Connectivity of Cognitive Device-to-Device Communications Underlying Cellular Networks
Providing direct communications among wireless devices within the coverage area of a cellular system can enhance coverage, spectral efficiency, and energy efficiency. However, device-to-device (D2D) communications also create new interference in cellular systems. Cognitive radio (CR) technology can help detect and exploit underutilized spectrum for D2D communications in a mixed overlay-underlay spectrum sharing approach. Analysis reveals the maximum allowable device density given a collision probability constraint and shows pushing some devices to receiving mode can preserve connectivity and keep isolation probability low. Upper bounds on cellular coverage probability are obtained incorporating load-based power allocation. Finally, implementation issues are discussed.
Performance Analysis of Wireless Sensor Network in Smart Grid Environmentijtsrd
Wireless Sensor Networks WSNs is a strong candidate for smart grid applications, such as advanced metering infrastructure, demand response management, dynamic pricing, load control, electricity fraud detection, fault diagnostics, substation monitoring and control as well as automation of various elements of the power grid. The realization of these applications directly depends on efficiency of communication facilities among power grid elements. However, the harsh power grid environmental conditions with obstacles, noise, interference, and fading pose great challenges to reliability of these facilities to monitor and control the power grid. The purpose of this paper is to evaluate performance of WSNs in different power grid environments such as 500 kv substations, main power control room, and underground network transformer vaults. The power grid environments are modeled using a log normal shadowing path loss model channel with realistic parameters. The network is simulated and performance is evaluated using packet delivery ratio, communication delay, and energy consumption. The simulation results have revealed that different environments have considerable impacts on performance of WSNs which make it suitable for most applications that need low data rate with low reliability requirements. Ms. Khushboo Yadav | Prof. Mahesh Sharma "Performance Analysis of Wireless Sensor Network in Smart Grid Environment" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-5 , August 2019, URL: https://www.ijtsrd.com/papers/ijtsrd26607.pdfPaper URL: https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/26607/performance-analysis-of-wireless-sensor-network-in-smart-grid-environment/ms-khushboo-yadav
MINIMIZING RADIO RESOURCE USAGE FOR MACHINE-TO-MACHINE COMMUNICATIONS THROUGH...Nexgen Technology
TO GET THIS PROJECT COMPLETE SOURCE ON SUPPORT WITH EXECUTION PLEASE CALL BELOW CONTACT DETAILS
MOBILE: 9791938249, 0413-2211159, WEB: WWW.NEXGENPROJECT.COM,WWW.FINALYEAR-IEEEPROJECTS.COM, EMAIL:Praveen@nexgenproject.com
NEXGEN TECHNOLOGY provides total software solutions to its customers. Apsys works closely with the customers to identify their business processes for computerization and help them implement state-of-the-art solutions. By identifying and enhancing their processes through information technology solutions. NEXGEN TECHNOLOGY help it customers optimally use their resources.
Energy Efficient Resource Allocation and Relay Selection Schemes for D2D Comm...ijtsrd
Device to Device D2D communication is a wireless peer to peer service, that allows direct communication to discharge hub input by binding wireless broadcasting amongst devices, as a vital technology module for next generation cellular communication system. Mobile devices limited battery power is a barricade for harnessing the performance of cellular communication systems. High data rate Device to Device communication is requisite to boost the crescent traffic requirement of apparent applications. In this paper suggest a centralized relay selection and power allocation process to state a multi objective optimization trouble to clearance the commutation in between total transmit power and system throughput. The proposed framework, suggest lowest perplexity modulation and demodulation procedure by route discovery for Generalized frequency division multiplexing systems. The proposed diplomacy deed the peculiar framework of the modulation matrix to depress the computational rate in the absence of meet with any performance loss distress. Centralized algorithm to discover the outcome in polynomial time. Proposed algorithms markedly minimize the total transmit power and enhance the system throughput. Surya S M | Prof. K. Kalai Selvi "Energy-Efficient Resource Allocation and Relay Selection Schemes for D2D Communications in 5G Wireless Networks" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-3 , April 2020, URL: https://www.ijtsrd.com/papers/ijtsrd30413.pdf Paper Url :https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/30413/energyefficient-resource-allocation-and-relay-selection-schemes-for-d2d-communications-in-5g-wireless-networks/surya-s-m
Reduction of Topology Control Using Cooperative Communications in ManetsIJMER
International Journal of Modern Engineering Research (IJMER) is Peer reviewed, online Journal. It serves as an international archival forum of scholarly research related to engineering and science education.
