. However, dynamic
behavior of the nodes requires greater understanding of the node degree and mobility at each instance of
time in order to maintain end-to-end QoS for multi-service provisioning. Our simulation results show that
the proposed graph theoretic routing approach will reduce the overall delay and improves the physical
layer data frame transmission.
DATA TRANSPARENT AUTHENTICATION USING QOD IN HYBRID NETWORKSEditor IJMTER
Hybrid networks are next generation of wireless networks that could be a
combination of Mobile wireless adhoc (MANET) networks and Wireless Infrastructure
networks. They are increasingly utilized in wireless communications that are extremely
supporting real time transmission with restricted Quality of Service. Invalid reservation and
race condition issues happens in MANET. In existing system, QoS-Oriented Distributed
routing protocol (QOD) is employed to boost the QoS support capability of hybrid networks,
it transforms the packet routing problem to resource scheduling problem that has 5
algorithms. They are, QoS guaranteed neighbor selection algorithm, Distributed packet
scheduling algorithm, Mobility based segment resizing algorithm, Traffic redundant
elimination algorithm and Data redundancy elimination based transmission algorithm. The
main drawback of hybrid networks is so far examined in minimum transmission hops and has
less beneficial feature with restricted number of mobile access points, mobility speeds, and
mobile workloads and with different network sizes. It will extremely perform on random
way point model and less in real mobility model. This paper present Data Transparent
Authentication to authenticates data streams by adjusting interpacket delay. Data Transparent
Authentication while not Communication overhead is an approach which reduces breakdown
of original information or sends out of band authentication data.
Modified q aware scheduling algorithm for improved fairness in 802.16 j networksIJCNCJournal
Deployment of Multi-hop Relays in WiMax based Cellu
lar Networks is considered as a cost effective
solution to increase the Coverage area of Base Stat
ion and also to improve the Network Capacity with h
igh
quality short links. Scheduling became a challengin
g task in these Multi-hop Relay Wireless Cellular
Networks of IEEE 802.16j standard. H. Chen, X. Xie
and H. Wu proposed a Q-aware Scheduling
Algorithm in which back-pressure flow control mecha
nism is used to reflect current Q size of the Relay
s
and considered high back-pressure links to include
in Concurrent Transmission Scenarios, to maximize t
he
throughput. This focus on high back-pressure links,
leads to starvation of Mobile Stations having low
back-
pressure links, resulting unfairness in some cases.
To remedy this situation, a Fair Link Inclusion (F
LI)
mechanism is applied in Greedy Algorithm of Q-aware
Scheduling Algorithm. Simulation results show that
Modified Q-aware Scheduling Algorithm with FLI mech
anism has reasonable improvement in fairness and
maintaining steady throughput when compared with ex
isting algorithms.
A Survey of Various Routing and Channel Assignment Strategies for MR-MC WMNsijsrd.com
One fundamental problem of WMNs with a limited number of radio interfaces and orthogonal channels is that the performance degrades significantly as the network size grows. This results from increased interference between nodes and diminished spatial reuse over the network. A WMN node needs to share a common channel with each of its neighbours in the communication range, requiring it to set up a virtual link. Moreover, to reduce network interference, a node should minimize the number of neighbours that it shares a common channel with. The objective of a channel assignment strategy is to ensure efficient utilization of the available channels (e.g., by minimizing interference) while maximizing connectivity in the network. However, since these two requirements are conflicting with each other, the goal is to achieve a balance between these two. The major constraints which need to be satisfied by a channel assignment scheme include fixed number of channels in the network, limited number of radios in mesh nodes, common channel between two communicating nodes, and limited channel capacity. Also, a channel assignment scheme should take the amount of traffic load supported by each mesh node into consideration.
ENERGY LOCATION AWARE ROUTING PROTOCOL (ELARP) FOR WIRELESS MULTIMEDIA SENSOR...ijcsit
Wireless Sensor Networks (WSNs)have sensor nodes that sense and extract information from surrounding
environment, processing information locally then transmit it to sink wirelessly. Multimedia data is larger in
volume than scalar data, thus transmitting multimedia data via Wireless Multimedia Sensor Networks
(WMSNs) requires stick constraints on quality of services in terms of energy, throughput and end to end
delay.Multipath routing is to discover multipath during route discovery from source to sink. Discover
multipath and sending data via these different paths improve the bandwidth and decrease the end to end
delay. This paper introduces an Energy Location Aware Routing Protocol (ELARP) which is reactive
multipath routing protocol establishing three paths with awareness of node’s residual energy and distance.
ELARP has experimented with NS2 simulator. The simulation results show that ELARP enhances QoS for
multimedia data in terms of end to end delay and packet delivery ratio.
A QUALITY OF SERVICE ARCHITECTURE FOR RESOURCE PROVISIONING AND RATE CONTROL ...ijasuc
Prioritized flow control is a type of QoS provisioning in which each class is provided a different QoS by
assigning priority to one class over another in terms of allocating resources. It is an effective means to
provide service differentiation to different class of service in mobile ad hoc networks. So the objective is to
achieve a desired level of service to high-priority flows so that the wireless medium is completely utilized
using adaptive rate control. In this paper, we propose to design QoS architecture for Bandwidth
Management and Rate Control in MANET. Our proposed QoS architecture contains an adaptive
bandwidth management technique which measures the available bandwidth at each node in real-time and
it is then propagated on demand by the QoS routing protocol. The source nodes perform call admission
control for different priority of flows based on the bandwidth information provided by the QoS routing.
The network bandwidth utilization is monitored continuously and network congestion is detected in
advance. Then a rate control mechanism is used to regulate best-effort traffic.
EFFICIENT MULTI-PATH PROTOCOL FOR WIRELESS SENSOR NETWORKSijwmn
Wireless sensor networks are useful for streaming multimedia in infrastructure-free and hazardous environments. However, these networks are quite different from their wired counterpart and are composed of nodes with constrained bandwidth and energy. Multiple-path transmission is one of the methods for ensuring QoS routing in both wired and wireless environment. Directed diffusion, a well known wireless sensor network protocol, only routes packets through a single path, which barely meets the throughput requirement of multimedia data. Instead, we propose a multipath algorithm based on directed diffusion that reinforces multiple routes with high link quality and low latency. This algorithm retains the merits of the original directed diffusion algorithms, including its energy efficiency and scalability. A hybrid metric of link quality and latency is used as the criterion for path selection. In order to select disjoint paths, we propose a scheme for reinforced nodes to respond negatively to multiple reinforcement messages. We use the NS-2 simulation tool with video trace generated by Multiple Description Coding (MDC) to evaluate the performance. The results show that our algorithm gives better throughput and delay performance, i.e higher video quality, than standard directed diffusion that transmits over a single path, with low overheads and energy consumption.
