Research Inventy : International Journal of Engineering and Science is published by the group of young academic and industrial researchers with 12 Issues per year. It is an online as well as print version open access journal that provides rapid publication (monthly) of articles in all areas of the subject such as: civil, mechanical, chemical, electronic and computer engineering as well as production and information technology. The Journal welcomes the submission of manuscripts that meet the general criteria of significance and scientific excellence. Papers will be published by rapid process within 20 days after acceptance and peer review process takes only 7 days. All articles published in Research Inventy will be peer-reviewed.
A vertical handover decision approaches in next generation wireless networks ...ijmnct
In next generation wireless network the most desirable feature is its ability to move seamlessly over various
access network regardless of the network infrastructure is used. The handover between these dissimilar
networks can be explored by using vertical handover algorithms. This paper focuses on the vertical
handover decision methods and algorithms effectiveness. Most of the algorithms which are based on RSS
values provide vertical handover with small delay at a lower rate of throughput. There are such algorithms
which provide significant improvements in throughput but at a cost of higher delays. As per the need for the
real time applications in next generation wireless networks there is a requirement of developing new
optimized algorithms that are able to produce high throughput and minimizing signalling cost and delay.
HANDOVER NECESSITY ESTIMATION FOR 4G HETEROGENEOUS NETWORKSijistjournal
One of the most challenges of 4G network is to have a unified network of heterogeneous wireless networks. To achieve seamless mobility in such a diverse environment, vertical hand off is still a challenging problem. In many situations handover failures and unnecessary handoffs are triggered causing degradation of services, reduction in throughput and increase the blocking probability and packet loss. In this paper a new vertical handoff decision algorithm handover necessity estimation (HNE), is proposed to minimize the number of handover failure and unnecessary handover in heterogeneous wireless networks. we have proposed a multi criteria vertical handoff decision algorithm based on two parts: traveling time estimation and time threshold calculation. Our proposed methods are compared against two other methods: (a) the fixed RSS threshold based method, in which handovers between the cellular network and the WLAN are initiated when the RSS from the WLAN reaches a fixed threshold, and (b) the hysteresis based method, in which a hysteresis is introduced to prevent the ping-pong effect. Simulation results show that, this method reduced the number of handover failures and unnecessary handovers up to 80% and 70%, respectively.
Research Inventy : International Journal of Engineering and Scienceinventy
Research Inventy : International Journal of Engineering and Science is published by the group of young academic and industrial researchers with 12 Issues per year. It is an online as well as print version open access journal that provides rapid publication (monthly) of articles in all areas of the subject such as: civil, mechanical, chemical, electronic and computer engineering as well as production and information technology. The Journal welcomes the submission of manuscripts that meet the general criteria of significance and scientific excellence. Papers will be published by rapid process within 20 days after acceptance and peer review process takes only 7 days. All articles published in Research Inventy will be peer-reviewed.
MULTI-CRITERIA HANDOVER DECISION FOR HETEROGENEOUS NETWORKS: CARRIER AGGREGAT...IJCNCJournal
Carrier aggregation and integration of heterogeneous networks allow the mobile user equipment to benefit from wider bandwidth and radio coverage of different access technologies. However, these technologies have increased handoff scenario probability through user equipment’s mobility, leading to high outage probability and low throughput. Handover is an important aspect of mobility management which allows users to migrate from one cell to another without losing connections. But no lone access technology meets the requirements of providing seamless communication without loss and delay. Therefore, high-quality service continuity and reliable user equipment access to network anywhere and at any time require the
design of an appropriate handover decision algorithm. In this paper, a multi-criteria based handover decision-making algorithm is proposed to evade loss of communication and provide better performance to the system. It adaptively makes handover decisions based on different decision criteria (load, availability of resources, and the handover scenario type) in addition to signal interference to noise ratio. The multicriteria handover decision making algorithm-based method chooses among the cells that satisfy the requirements for the handover. As compared to some existing handover decision algorithms, simulation result shows that this algorithm improves system performance in terms of handover failure by 93%, 72%,
and 58%; radio link failure reduction by 77%, 43%, and 22%; and handover ping–pong by 81%, 59%, and 36% over the conventional received signal strength, received wireless transmission line, and multiinfluence factor hand over decisions respectively.
A Fair and Efficient Packet Scheduling Scheme for IEEE 802.16 Broadband Wirel...ijasuc
This paper proposes a fair and efficient QoS scheduling scheme for IEEE 802.16 BWA systems that
satisfies both throughput and delay guarantee to various real and non-real time applications. The proposed
QoS scheduling scheme is compared with an existing QoS scheduling scheme proposed in literature in
recent past. Simulation results show that the proposed scheduling scheme can provide a tight QoS
guarantee in terms of delay, delay violation rate and throughput for all types of traffic as defined in the
WiMAX standard, thereby maintaining the fairness and helps to eliminate starvation of lower priority
class services. Bandwidth utilization of the system and fairness index of the resources are also
encountered to validate the QoS provided by our proposed scheduling scheme.
Optimized Cluster Establishment and Cluster-Head Selection Approach in WSNIJCNCJournal
In recent years, limited resources of user products and energy-saving are recognized as the major challenges of Wireless Sensor Networks (WSNs). Clustering is a practical technique that can reduce all energy consumption and provide stability of workload that causes a larger difference in energy depletion among other nodes and cluster heads (CHs). In addition, clustering is the solution of energy-efficient for maximizing the network longevity and improvising energy efficiency. In this paper, a novel OCE-CHS (Optimized Cluster Establishment and Cluster-Head Selection) approach for sensor nodes is represented to improvise the packet success ratio and reduce the average energy-dissipation. The main contribution of this paper is categorized into two processes, first, the clustering algorithm is improvised that periodically chooses the optimal set of the CHs according to the speed of the average node and average-node energy. This is considerably distinguished from node-based clustering that utilizes a distributed clustering algorithm to choose CHs based on the speed of the current node and remaining node energy. Second, more than one factor is assumed for the detached node to join the optimal cluster. In the result section, we discuss our clustering protocols implementation of optimal CH-selection to evade the death of SNs, maximizing throughput, and further improvise the network lifetime by minimizing energy consumption.
PERFORMANCE ANALYSIS IN CELLULAR NETWORKS CONSIDERING THE QOS BY RETRIAL QUEU...IJCNCJournal
In this article, a retrial queueing model will be considered with persevering customers for wireless cellular
networks which can be frequently applied in the Fractional Guard Channel (FGC) policies, including
Limited FGC (LFGC), Uniform FGC (UFGC), Limited Average FGC (LAFGC) and Quasi Uniform FGC
(QUFGC). In this model, the examination on the retrial phenomena permits the analyses of important
effectiveness measures pertained to the standard of services undergone by users with the probability that a
fresh call first arrives the system and find all busy channels at the time, the probability that a fresh call
arrives the system from the orbit and find all busy channels at the time and the probability that a handover
call arrives the system and find all busy channels at the time. Comparison between four types of the FGC
policy can befound to evaluate the performance of the system.
A vertical handover decision approaches in next generation wireless networks ...ijmnct
In next generation wireless network the most desirable feature is its ability to move seamlessly over various
access network regardless of the network infrastructure is used. The handover between these dissimilar
networks can be explored by using vertical handover algorithms. This paper focuses on the vertical
handover decision methods and algorithms effectiveness. Most of the algorithms which are based on RSS
values provide vertical handover with small delay at a lower rate of throughput. There are such algorithms
which provide significant improvements in throughput but at a cost of higher delays. As per the need for the
real time applications in next generation wireless networks there is a requirement of developing new
optimized algorithms that are able to produce high throughput and minimizing signalling cost and delay.
HANDOVER NECESSITY ESTIMATION FOR 4G HETEROGENEOUS NETWORKSijistjournal
One of the most challenges of 4G network is to have a unified network of heterogeneous wireless networks. To achieve seamless mobility in such a diverse environment, vertical hand off is still a challenging problem. In many situations handover failures and unnecessary handoffs are triggered causing degradation of services, reduction in throughput and increase the blocking probability and packet loss. In this paper a new vertical handoff decision algorithm handover necessity estimation (HNE), is proposed to minimize the number of handover failure and unnecessary handover in heterogeneous wireless networks. we have proposed a multi criteria vertical handoff decision algorithm based on two parts: traveling time estimation and time threshold calculation. Our proposed methods are compared against two other methods: (a) the fixed RSS threshold based method, in which handovers between the cellular network and the WLAN are initiated when the RSS from the WLAN reaches a fixed threshold, and (b) the hysteresis based method, in which a hysteresis is introduced to prevent the ping-pong effect. Simulation results show that, this method reduced the number of handover failures and unnecessary handovers up to 80% and 70%, respectively.
Research Inventy : International Journal of Engineering and Scienceinventy
Research Inventy : International Journal of Engineering and Science is published by the group of young academic and industrial researchers with 12 Issues per year. It is an online as well as print version open access journal that provides rapid publication (monthly) of articles in all areas of the subject such as: civil, mechanical, chemical, electronic and computer engineering as well as production and information technology. The Journal welcomes the submission of manuscripts that meet the general criteria of significance and scientific excellence. Papers will be published by rapid process within 20 days after acceptance and peer review process takes only 7 days. All articles published in Research Inventy will be peer-reviewed.
MULTI-CRITERIA HANDOVER DECISION FOR HETEROGENEOUS NETWORKS: CARRIER AGGREGAT...IJCNCJournal
Carrier aggregation and integration of heterogeneous networks allow the mobile user equipment to benefit from wider bandwidth and radio coverage of different access technologies. However, these technologies have increased handoff scenario probability through user equipment’s mobility, leading to high outage probability and low throughput. Handover is an important aspect of mobility management which allows users to migrate from one cell to another without losing connections. But no lone access technology meets the requirements of providing seamless communication without loss and delay. Therefore, high-quality service continuity and reliable user equipment access to network anywhere and at any time require the
design of an appropriate handover decision algorithm. In this paper, a multi-criteria based handover decision-making algorithm is proposed to evade loss of communication and provide better performance to the system. It adaptively makes handover decisions based on different decision criteria (load, availability of resources, and the handover scenario type) in addition to signal interference to noise ratio. The multicriteria handover decision making algorithm-based method chooses among the cells that satisfy the requirements for the handover. As compared to some existing handover decision algorithms, simulation result shows that this algorithm improves system performance in terms of handover failure by 93%, 72%,
and 58%; radio link failure reduction by 77%, 43%, and 22%; and handover ping–pong by 81%, 59%, and 36% over the conventional received signal strength, received wireless transmission line, and multiinfluence factor hand over decisions respectively.