Performance Analysis of Wireless Sensor Network in Smart Grid Environmentijtsrd
Wireless Sensor Networks WSNs is a strong candidate for smart grid applications, such as advanced metering infrastructure, demand response management, dynamic pricing, load control, electricity fraud detection, fault diagnostics, substation monitoring and control as well as automation of various elements of the power grid. The realization of these applications directly depends on efficiency of communication facilities among power grid elements. However, the harsh power grid environmental conditions with obstacles, noise, interference, and fading pose great challenges to reliability of these facilities to monitor and control the power grid. The purpose of this paper is to evaluate performance of WSNs in different power grid environments such as 500 kv substations, main power control room, and underground network transformer vaults. The power grid environments are modeled using a log normal shadowing path loss model channel with realistic parameters. The network is simulated and performance is evaluated using packet delivery ratio, communication delay, and energy consumption. The simulation results have revealed that different environments have considerable impacts on performance of WSNs which make it suitable for most applications that need low data rate with low reliability requirements. Ms. Khushboo Yadav | Prof. Mahesh Sharma "Performance Analysis of Wireless Sensor Network in Smart Grid Environment" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-5 , August 2019, URL: https://www.ijtsrd.com/papers/ijtsrd26607.pdfPaper URL: https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/26607/performance-analysis-of-wireless-sensor-network-in-smart-grid-environment/ms-khushboo-yadav
MINIMIZING RADIO RESOURCE USAGE FOR MACHINE-TO-MACHINE COMMUNICATIONS THROUGH...Nexgen Technology
TO GET THIS PROJECT COMPLETE SOURCE ON SUPPORT WITH EXECUTION PLEASE CALL BELOW CONTACT DETAILS
MOBILE: 9791938249, 0413-2211159, WEB: WWW.NEXGENPROJECT.COM,WWW.FINALYEAR-IEEEPROJECTS.COM, EMAIL:Praveen@nexgenproject.com
NEXGEN TECHNOLOGY provides total software solutions to its customers. Apsys works closely with the customers to identify their business processes for computerization and help them implement state-of-the-art solutions. By identifying and enhancing their processes through information technology solutions. NEXGEN TECHNOLOGY help it customers optimally use their resources.
Energy Efficient Resource Allocation and Relay Selection Schemes for D2D Comm...ijtsrd
Device to Device D2D communication is a wireless peer to peer service, that allows direct communication to discharge hub input by binding wireless broadcasting amongst devices, as a vital technology module for next generation cellular communication system. Mobile devices limited battery power is a barricade for harnessing the performance of cellular communication systems. High data rate Device to Device communication is requisite to boost the crescent traffic requirement of apparent applications. In this paper suggest a centralized relay selection and power allocation process to state a multi objective optimization trouble to clearance the commutation in between total transmit power and system throughput. The proposed framework, suggest lowest perplexity modulation and demodulation procedure by route discovery for Generalized frequency division multiplexing systems. The proposed diplomacy deed the peculiar framework of the modulation matrix to depress the computational rate in the absence of meet with any performance loss distress. Centralized algorithm to discover the outcome in polynomial time. Proposed algorithms markedly minimize the total transmit power and enhance the system throughput. Surya S M | Prof. K. Kalai Selvi "Energy-Efficient Resource Allocation and Relay Selection Schemes for D2D Communications in 5G Wireless Networks" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-3 , April 2020, URL: https://www.ijtsrd.com/papers/ijtsrd30413.pdf Paper Url :https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/30413/energyefficient-resource-allocation-and-relay-selection-schemes-for-d2d-communications-in-5g-wireless-networks/surya-s-m
Reduction of Topology Control Using Cooperative Communications in ManetsIJMER
International Journal of Modern Engineering Research (IJMER) is Peer reviewed, online Journal. It serves as an international archival forum of scholarly research related to engineering and science education.
