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.
A Quality of Service Strategy to Optimize Bandwidth Utilization in Mobile Net...IDES Editor
The mobile network that supports network mobility
is an emerging technology. It is also referred as NEMO
(NEtwork MObility). It is more appropriate for mobile
platforms such as car, bus, train, air plane, etc. It is a great
challenge to provide Quality of Service (QoS) in NEMO. QoS
is a set of service requirements to be met by the network.
There are various parameters by which QoS is provided. This
paper concentrates on providing optimum bandwidth for data
traffic. The objective of this paper is to propose a strategy to
use Virtual Circuit (VC) approach in NEMO. It helps to
utilize the bandwidth effectively, to consume minimum time to
transfer the data and also to reduce overload of the mobile
router due to the minimum size of the header. Ultimately, it
gives better results to enhance the QoS in mobile networks.
This document describes a routing protocol designed for reliable and efficient communication in wireless sensor networks (WSNs). It discusses four existing routing protocols - Gradient-Based Routing (GBR), Gradient Broadcast (GRAB), Dynamic Source Routing (DSR), and Adhoc On-demand Distance Vector Routing (AODV) - and analyzes their performance tradeoffs. It then proposes a new light-weight routing protocol called Efficient and Reliable routing (EAR) that aims to achieve reliable and efficient routing in single-hub and multi-hub WSNs while minimizing energy consumption and communication overhead. The protocol design and operation are explained in detail.
IMPROVED QUALITY OF SERVICE PROTOCOL FOR REAL TIME TRAFFIC IN MANETIJCNCJournal
This document proposes an improved quality of service protocol for real-time traffic in mobile ad hoc networks. It presents a modified version of the AODV routing protocol that provides two key improvements: 1) A balanced best-effort traffic aware route discovery mechanism that selects paths with lower ratios of best-effort packets to minimize their impact on real-time traffic. 2) A packet forwarding procedure that gives transmission priority to real-time packets by transmitting them immediately from the queue while best-effort packets have to wait, improving throughput for real-time applications. Simulation results show the proposed protocol performs better than basic AODV in terms of throughput and delay for real-time 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.
CONGESTION AWARE LINK COST ROUTING FOR MANETSIJCNCJournal
Due to the dynamic topology, self-configuration and decentralized nature of Mobile Ad hoc Network
(MANET), it provides many benefits in wireless networks and is easy to deploy. But the transmission of
data over ad hoc networks has elevated many technical issues for successful routing. Congestion is one of
the important issues which cause performance degradation of a network, due to long delay and high packet
loss. This paper proposes a Congestion aware Link Cost Routing for MANET where the protocol finds a
path with optimized linked cost based on SNR, Link delay, and the and remaining battery power. Along
with this optimization, in this protocol, every node finds its congestion status and participates in the route
discovery on the basis of its status. Data forwarding is also done based on the congestion status at the time
of forwarding. The protocol results in better performance in terms of packet delivery fraction, end to end
delay, throughput, and packet drop when compared to existing protocols.
Priority scheduling for multipath video transmission in wmsnsIJCNCJournal
This document proposes a priority scheduling mechanism for multipath video transmission over wireless multimedia sensor networks (WMSNs). It assigns different priorities to different types of video frames (I, P, B frames) and schedules them over multiple paths based on path conditions. Higher priority I and P frames are scheduled along higher quality paths. It divides node buffers into queues and uses round-robin scheduling between the queues based on frame type to prioritize transmission of higher priority frames. Path scores are calculated based on metrics like bandwidth, delay and energy to identify highest quality paths for important video packets. Simulation results show this approach improves video quality at the receiver.
A secure qos distributed routing protocol for hybrid wireless networksAAKASH 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 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.
This document is a peer-reviewed full-text paper published in the proceedings of ICC 2008 that proposes an efficient routing algorithm called CaDAR for wireless-optical broadband access networks (WOBANs). CaDAR aims to minimize delay and increase capacity in the wireless mesh network portion of a WOBAN by assigning capacities to links based on their states and calculating shortest delay paths between wireless nodes and gateways. The paper contributes by proposing the CaDAR algorithm and providing a comparative performance analysis of CaDAR with other approaches.
A Quality of Service Strategy to Optimize Bandwidth Utilization in Mobile Net...IDES Editor
The mobile network that supports network mobility
is an emerging technology. It is also referred as NEMO
(NEtwork MObility). It is more appropriate for mobile
platforms such as car, bus, train, air plane, etc. It is a great
challenge to provide Quality of Service (QoS) in NEMO. QoS
is a set of service requirements to be met by the network.
There are various parameters by which QoS is provided. This
paper concentrates on providing optimum bandwidth for data
traffic. The objective of this paper is to propose a strategy to
use Virtual Circuit (VC) approach in NEMO. It helps to
utilize the bandwidth effectively, to consume minimum time to
transfer the data and also to reduce overload of the mobile
router due to the minimum size of the header. Ultimately, it
gives better results to enhance the QoS in mobile networks.
This document describes a routing protocol designed for reliable and efficient communication in wireless sensor networks (WSNs). It discusses four existing routing protocols - Gradient-Based Routing (GBR), Gradient Broadcast (GRAB), Dynamic Source Routing (DSR), and Adhoc On-demand Distance Vector Routing (AODV) - and analyzes their performance tradeoffs. It then proposes a new light-weight routing protocol called Efficient and Reliable routing (EAR) that aims to achieve reliable and efficient routing in single-hub and multi-hub WSNs while minimizing energy consumption and communication overhead. The protocol design and operation are explained in detail.
IMPROVED QUALITY OF SERVICE PROTOCOL FOR REAL TIME TRAFFIC IN MANETIJCNCJournal
This document proposes an improved quality of service protocol for real-time traffic in mobile ad hoc networks. It presents a modified version of the AODV routing protocol that provides two key improvements: 1) A balanced best-effort traffic aware route discovery mechanism that selects paths with lower ratios of best-effort packets to minimize their impact on real-time traffic. 2) A packet forwarding procedure that gives transmission priority to real-time packets by transmitting them immediately from the queue while best-effort packets have to wait, improving throughput for real-time applications. Simulation results show the proposed protocol performs better than basic AODV in terms of throughput and delay for real-time 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.
CONGESTION AWARE LINK COST ROUTING FOR MANETSIJCNCJournal
Due to the dynamic topology, self-configuration and decentralized nature of Mobile Ad hoc Network
(MANET), it provides many benefits in wireless networks and is easy to deploy. But the transmission of
data over ad hoc networks has elevated many technical issues for successful routing. Congestion is one of
the important issues which cause performance degradation of a network, due to long delay and high packet
loss. This paper proposes a Congestion aware Link Cost Routing for MANET where the protocol finds a
path with optimized linked cost based on SNR, Link delay, and the and remaining battery power. Along
with this optimization, in this protocol, every node finds its congestion status and participates in the route
discovery on the basis of its status. Data forwarding is also done based on the congestion status at the time
of forwarding. The protocol results in better performance in terms of packet delivery fraction, end to end
delay, throughput, and packet drop when compared to existing protocols.
Priority scheduling for multipath video transmission in wmsnsIJCNCJournal
This document proposes a priority scheduling mechanism for multipath video transmission over wireless multimedia sensor networks (WMSNs). It assigns different priorities to different types of video frames (I, P, B frames) and schedules them over multiple paths based on path conditions. Higher priority I and P frames are scheduled along higher quality paths. It divides node buffers into queues and uses round-robin scheduling between the queues based on frame type to prioritize transmission of higher priority frames. Path scores are calculated based on metrics like bandwidth, delay and energy to identify highest quality paths for important video packets. Simulation results show this approach improves video quality at the receiver.
A secure qos distributed routing protocol for hybrid wireless networksAAKASH 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 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.
This document is a peer-reviewed full-text paper published in the proceedings of ICC 2008 that proposes an efficient routing algorithm called CaDAR for wireless-optical broadband access networks (WOBANs). CaDAR aims to minimize delay and increase capacity in the wireless mesh network portion of a WOBAN by assigning capacities to links based on their states and calculating shortest delay paths between wireless nodes and gateways. The paper contributes by proposing the CaDAR algorithm and providing a comparative performance analysis of CaDAR with other approaches.
ON THE SUPPORT OF MULTIMEDIA APPLICATIONS OVER WIRELESS MESH NETWORKS ijwmn
This document summarizes research on supporting multimedia applications over wireless mesh networks. It proposes an efficient routing algorithm and a QoS approach at the MAC layer. The routing algorithm aims to transport multimedia traffic with QoS requirements. The MAC layer approach improves 802.11e to better facilitate video transport over the mesh network. Related work on routing protocols, QoS solutions at the network and MAC layers, and clustering approaches are also reviewed.
A NOVEL HYBRID OPPORTUNISTIC SCALABLE ENERGY EFFICIENT ROUTING DESIGN FOR LOW...IJCNCJournal
Opportunistic Routing (OR) scheme increases the transmission reliability despite the lossy wireless radio links by exploiting the broadcast nature of the wireless medium. However, OR schemes in low power Wireless Sensor Network (WSN) leads to energy drain in constrained sensor nodes due to constant
overhearing, periodic beaconing for Neighbourhood Management (NM) and increase in packet header length to append priority wise sorted Forwarding Candidates Set (FCS) prior to data transmission. The timer-based coordination mechanism incurs the least overhead to coordinate among the FCS that has successfully received the data packet for relaying the data in a multi-hop manner. This timer-based mechanism suffers from duplicate transmissions if the FCS is either not carefully selected or coordinated. The focus of this work is to propose a hybrid opportunistic energy efficient routing design for large scale, low power and lossy WSN. This design avoids periodic 'hello' beacons for NM, limits constant overhearing and increase in packet header length. There are two modes of operation i) opportunistic ii) unicast mode. The sender node adopts opportunistic forwarding for its initial data packet transmission and instead of pre-computing the FCS, it is dynamically computed in a completely distributed manner. The
eligible nodes to be part of FCS will be neighbour nodes at lower corona level than the sender with respect to the sink and remaining energy above the minimum threshold. The nodes part of FCS based on crosslayered multi-metrics and fuzzy decision logic determines its priority level to compute Dynamic Holding
Delay (DHD) for effective timer coordination. The differentiated back off implementation along with DHD enables the higher priority candidate that had received data packet to forward the packet first and facilitates others to cancel its timer upon overhearing. The sender node switches to unicast mode of
forwarding for successive transmissions by choosing the forwarding node with maximum trust value as it
denotes the stability of the temporally varying link with respect to the forwarder. The sender node will revert to opportunistic mode to increase transmission reliability in case of link-level transmission error or no trustworthy forwarders. Simulation results in NS2 show significant increase in Packet Delivery Ratio (PDR),decrease in both average energy consumption per node and Normalized Energy Consumption (NEC) per packet in comparison with existing protocols.