A Fair and Efficient Packet Scheduling Scheme for IEEE 802.16 Broadband Wirel...ijasuc
This paper proposes a fair and efficient QoS scheduling scheme for IEEE 802.16 BWA systems that
satisfies both throughput and delay guarantee to various real and non-real time applications. The proposed
QoS scheduling scheme is compared with an existing QoS scheduling scheme proposed in literature in
recent past. Simulation results show that the proposed scheduling scheme can provide a tight QoS
guarantee in terms of delay, delay violation rate and throughput for all types of traffic as defined in the
WiMAX standard, thereby maintaining the fairness and helps to eliminate starvation of lower priority
class services. Bandwidth utilization of the system and fairness index of the resources are also
encountered to validate the QoS provided by our proposed scheduling scheme.
Optimized Cluster Establishment and Cluster-Head Selection Approach in WSNIJCNCJournal
In recent years, limited resources of user products and energy-saving are recognized as the major challenges of Wireless Sensor Networks (WSNs). Clustering is a practical technique that can reduce all energy consumption and provide stability of workload that causes a larger difference in energy depletion among other nodes and cluster heads (CHs). In addition, clustering is the solution of energy-efficient for maximizing the network longevity and improvising energy efficiency. In this paper, a novel OCE-CHS (Optimized Cluster Establishment and Cluster-Head Selection) approach for sensor nodes is represented to improvise the packet success ratio and reduce the average energy-dissipation. The main contribution of this paper is categorized into two processes, first, the clustering algorithm is improvised that periodically chooses the optimal set of the CHs according to the speed of the average node and average-node energy. This is considerably distinguished from node-based clustering that utilizes a distributed clustering algorithm to choose CHs based on the speed of the current node and remaining node energy. Second, more than one factor is assumed for the detached node to join the optimal cluster. In the result section, we discuss our clustering protocols implementation of optimal CH-selection to evade the death of SNs, maximizing throughput, and further improvise the network lifetime by minimizing energy consumption.
PERFORMANCE ANALYSIS IN CELLULAR NETWORKS CONSIDERING THE QOS BY RETRIAL QUEU...IJCNCJournal
In this article, a retrial queueing model will be considered with persevering customers for wireless cellular
networks which can be frequently applied in the Fractional Guard Channel (FGC) policies, including
Limited FGC (LFGC), Uniform FGC (UFGC), Limited Average FGC (LAFGC) and Quasi Uniform FGC
(QUFGC). In this model, the examination on the retrial phenomena permits the analyses of important
effectiveness measures pertained to the standard of services undergone by users with the probability that a
fresh call first arrives the system and find all busy channels at the time, the probability that a fresh call
arrives the system from the orbit and find all busy channels at the time and the probability that a handover
call arrives the system and find all busy channels at the time. Comparison between four types of the FGC
policy can befound to evaluate the performance of the system.
Novel Position Estimation using Differential Timing Information for Asynchron...IJCNCJournal
Positioning techniques have been a common objective since the early development of wireless networks. However, current positioning methods in cellular networks, for instance, are still primarily focused on the use of the Global Navigation Satellite System (GNSS), which has several limitations, like high power drainage and failure in indoor scenarios. This study introduces a novel approach employing standard LTE signaling in order to provide high accuracy positioning estimation. The proposed technique is designed in analogy to the human sound localization system, eliminating the need of having information from three spatially diverse Base Stations (BSs). This is inspired by the perfect human 3D sound localization with two ears. A field study is carried out in a dense urban city to verify the accuracy of the proposed technique, with more than 20 thousand measurement samples collected. The achieved positioning accuracy is meeting the latest Federal Communications Commission (FCC) requirements in the planner dimension.
Performance evaluation of interference aware topology power and flow control ...IJECEIAES
Multi-Radio Multi-Channel Wireless Mesh Network (MRMC-WMN) has been considered as one of the key technology for the enhancement of network performance. It is used in a number of real-time applications such as disaster management system, transportation system and health care system. MRMC-WMN is a multi-hop network and allows simultaneous data transfer by using multiple radio interfaces. All the radio interfaces are typically assigned with different channels to reduce the effect of co-channel interference. In MRMC-WMN, when two nodes transmit at the same channel in the range of each other, generates co-channel interference and degrades the network throughput. Co-channel interference badly affects the capacity of each link that reduces the overall network performance. Thus, the important task of channel assignment algorithm is to reduce the co-channel interference and enhance the network performance. In this paper, the problem of channel assignment has been addressed for MRMC-WMN. We have proposed an Interference Aware, Topology, Power and Flow Control (ITPFC) Channel Assignment algorithm for MRMC-WMN. This algorithm assignes the suitable channels to nodes, which provides better link capacity and reduces the co-channel interference. In the previous work performance of the proposed algorithm has been evaluated for a network of 30 nodes. The aim of this paper is to further evaluate the performance of proposed channel assignment algorithm for 40 and 50 nodes network. The results obtained from these networks show the consistent performance in terms of throughput, delay, packet loss and number of channels used per node as compared to LACA, FCPRA and IATC Channel Assignment algorithms.
An optimum dynamic priority-based call admission control scheme for universal...TELKOMNIKA JOURNAL
The dynamism associated with quality of service (QoS) requirement for traffic emanating from smarter end users devices founded on the internet of things (IoTs) drive, places a huge demand on modern telecommunication infrastructure. Most telecom networks, currently utilize robust call admission control (CAC) policies to ameliorate this challenge. However, the need for smarter CAC has becomes imperative owing to the sensitivity of traffic currently being supported. In this work, we developed a prioritized CAC algorithm for third Generation (3G) wireless cellular network. Based on the dynamic priority CAC (DP-CAC) model, we proposed an optimal dynamic priority CAC (ODP-CAC) scheme for Universal Mobile Telecommunication System (UMTS). We then carried out simulation under heavy traffic load while also exploiting renegotiation among different call traffic classes. Also, we introduced queuing techniques to enhance the new calls success probability while still maintaining a good handoff failure across the network. Results show that ODP-CAC provides an improved performance with regards to the probability of call drop for new calls, network load utilization and grade of service with average percentage value of 15.7%, 5.4% and 0.35% respectively.
An Efficient and Stable Routing Algorithm in Mobile Ad Hoc NetworkIJCNCJournal
Mobile Ad hoc Network (MANET) is mainly designed to set up communication among devices in infrastructure-less wireless communication network. Routing in this kind of communication network is highly affected by its restricted characteristics such as frequent topological changes and limited battery power. Several research works have been carried out to improve routing performance in MANET. However, the overall performance enhancement in terms of packet delivery, delay and control message overhead is still not come into the wrapping up. In order to overcome the addressed issues, an Efficient and Stable-AODV (EFST-AODV) routing scheme has been proposed which is an improvement over AODV to establish a better quality route between source and destination. In this method, we have modified the route request and route reply phase. During the route request phase, cost metric of a route is calculated on the basis of parameters such as residual energy, delay and distance. In a route reply phase, average residual energy and average delay of overall path is calculated and the data forwarding decision is taken at the source node accordingly. Simulation outcomes reveal that the proposed approach gives better results in terms of packet delivery ratio, delay, throughput, normalized routing load and control message overhead as compared to AODV.
A Cluster-Based Routing Protocol and Fault Detection for Wireless Sensor NetworkIJCNCJournal
In Wireless Sensors Networks (WSN) based application, a large number of sensor devices must be deployed. Energy efficiency and network lifetime are the two most challenging issues in WSN. As a consequence, the main goal is to reduce the overall energy consumption using clustering protocols which have to ensure reliability and connectivity in large-scale WSN. This work presents a new clustering and routing algorithm based on the properties of the sensor networks. The main goal of this work is to extend the network lifetime via charge equilibration in the WSN. According to many errors with sensing devices and to have greater data accuracy, we use a quorum mechanism. The proposed algorithms are evaluated widely and the results are compared with related works. The experimental results show that the proposed algorithm provides an effective improvement in terms of energy consumption, data accuracy and network lifetime.
Traffic Congestion Prediction using Deep Reinforcement Learning in Vehicular ...IJCNCJournal
In recent years, a new wireless network called vehicular ad-hoc network (VANET), has become a popular research topic. VANET allows communication among vehicles and with roadside units by providing information to each other, such as vehicle velocity, location and direction. In general, when many vehicles likely to use the common route to proceed to the same destination, it can lead to a congested route that should be avoided. It may be better if vehicles are able to predict accurately the traffic congestion and then avoid it. Therefore, in this work, the deep reinforcement learning in VANET to enhance the ability to predict traffic congestion on the roads is proposed. Furthermore, different types of neural networks namely Convolutional Neural Network (CNN), Multilayer Perceptron (MLP) and Long Short-Term Memory (LSTM) are investigated and compared in this deep reinforcement learning model to discover the most effective one. Our proposed method is tested by simulation. The traffic scenarios are created using traffic simulator called Simulation of Urban Mobility (SUMO) before integrating with deep reinforcement learning model. The simulation procedures, as well as the programming used, are described in detail. The performance of our proposed method is evaluated using two metrics; the average travelling time delay and average waiting time delay of vehicles. According to the simulation results, the average travelling time delay and average waiting time delay are gradually improved over the multiple runs, since our proposed method receives feedback from the environment. In addition, the results without and with three different deep learning algorithms, i.e., CNN, MLP and LSTM are compared. It is obvious that the deep reinforcement learning model works effectively when traffic density is neither too high nor too low. In addition, it can be concluded that the effective algorithms for traffic congestion prediction models in descending order are MLP, CNN, and LSTM, respectively.
A Novel Handoff Necessity Estimation Approach Based on Travelling DistanceIJAAS Team
Mobility management is one of the most important challenges in Next
Generation Wireless Networks (NGWNs) as it enables users to move across
geographic boundaries of wireless networks. Nowadays, mobile
communications have heterogeneous wireless networks offering variable
coverage and Quality of Service (QoS). The availability of alternatives
generates a problem of occurrence of unnecessary handoff that results in
wastage of network resources. To avoid this, an efficient algorithm needs to
be developed to minimize the unnecessary handoffs. Conventionally,
whenever Wireless Local Area Network (WLAN) connectivity is available,
the mobile node switch from cellular network to wireless local area network
to gain maximum use of high bandwidth and low cost of wireless local area
network as much as possible. But to maintain call quality and minimum
number of call failure, a considerable proportion of these handovers should
be determined. Our algorithm makes the handoff to wireless local area
network only when the Predicted Received Signal Strength (PRSS) falls
below a threshold value and travelling distance inside the wireless local area
network is larger than a threshold distance.Through MATLAB simulation,
we show that our algorithm is able to improve handover performance.