Millimeter wave channel modeling via generative neural networkMirza Baig
The design and assessment of any far off communication system pivots basically on the accessibility of factual channel fashions that adequate portray the conveyance of constituent parameters within the eventualities of intrigued. Without a doubt, statistical fashions have been the institution of for all intents and functions every cell and WLAN industrial evaluation method for decades. The extension of these models to the millimeter wave (mm Wave) bands, in any case, is difficult: frameworks work over large bandwidths and with pretty mandate radio wire clusters, and as a consequence require fashions that seize the delay, headings, and route preferences up, with adequate determination to as it should be evaluate beamforming, equalization, and different key calculations . The parameters in these models can show absolutely complex relationships that are very troublesome to set up from first principles.
International Journal of Engineering Research and Development (IJERD)IJERD Editor
journal publishing, how to publish research paper, Call For research paper, international journal, publishing a paper, IJERD, journal of science and technology, how to get a research paper published, publishing a paper, publishing of journal, publishing of research paper, reserach and review articles, IJERD Journal, How to publish your research paper, publish research paper, open access engineering journal, Engineering journal, Mathemetics journal, Physics journal, Chemistry journal, Computer Engineering, Computer Science journal, how to submit your paper, peer reviw journal, indexed journal, reserach and review articles, engineering journal, www.ijerd.com, research journals,
yahoo journals, bing journals, International Journal of Engineering Research and Development, google journals, hard copy of journal
Survey of Wireless Sensor Network Applicationijsrd.com
Sensor networks offer a powerful combination of distributed sensing, computing and communication. They lend themselves to countless applications and, at the same time, offer numerous challenges due to their peculiarities, primarily the stringent energy constraints to which sensing nodes are typically subjected. The distinguishing traits of sensor networks have a direct impact on the hardware design of the nodes at least four levels: power source, processor, communication hardware, and sensors. Various hardware platforms have already been designed to test the many ideas spawned by the re-search community and to implement applications to virtually all fields of science and technology. We are convinced that CAS will be able to provide a substantial contribution to the development of this exciting field. A wireless sensor network (WSN) has important applications such as remote environmental monitoring and target tracking. This has been enabled by the availability, particularly in recent years, of sensors that are smaller, cheaper, and intelligent. These sensors are equipped with wireless interfaces with which they can communicate with one another to form a network. The design of a WSN depends significantly on the application, and it must consider factors such as the environment, the application's design objectives, cost, hardware, and system constraints. The goal of our survey is to present a comprehensive review of the recent literature since the publication of [I.F. Akyildiz, W. Su, Y. Sankarasubramaniam, E. Cayirci, A survey on sensor networks, IEEE Communications Magazine, 2002]. Following a top-down approach, we give an overview of several new applications and then review the literature on various aspects of WSNs. We classify the problems into three different categories: (1) Internal platform and underlying operating system, (2) Communication protocol stack, and (3) Network services, provisioning, and deployment. We review the major development in these three categories and outline new challenges.