Evaluation of Energy Consumption using Receiver–Centric MAC Protocol in Wirel...IJECEIAES
At present day’s wireless sensor networks, obtain a lot consideration to researchers. Maximum number of sensor nodes are scattered that can communicate with all others. Reliable data communication and energy consumption are the mainly significant parameters that are required in wireless sensor networks. Many of MAC protocols have been planned to improve the efficiency more by enhancing the throughput and energy consumption. The majority of the presented medium access control protocols to only make available, reliable data delivery or energy efficiency does not offer together at the same time. In this research work the author proposes a novel approach based on Receiver Centric-MAC is implemented using NS2 simulator. Here, the author focuses on the following parametric measures like - energy consumption, reliability and bandwidth. RC-MAC provides high bandwidth without decreasing energy efficiency. The results show that 0.12% of less energy consumption, reliability improved by 20.86% and bandwidth increased by 27.32% of RC-MAC compared with MAC IEEE 802.11.
Interference Aware Multi-path Routing in Wireless Sensor NetworksRakesh Behera
Routing in wireless sensor networks has been considered an important field of research over the past decade. Wireless sensor network essentially consists of data Sensor Nodes and Video Sensor Nodes, which senses both sound and motion of events. Single path routing protocol has been used for route discovery. Though this protocol reduces computation complexity and resource utilization, there are some disadvantages like reduced network throughput, network performance, increased traffic load and delay in data delivery. To overcome these drawbacks a new protocol called Interference Aware Multi-path Routing(IAMR) is proposed to improve the reliability of data transmission, fault-tolerance, Quality of Service. Here, the traffic intersection spread out among the multiple paths. This technique is applied between the sources and sink to reduce routing overhead and energy consumption. The proposed protocol is simulated using NS2
Reduce Handover Delay Using the HSBCC Based Buffer Over Flow In Wimax Networkinventionjournals
In wireless networks to improve the competence for event account. Due to the in complete transmission size of nodes, a single path often cannot meet the condition of data transmission. Consequently, multipath show is needed. However, not every path originate by multipath routing algorithms maybe appropriate for conveying image, because a extended routing pathway with a long end to end show delay may not satisfied the time constraint. Furthermore, each data stream includes two kinds of material data handover. We have coming a novel explicit rate-based congestion control method, for supportive requests hand over process. Handover Streaming based Congestion Control (HSBCC), a new adaptive media handover streaming congestion organization in which the assembly packet broadcast rate is adjusted rendering to the active bandwidth share of the connection. They prepare not maintain or continually inform their route tables with the newest route in network. If a node requirements to send a pack to another node then this protocol explorations for the route in an on-demand method and begins the joining in order to communicate and receive the packet. The route detection usually happens by flooding the route application packets throughout the network. It makes sense to simply disregard a packet loss due to random frequency errors than to multiplicatively reduction the current transport rate and it is more suitable to periodically investigation the network during interruption period for a prompt retrieval than to slow down and exponentially increase the retransmission timer.
Efficient and stable route selection by using cross layer concept for highly...Roopali Singh
Efficient and stable route selection by using cross layer concept for highly mobile network with predictive features by Rupali Singh, Gajendra Singh Dhakad
published in International Journal of Research & Technology, Volume 3, Issue 4_November_2015
A Cross-Layer Based Multipath Routing Protocol To Improve QoS In Mobile Adhoc...IDES Editor
In Mobile ad hoc networks, due to the high packet loss rates
and frequent topological changes, the unbalanced transport
layer and reserved amount of traffic is carried out by the
network. In a QoS based routing metric for MANETs, it is
necessary to combine the minimum available bandwidth and
end-to-end delay along with the congestion around a link. In
this paper, a cross layer based multipath routing (CBMR)
protocol to improve QoS in mobile ad hoc networks to allot
weights to individual links, depending on the metrics link
quality, channel quality and end-to-end delay is developed. In
order to validate load balancing and interference between the
links using the same channel, the individual link weights are
integrated into a routing metric. Therefore, the weight value
helps the routing protocol to avoid the routing traffic through
the congested area hence the traffic is balanced and the
network capacity is improved. Then the proportion of traffic
to be routed to each neighbor is selected to execute routing
such that the weight of the node is a minimum. We also
propose an enhanced TCP congestion control mechanism for
wireless networks, based on a cross-layer scheme. By our
simulation results, the robustness of our protocol achieves
increased packet delivery ratio with reduced latency was
demonstrated.
Mtadf multi hop traffic aware data for warding for congestion control in wir...ijwmn
In the past few years there is a remarkable change in the field of wireless sensor networks. Congestion occurs when there is a heavy traffic in the network. The heavy traffic in the network leads to wastage of energy and packet loss. Traffic Aware Dynamic Routing algorithm mitigates congestion by using one hop neighbor routing, hence throughput of the network is low. This paper proposed a Multi hop based Data Forwarding Technique to mitigate congestion. Queue length field and depth potential field play a major role to divert the traffic in the network to the alternate paths. The high traffic load leads to data queue overflow in the sensor nodes, these results in loss of important information about important events. Multi hop Traffic-Aware Dynamic Routing algorithm addresses congestion using depth potential field and queue length potential field. The algorithm forwards data packets around the congestion areas and scatters the excessive along multiple paths. The nodes with less load are efficiently utilized in response to congestion. The main aspect of the algorithm is to construct two independent potential fields using depth and queue length. Queue length field solves the traffic-aware problem. Depth field creates a backbone to forward packets to the sink. Both fields are combined to yield a hybrid potential field to make dynamic decision for data forwarding. Simulations are conducted to evaluate the performance of our proposed algorithm and our proposed scheme performs better compared to previous work.
Detecting of routng misbehavion in hybrid wireless networks used and acknowle...AAKASH S
The succeeding wireless network is Hybrid Wireless Networks. It can provide Quality of Service (QoS) requirements in real time
transmission for wireless application. But it stream including critical mission application like military use or emergency
recovery. Hybrid wireless networks is unified mobile ad-hoc network (MANET) and wireless infrastructure networks. It inherits
invalid reservation and race condition problem in Mobile ad-hoc network (MANET). Whereas open medium and wide
distribution of node make vulnerable to malicious attackers in Hybrid wireless networks. How to secure routing in Hybrid
wireless networks. In this paper, we propose a Enhanced Adaptive ACKnowledgment (EAACK)-implement a new intrusiondetection
system for Hybrid wireless networks. It protect Hybrid wireless networks from attacks that have higher malicious
behavior detection rate. Analytical and simulation result based on the real human mobility mode. EAACK can provide high secure performance in terms of Intrusion-detection, overhead, transmission delay
International Journal of Computer Science, Engineering and Information Techno...ijcseit
International Journal of Computer Science, Engineering and Information Technology (IJCSEIT) will provide an excellent international forum for sharing knowledge and results in theory, methodology and applications of Computer Science, Engineering and Information Technology. The Journal looks for significant contributions to all major fields of the Computer Science and Information Technology in theoretical and practical aspects. The aim of the Journal is to provide a platform to the researchers and practitioners from both academia as well as industry to meet and share cutting-edge development in the field.