This document proposes a secured-bandwidth reservation distance vector routing protocol for mobile ad hoc networks (MANETs). It aims to improve quality of service (QoS) parameters like bandwidth reservation while providing security. The protocol is an extension of the Destination Sequence Distance Vector Routing Protocol (DSDV) that additionally reserves bandwidth along routing paths and includes nodes' bandwidth information in routing table updates. It uses an intruder detection method and secure key agreement between source and destination nodes using RSA encryption to authenticate nodes and securely transmit data. The protocol is evaluated through network simulations which show it can authorize nodes, authenticate nodes, ensure non-repudiation and protect message integrity.
EFFICIENT PACKET DELIVERY APPROACH FOR ADHOC WIRELESS NETWORKS cscpconf
A wireless ad-hoc network is a collection of nodes which are selfconfiguring,
connected by wireless links. The nodes are free to move randomly and
organize themselves arbitrarily; thus, the network's topology may change rapidly and
unpredictably. These kinds of networks are very flexible and they do not require any
existing infrastructure. Therefore, ad-hoc wireless networks are suitable for temporary
communication links. The biggest challenge in these kinds of networks is to find a path
between the communication end points of nodes that are mobile. Due to the limited
transmission range of wireless interfaces, the communication traffic has to be relayed
over several intermediate nodes to enable the communication between two nodes.
Therefore, these kinds of networks are also called multi-hop ad-hoc networks. The
proposed model is designed to improve the problems of real-time event-based
communication. It improves the packet delivery ratio by prior prediction and reduces
end-to-end packet delay. This in turn improves performance of the routing process
significantly and increases the Quality of Service (QoS).
DETERMINING THE NETWORK THROUGHPUT AND FLOW RATE USING GSR AND AAL2Rijujournal
In multi-radio wireless mesh networks, one node is eligible to transmit packets over multiple channels to different destination nodes simultaneously. This feature of multi-radio wireless mesh network makes high throughput for the network and increase the chance for multi path routing. This is because the multiple channel availability for transmission decreases the probability of the most elegant problem called as interference problem which is either of interflow and intraflow type. For avoiding the problem like interference and maintaining the constant network performance or increasing the performance the WMN need to consider the packet aggregation and packet forwarding. Packet aggregation is process of collecting several packets ready for transmission and sending them to the intended recipient through the channel, while the packet forwarding holds the hop-by-hop routing. But choosing the correct path among different available multiple paths is most the important factor in the both case for a routing algorithm. Hence the most challenging factor is to determine a forwarding strategy which will provide the schedule for each node for transmission within the channel. In this research work we have tried to implement two forwarding strategies for the multi path multi radio WMN as the approximate solution for the above said problem. We have implemented Global State Routing (GSR) which will consider the packet forwarding concept and Aggregation Aware Layer 2 Routing (AAL2R) which considers the both concept i.e. both packet forwarding and packet aggregation. After the successful implementation the network performance has been measured by means of simulation study.
This document summarizes a research paper on QoS routing protocols for mobile ad hoc networks (MANETs). It describes a QoS routing protocol called QOSRGA that uses a genetic algorithm to find high-quality routes between nodes that meet multiple QoS constraints like bandwidth, delay, and connectivity. The protocol relies on cooperation between sub-protocols to discover multiple paths, monitor node states, and measure bandwidth. It also introduces a new metric called node connectivity index to evaluate path quality. Simulation results show that QOSRGA performs well in finding routes that meet constraints, even as node mobility increases.
Rough set based QoS enabled multipath source routing in MANET IJECEIAES
The single constrained Quality of Service (QoS) routing in Mobile Ad-hoc NETwork (MANET) is disastrous in consideration of MANET characteristics, inference, collision and link failure as it maintains a single path. The QoS enabled routing yields better packet delivery and maintains consistency among nodes in the network by incorporating multi-constrained and multipath routing. The Dynamic Source Routing (DSR) is best suited source routing algorithm to maintain multipath information at the source node, but performance degrades with larger number of mobile nodes. Multilayer mechanism should be incorporated to maintain QoS metric information spreads across multiple layers of TCP/IP protocol stack. The proposed multipath QoS enabled source routing provides balanced routing by making use of all these features. The imprecise decision making strategy called Rough Set Theory (RST) is used at destination node for decision making. The Route REQuest (RREQ) messages coming from different routes are filtered by considering the QoS metrics of each and every route by making use of RST. The Route REPly (RREP) messages are generated and delivered to the source node for filtered RREQ messages. The proposed routing algorithm will reduce load on the network by reducing number of control messages exchanged for route establishment. This will evenly distribute load among all the nodes and it also avoid the scenarios like few nodes starved for resources. Finally, multipath routing always provides alternate routing option in case of route failure.
Packet delivery ratio, delay, throughput, routing overhead etc are the strict quality of service requirements
for applications in Ad hoc networks. So, the routing protocol not only finds a suitable path but also the path
should satisfy the QoS constraints also. Quality of services (QoS) aware routing is performed on the basis
of resource availability in the network and the flow of QoS requirement. In this paper we developed a
source routing protocol which satisfying the link bandwidth and end –to- end delay factor. Our protocol
will find multiple paths between the source and the destination, out of those one will be selected for data
transfer and others are reserve at the source node those can be used for route maintenance purpose. The
path selection is strictly based on the bandwidth and end-to-end delay in case two or more then two paths
are having the same values for QoS constraints then we will use hop as a parameter for path selection.
A QoS oriented distributed routing protocol for Hybrid Wireless Network :Firs...AAKASH S
This document presents an outline for a project on developing a QoS-oriented distributed routing protocol for hybrid wireless networks. It discusses existing work that suffers from overhead and scalability issues. The proposed work incorporates five algorithms to select neighbors, schedule packets, adjust segment size based on mobility, eliminate redundant traffic, and reduce redundant data to improve QoS metrics like transmission delay, throughput, and capacity while reducing overhead. It is claimed that using single-hop transmissions can improve performance by reducing overhead, link failures, and improving QoS.
RESOURCE ALLOCATION ALGORITHMS FOR QOS OPTIMIZATION IN MOBILE WIMAX NETWORKSijwmn
This document summarizes research on resource allocation algorithms for quality of service (QoS) optimization in mobile WiMAX networks. It discusses the Swapping Min-Max (SWIM) algorithm and Cooperative Multicast Scheduling (CMS) technique. SWIM performs scheduling for real-time polling service to meet QoS criteria like optimal throughput, latency guarantees, minimal delay jitter and number of bursts. CMS enhances throughput for multicast video by dividing transmission bursts into two phases where selected stations retransmit to nearby members for cooperation. Simulation results show SWIM has less bursts, zero jitter and optimal throughput, while CMS further improves throughput for each multicast group member.
Enhanced Multicast routing for QoS in delay tolerant networksIRJET Journal
This document summarizes research on enhanced multicast routing protocols for quality of service in delay tolerant networks. It proposes a novel multicast routing approach using the MAODV protocol and compares its performance to existing QBMR and DTN-DM protocols. Delay tolerant networks experience intermittent connectivity and long delays. Store-carry-forward is commonly used for data transfer between nodes. The proposed MAODV protocol improves storage and forwarding capabilities of mobile nodes and bundle message communication to multiple destinations. Its performance is evaluated based on metrics like throughput, routing load, and packet delivery fraction compared to existing protocols.
ENERGY EFFICIENT MULTICAST ROUTING IN MANET ijac journal
In this paper, we have presented the Modified Multicasting through Time Reservation using Adaptive
Control for Excellent Energy efficiency (MMC-TRACE). It is a real time multicasting architecture for
Mobile Ad-Hoc networks to make their work an energy efficient one .MMC-TRACE is a cross layer design
where the network layer and medium access control layer functionality are done in a single integrated
layer design. The basic design of the architecture is to establish and maintain an active multicast tree
surrounded by a passive mesh within a mobile ad hoc network. Energy efficiency is maximized by enabling
the particular node from sleep to awake mode while the remaining nodes of the same path are maintained
at sleep mode. Energy efficiency too achieved by eliminating most of the redundant data receptions across
nodes. The performance of MMC-TRACE are evaluated with the help of ns-2 simulations and comparisons
are made with its predecessor such as MC-TRACE. The results show that the MMC-TRACE provides
superior energy efficiency, competitive QoS performance and bandwidth efficiency.
Adaptive QoS Multicast Routing with Mobility Prediction in MANETs ijasuc
A Mobile Ad hoc NETwork (MANET) is a collection of wireless mobile hosts that form a temporary network
without a centralized administration or wired infrastructure. Due to the high mobility of nodes, the network
topology of MANETs changes very fast, making it more difficult to find the routes that message packets use.
Network control with Quality of Service (QoS) support is a key issue for multimedia applications in MANET.
Most of the real time applications have stringent requirements on bandwidth, delay, delay-jitter, packet loss
ratio, cost and other QoS metrics. This paper proposes a Multi-constrained QoS routing with mobility
prediction protocol. If the node has enough resources to transmit data packets, it uses the Global
Positioning System (GPS) to get the location information of the mobile nodes and selects the routing path
with the maximum Route Expiration Time (RET). A set of static and mobile agents are used to find the
multicast routes and transmit the packets. Extensive simulations have been conducted to evaluate the
performance of MC_MAODV using Network Simulator (NS-2). The simulation results show that the
proposed protocol achieves good performance in terms of improving packet delivery ratio and minimizing
end-to-end delay.