Wideband Sensing for Cognitive Radio Systems in Heterogeneous Next Generation...CSCJournals
Mobile Next Generation Network (MNGN) is characterized as heterogeneous network where variety of access technologies are meant to coexist. Decisions on choosing an air interface that meets a particular need at a particular time will be shifted from the network’s side to (a more intelligent) user’s side. On top of that network operators and regularities have come to the realization that assigned spectrum bands are not utilized as they should be. Cognitive radio stands out as a candidate technology to address many emerging issues in MNGN such as capacity, quality of service and spectral efficiency. As a transmission strategy, cognitive radio systems depend greatly on sensing the radio environment. In this paper, we present a novel approach for interference characterization in cognitive radio networks based on wideband chirp signal. The results presented show that improved sensing accuracy is maintained at tolerable system complexity.
An Efficient Approach for Data Gathering and Sharing with Inter Node Communi...cscpconf
In today’s era Wireless sensor networks (WSNs) have emerged as a solution for a wide range of
applications. Most of the traditional WSN architectures consist of static nodes which are densely deployed
over a sensing area. Recently, several WSN architectures based on mobile elements (MEs) have been
proposed. Most of them exploit mobility to address the problem of data collection in WSNs. The common
drawback among them is to data sharing between interconnected nodes. In this paper we propose an
Efficient Approach for Data Gathering and Sharing with Inter Node Communication in Mobile-Sink. Our
algorithm is divided into seven parts: Registration Phase, Authentication Phase, Request and Reply Phase,
Setup Phase, Setup Phase (NN), Data Gathering, and Forwarding to Sink. Our approach provides an
efficient way to handle data in between the intercommunication nodes. By the above approach we can
access the data from the node which is not in the list, by sharing the data from the node which is
approachable to the desired node. For accessing and sharing we need some security so that the data can
be shared between authenticated nodes. For this we use two way security approach one for the accessing
node and other for the sharing.
Secure Spectrum Sensing In Cognitive Radio Sensor Networks: A Surveyijceronline
The rapid growth in wireless communications has contributed to a huge demand on the deployment of new wireless services in both the licensed and unlicensed frequency spectrum. Cognitive Radio Networks (CRNs) is a recently emerging paradigm that aim to opportunistically access the intermittent periods of unoccupied frequency bands and therefore increasing the spectral efficiency. Unlike conventional radios, cognitive radios can intelligently adjust their transmission/reception parameters based on the interaction with the environment and find the best available spectrum bands to use. CRNs rely on cooperation for much of their functionality to make network more efficient. However, due to the distributed nature of cooperative spectrum sensing, the network is vulnerable to new types of security threats. The current spectrum sensing methods do not provide security mechanism to mitigate against these attacks. Traditional security solutions for noncognitive wireless networks do not work well when they are confronted with these new attacks. Furthermore, the security mechanisms proposed for cognitive radio ad hoc networks are not applicable for resource constrained cognitive radio sensor networks. These present considerable obstacles to development of a security mechanism that can defend against such attacks. This paper investigates threats and defense mechanism applicable for cognitive radio sensor networks to use the proposed guidelines for future development of a security mechanism for cognitive radio sensor networks.
TOP 10 AD HOC NETWORKS PAPERS: RECOMMENDED READING – NETWORK RESEARCHIJCNCJournal
The high-level contribution of this paper is a detailed simulation based analysis about the impact of mobility models on the performance of node-disjoint and link-disjoint multipath routing algorithms for mobile ad hoc networks (MANETs).
A Comparative Analysis for Hybrid Routing Protocol for Wireless Sensor NetworksIJERA Editor
Wireless Sensor Networks (WSNs) consist of smallnodes with sensing, computation and wireless
communicationscapabilities. These sensor networks interconnect a several othernodes when established in large
and this opens up severaltechnical challenges and immense application possibilities.These wireless sensor
networks communicate using multi-hopwireless communications, regular ad hoc routing techniquescannot be
directly applied to sensor networks domain due tothe limited processing power and the finite power available
toeach sensor nodes hence recent advances in wireless sensornetworks have developed many protocols
depending on theapplication and network architecture and are specificallydesigned for sensor networks where
energy awareness is anessential consideration. This paper presents routingprotocols for sensor networks and
compares the routingprotocols that are presently of increasing importance.
