AFDA is a new random media access control protocol designed for emerging wireless networks with long and heterogeneous propagation delays, such as satellite or underwater acoustic sensor networks. It uses an asynchronous flipped diversity ALOHA scheme where each data packet and its flipped replica are transmitted back to back without time synchronization or control packets. Simulation results show AFDA is unaffected by propagation delay duration or variation and substantially improves throughput, packet loss ratio, and network capacity compared to existing MAC solutions.
For further details contact:
N.RAJASEKARAN B.E M.S 9841091117,9840103301.
IMPULSE TECHNOLOGIES,
Old No 251, New No 304,
2nd Floor,
Arcot road ,
Vadapalani ,
Chennai-26.
For further details contact:
N.RAJASEKARAN B.E M.S 9841091117,9840103301.
IMPULSE TECHNOLOGIES,
Old No 251, New No 304,
2nd Floor,
Arcot road ,
Vadapalani ,
Chennai-26.
ROUTING
FUNDAMENTAL STEPS IN ROUTING
MANET VS TRADITIONAL ROUTING
ROUTING PROTOCOLS/TYPES OF MANETS ROUTING
REACTIVE PROTOCOL
PROACTIVE PROTOCOL
HYBRID PROTOCOL
SECURITY IN MANET’S
This ppt gives you a brief knowledge on protocols used in VANETs using real time vehicular traffic information. These have overruled the the existing MANET protocols. It also give you a description regarding forwarding optimisation
Routing protocols for mobile ad-hoc networks have to
face the challenge of frequently changing topology, low
transmission power and asymmetric links. Both
proactive and reactive routing protocols prove to be
inefficient under these circumstances. The Zone Routing
Protocol (ZRP) combines the advantages of the proactive
and reactive approaches by maintaining an up-to-date
topological map of a zone centered on each node. Within
the zone, routes are immediately available. For
destinations outside the zone, ZRP employs a route
discovery procedure, which can benefit from the local
routing information of the zones.
A SECURE QOS ROUTING PROTCOL FOR HYBRID WIRELESS NETWORKSAAKASH S
A wireless hybrid network is integrates a mobile wireless ad-hoc network and a wireless infrastructure
It proven the better alternative for next generation Wireless network
It popular among critical mission applications like military use or emergency recovery
However, the open medium and wide distribution of nodes make HWN vulnerable to malicious attackers
In this case, it is crucial to develop efficient intrusion-detection mechanisms to protect HWN from attacks
Distributed Operation
Synchronization
Hidden Terminals
Exposed terminals
Throughput
Access delay
Fairness
Real-time Traffic support
Resource reservation
Ability to measure resource availability
Capability for power control
Adaptive rate control
Use of directional antennas
Reduce Handover Delay Using the HSBCC Based Buffer Over Flow In Wimax Networkinventionjournals
In wireless networks to improve the competence for event account. Due to the in complete transmission size of nodes, a single path often cannot meet the condition of data transmission. Consequently, multipath show is needed. However, not every path originate by multipath routing algorithms maybe appropriate for conveying image, because a extended routing pathway with a long end to end show delay may not satisfied the time constraint. Furthermore, each data stream includes two kinds of material data handover. We have coming a novel explicit rate-based congestion control method, for supportive requests hand over process. Handover Streaming based Congestion Control (HSBCC), a new adaptive media handover streaming congestion organization in which the assembly packet broadcast rate is adjusted rendering to the active bandwidth share of the connection. They prepare not maintain or continually inform their route tables with the newest route in network. If a node requirements to send a pack to another node then this protocol explorations for the route in an on-demand method and begins the joining in order to communicate and receive the packet. The route detection usually happens by flooding the route application packets throughout the network. It makes sense to simply disregard a packet loss due to random frequency errors than to multiplicatively reduction the current transport rate and it is more suitable to periodically investigation the network during interruption period for a prompt retrieval than to slow down and exponentially increase the retransmission timer.
WARM WELCOME FROM HCL VELACHERY…….
HCL Learning is part of HCL Info Systems Ltd, India’s Premier information enabling company with an annual turnover of 15000 crores Leveraging on the 34 years of industry experience of HCL, with an objective to develop quality IT professionals to meet this ever expanding requirement of Hardware Networking and Software professionals for the IT sector, HCL has launched HCL Career Development Centre.