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IMPROVING PACKET DELIVERY RATIO WITH ENHANCED CONFIDENTIALITY IN MANETijcsa
In Mobile Ad Hoc Network (MANET), the collection of mobile nodes gets communicated without the need of any customary infrastructure. In MANET, repeated topology changes and intermittent link breakage
causes the failure of existing path. This leads to rediscovery of new route by broadcasting RREQ packet.The number of RREQ packet in the network gets added due to the increased amount of link failures. This result in increased routing overhead which degrades the packet delivery ratio in MANET. While designing
routing protocols for MANET, it is indispensable to reduce the overhead in route discovery. In our previous
work[17], routing protocol based on neighbour details and probabilistic knowledge is utilized, additionally
the symmetric cipher AES is used for securing the data packet. Through this protocol, packet delivery ratio
gets increased and confidentiality is ensured. But there is a problem in secure key exchange among the
source and destination while using AES. To resolve that problem, hybrid cryptographic system i.e.,
combination of AES and RSA is proposed in this paper. By using this hybrid cryptographic scheme and the
routing protocol based on probability and neighbour knowledge, enhanced secure packet delivery is
ensured in MANET
Application independent based multicast routing protocols in mobile ad hoc ne...Alexander Decker
This document summarizes and compares several application-independent multicast routing protocols for mobile ad hoc networks (MANETs). It discusses the key challenges in designing multicast routing protocols for MANETs, including robustness, efficiency, control overhead, and dependency on unicast routing. It also presents a reference model architecture for multicast routing protocols and classifications based on topology (tree-based vs. mesh-based) and approach (reactive vs. proactive). Several specific multicast routing protocols are described, including AMRoute, AMRIS, and ODMRP, focusing on their mechanisms for group management, tree/mesh construction, and maintenance in dynamic network conditions.
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.
The document presents a comparative study of various QoS-based routing protocols in mobile ad hoc networks (MANETs). It discusses the challenges of providing quality of service (QoS) guarantees in MANETs due to node mobility and dynamic topology. It reviews several QoS routing protocols including QOLSR, which extends OLSR to consider QoS metrics during multipoint relay selection. The document also analyzes research papers on optimizing OLSR for VANETs using metaheuristic algorithms, addressing selfish nodes in cluster-based QOLSR using a reputation system, and selecting multipoint relays in OLSR using fuzzy logic and QoS metrics. It concludes that OLSR-based
Detecting Good Neighbor Nodes and Finding Reliable Routing Path Based on AODV...IOSR Journals
Wireless operations allow services, such as long-range communications, that are impossible or
impractical to implement with the use of wires. It is supported by well-liked technique known as Adhoc Protocol
[1]. The term is commonly used in the telecommunications industry to refer to telecommunications systems e.g.
radio transmitters and receivers, remote controls etc. which use some form of energy e.g. radio waves, acoustic
energy, etc. to transfer information without the use of wires.[1] Information is transferred in this manner over
both short and long distances.In this, routes may be detached due to lively movement of nodes. So route
assortment and topology grouping is not easy and demanding issue. This type of networks is more vulnerable to
both internal and external attacks due to presence of wicked neighbour nodes[1][2s. Paper see the sights new
method using AODV protocol to find out good neighbour node and finding reliable path according to their
signal strength, flow capacity relative position of node in network.
A survey on routing algorithms and routing metrics for wireless mesh networksMohammad Siraj
This document summarizes a survey on routing algorithms and metrics for wireless mesh networks. It discusses the requirements of efficient mesh routing protocols including being distributed, adaptable to topology changes, loop-free, secure, scalable, and supporting quality of service. It reviews several important proactive routing protocols including destination-sequenced distance-vector routing, optimized link state routing, and mesh networking routing protocol. It also discusses reactive routing protocols and examples like dynamic source routing and ad hoc on-demand distance vector routing. Finally, it examines routing metrics and their impact on the performance of wireless mesh networks.
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.
IRJET- Aggregate Signature Scheme and Secured ID for Wireless Sensor Netw...IRJET Journal
This document proposes a cross-layer resource allocation scheme over wireless relay networks to guarantee quality of service (QoS) in terms of delay. The scheme aims to maximize network throughput subject to a given delay constraint, characterized by a QoS exponent θ. Dynamic resource allocation algorithms are developed for amplify-and-forward and decode-and-forward relay networks based on network channel state information and the QoS constraint. Simulations show the scheme efficiently supports diverse QoS requirements over wireless relay networks, and relay networks outperform direct transmissions under stringent delay constraints.
ON THE SUPPORT OF MULTIMEDIA APPLICATIONS OVER WIRELESS MESH NETWORKS ijwmn
This document summarizes research on supporting multimedia applications over wireless mesh networks. It proposes an efficient routing algorithm and a QoS approach at the MAC layer. The routing algorithm aims to transport multimedia traffic with QoS requirements. The MAC layer approach improves 802.11e to better facilitate video transport over the mesh network. Related work on routing protocols, QoS solutions at the network and MAC layers, and clustering approaches are also reviewed.
A NOVEL HYBRID OPPORTUNISTIC SCALABLE ENERGY EFFICIENT ROUTING DESIGN FOR LOW...IJCNCJournal
Opportunistic Routing (OR) scheme increases the transmission reliability despite the lossy wireless radio links by exploiting the broadcast nature of the wireless medium. However, OR schemes in low power Wireless Sensor Network (WSN) leads to energy drain in constrained sensor nodes due to constant
overhearing, periodic beaconing for Neighbourhood Management (NM) and increase in packet header length to append priority wise sorted Forwarding Candidates Set (FCS) prior to data transmission. The timer-based coordination mechanism incurs the least overhead to coordinate among the FCS that has successfully received the data packet for relaying the data in a multi-hop manner. This timer-based mechanism suffers from duplicate transmissions if the FCS is either not carefully selected or coordinated. The focus of this work is to propose a hybrid opportunistic energy efficient routing design for large scale, low power and lossy WSN. This design avoids periodic 'hello' beacons for NM, limits constant overhearing and increase in packet header length. There are two modes of operation i) opportunistic ii) unicast mode. The sender node adopts opportunistic forwarding for its initial data packet transmission and instead of pre-computing the FCS, it is dynamically computed in a completely distributed manner. The
eligible nodes to be part of FCS will be neighbour nodes at lower corona level than the sender with respect to the sink and remaining energy above the minimum threshold. The nodes part of FCS based on crosslayered multi-metrics and fuzzy decision logic determines its priority level to compute Dynamic Holding
Delay (DHD) for effective timer coordination. The differentiated back off implementation along with DHD enables the higher priority candidate that had received data packet to forward the packet first and facilitates others to cancel its timer upon overhearing. The sender node switches to unicast mode of
forwarding for successive transmissions by choosing the forwarding node with maximum trust value as it
denotes the stability of the temporally varying link with respect to the forwarder. The sender node will revert to opportunistic mode to increase transmission reliability in case of link-level transmission error or no trustworthy forwarders. Simulation results in NS2 show significant increase in Packet Delivery Ratio (PDR),decrease in both average energy consumption per node and Normalized Energy Consumption (NEC) per packet in comparison with existing protocols.
This document proposes a secured-bandwidth reservation distance vector routing protocol for mobile ad hoc networks (MANETs). It aims to improve quality of service (QoS) parameters like bandwidth reservation while providing security. The protocol is an extension of the Destination Sequence Distance Vector Routing Protocol (DSDV) that additionally reserves bandwidth along routing paths and includes nodes' bandwidth information in routing table updates. It uses an intruder detection method and secure key agreement between source and destination nodes using RSA encryption to authenticate nodes and securely transmit data. The protocol is evaluated through network simulations which show it can authorize nodes, authenticate nodes, ensure non-repudiation and protect message integrity.
EFFICIENT PACKET DELIVERY APPROACH FOR ADHOC WIRELESS NETWORKS cscpconf
A wireless ad-hoc network is a collection of nodes which are selfconfiguring,
connected by wireless links. The nodes are free to move randomly and
organize themselves arbitrarily; thus, the network's topology may change rapidly and
unpredictably. These kinds of networks are very flexible and they do not require any
existing infrastructure. Therefore, ad-hoc wireless networks are suitable for temporary
communication links. The biggest challenge in these kinds of networks is to find a path
between the communication end points of nodes that are mobile. Due to the limited
transmission range of wireless interfaces, the communication traffic has to be relayed
over several intermediate nodes to enable the communication between two nodes.
Therefore, these kinds of networks are also called multi-hop ad-hoc networks. The
proposed model is designed to improve the problems of real-time event-based
communication. It improves the packet delivery ratio by prior prediction and reduces
end-to-end packet delay. This in turn improves performance of the routing process
significantly and increases the Quality of Service (QoS).
DETERMINING THE NETWORK THROUGHPUT AND FLOW RATE USING GSR AND AAL2Rijujournal
In multi-radio wireless mesh networks, one node is eligible to transmit packets over multiple channels to different destination nodes simultaneously. This feature of multi-radio wireless mesh network makes high throughput for the network and increase the chance for multi path routing. This is because the multiple channel availability for transmission decreases the probability of the most elegant problem called as interference problem which is either of interflow and intraflow type. For avoiding the problem like interference and maintaining the constant network performance or increasing the performance the WMN need to consider the packet aggregation and packet forwarding. Packet aggregation is process of collecting several packets ready for transmission and sending them to the intended recipient through the channel, while the packet forwarding holds the hop-by-hop routing. But choosing the correct path among different available multiple paths is most the important factor in the both case for a routing algorithm. Hence the most challenging factor is to determine a forwarding strategy which will provide the schedule for each node for transmission within the channel. In this research work we have tried to implement two forwarding strategies for the multi path multi radio WMN as the approximate solution for the above said problem. We have implemented Global State Routing (GSR) which will consider the packet forwarding concept and Aggregation Aware Layer 2 Routing (AAL2R) which considers the both concept i.e. both packet forwarding and packet aggregation. After the successful implementation the network performance has been measured by means of simulation study.