In this paper, we propose Hybrid Routing Protocol whichcombines the merits of proactive and reactive approach
andovercome their demerits.
PERFORMANCE COMPARISON OF QOS METRICS FOR A DISTRIBUTED PRICING SCHEMEijasuc
De-centralized nature of nodes, in ad-hoc networks, results in the users adapting their operations
independently. Such operations are mostly biased upon the figures and data available for the parameters
which are imperative for superior performance or, in other words, improved Quality of Performance (QoS)
of the nodes. In centrally controlled networks following cooperative game theory principles, collective
operations are performed by the nodes for better QoS of the network. Although nodes in decentralized
networks undertake individual operations, the final outcome of the whole network and thus the performance
of the nodes in the network are influenced by the operations of other nodes. Hence, a distributed resource
allocation approach in such a scenario can be modeled as a non-cooperative game. Asynchronous
Distributed Pricing (ADP) is one such virtual pricing algorithm in which a user’s payoff is determined by
the difference between how much a given performance metric is valued and how much is paid for it. User
service demands and priorities are modeled using numerically emulated QoS metrics termed as utility
functions. The network objective is to maximize the sum of all users’ payoff. However, for convergence of
the sum of all users’ payoff to a global maximum, the determination of the QoS metric’s utility function
with sufficient concavity is essential. Although supermodularity conditions have been previously defined
and determined to obtain suitable utility functions, we have numerically and analytically illustrated that the
convergence performance characteristics fluctuates with the choice of QoS metrics in the algorithm for
similar utility functions as well. We have assessed the optimality of utility functions under Signal-toInterference-plus-Noise ratio and Signal-to-Interference ratio based calculations. This paper also explores
into the difference in performance characteristics obtained by the addition of a significant value noise
variance in the ADP algorithm.
International Journal on AdHoc Networking Systems (IJANS)pijans
In recent years, AdHoc networks have been attracting much interest in both academic and industrial communities. International Journal on AdHoc Networking Systems is an open access peer-reviewed journal that serves as a forum to discuss on ongoing research and new contributions. The journal addresses both practical and theoretical research in the areas of ad hoc networks, sensor networks, mesh networks and vehicular networks. Its main focus is on all issues from link layer up to the application layer. The journal solicits original technical papers that were not previously published and are not currently under review for publication elsewhere.
A QoS Based MAC Protocol For Wireless Ad-hoc NetworkIJNSA Journal
Multimedia communication over wireless Ad-hoc networks has become the driving technology for many of the important applications, experiencing dramatic market growth and promising revolutionary experiences in personal communication, gaming, entertainment, military, security, environment monitoring, and more. The advances in wireless communications and growth of real-time applications have necessitated the development of wireless networks that can support high Quality of Service (QoS) and power control. A node in an ad hoc network is normally battery operated which poses a huge constraint on the power consumption of such a node. Hence, designing a power efficient MAC protocol for ad hoc wireless networks is a major challenge. In this paper, we propose a CDMA based power controlled medium access protocol for mobile and ad hoc network (MNA). The protocol conserves power and provides QoS guarantees for multimedia traffics. In that network one of the fundamental challenger in MANETs is how to increase the overall network throughputs well as reading the delay while maintaining how energy consumption for packet processing in communication. simulation results shows that the performance of the protocol with increase in traffic while QoS is better in terms of Energy consumption, throughput, & communication delay than existing protocol.