Downlink beamforming and admissin control for spectrum sharing cognitive radi...acijjournal
n this paper, to detect the moving objects between frames in compressed video and to obtain the bes
t
compression video
and the noiseless video. We describe a video in which frames by classifying
macroblocks (MB), and describe motion estimation (ME), motion vector field (MV) and motion
compensation (MC). we propose to classify Macroblocks of each video frame into different
classes and use
this class information to describe the frame content based on the motion vector. MB class informatio
n
video applications such as shot change detection, motion discontinuity detection, Outlier rejection
for
global motion estimation. To reduc
e the noise and to improve the clarity of the compressed video by using
contrast limited adaptive histogram equalization (CLAHE) Algorithm
Mtadf multi hop traffic aware data for warding for congestion control in wir...ijwmn
In the past few years there is a remarkable change in the field of wireless sensor networks. Congestion occurs when there is a heavy traffic in the network. The heavy traffic in the network leads to wastage of energy and packet loss. Traffic Aware Dynamic Routing algorithm mitigates congestion by using one hop neighbor routing, hence throughput of the network is low. This paper proposed a Multi hop based Data Forwarding Technique to mitigate congestion. Queue length field and depth potential field play a major role to divert the traffic in the network to the alternate paths. The high traffic load leads to data queue overflow in the sensor nodes, these results in loss of important information about important events. Multi hop Traffic-Aware Dynamic Routing algorithm addresses congestion using depth potential field and queue length potential field. The algorithm forwards data packets around the congestion areas and scatters the excessive along multiple paths. The nodes with less load are efficiently utilized in response to congestion. The main aspect of the algorithm is to construct two independent potential fields using depth and queue length. Queue length field solves the traffic-aware problem. Depth field creates a backbone to forward packets to the sink. Both fields are combined to yield a hybrid potential field to make dynamic decision for data forwarding. Simulations are conducted to evaluate the performance of our proposed algorithm and our proposed scheme performs better compared to previous work.
PERFORMANCE ANALYSIS OF WIRELESS MESH NETWORK USING ADAPTIVE INFORMANT FACTOR...IJCSES Journal
Wireless mesh network (WMN) has become an important leading technology which provides several types of useful applications such as community network, broadband home network and internet access, etc. The rise in the size of users in WMN has created a degradation of efficiency in a network especially in dense areas due to the clumsy channel allocation and hence creating many challenges for enhancing the users experience, network quality and throughput. Therefore in this paper, we proposed OCA based AIF model that can access the channel information and then it process to improve the RF channel association. The proposed OCA-AIF will function for each period when some interference is detected via AIF and we further extend this analysis by taking in to consideration the influence of interference to provide a high quality indicator in network. The analysis of result shows the optimization by our proposed approach which increases as per the increment of relay nodes (RNs).
A novel routing technique for mobile ad hoc networks (manet)ijngnjournal
Actual network size depends on the application and the protocols developed for the routing for this kind of
networks should be scalable and efficient. Each routing protocol should support small as well as large
scale networks very efficiently. As the number of node increase, it increases the management functionality
of the network. Graph theoretic approach traditionally was applied to networks where nodes are static or
fixed. In this paper, we have applied the graph theoretic routing to MANET where nodes are mobile. Here,
we designed all identical nodes in the cluster except the cluster head and this criterion reduces the
management burden on the network. Each cluster supports a few nodes with a cluster head. The intracluster
connectivity amongst the nodes within the cluster is supported by multi-hop connectivity to ensure
handling mobility in such a way that no service disruption can occur. The inter-cluster connectivity is also
achieved by multi-hop connectivity. However, for inter-cluster communications, only cluster heads are
connected. This paper demonstrates graph theoretic approach produces an optimum multi-hop connectivity
path based on cumulative minimum degree that minimizes the contention and scheduling delay end-toend.
It is applied to both intra-cluster communications as well as inter-cluster communications. The
performance shows that having a multi-hop connectivity for intra-cluster communications is more power
efficient compared to broadcast of information with maximum power coverage. We also showed the total
number of required intermediate nodes in the transmission from source to destination. However, dynamic
behavior of the nodes requires greater understanding of the node degree and mobility at each instance of
time in order to maintain end-to-end QoS for multi-service provisioning. Our simulation results show that
the proposed graph theoretic routing approach will reduce the overall delay and improves the physical
layer data frame transmission.
QoS Oriented Coding For Mobility Constraint in Wireless Networksiosrjce
IOSR Journal of Electronics and Communication Engineering(IOSR-JECE) is a double blind peer reviewed International Journal that provides rapid publication (within a month) of articles in all areas of electronics and communication engineering and its applications. The journal welcomes publications of high quality papers on theoretical developments and practical applications in electronics and communication engineering. Original research papers, state-of-the-art reviews, and high quality technical notes are invited for publications.
A STUDY ON QUANTITATIVE PARAMETERS OF SPECTRUM HANDOFF IN COGNITIVE RADIO NET...ijwmn
The innovation of wireless technologies requires dynamic allocation of spectrum band in an efficient
manner. This has been achieved by Cognitive Radio (CR) networks which allow unlicensed users to make
use of free licensed spectrum, when the licensed users are kept away from that spectrum. The cognitive
radio makes decision, switching from primary user to secondary user and vice-versa, based on its built-in
interference engine. It allows secondary users to makes use of a channel based on its availability i.e. on the
absence of the primary user and they should vacate the channel once the primary user re-enters and
continue their communication on another available channel and this process in the cognitive radio is
known as spectrum mobility. The main objective of spectrum mobility is that, there is no interruption
caused due to the channel occupied by secondary users and maintains a good quality of service. In order to
achieve better spectrum mobility, it is mandatory to choose an effective spectrum handoff strategy with the
capability of predicting spectrum mobility. The handoff strategy with its parameters and its impact is an
important concept in spectrum mobility but fairly explored. In this paper an empirical study on quantitative
parameters involved in spectrum mobility prediction are discussed in detail. These parameters are studied
extensively because they play a vital role in the spectrum handoff process moreover the impact of these
parameters in various handoff methods can be used to predict the effectiveness of the system.
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.
Multi-Criteria Handoff Decision Algorithms In Wireless Networksiosrjce
IOSR Journal of Mobile Computing & Application (IOSR-JMCA) aims to cover innovative topics to research findings to trends analysis on Mobile Computing and Application related theories, technologies, methods, applications, and services from all engineering, business and organizational perspectives
BIO-INSPIRED SEAMLESS VERTICAL HANDOVER ALGORITHM FOR VEHICULAR AD HOC NETWORKSijwmn
One of the most important factors to implement VANET is by considering the variety of wireless networks available around the city as well as the vehicles traffic scenarios. However, by providing a diverse range of wireless access technologies, it is necessary to provide continuous network connectivity as well as selecting the most suitable network technology and performance. Many researchers have worked on building algorithms for selecting the best network to improve the handover process. However, with high-speed vehicles mobility, the vertical handover process became the most challenging task in order to achieve realtime network selection. This paper proposes a bio-inspired network selection algorithm influenced by insect's behaviour which combines Artificial Bee Colony (ABC) and Particle Swarm Optimization (PSO). The proposed algorithm is applied to process multi-criteria parameters to evaluate the best available network and then execute the handover process seamlessly. The results demonstrate the benefits of the proposed Multi-Criteria ABC-PSO method by reducing the handover decision delays by 25%. It gives the optimum performance in terms of network selections and reduces the handover latency by 14.5%. The proposed algorithm also reduces the number of unnecessary handovers by 48% for three different mobility scenarios based on traffic environments (highway, urban and traffic jam).
An Intelligent Approach for Handover Decision in Heterogeneous Wireless Envir...CSCJournals
Vertical handoff is the basic requirement of the convergence of different access technologies. It is also the key characteristic and technology of overlay wireless network with appropriate network interfaces. The integration of diverse but complementary cellular and wireless technologies in the next generation wireless networks requires the design of intelligent vertical handoff decision algorithms to enable mobile users equipped with contemporary multi-interfaced mobile terminals to seamlessly switch network access and experience uninterrupted service continuity anywhere and anytime. Most existing vertical handoff decision strategies are designed to meet individual needs that may not achieve a good system performance. In this paper an intelligent approach is used for vertical handover decision. The intelligence is based on the fuzzy logic approach. So here, fuzzy logic is used for network selection and decision making for vertical handover.
HANDOVER NECESSITY ESTIMATION FOR 4G HETEROGENEOUS NETWORKSijistjournal
One of the most challenges of 4G network is to have a unified network of heterogeneous wireless networks. To achieve seamless mobility in such a diverse environment, vertical hand off is still a challenging problem. In many situations handover failures and unnecessary handoffs are triggered causing degradation of services, reduction in throughput and increase the blocking probability and packet loss. In this paper a new vertical handoff decision algorithm handover necessity estimation (HNE), is proposed to minimize the number of handover failure and unnecessary handover in heterogeneous wireless networks. we have proposed a multi criteria vertical handoff decision algorithm based on two parts: traveling time estimation and time threshold calculation. Our proposed methods are compared against two other methods: (a) the fixed RSS threshold based method, in which handovers between the cellular network and the WLAN are initiated when the RSS from the WLAN reaches a fixed threshold, and (b) the hysteresis based method, in which a hysteresis is introduced to prevent the ping-pong effect. Simulation results show that, this method reduced the number of handover failures and unnecessary handovers up to 80% and 70%, respectively.
Fuzzy Based Vertical Handoff Decision Controller for Future NetworksIJAEMSJORNAL
Abstract— In Next generation wireless Networks, the received signals (RSS) from different networks do not have a same meaning since each network is composed of its specific characteristics and there is no common pilot signal. Then, RSS comparisons are insufficient for handoff decision and may be inefficient and impractical. A more complex decision criterion that combines a large number of parameters or factors such as monetary cost, bandwidth, and power consumption and user profile is necessary. Though there are a lot works available for vertical handoff decision (VHD) for wireless networks, the selection of best network is still challenging problem. In this paper we propose a Fuzzy based vertical handoff decision controller (FVHDC) Which performs handover decision based on the output of fuzzy based rules.