This document summarizes a research paper on QoS routing protocols for mobile ad hoc networks (MANETs). It describes a QoS routing protocol called QOSRGA that uses a genetic algorithm to find high-quality routes between nodes that meet multiple QoS constraints like bandwidth, delay, and connectivity. The protocol relies on cooperation between sub-protocols to discover multiple paths, monitor node states, and measure bandwidth. It also introduces a new metric called node connectivity index to evaluate path quality. Simulation results show that QOSRGA performs well in finding routes that meet constraints, even as node mobility increases.
Rough set based QoS enabled multipath source routing in MANET IJECEIAES
The single constrained Quality of Service (QoS) routing in Mobile Ad-hoc NETwork (MANET) is disastrous in consideration of MANET characteristics, inference, collision and link failure as it maintains a single path. The QoS enabled routing yields better packet delivery and maintains consistency among nodes in the network by incorporating multi-constrained and multipath routing. The Dynamic Source Routing (DSR) is best suited source routing algorithm to maintain multipath information at the source node, but performance degrades with larger number of mobile nodes. Multilayer mechanism should be incorporated to maintain QoS metric information spreads across multiple layers of TCP/IP protocol stack. The proposed multipath QoS enabled source routing provides balanced routing by making use of all these features. The imprecise decision making strategy called Rough Set Theory (RST) is used at destination node for decision making. The Route REQuest (RREQ) messages coming from different routes are filtered by considering the QoS metrics of each and every route by making use of RST. The Route REPly (RREP) messages are generated and delivered to the source node for filtered RREQ messages. The proposed routing algorithm will reduce load on the network by reducing number of control messages exchanged for route establishment. This will evenly distribute load among all the nodes and it also avoid the scenarios like few nodes starved for resources. Finally, multipath routing always provides alternate routing option in case of route failure.
Packet delivery ratio, delay, throughput, routing overhead etc are the strict quality of service requirements
for applications in Ad hoc networks. So, the routing protocol not only finds a suitable path but also the path
should satisfy the QoS constraints also. Quality of services (QoS) aware routing is performed on the basis
of resource availability in the network and the flow of QoS requirement. In this paper we developed a
source routing protocol which satisfying the link bandwidth and end –to- end delay factor. Our protocol
will find multiple paths between the source and the destination, out of those one will be selected for data
transfer and others are reserve at the source node those can be used for route maintenance purpose. The
path selection is strictly based on the bandwidth and end-to-end delay in case two or more then two paths
are having the same values for QoS constraints then we will use hop as a parameter for path selection.
A QoS oriented distributed routing protocol for Hybrid Wireless Network :Firs...AAKASH S
This document presents an outline for a project on developing a QoS-oriented distributed routing protocol for hybrid wireless networks. It discusses existing work that suffers from overhead and scalability issues. The proposed work incorporates five algorithms to select neighbors, schedule packets, adjust segment size based on mobility, eliminate redundant traffic, and reduce redundant data to improve QoS metrics like transmission delay, throughput, and capacity while reducing overhead. It is claimed that using single-hop transmissions can improve performance by reducing overhead, link failures, and improving QoS.
RESOURCE ALLOCATION ALGORITHMS FOR QOS OPTIMIZATION IN MOBILE WIMAX NETWORKSijwmn
This document summarizes research on resource allocation algorithms for quality of service (QoS) optimization in mobile WiMAX networks. It discusses the Swapping Min-Max (SWIM) algorithm and Cooperative Multicast Scheduling (CMS) technique. SWIM performs scheduling for real-time polling service to meet QoS criteria like optimal throughput, latency guarantees, minimal delay jitter and number of bursts. CMS enhances throughput for multicast video by dividing transmission bursts into two phases where selected stations retransmit to nearby members for cooperation. Simulation results show SWIM has less bursts, zero jitter and optimal throughput, while CMS further improves throughput for each multicast group member.
Enhanced Multicast routing for QoS in delay tolerant networksIRJET Journal
This document summarizes research on enhanced multicast routing protocols for quality of service in delay tolerant networks. It proposes a novel multicast routing approach using the MAODV protocol and compares its performance to existing QBMR and DTN-DM protocols. Delay tolerant networks experience intermittent connectivity and long delays. Store-carry-forward is commonly used for data transfer between nodes. The proposed MAODV protocol improves storage and forwarding capabilities of mobile nodes and bundle message communication to multiple destinations. Its performance is evaluated based on metrics like throughput, routing load, and packet delivery fraction compared to existing protocols.
ENERGY EFFICIENT MULTICAST ROUTING IN MANET ijac journal
In this paper, we have presented the Modified Multicasting through Time Reservation using Adaptive
Control for Excellent Energy efficiency (MMC-TRACE). It is a real time multicasting architecture for
Mobile Ad-Hoc networks to make their work an energy efficient one .MMC-TRACE is a cross layer design
where the network layer and medium access control layer functionality are done in a single integrated
layer design. The basic design of the architecture is to establish and maintain an active multicast tree
surrounded by a passive mesh within a mobile ad hoc network. Energy efficiency is maximized by enabling
the particular node from sleep to awake mode while the remaining nodes of the same path are maintained
at sleep mode. Energy efficiency too achieved by eliminating most of the redundant data receptions across
nodes. The performance of MMC-TRACE are evaluated with the help of ns-2 simulations and comparisons
are made with its predecessor such as MC-TRACE. The results show that the MMC-TRACE provides
superior energy efficiency, competitive QoS performance and bandwidth efficiency.
Adaptive QoS Multicast Routing with Mobility Prediction in MANETs ijasuc
A Mobile Ad hoc NETwork (MANET) is a collection of wireless mobile hosts that form a temporary network
without a centralized administration or wired infrastructure. Due to the high mobility of nodes, the network
topology of MANETs changes very fast, making it more difficult to find the routes that message packets use.
Network control with Quality of Service (QoS) support is a key issue for multimedia applications in MANET.
Most of the real time applications have stringent requirements on bandwidth, delay, delay-jitter, packet loss
ratio, cost and other QoS metrics. This paper proposes a Multi-constrained QoS routing with mobility
prediction protocol. If the node has enough resources to transmit data packets, it uses the Global
Positioning System (GPS) to get the location information of the mobile nodes and selects the routing path
with the maximum Route Expiration Time (RET). A set of static and mobile agents are used to find the
multicast routes and transmit the packets. Extensive simulations have been conducted to evaluate the
performance of MC_MAODV using Network Simulator (NS-2). The simulation results show that the
proposed protocol achieves good performance in terms of improving packet delivery ratio and minimizing
end-to-end delay.
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IMPROVING PACKET DELIVERY RATIO WITH ENHANCED CONFIDENTIALITY IN MANETijcsa
In Mobile Ad Hoc Network (MANET), the collection of mobile nodes gets communicated without the need of any customary infrastructure. In MANET, repeated topology changes and intermittent link breakage
causes the failure of existing path. This leads to rediscovery of new route by broadcasting RREQ packet.The number of RREQ packet in the network gets added due to the increased amount of link failures. This result in increased routing overhead which degrades the packet delivery ratio in MANET. While designing
routing protocols for MANET, it is indispensable to reduce the overhead in route discovery. In our previous
work[17], routing protocol based on neighbour details and probabilistic knowledge is utilized, additionally
the symmetric cipher AES is used for securing the data packet. Through this protocol, packet delivery ratio
gets increased and confidentiality is ensured. But there is a problem in secure key exchange among the
source and destination while using AES. To resolve that problem, hybrid cryptographic system i.e.,
combination of AES and RSA is proposed in this paper. By using this hybrid cryptographic scheme and the
routing protocol based on probability and neighbour knowledge, enhanced secure packet delivery is
ensured in MANET
Application independent based multicast routing protocols in mobile ad hoc ne...Alexander Decker
This document summarizes and compares several application-independent multicast routing protocols for mobile ad hoc networks (MANETs). It discusses the key challenges in designing multicast routing protocols for MANETs, including robustness, efficiency, control overhead, and dependency on unicast routing. It also presents a reference model architecture for multicast routing protocols and classifications based on topology (tree-based vs. mesh-based) and approach (reactive vs. proactive). Several specific multicast routing protocols are described, including AMRoute, AMRIS, and ODMRP, focusing on their mechanisms for group management, tree/mesh construction, and maintenance in dynamic network conditions.
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.
The document presents a comparative study of various QoS-based routing protocols in mobile ad hoc networks (MANETs). It discusses the challenges of providing quality of service (QoS) guarantees in MANETs due to node mobility and dynamic topology. It reviews several QoS routing protocols including QOLSR, which extends OLSR to consider QoS metrics during multipoint relay selection. The document also analyzes research papers on optimizing OLSR for VANETs using metaheuristic algorithms, addressing selfish nodes in cluster-based QOLSR using a reputation system, and selecting multipoint relays in OLSR using fuzzy logic and QoS metrics. It concludes that OLSR-based
Detecting Good Neighbor Nodes and Finding Reliable Routing Path Based on AODV...IOSR Journals
Wireless operations allow services, such as long-range communications, that are impossible or
impractical to implement with the use of wires. It is supported by well-liked technique known as Adhoc Protocol
[1]. The term is commonly used in the telecommunications industry to refer to telecommunications systems e.g.
radio transmitters and receivers, remote controls etc. which use some form of energy e.g. radio waves, acoustic
energy, etc. to transfer information without the use of wires.[1] Information is transferred in this manner over
both short and long distances.In this, routes may be detached due to lively movement of nodes. So route
assortment and topology grouping is not easy and demanding issue. This type of networks is more vulnerable to
both internal and external attacks due to presence of wicked neighbour nodes[1][2s. Paper see the sights new
method using AODV protocol to find out good neighbour node and finding reliable path according to their
signal strength, flow capacity relative position of node in network.