Candidate solutions to improve Wireless Mesh Networks WMNs performance to mee...ijcseit
96% market share of existing Smart Grid network installations is wireless mesh networks [1]. The paper starts by justifying the selection of WMNs as opposed to any other communication technology based on quantifying the bandwidth/latency/QoS constraints of a number of Smart Grid applications. The main objective of this paper, however, is to discuss some optimization techniques that found in the literature and can be implemented to overcome some of the challenges currently being faced by WMNs deployment in Smart Grid’s NANs. Hybrid WMN (HWMN) is proposed as an optimization on the topology level to leverage WMNs convergence. Distributed Autonomous Data Routing DADR, multigate and diversity routing are optimizations on the protocol level to minimize the down time of WMNs. Cognitive Radio is investigated as an optimization on the physical level. The paper also explores the feasibility of using Wireless Software Defined Networks WSDN to improve the overall visibility and manageability of WMNs
A Mobile Ad hoc Network generally called MANET[1][2] consists of a set of mobile nodes equipped with wireless communication interfaces, forming a network without resorting to any fixed infrastructure or centralized administration, this research topic has attracted increasing interest among researchers given their characteristics and potential applications and subsets (VANET[3], WSN[4]). This paper treats both scientific and technological research aimed at presenting an in-depth study of these networks and evaluating solutions to address their problems, particularly that of routing, in order to facilitate their deployment.
IEAACK-Secure Detection System For Packet-Dropping Attack In Manetsijiert bestjournal
MANET is a collection of wireless independent nodes along with transmitter and receiver that communicate with each other via bidirectional link. The self-configuring ability of nodes in MANET made it popular among critical mission applic ations like military use or emergency recovery. But due to the changing topology and open access MANET become vulnerable to problems (such as receiver collision,limited trans mission power,false misbehaviour report,packet dropping) To solve this problem we use three approaches of Intrusion Detection System (IDS) such as Watchdog,TWOACK,and AACK. We have proposed a new protocol design for MANET that is IDS based EAACK which cons ist of ACK,S-ACK and MRA for solving all the problems of Watchdog approach in ID S of MANET.
Tight Coupling Internetworking Between UMTS and WLAN: Challenges, Design Arch...CSCJournals
To provide seamless internet connectivity anywhere at any time to the mobile users, there is a strong demand for the integration of wireless access networks for all-IP based Next Generation Networks (NGN). The Wireless Local Area Network (WLAN) is capable of providing high data rate at low cost. However, its services are limited to a small geographical area. Universal Mobile Telecommunications System (UMTS) networks provide global coverage, however, cost is high and the provided data rate do not fulfill the requirements of bandwidth intensive applications. By integrating these two promising technologies; UMTS and WLAN several benefits can be achieved, i.e., load balancing, extension of coverage area, better Quality of Service (QoS), improved security features, etc. Therefore, the integration of these two technologies can provide ubiquitous connectivity and high data rate at low cost to wireless clients. In this paper different integration mechanisms of UMTS and WLAN are investigated. More precisely, an integrated mechanism for the integration of UMTS and WLAN based on two different variations of tight coupling, i.e., interconnecting WLAN with Serving GPRS Support Node (SGSN) and Gateway GPRS Support Node (GGSN) is designed and analyzed. The simulated results reveal that the GGSN-WLAN integration performance is better than the SGSN-WLAN integration for all the applied applications and measurement parameters.
THE UWB SOLUTION FOR MULTIMEDIA TRAFFIC IN WIRELESS SENSOR NETWORKSijwmn
Several researches are focused on the QoS (Quality of Service) and Energy consumption in wireless Multimedia Sensor Networks. Those research projects invest in theory and practice in order to extend the spectrum of use of norms, standards and technologies which are emerged in wireless communications.
The performance of these technologies is strongly related to domains of use and limitations of their characteristics. In this paper, we give a comparison of ZigBee technology, most widely used in sensor networks, and UWB (Ultra Wide Band) which presents itself as competitor that present in these work better results for audiovisual applications with medium-range and high throughput.
Improvement of quality of service parameters using reinvented fsmac protocol ...eSAT Journals
Abstract Now-a-days Wireless Sensor Networks (WSNs) have been used in a various applications including military and security monitoring, industrial control, health monitoring, home automation, intelligent agriculture and environmental sensing. The shared and easy to access medium is undoubtedly the biggest advantage of wireless networks. The shared nature of the medium in wireless Sensor Networks makes it easy for an attacker to launch a Denial of Service (DoS) attack. These attacks are happening to stop the legitimate node from accessing resources. There are many occasions where the attack can be much easier for an attacker. For example, in carrier sensing based networks (a) the transmissions at the sender are deferred because the medium is sensed to be busy, and/or (b) the reception at the receiver is interfered with due to the jamming signals. Both these effects degrade the wireless network performance significantly. As a result causes degradation in Quality-of-Service (QoS) of a sensor network. In proposed paper, Fuzzy Logic Secure Media Access Control (FSMAC) Protocol is reinvented using new intrusion detection parameter. These two parameters are Number of time channel sensed free and variation in Channel sensed period. Performance characteristics are measured in terms of successful data transmission rate and throughput of the network. Keywords: Wireless Sensor Networks, Denial-of-Service Attack, Quality of Service, Reinvented FSMAC Protocol.
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology.
Quantative Analysis and Evaluation of Topology Control Schemes for Utilizing ...ijsrd.com
By virtue of their robustness, cost-effectiveness, self-organizing and self-configuring nature, WMNs have emerged as a new network paradigm for a wide range of applications, such as public safety and emergency response communications, intelligent transportation systems, and community networks. It is anticipated that WMNs will not only resolve the limitations of wireless ad hoc networks, local area networks (WLANs), personal area networks (WPANs), and metropolitan area networks (WMANs) but also significantly improve such networks’ performance. One fundamental problem of WMNs with a limited number of radio interfaces and orthogonal channels is that the performance degrades significantly as the network size grows. This results from increased interference between nodes and diminished spatial reuse over the network. In this paper, it is proposed to evaluate the performance of two different channel assignment schemes namely common channel assignment (CCA) and centralized tabu-based search algorithm under WCETT routing protocols for varying traffic load in terms of packet delivery ratio, throughput, average end to end delay and routing overhead using NS2 network simulator. WCETT protocol uses the weighted sum of the cumulative expected transmission time and the maximal value of efficient channels among all channels.