Novel Position Estimation using Differential Timing Information for Asynchron...IJCNCJournal
Positioning techniques have been a common objective since the early development of wireless networks. However, current positioning methods in cellular networks, for instance, are still primarily focused on the use of the Global Navigation Satellite System (GNSS), which has several limitations, like high power drainage and failure in indoor scenarios. This study introduces a novel approach employing standard LTE signaling in order to provide high accuracy positioning estimation. The proposed technique is designed in analogy to the human sound localization system, eliminating the need of having information from three spatially diverse Base Stations (BSs). This is inspired by the perfect human 3D sound localization with two ears. A field study is carried out in a dense urban city to verify the accuracy of the proposed technique, with more than 20 thousand measurement samples collected. The achieved positioning accuracy is meeting the latest Federal Communications Commission (FCC) requirements in the planner dimension.
Performance evaluation of interference aware topology power and flow control ...IJECEIAES
Multi-Radio Multi-Channel Wireless Mesh Network (MRMC-WMN) has been considered as one of the key technology for the enhancement of network performance. It is used in a number of real-time applications such as disaster management system, transportation system and health care system. MRMC-WMN is a multi-hop network and allows simultaneous data transfer by using multiple radio interfaces. All the radio interfaces are typically assigned with different channels to reduce the effect of co-channel interference. In MRMC-WMN, when two nodes transmit at the same channel in the range of each other, generates co-channel interference and degrades the network throughput. Co-channel interference badly affects the capacity of each link that reduces the overall network performance. Thus, the important task of channel assignment algorithm is to reduce the co-channel interference and enhance the network performance. In this paper, the problem of channel assignment has been addressed for MRMC-WMN. We have proposed an Interference Aware, Topology, Power and Flow Control (ITPFC) Channel Assignment algorithm for MRMC-WMN. This algorithm assignes the suitable channels to nodes, which provides better link capacity and reduces the co-channel interference. In the previous work performance of the proposed algorithm has been evaluated for a network of 30 nodes. The aim of this paper is to further evaluate the performance of proposed channel assignment algorithm for 40 and 50 nodes network. The results obtained from these networks show the consistent performance in terms of throughput, delay, packet loss and number of channels used per node as compared to LACA, FCPRA and IATC Channel Assignment algorithms.
An optimum dynamic priority-based call admission control scheme for universal...TELKOMNIKA JOURNAL
The dynamism associated with quality of service (QoS) requirement for traffic emanating from smarter end users devices founded on the internet of things (IoTs) drive, places a huge demand on modern telecommunication infrastructure. Most telecom networks, currently utilize robust call admission control (CAC) policies to ameliorate this challenge. However, the need for smarter CAC has becomes imperative owing to the sensitivity of traffic currently being supported. In this work, we developed a prioritized CAC algorithm for third Generation (3G) wireless cellular network. Based on the dynamic priority CAC (DP-CAC) model, we proposed an optimal dynamic priority CAC (ODP-CAC) scheme for Universal Mobile Telecommunication System (UMTS). We then carried out simulation under heavy traffic load while also exploiting renegotiation among different call traffic classes. Also, we introduced queuing techniques to enhance the new calls success probability while still maintaining a good handoff failure across the network. Results show that ODP-CAC provides an improved performance with regards to the probability of call drop for new calls, network load utilization and grade of service with average percentage value of 15.7%, 5.4% and 0.35% respectively.
An Efficient and Stable Routing Algorithm in Mobile Ad Hoc NetworkIJCNCJournal
Mobile Ad hoc Network (MANET) is mainly designed to set up communication among devices in infrastructure-less wireless communication network. Routing in this kind of communication network is highly affected by its restricted characteristics such as frequent topological changes and limited battery power. Several research works have been carried out to improve routing performance in MANET. However, the overall performance enhancement in terms of packet delivery, delay and control message overhead is still not come into the wrapping up. In order to overcome the addressed issues, an Efficient and Stable-AODV (EFST-AODV) routing scheme has been proposed which is an improvement over AODV to establish a better quality route between source and destination. In this method, we have modified the route request and route reply phase. During the route request phase, cost metric of a route is calculated on the basis of parameters such as residual energy, delay and distance. In a route reply phase, average residual energy and average delay of overall path is calculated and the data forwarding decision is taken at the source node accordingly. Simulation outcomes reveal that the proposed approach gives better results in terms of packet delivery ratio, delay, throughput, normalized routing load and control message overhead as compared to AODV.
A Cluster-Based Routing Protocol and Fault Detection for Wireless Sensor NetworkIJCNCJournal
In Wireless Sensors Networks (WSN) based application, a large number of sensor devices must be deployed. Energy efficiency and network lifetime are the two most challenging issues in WSN. As a consequence, the main goal is to reduce the overall energy consumption using clustering protocols which have to ensure reliability and connectivity in large-scale WSN. This work presents a new clustering and routing algorithm based on the properties of the sensor networks. The main goal of this work is to extend the network lifetime via charge equilibration in the WSN. According to many errors with sensing devices and to have greater data accuracy, we use a quorum mechanism. The proposed algorithms are evaluated widely and the results are compared with related works. The experimental results show that the proposed algorithm provides an effective improvement in terms of energy consumption, data accuracy and network lifetime.
Traffic Congestion Prediction using Deep Reinforcement Learning in Vehicular ...IJCNCJournal
In recent years, a new wireless network called vehicular ad-hoc network (VANET), has become a popular research topic. VANET allows communication among vehicles and with roadside units by providing information to each other, such as vehicle velocity, location and direction. In general, when many vehicles likely to use the common route to proceed to the same destination, it can lead to a congested route that should be avoided. It may be better if vehicles are able to predict accurately the traffic congestion and then avoid it. Therefore, in this work, the deep reinforcement learning in VANET to enhance the ability to predict traffic congestion on the roads is proposed. Furthermore, different types of neural networks namely Convolutional Neural Network (CNN), Multilayer Perceptron (MLP) and Long Short-Term Memory (LSTM) are investigated and compared in this deep reinforcement learning model to discover the most effective one. Our proposed method is tested by simulation. The traffic scenarios are created using traffic simulator called Simulation of Urban Mobility (SUMO) before integrating with deep reinforcement learning model. The simulation procedures, as well as the programming used, are described in detail. The performance of our proposed method is evaluated using two metrics; the average travelling time delay and average waiting time delay of vehicles. According to the simulation results, the average travelling time delay and average waiting time delay are gradually improved over the multiple runs, since our proposed method receives feedback from the environment. In addition, the results without and with three different deep learning algorithms, i.e., CNN, MLP and LSTM are compared. It is obvious that the deep reinforcement learning model works effectively when traffic density is neither too high nor too low. In addition, it can be concluded that the effective algorithms for traffic congestion prediction models in descending order are MLP, CNN, and LSTM, respectively.
A Novel Handoff Necessity Estimation Approach Based on Travelling DistanceIJAAS Team
Mobility management is one of the most important challenges in Next
Generation Wireless Networks (NGWNs) as it enables users to move across
geographic boundaries of wireless networks. Nowadays, mobile
communications have heterogeneous wireless networks offering variable
coverage and Quality of Service (QoS). The availability of alternatives
generates a problem of occurrence of unnecessary handoff that results in
wastage of network resources. To avoid this, an efficient algorithm needs to
be developed to minimize the unnecessary handoffs. Conventionally,
whenever Wireless Local Area Network (WLAN) connectivity is available,
the mobile node switch from cellular network to wireless local area network
to gain maximum use of high bandwidth and low cost of wireless local area
network as much as possible. But to maintain call quality and minimum
number of call failure, a considerable proportion of these handovers should
be determined. Our algorithm makes the handoff to wireless local area
network only when the Predicted Received Signal Strength (PRSS) falls
below a threshold value and travelling distance inside the wireless local area
network is larger than a threshold distance.Through MATLAB simulation,
we show that our algorithm is able to improve handover performance.
Downlink beamforming and admissin control for spectrum sharing cognitive radi...acijjournal
n this paper, to detect the moving objects between frames in compressed video and to obtain the bes
t
compression video
and the noiseless video. We describe a video in which frames by classifying
macroblocks (MB), and describe motion estimation (ME), motion vector field (MV) and motion
compensation (MC). we propose to classify Macroblocks of each video frame into different
classes and use
this class information to describe the frame content based on the motion vector. MB class informatio
n
video applications such as shot change detection, motion discontinuity detection, Outlier rejection
for
global motion estimation. To reduc
e the noise and to improve the clarity of the compressed video by using
contrast limited adaptive histogram equalization (CLAHE) Algorithm
Mtadf multi hop traffic aware data for warding for congestion control in wir...ijwmn
In the past few years there is a remarkable change in the field of wireless sensor networks. Congestion occurs when there is a heavy traffic in the network. The heavy traffic in the network leads to wastage of energy and packet loss. Traffic Aware Dynamic Routing algorithm mitigates congestion by using one hop neighbor routing, hence throughput of the network is low. This paper proposed a Multi hop based Data Forwarding Technique to mitigate congestion. Queue length field and depth potential field play a major role to divert the traffic in the network to the alternate paths. The high traffic load leads to data queue overflow in the sensor nodes, these results in loss of important information about important events. Multi hop Traffic-Aware Dynamic Routing algorithm addresses congestion using depth potential field and queue length potential field. The algorithm forwards data packets around the congestion areas and scatters the excessive along multiple paths. The nodes with less load are efficiently utilized in response to congestion. The main aspect of the algorithm is to construct two independent potential fields using depth and queue length. Queue length field solves the traffic-aware problem. Depth field creates a backbone to forward packets to the sink. Both fields are combined to yield a hybrid potential field to make dynamic decision for data forwarding. Simulations are conducted to evaluate the performance of our proposed algorithm and our proposed scheme performs better compared to previous work.
PERFORMANCE ANALYSIS OF WIRELESS MESH NETWORK USING ADAPTIVE INFORMANT FACTOR...IJCSES Journal
Wireless mesh network (WMN) has become an important leading technology which provides several types of useful applications such as community network, broadband home network and internet access, etc. The rise in the size of users in WMN has created a degradation of efficiency in a network especially in dense areas due to the clumsy channel allocation and hence creating many challenges for enhancing the users experience, network quality and throughput. Therefore in this paper, we proposed OCA based AIF model that can access the channel information and then it process to improve the RF channel association. The proposed OCA-AIF will function for each period when some interference is detected via AIF and we further extend this analysis by taking in to consideration the influence of interference to provide a high quality indicator in network. The analysis of result shows the optimization by our proposed approach which increases as per the increment of relay nodes (RNs).