A survey on routing algorithms and routing metrics for wireless mesh networksMohammad Siraj
This document summarizes a survey on routing algorithms and metrics for wireless mesh networks. It discusses the requirements of efficient mesh routing protocols including being distributed, adaptable to topology changes, loop-free, secure, scalable, and supporting quality of service. It reviews several important proactive routing protocols including destination-sequenced distance-vector routing, optimized link state routing, and mesh networking routing protocol. It also discusses reactive routing protocols and examples like dynamic source routing and ad hoc on-demand distance vector routing. Finally, it examines routing metrics and their impact on the performance of wireless mesh networks.
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.
IRJET- Aggregate Signature Scheme and Secured ID for Wireless Sensor Netw...IRJET Journal
This document proposes a cross-layer resource allocation scheme over wireless relay networks to guarantee quality of service (QoS) in terms of delay. The scheme aims to maximize network throughput subject to a given delay constraint, characterized by a QoS exponent θ. Dynamic resource allocation algorithms are developed for amplify-and-forward and decode-and-forward relay networks based on network channel state information and the QoS constraint. Simulations show the scheme efficiently supports diverse QoS requirements over wireless relay networks, and relay networks outperform direct transmissions under stringent delay constraints.
An optimized link state routing protocol based on a cross layer design for wi...IOSR Journals
This document discusses an optimized link state routing protocol based on a cross-layer design for wireless mesh networks. It proposes monitoring link quality at the MAC layer and notifying the network layer of changes, allowing routes to be automatically updated without a refresh phase. This provides seamless connectivity under varying load and mobility. Traditional routing protocols either have fast but vulnerable proactive routes or add overhead with reactive routes. The proposed cross-layer design monitors links continuously and performs vertical handovers to better links to avoid these issues.
This document summarizes a research paper that proposes a Bee-based routing protocol for mobile ad hoc networks (MANETs) and vehicular ad hoc networks (VANETs). The protocol, called BeeAdHoc, is inspired by bee communication systems and swarm intelligence. It uses different agent types like scouts, foragers, and swarms to discover and maintain multiple paths between nodes. BeeAdHoc aims to provide quality of service (QoS) guarantees like bandwidth and delay while being energy efficient. It operates in three phases - neighborhood discovery, route discovery using forward and backward scouts, and route maintenance using periodic refresh packets.
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
Multipath Routing Protocol by Breadth First Search Algorithm in Wireless Mesh...IOSR Journals
This document proposes a multipath routing protocol for wireless mesh networks that uses a parallel layer-based approach and breadth-first search algorithm to discover multiple paths between a source and destination. It organizes nodes into layers based on distance from the destination and performs iterative breadth-first searches to find partial paths connecting nodes in lower layers, storing the partial paths. This process repeats until reaching the destination to find all possible paths. The primary path is then elected using an Expected Forwarding Counter metric to select the most reliable path. The protocol was evaluated in NS-2 and showed improved throughput, delivery ratio, and reduced delay compared to other protocols.
Packet Transfer Rate & Robust Throughput for Mobile Adhoc NetworkEswar Publications
An ad-hoc wireless network is highly different considering dynamic stochastic process of its underlying links, leads to link breaks during data transaction. Hence, to provide free flow data transaction, many routing algorithms have the property of link recovery and maintenance procedures to minimize the loss of data during transmission. However these routing method do not guarantee reliable data transmission in some special application conditions with wide requirements on Packet delivery ratio and link quality of the network. Routing is a critical issue in MANET and hence the focus of this paper is the performance analysis of different routing protocols used in the
wireless network. We evaluate the ability of a mobile ad hoc wireless network to distribute flows across robust routes by introducing the robust throughput measure as a performance metric. The utility gained by the delivery of flow messages is based on the level of interruption experienced by the underlying transaction. We describe the mathematical calculation of a network’s robust throughput measure, as well as its robust throughput capacity. We introduce the robust flow admission and routing algorithm (RFAR) to provide for the timely and robust transport of flow transactions across mobile ad hoc wireless systems.
The congestion control within the TCP (Transmission Control Protocol) plays a critical role in
amending data rate to evade congestion from happening possibilities. Based on TCP communication sender
not only guarantees the successful packet delivery, but also maintains the correct sequence of packets by
receiving the frequent acknowledgement from the receiver. In this research we proposed a congestion
control scheme with modified TCP and queue length variation with OLSR routing protocol in MANET. The
TCP protocol performance is modified by forwarding busy channel signals to predecessor nodes through
intermediate nodes in network. The congestion is controlled by that novel method of detecting the node is
busy or ready for communication. If the communication is start in network and the possibility if congestion
is arise, then in that case the queue length is handle the possibility of congestion. The congestion is
minimized due to awaring about the channel busy status and nodes buffer status or queue status. The TCP
protocol is able to handle the congestion situation but i.e. completely based on acknowledgement of receiver
and also not very effective to control it. The proposed TCP congestion control OLSR routing is improves
the network performance by reducing packet loss. The performance of network is measure through
performance metrics like throughput, PDF and Routing overhead in different node density scenarios. The
performance of proposed scheme is provides the better results.
ADAPTIVE BANDWIDTH MANAGEMENT MODEL FOR WIRELESS MOBILE AD-HOC NETWORKIJCNCJournal
The quality of service (QoS) component in a mobile ad-hoc network has an active role in the current
network scenario. In a dynamic mobile ad hoc network, ensuring optimum QoS with a scarce network
resource is a significant challenge. To achieve QoS, it is essential to adopt some effective and efficient
mechanisms. We have proposed an adaptive bandwidth manager model (ABMM) which uses a bandwidthsharing concept along with the flexible bandwidth reservation algorithm (FBRA) for an effective, quick and
authentic data transfer. During real-time data transfer, to make communication effective, we make use of
bandwidth-sharing network design problems and the concept of reserving bandwidth in high-performance
networks. In our proposed model we are concentrating on the maximum utilization of resources, and using
the scheduling concept to provide the minimum required bandwidth guarantee to QoS flows. Our goal is to
reduce the delay in data transfer and enhance the throughput while properly utilizing the system resources.
Our simulation result also shows that our model improves the network performance.
Adaptive Bandwidth Management Model for Wireless Mobile Ad-hoc NetworkIJCNCJournal
The quality of service (QoS) component in a mobile ad-hoc network has an active role in the current network scenario. In a dynamic mobile ad hoc network, ensuring optimum QoS with a scarce network resource is a significant challenge. To achieve QoS, it is essential to adopt some effective and efficient mechanisms. We have proposed an adaptive bandwidth manager model (ABMM) which uses a bandwidthsharing concept along with the flexible bandwidth reservation algorithm (FBRA) for an effective, quick and authentic data transfer. During real-time data transfer, to make communication effective, we make use of bandwidth-sharing network design problems and the concept of reserving bandwidth in high-performance networks. In our proposed model we are concentrating on the maximum utilization of resources, and using the scheduling concept to provide the minimum required bandwidth guarantee to QoS flows. Our goal is to reduce the delay in data transfer and enhance the throughput while properly utilizing the system resources. Our simulation result also shows that our model improves the network performance.
MULTI-HOP BANDWIDTH MANAGEMENT PROTOCOL FOR MOBILE AD HOC NETWORKSIJMIT JOURNAL
An admission control scheme should play the role of a coordinator for flows in a data communication network, to provide the guarantees as the medium is shared. The nodes of a wired network can monitor the medium to know the available bandwidth at any point of time. But, in wireless ad hoc networks, a node must consume the bandwidth of neighboring nodes, during a communication. Hence, the consumption of bandwidth by a flow and the availability of resources to any wireless node strictly depend upon the neighboring nodes within its transmission range. We present a scalable and efficient admission control scheme, Multi-hop Bandwidth Management Protocol (MBMP), to support the QoS requirements
in multi-hop ad hoc networks. We simulate several options to design MBMP and compare the performances of these options through mathematical analysis and simulation results, and compare its effectiveness with the existing admission control schemes through extensive simulations.
The document proposes a Crosslayered and Power Conserved Routing Topology (CPCRT) for congestion control in mobile ad hoc networks. CPCRT aims to distinguish between packet loss due to link failure versus other causes like congestion. It takes a cross-layer approach using information from the physical, MAC, and application layers. The proposed method also aims to conserve power during packet transmission by adjusting transmission power levels based on received signal strength. Simulation results show that CPCRT can better utilize resources and conserve power during congestion control compared to other approaches.
Reliable and efficient data dissemination scheme in VANET: a review IJECEIAES
Vehicular ad-hoc network (VANET), identified as a mobile ad hoc network MANETs with several added constraints. Basically, in VANETs, the network is established on the fly based on the availability of vehicles on roads and supporting infrastructures along the roads, such as base stations. Vehicles and road-side infrastructures are required to provide communication facilities, particularly when enough vehicles are not available on the roads for effective communication. VANETs are crucial for providing a wide range of safety and non-safety applications to road users. However, the specific fundamental problem in VANET is the challenge of creating effective communication between two fast-moving vehicles. Therefore, message routing is an issue for many safety and non-safety of VANETs applications. The challenge in designing a robust but reliable message dissemination technique is primarily due to the stringent QoS requirements of the VANETs safety applications. This paper investigated various methods and conducted literature on an idea to develop a model for efficient and reliable message dissemination routing techniques in VANET.
CPCRT: Crosslayered and Power Conserved Routing Topology for congestion Cont...IOSR Journals
The document describes a proposed Crosslayered and Power Conserved Routing Topology (CPCRT) for congestion control in mobile ad hoc networks. The CPCRT aims to improve transmission performance by distinguishing between packet loss due to link failure versus other causes, while also conserving power used for packet transmission. It builds upon an earlier Crosslayered Routing Topology (CRT) approach by incorporating power conservation. The CPCRT is intended to identify the root cause of packet loss, avoid unnecessary congestion handling from link failures, allow congestion handling at specific high-traffic nodes rather than all nodes, and optimize resource and power usage for packet routing in mobile ad hoc networks.
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.
ECA MODEL BASED QOS AODV ROUTING FOR MANETSIJCNCJournal
Applications like banking, interactive multimedia, movie on demand, VOIP, etc., are delay sensitive by
nature. The QoS given to users will be affected by network delay, which can be mitigated by employing
QoS routing and efficient data transfer. To build routing table, normal AODV routing uses flooding
technique, which will not consider QoS requirements. Hence QoS based routing which is stable for the
entire application is essential, which understands the dynamic nature of the MANET and establishes the
required route, in minimum possible time. We have proposed an intelligent routing protocol based ECA
model and AODV for establishing QoS route.