For any clarification,
contact Person
Mr.Senthilvel.S
9382207007
HCL Velachery -42
ROUTING
FUNDAMENTAL STEPS IN ROUTING
MANET VS TRADITIONAL ROUTING
ROUTING PROTOCOLS/TYPES OF MANETS ROUTING
REACTIVE PROTOCOL
PROACTIVE PROTOCOL
HYBRID PROTOCOL
SECURITY IN MANET’S
This ppt gives you a brief knowledge on protocols used in VANETs using real time vehicular traffic information. These have overruled the the existing MANET protocols. It also give you a description regarding forwarding optimisation
Routing protocols for mobile ad-hoc networks have to
face the challenge of frequently changing topology, low
transmission power and asymmetric links. Both
proactive and reactive routing protocols prove to be
inefficient under these circumstances. The Zone Routing
Protocol (ZRP) combines the advantages of the proactive
and reactive approaches by maintaining an up-to-date
topological map of a zone centered on each node. Within
the zone, routes are immediately available. For
destinations outside the zone, ZRP employs a route
discovery procedure, which can benefit from the local
routing information of the zones.
A SECURE QOS ROUTING PROTCOL FOR HYBRID WIRELESS NETWORKSAAKASH S
A wireless hybrid network is integrates a mobile wireless ad-hoc network and a wireless infrastructure
It proven the better alternative for next generation Wireless network
It popular among critical mission applications like military use or emergency recovery
However, the open medium and wide distribution of nodes make HWN vulnerable to malicious attackers
In this case, it is crucial to develop efficient intrusion-detection mechanisms to protect HWN from attacks
Distributed Operation
Synchronization
Hidden Terminals
Exposed terminals
Throughput
Access delay
Fairness
Real-time Traffic support
Resource reservation
Ability to measure resource availability
Capability for power control
Adaptive rate control
Use of directional antennas
Reduce Handover Delay Using the HSBCC Based Buffer Over Flow In Wimax Networkinventionjournals
In wireless networks to improve the competence for event account. Due to the in complete transmission size of nodes, a single path often cannot meet the condition of data transmission. Consequently, multipath show is needed. However, not every path originate by multipath routing algorithms maybe appropriate for conveying image, because a extended routing pathway with a long end to end show delay may not satisfied the time constraint. Furthermore, each data stream includes two kinds of material data handover. We have coming a novel explicit rate-based congestion control method, for supportive requests hand over process. Handover Streaming based Congestion Control (HSBCC), a new adaptive media handover streaming congestion organization in which the assembly packet broadcast rate is adjusted rendering to the active bandwidth share of the connection. They prepare not maintain or continually inform their route tables with the newest route in network. If a node requirements to send a pack to another node then this protocol explorations for the route in an on-demand method and begins the joining in order to communicate and receive the packet. The route detection usually happens by flooding the route application packets throughout the network. It makes sense to simply disregard a packet loss due to random frequency errors than to multiplicatively reduction the current transport rate and it is more suitable to periodically investigation the network during interruption period for a prompt retrieval than to slow down and exponentially increase the retransmission timer.
WARM WELCOME FROM HCL VELACHERY…….
HCL Learning is part of HCL Info Systems Ltd, India’s Premier information enabling company with an annual turnover of 15000 crores Leveraging on the 34 years of industry experience of HCL, with an objective to develop quality IT professionals to meet this ever expanding requirement of Hardware Networking and Software professionals for the IT sector, HCL has launched HCL Career Development Centre.
For any clarification,
contact Person
Mr.Senthilvel.S
9382207007
HCL Velachery -42
JOINT-DESIGN OF LINK-ADAPTIVE MODULATION AND CODING WITH ADAPTIVE ARQ FOR COO...IJCNCJournal
This paper analyzes the efficiency of a joint-design of an adaptive modulation and coding (AMC) at the
physical (PHY) layer with an adaptive Rmax-truncated selective-repeat automatic repeat request (ARQ)
protocol at the medium access control (MAC) layer to maximize the throughput of cooperative nonregenerative
relay networks under prescribed delay and/or error performance constraints. Particularly, we
generalize the existing design model/results for cross-layer combining of AMC along with truncated ARQ
in non-cooperative diversity networks in three-folds: (i) extension of the cross-layer PHY/MAC design or
optimization to cooperative diversity systems; (ii) generalization/unification of analytical expressions for
various network performance metrics to generalized block fading channels with independent but nonidentically
distributed (i.n.d) fading statistics among the spatially distributed nodes; (iii) analysis of the
effectiveness of joint-adaptation of the maximum retransmission limit Rmax of ARQ protocol and
cooperative diversity order N for delay-insensitive applications. Our insightful numerical results reveal
that the average throughput can be increased significantly by judiciously combining two additional degrees
of freedom (N and Rmax) that are available in cooperative amplify-and-forward (CAF) relay networks
besides employing AMC at the PHY layer, especially in the most challenging low signal-to-noise ratio
(SNR) regime.