A novel routing technique for mobile ad hoc networks (manet)ijngnjournal
Actual network size depends on the application and the protocols developed for the routing for this kind of
networks should be scalable and efficient. Each routing protocol should support small as well as large
scale networks very efficiently. As the number of node increase, it increases the management functionality
of the network. Graph theoretic approach traditionally was applied to networks where nodes are static or
fixed. In this paper, we have applied the graph theoretic routing to MANET where nodes are mobile. Here,
we designed all identical nodes in the cluster except the cluster head and this criterion reduces the
management burden on the network. Each cluster supports a few nodes with a cluster head. The intracluster
connectivity amongst the nodes within the cluster is supported by multi-hop connectivity to ensure
handling mobility in such a way that no service disruption can occur. The inter-cluster connectivity is also
achieved by multi-hop connectivity. However, for inter-cluster communications, only cluster heads are
connected. This paper demonstrates graph theoretic approach produces an optimum multi-hop connectivity
path based on cumulative minimum degree that minimizes the contention and scheduling delay end-toend.
It is applied to both intra-cluster communications as well as inter-cluster communications. The
performance shows that having a multi-hop connectivity for intra-cluster communications is more power
efficient compared to broadcast of information with maximum power coverage. We also showed the total
number of required intermediate nodes in the transmission from source to destination. However, dynamic
behavior of the nodes requires greater understanding of the node degree and mobility at each instance of
time in order to maintain end-to-end QoS for multi-service provisioning. Our simulation results show that
the proposed graph theoretic routing approach will reduce the overall delay and improves the physical
layer data frame transmission.
QoS Oriented Coding For Mobility Constraint in Wireless Networksiosrjce
IOSR Journal of Electronics and Communication Engineering(IOSR-JECE) is a double blind peer reviewed International Journal that provides rapid publication (within a month) of articles in all areas of electronics and communication engineering and its applications. The journal welcomes publications of high quality papers on theoretical developments and practical applications in electronics and communication engineering. Original research papers, state-of-the-art reviews, and high quality technical notes are invited for publications.
A STUDY ON QUANTITATIVE PARAMETERS OF SPECTRUM HANDOFF IN COGNITIVE RADIO NET...ijwmn
The innovation of wireless technologies requires dynamic allocation of spectrum band in an efficient
manner. This has been achieved by Cognitive Radio (CR) networks which allow unlicensed users to make
use of free licensed spectrum, when the licensed users are kept away from that spectrum. The cognitive
radio makes decision, switching from primary user to secondary user and vice-versa, based on its built-in
interference engine. It allows secondary users to makes use of a channel based on its availability i.e. on the
absence of the primary user and they should vacate the channel once the primary user re-enters and
continue their communication on another available channel and this process in the cognitive radio is
known as spectrum mobility. The main objective of spectrum mobility is that, there is no interruption
caused due to the channel occupied by secondary users and maintains a good quality of service. In order to
achieve better spectrum mobility, it is mandatory to choose an effective spectrum handoff strategy with the
capability of predicting spectrum mobility. The handoff strategy with its parameters and its impact is an
important concept in spectrum mobility but fairly explored. In this paper an empirical study on quantitative
parameters involved in spectrum mobility prediction are discussed in detail. These parameters are studied
extensively because they play a vital role in the spectrum handoff process moreover the impact of these
parameters in various handoff methods can be used to predict the effectiveness of the system.
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.
Multi-Criteria Handoff Decision Algorithms In Wireless Networksiosrjce
IOSR Journal of Mobile Computing & Application (IOSR-JMCA) aims to cover innovative topics to research findings to trends analysis on Mobile Computing and Application related theories, technologies, methods, applications, and services from all engineering, business and organizational perspectives
BIO-INSPIRED SEAMLESS VERTICAL HANDOVER ALGORITHM FOR VEHICULAR AD HOC NETWORKSijwmn
One of the most important factors to implement VANET is by considering the variety of wireless networks available around the city as well as the vehicles traffic scenarios. However, by providing a diverse range of wireless access technologies, it is necessary to provide continuous network connectivity as well as selecting the most suitable network technology and performance. Many researchers have worked on building algorithms for selecting the best network to improve the handover process. However, with high-speed vehicles mobility, the vertical handover process became the most challenging task in order to achieve realtime network selection. This paper proposes a bio-inspired network selection algorithm influenced by insect's behaviour which combines Artificial Bee Colony (ABC) and Particle Swarm Optimization (PSO). The proposed algorithm is applied to process multi-criteria parameters to evaluate the best available network and then execute the handover process seamlessly. The results demonstrate the benefits of the proposed Multi-Criteria ABC-PSO method by reducing the handover decision delays by 25%. It gives the optimum performance in terms of network selections and reduces the handover latency by 14.5%. The proposed algorithm also reduces the number of unnecessary handovers by 48% for three different mobility scenarios based on traffic environments (highway, urban and traffic jam).
An Intelligent Approach for Handover Decision in Heterogeneous Wireless Envir...CSCJournals
Vertical handoff is the basic requirement of the convergence of different access technologies. It is also the key characteristic and technology of overlay wireless network with appropriate network interfaces. The integration of diverse but complementary cellular and wireless technologies in the next generation wireless networks requires the design of intelligent vertical handoff decision algorithms to enable mobile users equipped with contemporary multi-interfaced mobile terminals to seamlessly switch network access and experience uninterrupted service continuity anywhere and anytime. Most existing vertical handoff decision strategies are designed to meet individual needs that may not achieve a good system performance. In this paper an intelligent approach is used for vertical handover decision. The intelligence is based on the fuzzy logic approach. So here, fuzzy logic is used for network selection and decision making for vertical handover.
HANDOVER NECESSITY ESTIMATION FOR 4G HETEROGENEOUS NETWORKSijistjournal
One of the most challenges of 4G network is to have a unified network of heterogeneous wireless networks. To achieve seamless mobility in such a diverse environment, vertical hand off is still a challenging problem. In many situations handover failures and unnecessary handoffs are triggered causing degradation of services, reduction in throughput and increase the blocking probability and packet loss. In this paper a new vertical handoff decision algorithm handover necessity estimation (HNE), is proposed to minimize the number of handover failure and unnecessary handover in heterogeneous wireless networks. we have proposed a multi criteria vertical handoff decision algorithm based on two parts: traveling time estimation and time threshold calculation. Our proposed methods are compared against two other methods: (a) the fixed RSS threshold based method, in which handovers between the cellular network and the WLAN are initiated when the RSS from the WLAN reaches a fixed threshold, and (b) the hysteresis based method, in which a hysteresis is introduced to prevent the ping-pong effect. Simulation results show that, this method reduced the number of handover failures and unnecessary handovers up to 80% and 70%, respectively.
Fuzzy Based Vertical Handoff Decision Controller for Future NetworksIJAEMSJORNAL
Abstract— In Next generation wireless Networks, the received signals (RSS) from different networks do not have a same meaning since each network is composed of its specific characteristics and there is no common pilot signal. Then, RSS comparisons are insufficient for handoff decision and may be inefficient and impractical. A more complex decision criterion that combines a large number of parameters or factors such as monetary cost, bandwidth, and power consumption and user profile is necessary. Though there are a lot works available for vertical handoff decision (VHD) for wireless networks, the selection of best network is still challenging problem. In this paper we propose a Fuzzy based vertical handoff decision controller (FVHDC) Which performs handover decision based on the output of fuzzy based rules.
A Comparative Analysis of Vertical Handover Decision Process Algorithms for N...Editor IJMTER
Increasing consumer demand for access to services anywhere and anytime is driving a
hastened technological progression towards the integration of a variety of wireless access
technologies. Therefore one of the chief interest points of Next Generation Wireless Networks
(NGWNs), refers to the capability to support wireless network access equipments to guarantee a high
rate of services between dissimilar wireless networks. To answer these problems it is essential to
have decision algorithms to decide for every user of mobile terminal, which is the most excellent
network at some point, for a service or a precise application that the user needs. Therefore to make
these things, many algorithms use the vertical handoff technique. A series of algorithms based on
vertical handoff technique with a categorization of the different existing vertical handoff decision
strategies, which tries to resolve these issues of wireless network selection at a specified time for a
specific application of an user has been discussed in this paper. Also few parameters that are to be
considered during vertical handover have been discussed briefly.
Handover is the process of switching among the
available services without any interruption. Vertical handover is
a technique of switching from one type of a network to another
type of network (e.g., from WiFi to WiMAX). Seamless handover
between different access technologies is a great challenge as it
needs to obey different performance of QoS and security
constraints. Service users are becoming more demanding
regarding roaming capabilities across different networking
technologies such as WiFi, WiMAX, and CDMA as they claim
service continuity with QoS requirement and good security
features. Vertical Handover Decision (VHD) algorithms need to
be designed to provide the required Quality of Service (QoS) to a
wide range of applications while allowing seamless roaming
among a number of access network technologies. This paper is
about the implementation of the VHD algorithms designed to
satisfy these requirements. A combination of 3 parameters i.e.
Data Rate, SINR and RSS are evaluated to take decision of the
best network among available.
Research Inventy : International Journal of Engineering and Scienceinventy
Research Inventy : International Journal of Engineering and Science
Research Inventy : International Journal of Engineering and Science is published by the group of young academic and industrial researchers with 12 Issues per year. It is an online as well as print version open access journal that provides rapid publication (monthly) of articles in all areas of the subject such as: civil, mechanical, chemical, electronic and computer engineering as well as production and information technology. The Journal welcomes the submission of manuscripts that meet the general criteria of significance and scientific excellence. Papers will be published by rapid process within 20 days after acceptance and peer review process takes only 7 days. All articles published in Research Inventy will be peer-reviewed
Intelligent Approach for Seamless Mobility in Multi Network EnvironmentIDES Editor
Seamless interoperability between two dissimilar
networks requires handoff from one network to the other.