The simulation results shows that the ECA model gives better results, while considering the local
connectivity time, source to destination connectivity time, number of data packets successfully delivered to
the destination, local and global error correction time, compared to AODV.
Link Stability Based On Qos Aware On - Demand Routing In Mobile Ad Hoc NetworksIOSR Journals
This document summarizes a research paper that proposes a new routing protocol for mobile ad hoc networks (MANETs) that considers link stability and quality of service (QoS) metrics. The protocol estimates link quality based on node mobility prediction using GPS data. It calculates a "cost" metric factoring in link stability and power consumption to select paths with more stable, lower-cost links. Simulation results show the proposed protocol achieves higher throughput and packet delivery ratio compared to existing protocols, with lower control overhead. Future work could incorporate additional link quality metrics and statistical classifiers to further optimize path selection in MANETs.
This document provides an overview of wireless mesh networks (WMNs). It discusses the types of nodes in WMNs including wireless mesh routers and mesh clients. It describes the different architectures of WMNs and characteristics such as low cost, integration capabilities, and applications like broadband networking. Key challenges are also addressed around developing high-capacity radio interfaces and resource management. The document serves as an introduction to WMNs covering topics from architecture and standards to research opportunities.
A survey on energy aware routing issues and cross layering in mane tsIAEME Publication
This document summarizes a survey on energy aware routing and cross-layering in mobile ad hoc networks (MANETs). It discusses how energy conservation is critical in MANETs since nodes are battery powered. It reviews existing energy efficient routing protocols and notes they do not consider quality of service parameters. Cross-layer design allows interaction between layers to improve network performance without degrading quality of service. The document surveys energy aware routing using cross-layer approaches to improve energy efficiency while maintaining quality of service in MANETs.
The exponential rise in wireless communication systems and allied applications has revitalized academiaindustries to achieve more efficient data transmission system to meet Quality-of-Service (QoS) demands. Amongst major wireless communication techniques, Mobile Ad-hoc Network (MANET) is found potential to provide decentralized and infrastructure less communication among multiple distributed nodes across network region. However, dynamic network conditions such as changing topology, congestion, packet drop, intrusion possibilities etc often make MANET’s routing a tedious task. On the other hand, mobile network feature broadens the horizon for intruders to penetrate the network and causes performance degradation. Unlike classical MANET protocols where major efforts have been made on single network parameter based routing decision, this research paper proposes a novel Elitist Genetic Algorithm (EGA) Multi-Objective Optimization assisted Network Condition Aware QoS-Routing Protocol for Mobile Ad-hoc Networks (MNCQM). Our proposed MNCQM protocol exhibits two phase implementation where at first it performs node-profiling under dynamic network topology for which three factors; irregular MAC information exchange, queuing overflow and topological variations have been considered. Towards this objective node features like Packet Forwarding Probability (PFP) at the MAC layer, Success Probability of Data Transmission (SPDT) of a neighboring node, and Probability of Successful Data Delivery (PSDD) have been obtained to estimate Node-Trustworthiness Index (NTI), which is further used to eliminate untrustworthy nodes. In the second phase of implementation, a novel Evolutionary Computing assisted nondisjoint best forwarding path selection model is developed that exploits node’s and allied link’s connectivity and availability features to identify the quasi-sub-optimal forwarding paths. EGA algorithm intends to reduce hop-counts, connectivity-loss and node or link unavailability to estimate best forwarding node. One key feature of the proposed model is dual-supplementary forwarding path selection that enables alternate path formation in case of link outage and thus avoids any iterative network discovery phase.
Similar to A Cross-Layer Based Multipath Routing Protocol To Improve QoS In Mobile Adhoc Networks (20)
Power System State Estimation - A ReviewIDES Editor
This document provides a review of power system state estimation techniques. It discusses both static and dynamic state estimation algorithms. For static state estimation, it covers weighted least squares, decoupled, and robust estimation methods. Weighted least squares is commonly used but can have numerical instability issues. Decoupled state estimation approximates the gain matrix for faster computation. Robust estimation uses M-estimators and other techniques to handle outliers and bad data. Dynamic state estimation applies Kalman filtering, leapfrog algorithms, and other methods to continuously monitor system states over time.
Artificial Intelligence Technique based Reactive Power Planning Incorporating...IDES Editor
This document summarizes a research paper that proposes using artificial intelligence techniques and FACTS controllers for reactive power planning in real-time power transmission systems. The paper formulates the reactive power planning problem and incorporates flexible AC transmission system (FACTS) devices like static VAR compensators (SVC), thyristor controlled series capacitors (TCSC), and unified power flow controllers (UPFC). Evolutionary algorithms like evolutionary programming (EP) and differential evolution (DE) are applied to find the optimal locations and settings of the FACTS controllers to minimize losses and costs. Simulation results on IEEE 30-bus and 72-bus Indian test systems show that UPFC performs best in reducing losses compared to SVC and TCSC.
Design and Performance Analysis of Genetic based PID-PSS with SVC in a Multi-...IDES Editor
Damping of power system oscillations with the help
of proposed optimal Proportional Integral Derivative Power
System Stabilizer (PID-PSS) and Static Var Compensator
(SVC)-based controllers are thoroughly investigated in this
paper. This study presents robust tuning of PID-PSS and
SVC-based controllers using Genetic Algorithms (GA) in
multi machine power systems by considering detailed model
of the generators (model 1.1). The effectiveness of FACTSbased
controllers in general and SVC-based controller in
particular depends upon their proper location. Modal
controllability and observability are used to locate SVC–based
controller. The performance of the proposed controllers is
compared with conventional lead-lag power system stabilizer
(CPSS) and demonstrated on 10 machines, 39 bus New England
test system. Simulation studies show that the proposed genetic
based PID-PSS with SVC based controller provides better
performance.
Optimal Placement of DG for Loss Reduction and Voltage Sag Mitigation in Radi...IDES Editor
This paper presents the need to operate the power
system economically and with optimum levels of voltages has
further led to an increase in interest in Distributed
Generation. In order to reduce the power losses and to improve
the voltage in the distribution system, distributed generators
(DGs) are connected to load bus. To reduce the total power
losses in the system, the most important process is to identify
the proper location for fixing and sizing of DGs. It presents a
new methodology using a new population based meta heuristic
approach namely Artificial Bee Colony algorithm(ABC) for
the placement of Distributed Generators(DG) in the radial
distribution systems to reduce the real power losses and to
improve the voltage profile, voltage sag mitigation. The power
loss reduction is important factor for utility companies because
it is directly proportional to the company benefits in a
competitive electricity market, while reaching the better power
quality standards is too important as it has vital effect on
customer orientation. In this paper an ABC algorithm is
developed to gain these goals all together. In order to evaluate
sag mitigation capability of the proposed algorithm, voltage
in voltage sensitive buses is investigated. An existing 20KV
network has been chosen as test network and results are
compared with the proposed method in the radial distribution
system.
Line Losses in the 14-Bus Power System Network using UPFCIDES Editor
Controlling power flow in modern power systems
can be made more flexible by the use of recent developments
in power electronic and computing control technology. The
Unified Power Flow Controller (UPFC) is a Flexible AC
transmission system (FACTS) device that can control all the
three system variables namely line reactance, magnitude and
phase angle difference of voltage across the line. The UPFC
provides a promising means to control power flow in modern
power systems. Essentially the performance depends on proper
control setting achievable through a power flow analysis
program. This paper presents a reliable method to meet the
requirements by developing a Newton-Raphson based load
flow calculation through which control settings of UPFC can
be determined for the pre-specified power flow between the
lines. The proposed method keeps Newton-Raphson Load Flow
(NRLF) algorithm intact and needs (little modification in the
Jacobian matrix). A MATLAB program has been developed to
calculate the control settings of UPFC and the power flow
between the lines after the load flow is converged. Case studies
have been performed on IEEE 5-bus system and 14-bus system
to show that the proposed method is effective. These studies
indicate that the method maintains the basic NRLF properties
such as fast computational speed, high degree of accuracy and
good convergence rate.
Study of Structural Behaviour of Gravity Dam with Various Features of Gallery...IDES Editor
The size and shape of opening in dam causes the
stress concentration, it also causes the stress variation in the
rest of the dam cross section. The gravity method of the analysis
does not consider the size of opening and the elastic property
of dam material. Thus the objective of study is comprises of
the Finite Element Method which considers the size of
opening, elastic property of material, and stress distribution
because of geometric discontinuity in cross section of dam.
Stress concentration inside the dam increases with the opening
in dam which results in the failure of dam. Hence it is
necessary to analyses large opening inside the dam. By making
the percentage area of opening constant and varying size and
shape of opening the analysis is carried out. For this purpose
a section of Koyna Dam is considered. Dam is defined as a
plane strain element in FEM, based on geometry and loading
condition. Thus this available information specified our path
of approach to carry out 2D plane strain analysis. The results
obtained are then compared mutually to get most efficient
way of providing large opening in the gravity dam.
Assessing Uncertainty of Pushover Analysis to Geometric ModelingIDES Editor
Pushover Analysis a popular tool for seismic
performance evaluation of existing and new structures and is
nonlinear Static procedure where in monotonically increasing
loads are applied to the structure till the structure is unable
to resist the further load .During the analysis, whatever the
strength of concrete and steel is adopted for analysis of
structure may not be the same when real structure is
constructed and the pushover analysis results are very sensitive
to material model adopted, geometric model adopted, location
of plastic hinges and in general to procedure followed by the
analyzer. In this paper attempt has been made to assess
uncertainty in pushover analysis results by considering user
defined hinges and frame modeled as bare frame and frame
with slab modeled as rigid diaphragm and results compared
with experimental observations. Uncertain parameters
considered includes the strength of concrete, strength of steel
and cover to the reinforcement which are randomly generated
and incorporated into the analysis. The results are then
compared with experimental observations.