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PERFORMANCE ANALYSIS OF THE LINK-ADAPTIVE COOPERATIVE AMPLIFY-AND-FORWARD REL...IJCNCJournal
This paper analyzes the performance of cooperative amplify-and-forward (CAF) relay networks that
employ adaptive M-ary quadrature amplitude modulation (M-QAM)/M-ary phase shift keying (M-PSK)
digital modulation techniques in Nakagami-m fading channel. In particular, we present and compared the
analysis of CAF relay networks with different cooperative diversity and opportunistic routing strategies
such as regular Maximal Ratio Combining (MRC), Selection Diversity Combining (SDC), Opportunistic
Relay Selection with Maximal Ratio Combining (ORS-MRC) and Opportunistic Relay Selection with
Selection Diversity Combining (ORS-SDC). We advocate a simple yet unified numerical approach based on
the marginal moment generating function (MGF) of the total received SNR to compute the average symbol
error rate (ASER), mean achievable spectral efficiency, and outage probability performance metrics.
Rm literature survey_on_scheduling_and_resource_allocation_for_ieee_80211ax_p...RESHAN FARAZ
IEEE 8021.11 is the standard defined for WLAN(Wireless Local Area Network). It first
came into the picture in 1997 which offer a speed of 2Mbit/s. After that we have different
versions, 802.11b having speed 11Mbit/s, 802.11a/g having 54 Mbit/s, 802.11n having 600
Mbit/s, and even above Gbit/s rates in the latest 802.11ac. These speeds can be achieved
by means of different modulation and coding scheme, wider channel and adaptation of
Multiple Input Multiple Output (MIMO) technologies[7]. The 802.11ax will provide outstanding average throughput in the dense environment. Many clients connect with the
Access Point (AP) simultaneously using the Orthogonal frequency-division multiple access
(OFDMA) where AP divides the entire frequency band into multiple subsets of orthogonal
sub carrier called as Resource Unit (RU),These RUs are assigned to different user to transit
in parallel which make 802.11ax different from all other versions of 802.11 so we need some
scheduling and resource allocation mechanism to utilize the features of 802.11ax. Before
going to scheduling and resource allocation, let us discuss some features of 802.11ax
Delay optimal broadcast for multihop wireless networks using self-interferenc...ecway
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Elastic hybrid MAC protocol for wireless sensor networks IJECEIAES
The future is moving towards offering multiples services based on the same technology. Then, billions of sensors will be needed to satisfy the diversity of these services. Such considerable amount of connected devices must insure efficient data transmission for diverse applications. Wireless sensor network (WSN) represents the most preferred technology for the majority of applications. Researches in medium access control (MAC) mechanism have been of significant impact to the application growth because the MAC layer plays a major role in resource allocation in WSNs. We propose to enhance a MAC protocol of WSN to overcome traffic changes constraints. To achieve focused goal, we use elastic hybrid MAC scheme. The main interest of the developed MAC protocol is to design a medium access scheme that respect different quality of services (QoS) parameters needed by various established traffic. Simulation results show good improvement in measured parameters compared to typical protocol.
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Afda asynchronous flipped diversity aloha for emerging wireless networks with long and heterogeneous delay
1. AFDA: AsynchronousFlipped DiversityALOHA for Emerging Wireless
Networks With Long and Heterogeneous Delay
Abstract:
The design of random media access control (MAC) protocol renews great
attention for emerging challenged wireless environments, where the
propagation delay is long, heterogeneous, and/or varying, such as satellite
or underwater acoustic sensor networks. In these environments, the
existing MAC solutions based on slotted transmissions, carrier sensing, or
channel reservation by control packets are no longer favorable or even
feasible. In this paper, we propose the asynchronous flipped diversity
ALOHA (AFDA)to tackle the challenges based on a new diversity
transmission scheme. Different from the existing diversity transmission
schemes, each data packet and its flipped replica are transmitted back to
back, and the zigzag decoding technique is adopted to resolve collisions.
The performance of AFDA has been evaluated by analysis and simulations.
The results show that, without time synchronization or handshaking
requirements, the performance of AFDA is unaffected by the duration or
variation of the propagation delay, and it substantially improves system
2. performance in terms of throughput, packet loss ratio,
and network admission region.