Architecture harmonization between cloud radio access network and fog networkredpel dot com
Architecture harmonization between cloud radio access network and fog network
for more ieee paper / full abstract / implementation , just visit www.redpel.com
Analysis of Handoff techniques used for hybrid networks: cellular/WLAN IJORCS
Most real life networks are hybrid networks. A hybrid network combines the best features of two or more networks. In networking terminology, a hybrid network according to “Information Technology control and Audit” are reliable and versatile. They provide large numbers of connections and data transmission paths to users. These hybrid networks may be treated as network nodes for analysis purpose. The two radio access technologies (RATs) are considered with cellular/WLAN depending on whether it is voice/ data, video. For observing practical result, some setups are required in laboratory which includes interface from personal computer to mobile terminal and vice-versa. The network simulator (Ns-2) is used for analysis purpose. The results shows the parameters like energy good put, Bandwidth utilization, packet delivery ratio, energy good put and energy consumed are improved after using hybrid networks.
A Protocol/Scheme to mitigate DDos attacks using AODV Protocolijsrd.com
MANET(Mobile Adhoc Network) is an emerging technology and have great strength to be applied in battlefields and commercial applications such as traffic surveillance, MANET is infrastructure less without any centralized controller. Each node contains routing capability. Each device in a MANET is independent and can move in any direction. One of the major challenges wireless mobile ad-hoc networks face today is security, because no central controller exists. MANETs are a kind of wireless ad hoc networks that usually has a routable networking environment on top of a link layer ad hoc network. There are many security attacks in MANET and DDoS (Distributed denial of service) is one of them. Our main objective is seeing the effect of DDoS in routing, Packet Drop Rate, End to End Delay, no. of Collisions due to attack on network. And with these parameters and many more also we build secure IDS to detect this kind of attack and block it. In this thesis main objective is to study and implement the security against the DDOS attack. DDoS (Distributed Denial of Service) attacks in the networks are required to be prevented, as early as possible before reaching the victim node. DDos attack causes depletion of the network resources such as network bandwidth, disk space, CPU time, data structures, and network connections. Dealing with DDoS attacks is difficult due to their properties such as dynamic attack rates, big scale of botnets. DDos attack become more difficult to handle if it occurs in wireless network because of the properties of ad hoc network such as dynamic topologies, low battery life, Unicast routing Multicast routing , Frequency of updates or network overhead , scalability , mobile agent based routing ,power aware routing etc. Thus it is better to prevent the distributed denial of service attack rather than allowing it to occur and then taking the necessary steps to handle it. The following quantitative metrics Packet Delivery Ratio (PDR), Number of Collisions are to be used to evaluate the performance of DDoS attacks and their prevention techniques under different combinations in the fixed mobile ad hoc network. In our simulation, the effect of DDoS attacks under different number of attackers is studied.
An overview of contemporary security problems in wireless mesh networksiosrjce
Wireless mesh network (WMN) is a new wireless networking concept. Unlike traditional
wireless networks, Wireless Mesh Networks do not rely on any fixed communications. As an
alternative, hosts rely on each other to keep the network connected. Wireless Internet service
providers are choosing WMNs to offer Internet connectivity, as it allows a fast, simple and
inexpensive network use. One major challenge in design of these networks is their vulnerability to
security attacks. In this paper, principal contemporary security issues for wireless mesh networks
have been investigated. Identification of the threats a Wireless mesh network faces and the security
goals to be realized are described. The new challenges and opportunities posed by this new
networking environment are dealt with and explored approaches to secure its communication.
A QoS Based MAC Protocol For Wireless Ad-hoc NetworkIJNSA Journal
Multimedia communication over wireless Ad-hoc networks has become the driving technology for many of the important applications, experiencing dramatic market growth and promising revolutionary experiences in personal communication, gaming, entertainment, military, security, environment monitoring, and more. The advances in wireless communications and growth of real-time applications have necessitated the development of wireless networks that can support high Quality of Service (QoS) and power control. A node in an ad hoc network is normally battery operated which poses a huge constraint on the power consumption of such a node. Hence, designing a power efficient MAC protocol for ad hoc wireless networks is a major challenge. In this paper, we propose a CDMA based power controlled medium access protocol for mobile and ad hoc network (MNA). The protocol conserves power and provides QoS guarantees for multimedia traffics. In that network one of the fundamental challenger in MANETs is how to increase the overall network throughputs well as reading the delay while maintaining how energy consumption for packet processing in communication. simulation results shows that the performance of the protocol with increase in traffic while QoS is better in terms of Energy consumption, throughput, & communication delay than existing protocol.
Similar to A secure qos distributed routing protocol for hybrid wireless networks (20)
The migration to wireless network from wired network
has been a global trend in the past few decades. The mobility
and scalability brought by wireless network made it possible in
many applications. Among all the contemporary wireless networks,
Mobile Ad hoc NETwork (MANET) is one of the most
important and unique applications. On the contrary to traditional
network architecture, MANET does not require a fixed network
infrastructure; every single node works as both a transmitter and
a receiver. Nodes communicate directly with each other when they
are both within the same communication range. Otherwise, they
rely on their neighbors to relay messages. The self-configuring
ability of nodes in MANET made it popular among criticalmission
applications like military use or emergency recovery. However,
the open medium and wide distribution of nodes make MANET
vulnerable to malicious attackers. In this case, it is crucial to
develop efficient intrusion-detection mechanisms to protect
MANET from attacks. With the improvements of the technology
and cut in hardware costs, we are witnessing a current trend of
expanding MANETs into industrial applications. To adjust to such
trend, we strongly believe that it is vital to address its potential
security issues. In this paper, we propose and implement a new
intrusion-detection system named Enhanced Adaptive ACKnowledgment
(EAACK) specially designed for MANETs. Compared
to contemporary approaches, EAACK demonstrates higher malicious-
behavior-detection rates in certain circumstances while does
not greatly affect the network performances.
What is IDS?
Software or hardware device
Monitors network or hosts for:
Malware (viruses, trojans, worms)
Network attacks via vulnerable ports
Host based attacks, e.g. privilege escalation
What is in an IDS?