Secure Multi-Party Negotiation: An Analysis for Electronic Payments in Mobile...IDES Editor
This document summarizes and analyzes secure multi-party negotiation protocols for electronic payments in mobile computing. It presents a framework for secure multi-party decision protocols using lightweight implementations. The main focus is on synchronizing security features to avoid agreement manipulation and reduce user traffic. The paper describes negotiation between an auctioneer and bidders, showing multiparty security is better than existing systems. It analyzes the performance of encryption algorithms like ECC, XTR, and RSA for use in the multiparty negotiation protocols.
Selfish Node Isolation & Incentivation using Progressive ThresholdsIDES Editor
The problems associated with selfish nodes in
MANET are addressed by a collaborative watchdog approach
which reduces the detection time for selfish nodes thereby
improves the performance and accuracy of watchdogs[1]. In
the related works they make use of credit based systems, reputation
based mechanisms, pathrater and watchdog mechanism
to detect such selfish nodes. In this paper we follow an approach
of collaborative watchdog which reduces the detection
time for selfish nodes and also involves the removal of such
selfish nodes based on some progressively assessed thresholds.
The threshold gives the nodes a chance to stop misbehaving
before it is permanently deleted from the network.
The node passes through several isolation processes before it
is permanently removed. Another version of AODV protocol
is used here which allows the simulation of selfish nodes in
NS2 by adding or modifying log files in the protocol.
Various OSI Layer Attacks and Countermeasure to Enhance the Performance of WS...IDES Editor
Wireless sensor networks are networks having non
wired infrastructure and dynamic topology. In OSI model each
layer is prone to various attacks, which halts the performance
of a network .In this paper several attacks on four layers of
OSI model are discussed and security mechanism is described
to prevent attack in network layer i.e wormhole attack. In
Wormhole attack two or more malicious nodes makes a covert
channel which attracts the traffic towards itself by depicting a
low latency link and then start dropping and replaying packets
in the multi-path route. This paper proposes promiscuous mode
method to detect and isolate the malicious node during
wormhole attack by using Ad-hoc on demand distance vector
routing protocol (AODV) with omnidirectional antenna. The
methodology implemented notifies that the nodes which are
not participating in multi-path routing generates an alarm
message during delay and then detects and isolate the
malicious node from network. We also notice that not only
the same kind of attacks but also the same kind of
countermeasures can appear in multiple layer. For example,
misbehavior detection techniques can be applied to almost all
the layers we discussed.
Responsive Parameter based an AntiWorm Approach to Prevent Wormhole Attack in...IDES Editor
The recent advancements in the wireless technology
and their wide-spread deployment have made remarkable
enhancements in efficiency in the corporate and industrial
and Military sectors The increasing popularity and usage of
wireless technology is creating a need for more secure wireless
Ad hoc networks. This paper aims researched and developed
a new protocol that prevents wormhole attacks on a ad hoc
network. A few existing protocols detect wormhole attacks but
they require highly specialized equipment not found on most
wireless devices. This paper aims to develop a defense against
wormhole attacks as an Anti-worm protocol which is based on
responsive parameters, that does not require as a significant
amount of specialized equipment, trick clock synchronization,
no GPS dependencies.
Cloud Security and Data Integrity with Client Accountability FrameworkIDES Editor
This document summarizes a proposed cloud security and data integrity framework that provides client accountability. The framework aims to address issues like lack of user control over cloud data, need for data transparency and tracking, and ensuring data integrity. It proposes using JAR (Java Archive) files for data sharing due to benefits like portability. The framework incorporates client-side verification using MD5 hashing, digital signature-based authentication of JAR files, and use of HMAC to ensure data integrity. It also uses password-based encryption of log files to keep them tamper-proof. The framework is intended to provide both accountability and security for data sharing in cloud environments.
Genetic Algorithm based Layered Detection and Defense of HTTP BotnetIDES Editor
A System state in HTTP botnet uses HTTP protocol
for the creation of chain of Botnets thereby compromising
other systems. By using HTTP protocol and port number 80,
attacks can not only be hidden but also pass through the
firewall without being detected. The DPR based detection
leads to better analysis of botnet attacks [3]. However, it
provides only probabilistic detection of the attacker and also
time consuming and error prone. This paper proposes a Genetic
algorithm based layered approach for detecting as well as
preventing botnet attacks. The paper reviews p2p firewall
implementation which forms the basis of filtering.
Performance evaluation is done based on precision, F-value
and probability. Layered approach reduces the computation
and overall time requirement [7]. Genetic algorithm promises
a low false positive rate.
Enhancing Data Storage Security in Cloud Computing Through SteganographyIDES Editor
This document summarizes a research paper that proposes a method for enhancing data security in cloud computing through steganography. The method hides user data in digital images stored on cloud servers. When data needs to be accessed, it is extracted from the images. The document outlines the cloud architecture and security issues addressed. It then describes the proposed system architecture, security model, and data storage and retrieval process. Data is partitioned and hidden in multiple images to improve security. The goal is to prevent unauthorized access to user data stored on cloud servers.
The main tasks of a Wireless Sensor Network
(WSN) are data collection from its nodes and communication
of this data to the base station (BS). The protocols used for
communication among the WSN nodes and between the WSN
and the BS, must consider the resource constraints of nodes,
battery energy, computational capabilities and memory. The
WSN applications involve unattended operation of the network
over an extended period of time. In order to extend the lifetime
of a WSN, efficient routing protocols need to be adopted. The
proposed low power routing protocol based on tree-based
network structure reliably forwards the measured data towards
the BS using TDMA. An energy consumption analysis of the
WSN making use of this protocol is also carried out. It is
found that the network is energy efficient with an average
duty cycle of 0:7% for the WSN nodes. The OmNET++
simulation platform along with MiXiM framework is made
use of.
Permutation of Pixels within the Shares of Visual Cryptography using KBRP for...IDES Editor
The security of authentication of internet based
co-banking services should not be susceptible to high risks.
The passwords are highly vulnerable to virus attacks due to
the lack of high end embedding of security methods. In order
for the passwords to be more secure, people are generally
compelled to select jumbled up character based passwords
which are not only less memorable but are also equally prone
to insecurity. Multiple use of distributed shares has been
studied to solve the problem of authentication by algorithms
based on thresholding of pixels in image processing and visual
cryptography concepts where the subset of shares is considered
for the recovery of the original image for authentication using
correlation function[1][2].The main disadvantage in the above
study is the plain storage of shares and also one of the shares
is being supplied to the customer, which will lead to the
possibility of misuse by a third party. This paper proposes a
technique for scrambling of pixels by key based random
permutation (KBRP) within the shares before the
authentication has been attempted. Total number of shares to
be created is dependent on the multiplicity of ownership of
the account. By this method the problem of uncertainty among
the customers with regard to security, storage, retrieval of
holding of half of the shares is minimized.
This paper presents a trifocal Rotman Lens Design
approach. The effects of focal ratio and element spacing on
the performance of Rotman Lens are described. A three beam
prototype feeding 4 element antenna array working in L-band
has been simulated using RLD v1.7 software. Simulated
results show that the simulated lens has a return loss of –
12.4dB at 1.8GHz. Beam to array port phase error variation
with change in the focal ratio and element spacing has also
been investigated.
Band Clustering for the Lossless Compression of AVIRIS Hyperspectral ImagesIDES Editor
Hyperspectral images can be efficiently compressed
through a linear predictive model, as for example the one
used in the SLSQ algorithm. In this paper we exploit this
predictive model on the AVIRIS images by individuating,
through an off-line approach, a common subset of bands, which
are not spectrally related with any other bands. These bands
are not useful as prediction reference for the SLSQ 3-D
predictive model and we need to encode them via other
prediction strategies which consider only spatial correlation.
We have obtained this subset by clustering the AVIRIS bands
via the clustering by compression approach. The main result
of this paper is the list of the bands, not related with the
others, for AVIRIS images. The clustering trees obtained for
AVIRIS and the relationship among bands they depict is also
an interesting starting point for future research.
Microelectronic Circuit Analogous to Hydrogen Bonding Network in Active Site ...IDES Editor
A microelectronic circuit of block-elements
functionally analogous to two hydrogen bonding networks is
investigated. The hydrogen bonding networks are extracted
from â-lactamase protein and are formed in its active site.
Each hydrogen bond of the network is described in equivalent
electrical circuit by three or four-terminal block-element.
Each block-element is coded in Matlab. Static and dynamic
analyses are performed. The resultant microelectronic circuit
analogous to the hydrogen bonding network operates as
current mirror, sine pulse source, triangular pulse source as
well as signal modulator.
Texture Unit based Monocular Real-world Scene Classification using SOM and KN...IDES Editor
In this paper a method is proposed to discriminate
real world scenes in to natural and manmade scenes of similar
depth. Global-roughness of a scene image varies as a function
of image-depth. Increase in image depth leads to increase in
roughness in manmade scenes; on the contrary natural scenes
exhibit smooth behavior at higher image depth. This particular
arrangement of pixels in scene structure can be well explained
by local texture information in a pixel and its neighborhood.
Our proposed method analyses local texture information of a
scene image using texture unit matrix. For final classification
we have used both supervised and unsupervised learning using
K-Nearest Neighbor classifier (KNN) and Self Organizing
Map (SOM) respectively. This technique is useful for online
classification due to very less computational complexity.
inQuba Webinar Mastering Customer Journey Management with Dr Graham HillLizaNolte
HERE IS YOUR WEBINAR CONTENT! 'Mastering Customer Journey Management with Dr. Graham Hill'. We hope you find the webinar recording both insightful and enjoyable.
In this webinar, we explored essential aspects of Customer Journey Management and personalization. Here’s a summary of the key insights and topics discussed:
Key Takeaways:
Understanding the Customer Journey: Dr. Hill emphasized the importance of mapping and understanding the complete customer journey to identify touchpoints and opportunities for improvement.
Personalization Strategies: We discussed how to leverage data and insights to create personalized experiences that resonate with customers.
Technology Integration: Insights were shared on how inQuba’s advanced technology can streamline customer interactions and drive operational efficiency.