Such handoffs are known as vertical handoffs. Vertical handoff
introduces a shift in the approach to handoffs. It deals with
handoffs between dissimilar networks, such as from an access
point to a base station or vice versa. The integration of diverse
but complementary cellular and wireless technologies in the
next generation of wireless communication systems requires
the design of intelligent vertical handoff decision algorithms
to enable mobile users to seamlessly switch network access
and experience uninterrupted service continuity anywhere
and anytime. This paper provides a vertical handoff decision
algorithm that enables wireless access network selection at a
mobile terminal. Example shows that our proposed vertical
handover algorithm is able to determine the best access
network.
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-CRITERIA HANDOVER DECISION FOR HETEROGENEOUS NETWORKS: CARRIER AGGREGAT...IJCNCJournal
Carrier aggregation and integration of heterogeneous networks allow the mobile user equipment to benefit from wider bandwidth and radio coverage of different access technologies. However, these technologies have increased handoff scenario probability through user equipment’s mobility, leading to high outage probability and low throughput. Handover is an important aspect of mobility management which allows users to migrate from one cell to another without losing connections. But no lone access technology meets the requirements of providing seamless communication without loss and delay. Therefore, high-quality service continuity and reliable user equipment access to network anywhere and at any time require the
design of an appropriate handover decision algorithm. In this paper, a multi-criteria based handover decision-making algorithm is proposed to evade loss of communication and provide better performance to the system. It adaptively makes handover decisions based on different decision criteria (load, availability of resources, and the handover scenario type) in addition to signal interference to noise ratio. The multicriteria handover decision making algorithm-based method chooses among the cells that satisfy the requirements for the handover. As compared to some existing handover decision algorithms, simulation result shows that this algorithm improves system performance in terms of handover failure by 93%, 72%,
and 58%; radio link failure reduction by 77%, 43%, and 22%; and handover ping–pong by 81%, 59%, and 36% over the conventional received signal strength, received wireless transmission line, and multiinfluence factor hand over decisions respectively.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
An analytic network process and trapezoidal interval-valued fuzzy technique f...University of Piraeus
Next generation wireless networks consist of many heterogeneous access technologies that should support various service types with different quality of service (QoS) constraints, as well as user, requirements and provider policies. Therefore, the need for network selection mechanisms that consider multiple factors must be addressed. In this paper, a network selection method is proposed by applying the analytic network process to estimate the weights of the selection criteria, as well as a fuzzy version of technique for order preference by similarity to ideal solution to perform the ranking of network alternatives. The method is applied to a heterogeneous network environment providing different QoS classes and policy characteristics. Each user applies the method to select the most appropriate network, which satisfies his or her requirements in respect of his or her service-level agreement (SLA). Performance evaluation shows that when the user requests only one service, the proposed method performs better compared to the original technique for order preference by similarity to ideal solution, as well as the Fuzzy AHP-ELECTRE method. Moreover, the proposed method can be applied in cases where a user requires multiple services simultaneously on a device. The sensitivity analysis of the proposed method shows that it can be properly adjusted to conform to network environment changes.
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The objective of this paper was to investigate experimentally the effect of Evaporative-cooled condenser in a household refrigerator. The experiment was done using HCF134a as the refrigerant. The performance of the household refrigerator with air-cooled and Evaporative-cooled condenser was compared for different load conditions. The results indicate that the refrigerator performance had improved when evaporative-cooled condenser was used instead of air-cooled condenser on all load conditions. Evaporativecooled condenser reduced the energy consumption when compared with the air-cooled condenser. There was also an enhancement in coefficient of performance (COP) when evaporative-cooled condenser was used instead of air-cooled condenser. The Evaporative cooled heat exchanger was designed and the system was modified by retrofitting it, instead of the conventional air-cooled condenser by making drop wise condensation using water and forced circulation over the condenser. From the experimental analysis it is observed that the COP of evaporative cooled system increased by 13.44% compared to that of air cooled system. So the overall efficiency and refrigerating effect is increased. In minimum constructional, maintenance and running cost, the system is much useful for domestic purpose. This study also revealed that combining a evaporative cooled system along with conventional water cooled system under the condition that the defrost water obtained from the freezer is used for drop wise condensation over condenser and water cooled condensation of the condenser at the bottom using remaining defrost water would reduce the power consumption, work done and hence further increase in refrigerating effect of the system. The study has shown that such a system is technically feasible and economically viable
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Crystallization of L-Glutamic Acid: Mechanism of Heterogeneous β -Form Nuclea...inventy
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Evaluation of Damage by the Reliability of the Traction Test on Polymer Test ...inventy
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Removal of Chromium (VI) From Aqueous Solutions Using Discarded Solanum Tuber...inventy
Industrial polluting effluents containing heavy metals are of serious environmental concern in India. Chromium is frequently used in industries like electroplating, metal finishing, cooling towers, dyes, paints, anodizing and leather tanning and is found as traces in effluents finding their way to natural water bodies causing hazardous toxicity to the health of humans, animals and aquatic lives directly or indirectly. Many methods for the removal of Chromium such as chemical reduction, precipitation, ion exchange, electrochemical reduction, evaporation, reverse osmosis and adsorption using activated carbon etc. have been reported but all being expensive and complicated to operate. Experimental practices reveal that adsorption by agricultural and horticultural wastes are quite simple, inexpensive and efficient method. Agra is famous for Potato farming, a lot of discarded potato waste from cold storages is thrown along road side drains causing solid waste generated which either creates solid waste disposal problem or otherwise it finds way to Yamuna river resulting high BOD and posing a serious threat to the aquatic environment. For developing countries like India adsorption studies using discarded potato (Solanum tuberosum) waste from cold storages (DPWC) a solid waste as low cost adsorbent for Chromium removal was dual beneficial i.e., an ideal solution to these solid wastes disposal problem of Agra and removal of Chromium from tannery effluents and thereby saving aquatic life from Chromium contamination in Yamuna river. Keeping this in view batch experiments were designed to study the feasibility of discarded potato waste from cold storages to remove chromium (VI) from the aqueous solutions. During the study various affecting parameters, such as pH, adsorbent does, initial concentration, temperature, contact time, adsorbent grain size and start up agitation speed were optimized as 5.0, 10-20 g/l, 50 mg/l, 250C, 135 minutes, average size and 80 rpm respectively on chromium removal efficiency. Various Isotherms such as Langmuir, Freundlich, Tempkin also fitted suitably and various corresponding constants determined from these Isotherms favor and support the adsorption. Thermodynamic constants ∆G, ∆H and ∆S were found to be 0.267 KJ/mole, 0.288 KJ/mole and 0.0013 KJ/mole respectively.
Effect of Various External and Internal Factors on the Carrier Mobility in n-...inventy
The effect of various external (temperature, electric field, light) and intracrystalline (doping, initial resistivity) factors on the mobility of carriers in layered n-InSe semiconductor experimentally have been investigated. Scientific explanations of the results are proposed
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This study is to carry out a transient flow field analysis on the condition that the wind turbine is working to generate turbine, the wind turbine operating conditions change over time, Purpose of this study is try to find out the rule from the wind turbine changing over time . In transient analysis, the wind velocity on inlet boundary and rotation speed in the rotor field will change over time, and an analytical process is provided that can be used for future reference. At present, the wind turbine model is designed on the concept of upwind horizontal axis type. The computer engineering software GH Bladed is used to obtain the relationship between the rotor velocity and the wind turbine. Then the ANSYS engineering software is used to calculate the stress and strain distribution in the blades over time. From the analytical result, the relationship between the stress distribution in the blades and the rotor velocity is got to be used as a reference for future wind turbine structural optimization.
Choice of Numerical Integration Method for Wind Time History Analysis of Tall...inventy
Wind tunnel tests are being performed routinely around the world for designing tall buildings but the advent of powerful computational tools will make time-history analysis for wind more common in near future. As the duration of wind storms ranges from tens of minutes to hours while earthquake durations are typically less than a three to four minutes, the choice of a time step size (Δt) for wind studies needs to be much larger both to reduce the computational time and to save disk space. As the error in any numerical solution of the equation of motion is dependent on step size (Δt), careful investigations on the choice of numerical integration methods for wind analyses are necessary. From a wide variety of integration methods available, it was decided to investigate three methods that seem appropriate for 3D-time history analysis of tall buildings for wind. These are modal time history analysis, the Hilber-Hughes-Taylor (HHT) method or α-method with α=- 0.1, and the Newmark method with β=0.25 and γ=0.5 ( i.e., trapezoidal rule). SAP2000, a common structural analysis software tool, and a 64-story structure are used to conduct all the analyses in this paper. A boundary layer wind tunnel (BLWT) pressure time history measured at 120 locations around the building envelope of a similar structure is used for the analyses. Analyses performed with both the HHT and Newmark-method considering P-delta effects show that second order effects have a considerable impact on both displacement and acceleration response. This result shows that it is necessary to account P-delta effect for wind analysis of tall buildings. As the direct integration time history analysis required very large computation times and very large computer physical memory for a wind duration of hours, a modal analysis with reduced stiffness is considered as a good alternative. For that purpose, a non-linear static analysis of the structure with a load combination of 1.0D + 1.0L is performed in SAP2000 and the reduced stiffness of the structure after the analysis is used to conduct an eigenvalue analysis to extract the mode shapes and frequencies of this structure. Then the first 20- modes are used to perform a modal time history analysis for wind load. The result shows that the responses from modal analysis with “20-mode (reduced stiffness)” are comparable with that from the P-Δ analyses of Newmark-method
Impacts of Demand Side Management on System Reliability Evaluationinventy
Electricity demand in Saudi Arabia is steadily increasing as electrical loads grows at a rate of about 7% per year, this represents a high rate by all standards, and largely due to population growth, as well as due to government subsidies which may lead to prices much lower than actual production cost. This growth represents a challenge that requires Saudi Electricity Company (SEC) to invest huge amounts of money every year, for the construction of additional generation capacity along with the reinforcement of transmission network to meet the consumption growth.Also the demand varies frequently throughout the day, causing a waste of a large part of the energy. SEC believes the optimum solution lies in altering the load shape in order to have a better balance between customer’s consumption and SEC’s generation, This paper describes the method for improving the power system reliability by shifting the portion of peak load to off-peak periods This load management scheme can be achieved by lifting the generation during off peak periods and utilizing the stored energy during peak periods. A hybrid set up involving solar and wind energy along with batteries can also be used to store energy and utilize it during peak periods.