An IDS normally consists of:
Various sensors based within the network or on hosts
These are responsible for generating the security events
A central engine
This correlates the events and uses heuristic techniques and rules to create alerts
A console
To enable an administrator to monitor the alerts and configure/tune the sensors
Different types of IDS
Network IDS (NIDS)
Examines all network traffic that passes the NIC that the sensor is running on
Host based IDS (HIDS)
An agent on the host that monitors host activities and log files
Stack-Based IDS
An agent on the host that monitors all of the packets that leave or enter the host
Can monitor a specific protocol(s) (e.g. HTTP for webserver)
CP7301 Software Process and Project Management notesAAKASH S
UNIT I DEVELOPMENT LIFE CYCLE PROCESSES 9
Overview of software development life cycle – introduction to processes – Personal Software
Process (PSP) – Team software process (TSP) – Unified processes – agile processes –
choosing the right process Tutorial: Software development using PSP
20
UNIT II REQUIREMENTS MANAGEMENT 9
Functional requirements and quality attributes – elicitation techniques – Quality Attribute
Workshops (QAW) – analysis, prioritization, and trade-off – Architecture Centric
Development Method (ACDM) – requirements documentation and specification – change
management – traceability of requirements
Tutorial: Conduct QAW, elicit, analyze, prioritize, and document requirements using ACDM
UNIT III ESTIMATION, PLANNING, AND TRACKING 9
Identifying and prioritizing risks – risk mitigation plans – estimation techniques – use case
points – function points – COCOMO II – top-down estimation – bottom-up estimation – work
breakdown structure – macro and micro plans – planning poker – wideband delphi –
documenting the plan – tracking the plan – earned value method (EVM)
Tutorial: Estimation, planning, and tracking exercises
UNIT IV CONFIGURATION AND QUALITY MANAGEMENT 9
identifying artifacts to be configured – naming conventions and version control –
configuration control – quality assurance techniques – peer reviews – Fegan inspection –
unit, integration, system, and acceptance testing – test data and test cases – bug tracking –
causal analysis
Tutorial: version control exercises, development of test cases, causal analysis of defects
UNIT V SOFTWARE PROCESS DEFINITION AND MANAGEMENT 9
Process elements – process architecture – relationship between elements – process
modeling – process definition techniques – ETVX (entry-task-validation-exit) – process
baselining – process assessment and improvement – CMMI – Six Sigma
Tutorial: process measurement exercises, process definition using ETVX
CMMI (Capability Maturity Model Integration) is a proven industry framework to improve product quality and development efficiency for both hardware and software
Network simulator 2 :
Object-oriented, discrete event driven network simulator
It was normally used in wired & wireless protocol
Written in C++ and OTcl
Network simulator 2 :
Object-oriented, discrete event driven network simulator
It was normally used in wired & wireless protocol
Written in C++ and OTcl
About
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
Technical Specifications
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
Key Features
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface
• Compatible with MAFI CCR system
• Copatiable with IDM8000 CCR
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
Application
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
Explore the innovative world of trenchless pipe repair with our comprehensive guide, "The Benefits and Techniques of Trenchless Pipe Repair." This document delves into the modern methods of repairing underground pipes without the need for extensive excavation, highlighting the numerous advantages and the latest techniques used in the industry.
Learn about the cost savings, reduced environmental impact, and minimal disruption associated with trenchless technology. Discover detailed explanations of popular techniques such as pipe bursting, cured-in-place pipe (CIPP) lining, and directional drilling. Understand how these methods can be applied to various types of infrastructure, from residential plumbing to large-scale municipal systems.
Ideal for homeowners, contractors, engineers, and anyone interested in modern plumbing solutions, this guide provides valuable insights into why trenchless pipe repair is becoming the preferred choice for pipe rehabilitation. Stay informed about the latest advancements and best practices in the field.
Welcome to WIPAC Monthly the magazine brought to you by the LinkedIn Group Water Industry Process Automation & Control.
In this month's edition, along with this month's industry news to celebrate the 13 years since the group was created we have articles including
A case study of the used of Advanced Process Control at the Wastewater Treatment works at Lleida in Spain
A look back on an article on smart wastewater networks in order to see how the industry has measured up in the interim around the adoption of Digital Transformation in the Water Industry.
Water scarcity is the lack of fresh water resources to meet the standard water demand. There are two type of water scarcity. One is physical. The other is economic water scarcity.
Final project report on grocery store management system..pdfKamal Acharya
In today’s fast-changing business environment, it’s extremely important to be able to respond to client needs in the most effective and timely manner. If your customers wish to see your business online and have instant access to your products or services.
Online Grocery Store is an e-commerce website, which retails various grocery products. This project allows viewing various products available enables registered users to purchase desired products instantly using Paytm, UPI payment processor (Instant Pay) and also can place order by using Cash on Delivery (Pay Later) option. This project provides an easy access to Administrators and Managers to view orders placed using Pay Later and Instant Pay options.
In order to develop an e-commerce website, a number of Technologies must be studied and understood. These include multi-tiered architecture, server and client-side scripting techniques, implementation technologies, programming language (such as PHP, HTML, CSS, JavaScript) and MySQL relational databases. This is a project with the objective to develop a basic website where a consumer is provided with a shopping cart website and also to know about the technologies used to develop such a website.
This document will discuss each of the underlying technologies to create and implement an e- commerce website.
Sachpazis:Terzaghi Bearing Capacity Estimation in simple terms with Calculati...Dr.Costas Sachpazis
Terzaghi's soil bearing capacity theory, developed by Karl Terzaghi, is a fundamental principle in geotechnical engineering used to determine the bearing capacity of shallow foundations. This theory provides a method to calculate the ultimate bearing capacity of soil, which is the maximum load per unit area that the soil can support without undergoing shear failure. The Calculation HTML Code included.
A secure qos distributed routing protocol for hybrid wireless networks
1. IOSR Journal of Computer Engineering (IOSR-JCE)
e-ISSN: 2278-0661,p-ISSN: 2278-8727, Volume 17, Issue 2, Ver. 1 (Mar – Apr. 2015), PP 00-00
www.iosrjournals.org
DOI: 10.9790/0661-172XXXXX www.iosrjournals.org 1 | Page
A Secure QOS Distributed Routing Protocol for Hybrid Wireless
Networks
S.Aakasham1
, S.R.Mugunthan2
1
PG Scholar, Dept of CSE, SVS College of Engineering, Tamil Nadu, India.
2
Assistent Professor, Dept of CSE, SVS College of Engineering, Tamil Nadu, India
Abstract: The succeeding wireless network is Hybrid Wireless Networks. It can provide Quality of Service
(QoS) requirements in real time transmission for wireless application. But it stream including critical mission
application like military use or emergency recovery. Hybrid wireless networks is unified mobile ad-hoc network
(MANET) and wireless infrastructure networks. It inherits invalid reservation and race condition problem in
Mobile ad-hoc network (MANET). Whereas open medium and wide distribution of node make vulnerable to
malicious attackers in Hybrid wireless networks. How to secure the Quality of Service (QoS) routing in Hybrid
wireless networks. In this paper, we propose a Secure QoS-Oriented Distributed routing protocol (SQOD) to
upgrade the secure Quality of Service (QoS) routing in Hybrid wireless networks. SQOD contain two
contrivances: 1.QoS-Oriented Distributed Routing Protocol (QOD)-to reduce transmission delay, transmission
time. And also increase wireless network transmission throughput. 2. Enhanced Adaptive ACKnowledgment
(EAACK)-implement a new intrusion-detection system for Hybrid wireless networks. It protect Hybrid wireless
networks from attacks that have higher malicious behavior detection rate. Analytical and simulation result
based on the real human mobility mode. SQOD can provide high secure performance in terms of Intrusion-
detection, overhead, transmission delay.