Essentials of Automations: Exploring Attributes & Automation ParametersSafe Software
Building automations in FME Flow can save time, money, and help businesses scale by eliminating data silos and providing data to stakeholders in real-time. One essential component to orchestrating complex automations is the use of attributes & automation parameters (both formerly known as “keys”). In fact, it’s unlikely you’ll ever build an Automation without using these components, but what exactly are they?
Attributes & automation parameters enable the automation author to pass data values from one automation component to the next. During this webinar, our FME Flow Specialists will cover leveraging the three types of these output attributes & parameters in FME Flow: Event, Custom, and Automation. As a bonus, they’ll also be making use of the Split-Merge Block functionality.
You’ll leave this webinar with a better understanding of how to maximize the potential of automations by making use of attributes & automation parameters, with the ultimate goal of setting your enterprise integration workflows up on autopilot.
AppSec PNW: Android and iOS Application Security with MobSFAjin Abraham
Mobile Security Framework - MobSF is a free and open source automated mobile application security testing environment designed to help security engineers, researchers, developers, and penetration testers to identify security vulnerabilities, malicious behaviours and privacy concerns in mobile applications using static and dynamic analysis. It supports all the popular mobile application binaries and source code formats built for Android and iOS devices. In addition to automated security assessment, it also offers an interactive testing environment to build and execute scenario based test/fuzz cases against the application.
This talk covers:
Using MobSF for static analysis of mobile applications.
Interactive dynamic security assessment of Android and iOS applications.
Solving Mobile app CTF challenges.
Reverse engineering and runtime analysis of Mobile malware.
How to shift left and integrate MobSF/mobsfscan SAST and DAST in your build pipeline.
What is an RPA CoE? Session 1 – CoE VisionDianaGray10
In the first session, we will review the organization's vision and how this has an impact on the COE Structure.
Topics covered:
• The role of a steering committee
• How do the organization’s priorities determine CoE Structure?
Speaker:
Chris Bolin, Senior Intelligent Automation Architect Anika Systems
Freshworks Rethinks NoSQL for Rapid Scaling & Cost-EfficiencyScyllaDB
Freshworks creates AI-boosted business software that helps employees work more efficiently and effectively. Managing data across multiple RDBMS and NoSQL databases was already a challenge at their current scale. To prepare for 10X growth, they knew it was time to rethink their database strategy. Learn how they architected a solution that would simplify scaling while keeping costs under control.
High performance Serverless Java on AWS- GoTo Amsterdam 2024Vadym Kazulkin
Java is for many years one of the most popular programming languages, but it used to have hard times in the Serverless community. Java is known for its high cold start times and high memory footprint, comparing to other programming languages like Node.js and Python. In this talk I'll look at the general best practices and techniques we can use to decrease memory consumption, cold start times for Java Serverless development on AWS including GraalVM (Native Image) and AWS own offering SnapStart based on Firecracker microVM snapshot and restore and CRaC (Coordinated Restore at Checkpoint) runtime hooks. I'll also provide a lot of benchmarking on Lambda functions trying out various deployment package sizes, Lambda memory settings, Java compilation options and HTTP (a)synchronous clients and measure their impact on cold and warm start times.
Taking AI to the Next Level in Manufacturing.pdfssuserfac0301
Read Taking AI to the Next Level in Manufacturing to gain insights on AI adoption in the manufacturing industry, such as:
1. How quickly AI is being implemented in manufacturing.
2. Which barriers stand in the way of AI adoption.
3. How data quality and governance form the backbone of AI.
4. Organizational processes and structures that may inhibit effective AI adoption.
6. Ideas and approaches to help build your organization's AI strategy.
5th LF Energy Power Grid Model Meet-up SlidesDanBrown980551
5th Power Grid Model Meet-up
It is with great pleasure that we extend to you an invitation to the 5th Power Grid Model Meet-up, scheduled for 6th June 2024. This event will adopt a hybrid format, allowing participants to join us either through an online Mircosoft Teams session or in person at TU/e located at Den Dolech 2, Eindhoven, Netherlands. The meet-up will be hosted by Eindhoven University of Technology (TU/e), a research university specializing in engineering science & technology.
Power Grid Model
The global energy transition is placing new and unprecedented demands on Distribution System Operators (DSOs). Alongside upgrades to grid capacity, processes such as digitization, capacity optimization, and congestion management are becoming vital for delivering reliable services.
Power Grid Model is an open source project from Linux Foundation Energy and provides a calculation engine that is increasingly essential for DSOs. It offers a standards-based foundation enabling real-time power systems analysis, simulations of electrical power grids, and sophisticated what-if analysis. In addition, it enables in-depth studies and analysis of the electrical power grid’s behavior and performance. This comprehensive model incorporates essential factors such as power generation capacity, electrical losses, voltage levels, power flows, and system stability.
Power Grid Model is currently being applied in a wide variety of use cases, including grid planning, expansion, reliability, and congestion studies. It can also help in analyzing the impact of renewable energy integration, assessing the effects of disturbances or faults, and developing strategies for grid control and optimization.
What to expect
For the upcoming meetup we are organizing, we have an exciting lineup of activities planned:
-Insightful presentations covering two practical applications of the Power Grid Model.
-An update on the latest advancements in Power Grid -Model technology during the first and second quarters of 2024.
-An interactive brainstorming session to discuss and propose new feature requests.
-An opportunity to connect with fellow Power Grid Model enthusiasts and users.
Have you ever been confused by the myriad of choices offered by AWS for hosting a website or an API?
Lambda, Elastic Beanstalk, Lightsail, Amplify, S3 (and more!) can each host websites + APIs. But which one should we choose?
Which one is cheapest? Which one is fastest? Which one will scale to meet our needs?
Join me in this session as we dive into each AWS hosting service to determine which one is best for your scenario and explain why!
Dandelion Hashtable: beyond billion requests per second on a commodity serverAntonios Katsarakis
This slide deck presents DLHT, a concurrent in-memory hashtable. Despite efforts to optimize hashtables, that go as far as sacrificing core functionality, state-of-the-art designs still incur multiple memory accesses per request and block request processing in three cases. First, most hashtables block while waiting for data to be retrieved from memory. Second, open-addressing designs, which represent the current state-of-the-art, either cannot free index slots on deletes or must block all requests to do so. Third, index resizes block every request until all objects are copied to the new index. Defying folklore wisdom, DLHT forgoes open-addressing and adopts a fully-featured and memory-aware closed-addressing design based on bounded cache-line-chaining. This design offers lock-free index operations and deletes that free slots instantly, (2) completes most requests with a single memory access, (3) utilizes software prefetching to hide memory latencies, and (4) employs a novel non-blocking and parallel resizing. In a commodity server and a memory-resident workload, DLHT surpasses 1.6B requests per second and provides 3.5x (12x) the throughput of the state-of-the-art closed-addressing (open-addressing) resizable hashtable on Gets (Deletes).
For the full video of this presentation, please visit: https://www.edge-ai-vision.com/2024/06/temporal-event-neural-networks-a-more-efficient-alternative-to-the-transformer-a-presentation-from-brainchip/
Chris Jones, Director of Product Management at BrainChip , presents the “Temporal Event Neural Networks: A More Efficient Alternative to the Transformer” tutorial at the May 2024 Embedded Vision Summit.
The expansion of AI services necessitates enhanced computational capabilities on edge devices. Temporal Event Neural Networks (TENNs), developed by BrainChip, represent a novel and highly efficient state-space network. TENNs demonstrate exceptional proficiency in handling multi-dimensional streaming data, facilitating advancements in object detection, action recognition, speech enhancement and language model/sequence generation. Through the utilization of polynomial-based continuous convolutions, TENNs streamline models, expedite training processes and significantly diminish memory requirements, achieving notable reductions of up to 50x in parameters and 5,000x in energy consumption compared to prevailing methodologies like transformers.
Integration with BrainChip’s Akida neuromorphic hardware IP further enhances TENNs’ capabilities, enabling the realization of highly capable, portable and passively cooled edge devices. This presentation delves into the technical innovations underlying TENNs, presents real-world benchmarks, and elucidates how this cutting-edge approach is positioned to revolutionize edge AI across diverse applications.
zkStudyClub - LatticeFold: A Lattice-based Folding Scheme and its Application...Alex Pruden
Folding is a recent technique for building efficient recursive SNARKs. Several elegant folding protocols have been proposed, such as Nova, Supernova, Hypernova, Protostar, and others. However, all of them rely on an additively homomorphic commitment scheme based on discrete log, and are therefore not post-quantum secure. In this work we present LatticeFold, the first lattice-based folding protocol based on the Module SIS problem. This folding protocol naturally leads to an efficient recursive lattice-based SNARK and an efficient PCD scheme. LatticeFold supports folding low-degree relations, such as R1CS, as well as high-degree relations, such as CCS. The key challenge is to construct a secure folding protocol that works with the Ajtai commitment scheme. The difficulty, is ensuring that extracted witnesses are low norm through many rounds of folding. We present a novel technique using the sumcheck protocol to ensure that extracted witnesses are always low norm no matter how many rounds of folding are used. Our evaluation of the final proof system suggests that it is as performant as Hypernova, while providing post-quantum security.
Paper Link: https://eprint.iacr.org/2024/257
How information systems are built or acquired puts information, which is what they should be about, in a secondary place. Our language adapted accordingly, and we no longer talk about information systems but applications. Applications evolved in a way to break data into diverse fragments, tightly coupled with applications and expensive to integrate. The result is technical debt, which is re-paid by taking even bigger "loans", resulting in an ever-increasing technical debt. Software engineering and procurement practices work in sync with market forces to maintain this trend. This talk demonstrates how natural this situation is. The question is: can something be done to reverse the trend?
"Choosing proper type of scaling", Olena SyrotaFwdays
Imagine an IoT processing system that is already quite mature and production-ready and for which client coverage is growing and scaling and performance aspects are life and death questions. The system has Redis, MongoDB, and stream processing based on ksqldb. In this talk, firstly, we will analyze scaling approaches and then select the proper ones for our system.