Reliability Evaluation of Riyadh System Incorporating Renewable Generationinventy
In this paper, the experience of Saudi Electricity Company (SEC) in analyzing the generation adequacy for Year 2013 is presented. This analysis is conducted by calculating several reliability indices for Riyadh system hourly load during all four seasonal periods. The reliability indices are gauged against the international utility practice. SEC also plans to introduce renewable energy into the network in order to secure the environmental standards and reduce fuel costs of conventional generation. Thus, the reliability improvement due to different integration levels of Solar and Wind generating sources has also been investigated. The capacity value provided by these variable renewable energy sources (VERs) to reliably meet the system load has been calculated using effective load carrying capability (ELCC) technique with a loss of load expectancy metric.
The effect of reduced pressure acetylene plasma treatment on physical charact...inventy
The capacitors are increasingly being used as energy storage devicesin various power systems. The scientists of the world are tryingto maximize the electrical capacity of the supercapacitors. To achieve this purpose, numerous method sare used: the surface activation of electrodes, the surface etching using the electronbeam, the electrode etching with variousgasplasma, etc. The purpose of this work is toresearch how the properties of carbon electrodes depend on the plasma parameters at whichtheywere formed. The largest surface area ofcarbonelectrodeof47.25m2 /gis obtainedat 15 ofAr/C2H2gasratio. Meanwhile, theSEMimages show that the disruption of structures with low bond energies and the formation of new onesare taking place when the carbon electrodes are etched at acetylene plasma and placed on carbon electrode. The measurements of capacitance showthat capacitors with affectedelectrodes have about10-15% highercapacity than those not treated with acetyleneplasma.
Experimental Investigation of Mini Cooler cum Freezerinventy
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Growth and Magnetic properties of MnGeP2 thin filmsinventy
We have successfully grown MnGeP2 thin films on GaAs (100) substrate. A ferromagnetic transition near 320 K has been observed by temperature dependent magnetization and resistance measurements. Field dependent magnetization experiments have shown that the coercive fields at 5, 250, and 300 K are 3870, 1380 and 155 Oe, respectively. Magnetoresistance and Hall measurements have displayed that hole conduction is dominant in MnGeP2. PACS: 75.50.Pp, 75.70.-i, 85.70.-w, 73.50.-h
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Watch this recorded webinar about real-time monitoring of application performance. See how to integrate Apache JMeter, the open-source leader in performance testing, with InfluxDB, the open-source time-series database, and Grafana, the open-source analytics and visualization application.
In this webinar, we will review the benefits of leveraging InfluxDB and Grafana when executing load tests and demonstrate how these tools are used to visualize performance metrics.
Length: 30 minutes
Session Overview
-------------------------------------------
During this webinar, we will cover the following topics while demonstrating the integrations of JMeter, InfluxDB and Grafana:
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https://www.rttsweb.com/jmeter-integration-webinar
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Neuro-symbolic is not enough, we need neuro-*semantic*Frank van Harmelen
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Research Inventy : International Journal of Engineering and Science
1. Research Inventy: International Journal Of Engineering And Science
Vol.3, Issue 7 (August 2013), PP 06-12
Issn(e): 2278-4721, Issn(p):2319-6483, Www.Researchinventy.Com
6
Context Aware Fuzzy Rule Based Vertical Handoff Decision
Strategies for Heterogeneous Wireless Networks
1
M.SAZEEDA KAUSAR, 2
DHANARAJ CHEELU
1M.Tech student, CSE Department, Ravindra college of Engineering for women, Kurnool, 518004
2 Faculty of engineering, CSE Department, Ravindra college of Engineering for women, Kurnool, 518004
ABSTRACT : The 4th
generation wireless communication systems aim to provide users with the convenience
of seamless continuous connection to access various wireless technologies and to have the connection with the
best network which provides the best Quality of service. To achieve this goal it is necessary to have a good
decision making algorithm which decides the best network for a specific application under which vertical
handoff should be performed. This paper proposes a QoS aware fuzzy rule based vertical handoff mechanism
Using fuzzy logic quantitative decision algorithm (FQDA) is used as an handoff decision criteria to choose
which network to handover among different available access networks. The QoS parameters considered are
available bandwidth, end-to-end delay, jitter, and bit error rate (BER). Simulation results show that compared
to other vertical handoff algorithms, the proposed algorithm gives better performance for different traffic
classes.
KEYWORDS : Heterogeneous networks, Vertical handoff, Fuzzy Rule Based algorithm, Traffic Classes, QoS
parameters.
I. INTRODUCTION
With the development of wireless communication technology, the service of wireless communication
networks is upgrading extremely fast. Presently, there are many kinds of wireless networks available to fulfil
different needs and requirements of mobile users. When a mobile user is switch from one network to another
network or one base station to another BS, the mechanism is called “Handover”. There are two types of
handover; Horizontal handoff (HHO) and Vertical handoff (VHO).Unlike a horizontal handoff that only occurs
within the same network [1] i.e. when the mobile users switching between the networks with the same
technology (WiFi to WiFi) this process called HHO, where as a vertical handoff occurs in the heterogeneous
wireless network when a mobile user changes its connection between different networks i.e. the mobile users
switched in different networks which have different technology (WiMax to WiFi). So in heterogeneous network
vertical handoff decision (VHD) is mainly used for seamless service with the best network which provides the
best Quality of service. [2]
The traditional horizontal handoff research is emphasized on the received signal strength (RSS)
evaluation of the mobile host (MH). However, in the case of vertical handoff, RSS evaluations and comparisons
are insufficient for making an optimized vertical handoff decision. A comparison between different vertical
handoff algorithms has been presented in [3]. The handoff decision may depend on various parameters including
available bandwidth, bit error rate, jitter, average battery lifetime, access cost, transmit power, and end-to-end
delay. A combination of some of the criteria can be considered for making a decision in handoff [4].Vertical
handoff is generally categorized into three phases [5]: system discovery, vertical handoff decision, and vertical
handoff execution. A good decision making algorithm which decides the best network under which vertical
handoff should be performed. During handover there is a need to decide and choose the best network. So the
Vertical Handoff Decision Making is an important research issue. This paper proposes a QoS aware fuzzy rule
based vertical handoff mechanism Using fuzzy logic quantitative decision algorithm (FQDA) is used as an
handoff decision criteria to choose which network to handover among different available access networks.The
FQDA has three steps: fuzzification, quantitave evaluation and quantitative decision. (Sivanandam et al., 2007) ;
(Xia et al., 2008)
The various handoff strategies used for executing handoff may in general be classified into: Mobile-
Controlled Handoff (MCHO), Network-Controlled Handoff (NCHO), and Mobile-Assisted Handoff (MAHO).
In MCHO, the mobile node continuously monitors the signal of access points and initiates the handoff
procedure when some handoff criteria are satisfied. NCHO is a centralized handoff protocol, in which
network makes handoff decision based on measurements of the signal quality of mobile station (MS) at a
2. Context Aware Fuzzy Rule Based…
7
number of base stations (BS). In MAHO, a mobile node measures the signal strength of surrounding base
stations and then decides whether or not to initiate the handoff procedures. MCHO has a low complexity in
terms of network equipment. However, latency and loss of large number of packets during inter-subnet
handoff can be high. Handoff decision in MAHO is made by the network for coordination among mobile
nodes and global optimization. However, in heterogeneous wireless access networks only the mobile nodes
have the knowledge about the kind of interfaces they are equipped with; so the network dependency on the
mobile node is high. Therefore, MCHO with some assistance from the networks is better suited for
implementing vertical handoff.
The QoS aware fuzzy rule based handoff mechanism proposed in this paper assumes MCHO
and some assistance from the network, where a mobile will periodically monitor the available networks and
using a fuzzy rule based algorithm it determines the best network. This information is then communicated to
the current network for executing the handoff. The rest of the paper is organised as follows: the background
and related work on vertical handoff decision are in section II, the proposed algorithm is presented in Section
III, Section IV contains the simulation results and Section V concludes this paper.
II. BACKGROUND AND RELATED WORK
In heterogeneous wireless networks, three phases are available for performing a handoff. The MT will
have a choice of several networks to which it can connect to. But the outcome of the decision phase of the VHO,
which is dependent on several parameters like available bandwidth, battery power status of the mobile terminal,
cost, received signal strength etc will decide on the network to which a connection will be made. RSS has a
great role in the horizontal decision process due to its compatibility between the current attachment point and
that of the candidate attachment points. But in VHO, the RSS are incomparable due to asymmetrical nature of
the heterogeneous networks. However, it can be used to determine the availability as well as the condition of
different networks. If more than one candidate network is available, the MT should associate itself with the one
having the strongest RSS as it does in HHO. Considerable work has been done in literature to determine the
appropriate parameters that can be considered in the decision process for VHO.
In [6], the authors have proposed a vertical handoff decision (VHD) algorithm that maximizes the
overall battery lifetime of the mobile terminal in the same coverage area and also aims at equally distributing the
traffic load across the networks. This algorithm when implemented in multiple Vertical Handoff Decision
Controllers (VHDC) located in the access networks can provide the VHD function for a region covering one or
multiple APs or BSs. In [7], a decision method called ALIVE –HO(adaptive lifetime-based vertical handoff) is
proposed which is based on the Received Signal Strength (RSS).This parameter is used to estimate coverage of
the wireless network and the best network is selected using vertical handoff algorithms. ALIVE- HO algorithm
dynamically adopts to the Mobile Terminals (MT) velocity to decrease the unnecessary number of handoffs and
ping pong effect but the probability of handoff increases with the distance from the AP. It is also established that
the number of unnecessary handoffs using ALIVE handoff algorithm is less than that of algorithms based on
traditional RSS hysteresis. According to the authors, the simplest method to increase RSS is to increase the
transmit power, which needs further investigation, since an increase in transmit power might lead to an increase
in interference leading to a decrease in QoS.
Both QoS parameters and handoff metrics are required for vertical handoff decision [8]. The handoff
metrics and QoS parameters are categorized under different groups (e.g., bandwidth, latency, power, price,
security, reliability, availability). Various vertical handoff decision mechanisms have been proposed recently. In
[9], the handoff decision mechanism is formulated as an optimization problem. Each candidate network is
associated with a cost function. The decision is to select the network which has the lowest cost value. The cost
function depends on a number of criteria, including the bandwidth, delay and power requirement. Appropriate
weight factor is assigned to each criterion to account for its importance. In [10], an Active Application Oriented
(AOO) vertical handoff decision mechanism is proposed. The decision mechanism considers the QoS
parameters required for the applications (e.g., minimum and maximum bandwidth requirement for voice
service). Each candidate network is associated with a utility function. The chosen network is the one which
provides the highest utility value. The utilization function is a weighted sum of various normalized QoS
parameters.