Index Terms: Hybrid Wireless Networks, Mobile ad-hoc network (MANET), Quality of Service (QoS), QoS-
Oriented Distributed Routing Protocol (QOD), Enhanced Adaptive ACKnowledgment (EAACK)
I. Introduction
The future development of wireless networks has stimulated numerous wireless applications that have
been used in wide areas such as emergency services, education, commerce, military, and entertainment. It
improved technology and reduced costs, wireless networks have gained much more preferences over wired
networks in the past few decades. Nowadays, people wish to watch videos, play games, watch TV, and make
long distance conferencing via wireless mobile devices “on the go.” The widespread use of wireless and mobile
devices and the increasing demand for mobile multimedia streaming services are leading to a promising near
future where wireless multimedia services (e.g., mobile gaming, online TV, and online conferences) are widely
deployed. The emergence and the envisioned future of real time and multimedia applications have stimulated
the need of high Quality of Service (QoS) support in wireless and mobile networking environments [5]. The
QoS support reduces end-to- end transmission delay and enhances throughput to guarantee the seamless
communication between mobile devices and wireless infrastructures.
Hybrid wireless networks have been proven to be a better network structure for the next generation
wireless networks [6], [7], [8], [9], and can help to tackle the stringent end-to end QoS requirements of different
applications. Hybrid networks synergistically combine infrastructure networks and MANETs to leverage each
other. Specifically, infrastructure networks improve the scalability of MANETs, while MANETs automatically
establish self-organizing networks, extending the coverage of the infrastructure networks. In a vehicle
opportunistic access network (an instance of hybrid networks), people in vehicles need to upload or download
videos from remote Internet servers through access points (APs) (i.e., base stations) spreading out in a city.
Since it is unlikely that the base stations cover the entire city to maintain sufficiently strong signal everywhere
to support an application requiring high link rates, the vehicles themselves can form a MANET to extend the
coverage of the base stations, providing continuous network connections.
Mobile Ad hoc NETwork (MANET) is a collection of mobile nodes equipped with both a wireless
transmitter and a receiver that communicate with each other via bidirectional wireless links either directly or
indirectly. Industrial remote access and control via wireless networks are becoming more and more popular
these days [35]. One of the major advantages of wireless networks is its ability to allow data communication
between different parties and still maintain their mobility. However, this communication is limited to the range
of transmitters. This means that two nodes cannot communicate with each other when the distance between the
two nodes is beyond the communication range of their own. MANET solves this problem by allowing
intermediate par- ties to relay data transmissions. This is achieved by dividing MANET into two types of
networks, namely, single-hop and multihop. In a single-hop network, all nodes within the same radio range
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communicate directly with each other. On the other hand, in a multihop network, nodes rely on other
intermediate nodes to transmit if the destination node is out of their radio range. In contrary to the traditional
wireless network, MANET has a decentralized network infrastructure. MANET does not require a fixed
infrastructure; thus, all nodes are free to move randomly [10], [27], [29]. MANET is capable of creating a self-
configuring and self-maintaining network without the help of a centralized infrastructure, which is often
infeasible in critical mission applications like military conflict or emergency recovery. Minimal configuration
and quick deployment make MANET ready to be used in emergency circumstances where an infrastructure is
unavailable or unfeasible to install in scenarios like natural or human-induced disasters, military conflicts, and
medical emergency situations [19], [30].
Owing to these unique characteristics, Hybrid wireless networks is becoming more and more widely
implemented in the industry [14], [28]. However, considering the fact that Hybrid wireless networks is popular
among critical mission applications, network security is of vital importance. Unfortunately, the open medium
and remote distribution of Hybrid wireless networks make it vulnerable to various types of attacks. For example,
due to the nodes’ lack of physical protection, malicious attackers can easily capture and compromise nodes to
achieve attacks. In particular, considering the fact that most routing protocols in Hybrid wireless networks
assume that every node in the network behaves cooperatively with other nodes and presumably not malicious
[5], attackers can easily compromise Hybrid wireless networks by inserting malicious or non-cooperative nodes
into the network. Furthermore, because of Hybrid wireless networks distributed architecture and changing
topology, a traditional centralized monitoring technique is no longer feasible in Hybrid wireless networks. In
such case, it is crucial to develop an intrusion-detection system (IDS). specially designed for Hybrid wireless
networks. Many research efforts have been devoted to such research topic [1], [3], [6]–[9], [15], [16], [22], [24],
[26], [29],[31].
In the next section, we mainly concentrate on discussing the background information required for
understanding this research topic
II. Problem Definition
Our proposed approach EAACK is designed to tackle three of the six weaknesses of Watchdog
scheme, namely, false misbehavior, limited transmission power, and receiver collision.
In this section, we discuss these three weaknesses in detail.
1. False misbehavior
2. Limited transmission power
3. Receiver collision
Fig-1: Reveicer collisions
In a typical example of receiver collisions, shown in Fig. 1, after node A sends Packet 1 to node B, it
tries to overhear if node B forwarded this packet to node C; meanwhile, node X is forwarding Packet 2 to node
C. In such case, node A overhears that node B has successfully forwarded Packet 1 to node C but failed to detect
that node C did not receive this packet due to a collision between Packet 1 and Packet 2 at node C.
Fig-2: Limited Transmission Power
In the case of limited transmission power, in order to preserve its own battery resources, node B
intentionally limits its transmission power so that it is strong enough to be overheard by node A but not strong
enough to be received by node C, as shown in Fig. 2.
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Fig-3: False Misbehavior Report
For false misbehavior report, although node A successfully overheard that node B forwarded Packet 1
to node C, node A still reported node B as misbehaving, as shown in Fig. 3. Due to the open medium and remote
distribution of typical MANETs, attackers can easily capture and compromise one or two nodes to achieve this
false misbehavior report attack. As discussed in previous sections, TWOACK and AACK solve two of these
three weaknesses, namely, receiver collision and limited transmission power. However, both of them are
vulnerable to the false misbehavior attack. In this research work, our goal is to propose a new IDS specially
designed for MANETs, which solves not only receiver collision and limited transmission power but also the
false misbehavior problem.
Furthermore, we extend our research to adopt a digital signature scheme during the packet transmission
process. As in all acknowledgment-based IDSs, it is vital to ensure the integrity and authenticity of all
acknowledgment packets.
III. Network And Service Models
We consider a hybrid wireless network with an arbitrary number of base stations spreading over the
network. N mobile nodes are moving around in network. Each node ni (1≤ i ≤ N) uses IEEE 802.11 interface
with the Carrier Sense Multiple Access with Collision Avoidance (CSMA/CA) protocol [28]. Since a hybrid
network where nodes are equipped with multiinterfaces that transmit packets through multichannels generate
much less interference than a hybrid network where nodes are equipped with a single Wi-Fi interface, we
assume that each node is equipped with a single Wi-Fi interface in order to deal with a more difficult problem.
Therefore, the base stations considered in this paper are access points (APs). The Wi-Fi interface enables nodes
to communicate with both APs and mobile nodes. For example, in a University campus, normally only buildings
have APs. Therefore, people that do not have Wi-Fi access but close to buildings can use two-hop relay
transmissions to connect to the APs in the buildings. Feeney et al. [29] considered the similar scenario in his
work.
Fig-4: Hybrid Wireless Network Model
The QoS requirements mainly include end-to-end delay bound, which is essential for many
applications with stringent real-time requirement. While throughput guarantee is also important, it is
automatically guaranteed by bounding the transmission delay for a certain amount of packets [31]. The source
node conducts admission control to check whether there are enough resources to satisfy the requirements of QoS
of the packet stream. Fig. 4 shows the network model of a hybrid network. For example, when a source node n1
wants to upload files to an Internet server through APs, it can choose to send packets to the APs directly by
itself or require its neighbor nodes n2, n3, or n4 to assist the packet transmission.
We assume that queuing occurs only at the output ports of the mobile nodes [32]. After a mobile node
generates the packets, it first tries to transmit the packets to its nearby APs that can guarantee the QoS
requirements. If it fails (e.g., out of the transmission range of APs or in a hot/dead spot), it relies on its
neighbors that can guarantee the QoS requirements for relaying packets to APs. Relaying for a packet stream
can be modeled as a process, in which packets from a source node traverse a number of queuing servers to some
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APs [31]. In this model, the problem of how to secure QoS routing can be transformed to the problem of how to
schedule the neighbor resources between nodes to ensure secure QoS of packet routing.
IV. Scheme Description
In this paper, we propose a Secure Quality of Service Oriented Distributed routing protocol (SQOD).
SQOD contain two contrivances:
1. QoS-Oriented Distributed Routing Protocol (QOD).
2. Enhanced Adaptive ACKnowledgment (EAACK).
We use first a QoS-Oriented Distributed routing protocol (QOD)[1]. Usually, a hybrid network has
widespread base stations. The data transmission in hybrid networks has two features. 1. An AP can be a source
or a destination to any mobile node. Second, the number of transmission hops between a mobile node and an AP
is small. The first feature allows a stream to have anycast transmission along multiple transmission paths to its
destination through base stations. 2. Enables a source node to connect to an AP through an intermediate node.
Taking full advantage of the two features, QOD transforms the packet routing problem into a dynamic resource
scheduling problem. QOD is the first work for QoS routing in hybrid networks.
This QOD makes five contributions:
Earliest Deadline First scheduling algorithm: The algorithm selects qualified neighbors and employs
deadline-driven scheduling mechanism to guarantee QoS routing.
Distributed packet scheduling algorithm: After qualified neighbors are identified, this algorithm schedules
packet routing. It assigns earlier generated packets to forwarders with higher queuing delays, while assigns more
recently generated packets to forwarders with lower queuing delays to reduce total transmission delay.
Mobility-based segment resizing algorithm: The source
node adaptively resizes each packet in its packet stream for each neighbor node according to the neighbor’s
mobility in order to increase the scheduling feasibility of the packets from the source node.
Least Slack First (LSF) scheduling algorithm: In this algorithm, an intermediate node first forwards the
packet with the least time allowed to wait before being forwarded out to achieve fairness in packet forwarding.
Data redundancy elimination based transmission: Due to the broadcasting feature of the wireless networks,
the APs and mobile nodes can overhear and cache packets. This algorithm eliminates the redundant data to
improve the QoS of the packet transmission.
Specifically, above the algorithms used in QOD, if a source node is not within the transmission range
of the AP, a source node selects nearby neighbors that can provide QoS services to forward its packets to base
stations in a distributed manner. The source node schedules the packet streams to neighbors based on their
queuing condition, channel condition, and mobility, aiming to reduce transmission time and increase network
capacity. The neighbors then forward packets to base stations, which further forward packets to the destination.
If any intermediate node cannot send the packets to destination. Check the node if it is affected from any
attacker or malicious used Enhanced Adaptive ACKnowledgment (EAACK) scheme.
EAACK is consisted of three major parts, namely, ACK, secure ACK (S-ACK), and misbehavior
report authentication (MRA). In order to distinguish different packet types in different schemes, we included a
2-b packet header in EAACK. According to the Internet draft of DSR [42], there is 6 b reserved in the DSR
header. In EAACK, we use 2 b of the 6 b to flag different types of packets. Details are described in Table I.
Table-1: Packet Type Indicators
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EAACK is consisted of three major parts, namely, ACK, secure ACK (S-ACK), and misbehavior
report authentication (MRA). In order to distinguish different packet types in different schemes, we included a
2-b packet header in EAACK. According to the Internet draft of DSR [11], there is 6 b reserved in the DSR
header. In EAACK, we use 2 b of the 6 b to flag different types of packets. Details are listed in Table I.
Fig-5: System control flow
Fig. 5 presents a flowchart describing the EAACK scheme. Please note that, in our proposed scheme,
we assume that the link between each node in the network is bidirectional. Furthermore, for each
communication process, both the source node and the destination node are not malicious. Unless specified, all
acknowledgment packets described in this research are required to be digitally signed by its sender and verified
by its receiver.
4.1. ACK
ACK is basically an end-to-end acknowledgment scheme. It acts as a part of the hybrid scheme in
EAACK, aiming to reduce network overhead when no network misbehavior is detected.
Fig-6: ACK scheme
In Fig. 6, in ACK mode, node S first sends out an ACK data packet Pad1to the destination node D. If all
the intermediate nodes along the route between nodes S and D are cooperative and node D successfully receives
Pad1, node D is required to send back an ACK acknowledgment packet Pak1 along the same route but in a
reverse order. Within a predefined time period, if node S receives Pak1, then the packet transmission from node S
to node D is successful. Otherwise, node S will switch to S-ACK mode by sending out an S-ACK data packet to
detect the misbehaving nodes in the route.