The decision about access network selection in a heterogeneous wireless environment can be solved
using specific multiple attribute decision making (MADM) algorithms such as Technique for Order Preference
by Similarity to Ideal Solution (TOPSIS), Weighted Product Model (WPM), Weighted Sum Model (WSM),
Analytic Hierarchy Process (AHP), and Grey Relational Analysis (GRA). An integrated AHP and GRA
3. Context Aware Fuzzy Rule Based…
8
algorithm for network selection is presented in [11] with a number of parameters. In [12], Pahlavan et al. present
a neural networks-based approach to detect signal decay and making handoff decision. Stevens et. al have
selected parameters such as bandwidth, delay, jitter and bit error rate (BER) to conduct their comparisons of
some of the prominent decision algorithms in literature, that is, simple additive weighting (SAW), technique for
order preference by similarity to ideal solution (TOPSIS), multiplicative exponent weighting (MEW) and the
grey relational analysis (GRA).Good performance improvement of SAW and GRA over several vertical handoff
decision algorithms has been obtained. The GRA decision algorithm provided a slightly higher bandwidth and
lower delay for interactive and background traffic classes while MEW, SAW and TOPSIS provided almost
similar performance In [13], Chan et al. propose a mobility management in a packet-oriented multi-segment
using Mobile IP and fuzzy logic concepts.
Handover is separated into initiation, decision and execution phases. MIP is used in the execution
phase, fuzzy logic is applied to the initiation phase, and fuzzy logic and multiple objective decision making
concepts are applied during the decision phase to select an optimum network. W. Zhang, in [14], proposes that
the vertical handoff decision is formulated as a fuzzy multiple attribute decision-making (MADM) problem.
Fuzzy logic is used to represent the imprecise information of some attributes of the networks and the preferences
of the user. In [15], Pramod Goyal, and S. K. Saxena proposes the Dynamic Decision Model, for performing the
vertical handoffs to the “Best” interface at the “best” time moment, successfully and efficiently. They proposed
Dynamic Decision Model for VHO which adopts a three phase approach comprising Priority phase, Normal
phase and Decision phase. In [16], a Markov decision process (MDP) approach for vertical handoff decision
making problem is proposed. This MDP approach takes into account multiple factors such as user preference,
network conditions, and device capability. Although there have been various vertical handoff decision
algorithms proposed, most of them applied through Fuzzy logic theory based quantitative decision algorithm
(FQDA) (Sivanandam et al., 2007) has an advantage over traditional fuzzy logic algorithm which there is no
need to establish a database to store rule bases. In this paper, we presented a vertical handoff scheme satisfying
between user requirement and network conditions and avoiding unnecessary handoffs as well.
III.QOS AWARE FUZZY RULE BASED VERTICAL HANDOFF DECISION ALGORITHM
To process vertical handoff-related parameters, we use fuzzy logic, which mimics the human mind and
uses approximate modes of reasoning to tolerate vague and imprecise data. Fuzzy logic inference systems
express mapping rules in terms of linguistic language. A Mamdani FIS can be used for computing accurately the
handoff factor which determines whether a handoff initiation is necessary among the networks.
A fuzzy logic inference system can be implemented in the MT as a Handoff Initiation Engine to provide rules
for decision making. We use a Mamdani FIS that is composed of the functional blocks.
A fuzzifier which transforms the crisp inputs into degrees of match with linguistic values;
A fuzzy rule base which contains a number of fuzzy IF-THEN rules;
A database which defines the membership functions of the fuzzy sets used in the fuzzy rules;
A fuzzy inference engine which performs the inference operations on the fuzzy rules;
A defuzzifier which transforms the fuzzy results of the inference into a crisp output.
Suppose that a MT that is connected to a UMTS network detects a new WLAN. It calculates the handoff
factor which determines whether the MT should handoff to the WLAN. We use as input parameters bandwidth,
end to end delay, jitter and Bit error rate perceived QoS of the target WLAN network. The crisp values of the
input parameters are fed into a fuzzifier in a Mamdani FIS, which transforms them into fuzzy sets by
determining the degree to which they belong to each of the appropriate fuzzy sets via membership functions
(MFs). Next, the fuzzy sets are fed into a fuzzy inference engine where a set of fuzzy IF-THEN rules is applied
to obtain fuzzy decision sets. The output fuzzy decision sets are aggregated into a single fuzzy set and passed to
the defuzzifier (centroid method) to be converted into a precise quantity, the handoff factor, which determines
whether a handoff is necessary. When handoff is required, a mobile calculates the handoff score value for all
available networks with a set of input parameters by using the fuzzy rule based scheme proposed above, and
selects the best one. The information about the best network is then communicated to the current network to
execute the handoff. The block diagram shown in Figure 1 describes the vertical handoff decision algorithm.
4. Context Aware Fuzzy Rule Based…
9
Fig 1: Block diagram of predicted parameters for vertical handoff decision algorithm.
In the proposed QoS aware fuzzy rule based algorithm, the network types assumed are an UMTS network, a
GPRS network, and a WLAN. The parameters like possible data rates for bandwidth vector, and typical delay
and jitter values assumed for these networks are based on the standard values. The simulation is carried out
using Matlab and results are plotted in Fig. 4,5 & 6.
The bandwidth vector for network 1 (UMTS) with [32, 64, 128, 256, 512, 1024, 2048] kbps;
network 2 (GPRS) with [21, 42, 64, 85, 107, 128, 149, 171] kbps;
and network 3 (WLAN) with [1, 2, 5.5, 11] Mbps.
The delay vector for network 1 with [190, 160, 130, 100, 70, 40, 10] ms;
network 2 with [185, 160, 135, 110, 85, 60, 35, 10] ms; and
network 3 with [160, 110, 60, 10] ms.
The three networks use the same vectors for jitter and Bit error rate as: [3, 5, 7, 9, 11] msecs and [0.01, 0.001,
0.0001, 0.00001, 0.000001]
The membership functions for different input parameters are considered as triangular functions with
three different regions: low, medium and high. The output membership function is also assumed to be a
triangular function as shown in Fig. 2.
Fig 2: Fuzzy input and output membership functions
The universe of discourse for the variable Handoff Factor is defined from 0 to 1, with the maximum
membership of the sets “Lower” and “Higher” at 0 and 1, respectively. Since there are four fuzzy input variables
and three fuzzy sets for each fuzzy variable, the maximum possible number of rules in our rule base are 34
= 81.
Due to space limitation we show only 4 rules for each traffic class in Table I.
Conversational
Rule No Bandwidth E2E Delay Jitter BER Handoff factor
1 Low Low Low Low High
25 Low High High Low Low
50 Moderate High Moderate Moderate Low
81 High High High High Low
streaming
Rule No Bandwidth E2E Delay Jitter BER Handoff factor
1 Low Low Low Low Low
Inputs
Bandwidth
End to End
delay
Jitter
Bit Error Rate
Fuzzifier
Interference
engine
Defuzzifier
Knowledge base
Database Rule
base
Handoff
score is
less
Selects as
the best
network
5. Context Aware Fuzzy Rule Based…
10
25 Low High High Low Low
50 Moderate High Moderate Moderate High
81 High High High High Moderate
Interactive
Rule No Bandwidth E2E Delay Jitter BER Handoff factor
1 Low Low Low Low Moderate
25 Low High High Low Low
50 Moderate High Moderate Moderate Low
81 High High High High Low
Background
Rule No Bandwidth E2E Delay Jitter BER Handoff factor
1 Low Low Low Low Moderate
25 Low High High Low Moderate
50 Moderate High Moderate Moderate Moderate
81 High High High High Moderate
TABLE I RULE BASE FOR EACH TRAFFIC CLASS
The crisp handoff factor computed after defuzzification is used to determine when a handoff is
required, then initiate handoff; otherwise do nothing. When handoff is required, a mobile calculates the handoff
score value for all available networks with a set of input parameters by using the fuzzy rule based scheme
proposed above, the handoff factor which is less among the networks will be selected as the best one.
IV.SIMULATION AND RESULTS
We considered four traffic classes defined by 3GPP [10], which are conversational, streaming,
interactive and background. Each traffic class is associated with different QoS parameters. The QoS
parameters considered are available bandwidth, end-to-end delay (E2E delay), bit error rate (BER) and jitter
with the corresponding importance weight for each traffic class computed using the Analytical Hierarchical
Processing (AHP), are shown in TABLE II.
Traffic Class Bandwidth E2E
Delay
Jitter BER
Conversational 0.04999 0.45003 0.45003 0.04999
Streaming 0.03738 0.11381 0.42442 0.42442
Interactive 0.63594 0.16052 0.04305 0.16052
Background 0.66933 0.05547 0.05547 0.21977
TABLE II. IMPORTANCE WEIGHTS OF EACH QOS PARAMETERS FOR DIFFERENT
TRAFFIC CLASSES
The simulation is carried out using Matlab and results are plotted in Fig 3. Results obtained using the
proposed technique show better performance for E2EDelay, availability of the network. The Average available
bandwidth is also obtained for Streaming and background classes. The available bandwidth performance is
moderate while satisfying the E2EDelay and availability requirements. Rules can be more properly tuned to get
even better performance in available bandwidth. Fuzzy rule based approach based on awareness of QoS
requirements of the traffic classes makes clear decision to do the handoff among the networks, which uses the
fuzzy membership functions defined in the Fig.2.The fuzzy membership regions helps to make a clear
distinction among the parameter values of the network and fuzzy rule base will be used to infer the result
of handoff score value.
(a)
6. Context Aware Fuzzy Rule Based…
11
(c)
Fig 3 : (a) Avg E2Edelay (b) availability (c) Avg. Available Bandwidth
V. CONCLUSION
In this paper, we considered two sets of networks for simulation. The paper proposes QoS aware
fuzzy rule based algorithm with multi-criteria of bandwidth, delay, jitter and bit error rate by considering
different traffic classes. Simulation results show that fuzzy rule based approach gives better delay, availability,
with moderate performance of available bandwidth. Hence, QoS aware fuzzy rule based algorithm gives better
QoS performance for delay sensitive applications like conversational, interactive and live streaming
applications. Our future work will consider minimal fuzzy rule set based vertical handoff algorithms for
heterogeneous wireless networks.
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