4.2. S-ACK
The S-ACK scheme is an improved version of the TWOACK scheme proposed by Liu et al. [44]. The
principle is to let every three consecutive nodes work in a group to detect misbehaving nodes. For every three
consecutive nodes in the route, the third node is required to send an S-ACK acknowledgment packet to the first
node. The intention of introducing S-ACK mode is to detect misbehaving nodes in the presence of receiver
collision or limited transmission power. As shown in Fig. 7, in S-ACK mode, the three consecutive nodes (i.e.,
F1, F2, and F3) work in a group to detect misbehaving nodes in the network. Node F1 first sends out S-ACK
data packet Psad1 to node F2. Then, node F2 forwards this packet to node F3. When node F3 receives Psad1, as it
is the third node in this three-node group, node F3 is required to send back an S-ACK acknowledgment packet
Psak1 to node F2. Node F2 forwards Psak1 back to node F1. If node F1 does not receive this acknowledgment
packet within a predefined time period, both nodes F2 and F3 are reported as malicious. Moreover, a
misbehavior report will be generated by node F1 and sent to the source node S.
where the source node immediately trusts the misbehavior report, EAACK requires the source node to
switch to MRA mode and confirm this misbehavior report. This is a vital step to detect false misbehavior report
in our proposed scheme.
4.3. MRA
The MRA scheme is designed to resolve the weakness of Watchdog when it fails to detect misbehaving
nodes with the presence of false misbehavior report. The false misbehavior report can be generated by malicious
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attackers to falsely report innocent nodes as malicious. This attack can be lethal to the entire network when the
attackers break down sufficient nodes and thus cause a network division. The core of MRA scheme is to
authenticate whether the destination node has received the reported missing packet through a different route.
Fig-7: S-ACK schema
To initiate the MRA mode, the source node first searches its local knowledge base and seeks for an
alternative route to the destination node. If there is no other that exists, the source node starts a DSR routing
request to find another route. Due to the nature of MANETs, it is common to find out multiple routes between
two nodes.
By adopting an alternative route to the destination node, we circumvent the misbehavior reporter node.
When the destination node receives an MRA packet, it searches its local knowledge base and compares if the
reported packet was received. If it is already received, then it is safe to conclude that this is a false misbehavior
report and whoever generated this report is marked as malicious. Otherwise, the misbehavior report is trusted
and accepted.
By the adoption of MRA scheme, EAACK is capable of detecting malicious nodes despite the
existence of false mis-behavior report.
V. Performance Evaluation
This section demonstrates the distinguishing properties of SQOD compared to QOD through
simulations on NS-2 [40]. QOD is a resource reservation-based routing protocol for QoS routing in MANETs.
This protocol extends AODV by adding information of the maximum delay and minimum available bandwidth
of each neighbor in a node’s routing table. To apply QOD in hybrid networks, we let a source node search for
the QoS guaranteed path to an AP. The intermediate nodes along the path reserve the resources for the source
node.
In the simulation, the setup was the same as Six APs with IEEE 802.11 MAC protocol are uniformly
distributed in the area. We randomly selected two source nodes to send packets to APs in every 10 s. A node’s
traffic is generated with constant bit rate (CBR) sources. The generation rate of the CBR traffic is 100 kb/s.
Unless otherwise specified, the speeds of the nodes were randomly selected from [1-40]m/s. Since the number
of successfully delivered packets within a certain delay is critical to the QoS of video streaming applications, we
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define a new metric, namely QoS guaranteed throughput that measures the throughput sent from a source node
to a destination node satisfying a QoS delay requirement as 1 s. This metric can simultaneously reflect delay,
packet delivery ratio, throughput, and jitter features of packet transmission.
5.1 Packet delivery ratio with Different Mobility Speeds
In this experiment, a node’s mobility speed was randomly selected from (1; 10; 20; 30; 40). Fig. 8 plots
the QoS packet delivery ratio of all systems versus the node mobility speed. It shows that the QoS packet
delivery ratio of all systems decrease as node mobility increases. This is because higher mobility causes higher
frequent link breakages, which leads to more packet drops. Reestablishing the broken links results in a long
transmission delay for subsequent packets.
In each experiment, during 50 s, we continually selected a certain number of random nodes to transmit
packets to their randomly selected destinations for a time period randomly chosen from [1 to 5]s. As the number
of source nodes in the system increases, the percentage of the packet delivery ratio increases. This is because as
more packets are generated, every packet in the scheduling queue needs to wait for more time to be forwarded
out, which leads to higher packet delivery ratio and hence more delivery packets. We also see that the
percentage of the packet delivery ration in SQOD is higher than that of QOD.
Fig-8: Packet delivery ratio with Different Mobility Speeds
5.2. Delay with Different Mobility Speeds
In this section, we compare SQOD with QOD for delay. This experiment, a node’s mobility speed was
randomly selected from (1; 10; 20; 30; 40). Fig. 9 plots the QoS delay of all systems versus the node mobility
speed. We let the forwarding nodes receive as many packets from neighbor nodes as possible without admission
control to show the performance of SQOD and QOD when the packets are scheduling infeasible.
In each experiment, during 50 s, we continually selected a certain number of random nodes to transmit
packets to their randomly selected destinations for a time period randomly chosen from [1 to 5]s. As the number
of source nodes in the system increases, the percentage of the delayed packets increases. This is because as more
packets are generated, every packet in the scheduling queue needs to wait for more time to be forwarded out,
which leads to higher delay and hence more delayed packets. We also see that the percentage of the delayed
packets in QOD is higher than that of SQOD. This is because SQOD always tries to meet the deadlines of
packets with the earliest deadlines, while SQOD tries to balance the delay among the packets. Therefore, QOD
is able to meet more deadlines than SQOD support the QoS routing due to lower queue delay, while QoD makes
full use of the resources of the nodes around a source node, and distributively forwards the packets to the APs,
improving the QoS throughput of the system.
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Fig-9: Delay with Different Mobility Speeds
VI. Conclusions
Hybrid wireless networks that integrate MANETs and infrastructure wireless networks have proven to
be a better network structure for the next generation networks. Packet-dropping attack has always been a major
threat to the security in Hybrid wireless networks. In this paper, we propose a Secure QoS oriented distributed
routing protocol (SQOD) for hybrid networks. It provides Secure QoS services in a highly dynamic scenario.
Experimental results show that SQOD can achieve high mobility-resilience, scalability, and contention
reduction.
Furthermore, in an effort to prevent the attackers from initiating forged acknowledgment attacks, we
extended our research to incorporate digital signature in our proposed scheme. Although it generates more ROs
in some cases, as demonstrated in our experiment, it can vastly improve the network’s PDR when the attackers
are smart enough to forge acknowledgment packets. We think that this tradeoff is worthwhile when network
security is the top priority. In the future, we plan to evaluate the performance of SQOD based on the real
testbed.
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