Energy Efficient Resource Allocation and Relay Selection Schemes for D2D Comm...ijtsrd
Device to Device D2D communication is a wireless peer to peer service, that allows direct communication to discharge hub input by binding wireless broadcasting amongst devices, as a vital technology module for next generation cellular communication system. Mobile devices limited battery power is a barricade for harnessing the performance of cellular communication systems. High data rate Device to Device communication is requisite to boost the crescent traffic requirement of apparent applications. In this paper suggest a centralized relay selection and power allocation process to state a multi objective optimization trouble to clearance the commutation in between total transmit power and system throughput. The proposed framework, suggest lowest perplexity modulation and demodulation procedure by route discovery for Generalized frequency division multiplexing systems. The proposed diplomacy deed the peculiar framework of the modulation matrix to depress the computational rate in the absence of meet with any performance loss distress. Centralized algorithm to discover the outcome in polynomial time. Proposed algorithms markedly minimize the total transmit power and enhance the system throughput. Surya S M | Prof. K. Kalai Selvi "Energy-Efficient Resource Allocation and Relay Selection Schemes for D2D Communications in 5G Wireless Networks" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-3 , April 2020, URL: https://www.ijtsrd.com/papers/ijtsrd30413.pdf Paper Url :https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/30413/energyefficient-resource-allocation-and-relay-selection-schemes-for-d2d-communications-in-5g-wireless-networks/surya-s-m
Interference aware resource allocation model for D2D under cellular network IJECEIAES
Device-to-Device communication (D2D) has emerged as an efficient communication model in future generation cellular network for offloading cellular traffic and enhance overall network performance. D2D communication aid in attaining better spectrum utilization, lower delay, and less energy consumption, which can well adapt to meet demand of higher transmission rate, larger network capacity. Further, enhances spectral efficiency by reutilizing resource. However, it may result in severe cross-tier interference and co-tier interference. Therefore, efficient interference modelling design are required to address performance degradation caused by the interferences. The existing model has focused on addressing interference considering D2D association operating on same cell with the cellular association. As a result, it incurs interference to the cellular user located in the same cell. However, practically D2D association in overlapping area will reutilize spectrum of multiple neighboring cells. As a result, it incurs interference in multiple cells. For overcoming research challenges, this work presented Interference Aware Resource Allocation (IARA) model for D2D under cellular network as a game theory model. This work consider a resource allocation game where base station as a contender for catering D2D resource needs under different assumptions. Experiment are conducted to evaluate performance of IARA. The outcome shows IARA attained significant performance improvement over state-of-art models in terms of sum rate (utility), successful packet transmission, revenue, and delay.
A bipartite graph based proportional fair scheduling strategy to improve thr...IJECEIAES
The fifth-generation wireless communication is expected to provide a huge amount of capacity to cater to the need of an increasing number of mobile consumers, which can be satisfied by device-to-device (D2D) communication. Reusing the cellular user’s resources in an efficient manner helps to increase the spectrum efficiency of the network but it leads to severe interference. The important point in reusing cellular user resources is that D2D communication should not affect the cellular user’s efficiency. After achieving this requirement, the focus is now turned toward the allocation of resources to D2D communication. This resource allocation strategy is to be designed in such a way that it will not affect communication among the cellular user (CU). This scheme improves various performance objectives. This paper aims at designing a proportional fair resource allocation algorithm based on the bipartite graph which maintains the quality of service (QoS) of CUs while providing D2D communication. This algorithm can be merged with any other scheme of resource allocation for improving QoS and adopting changing channels. In this scheme, a D2D pair can be allocated with one or more than one resource blocks. The MATLAB simulations analyze the performance of the proposed scheme.
A Review on - Comparative Study of Issues in Cellular, Sensor and Adhoc Networkscscpconf
A cellular network is an asymmetric radio network which is made up of fixed transceivers or
nodes, maintain the signal while the mobile transceiver which is using the network is in the
vicinity of the node. An ad-hoc network is a local area network (LAN) that is built
spontaneously as devices connect.
Instead of relying on a base station to coordinate the flow of messages to each node in the
network, the individual network nodes forward packets to and from each other.
This paper focuses on various issues in cellular, adhoc and sensor network. As issues proves helpful for forthcoming research, this paper work as a backbone to elaborate the various research areas.
Millimeter wave channel modeling via generative neural networkMirza Baig
The design and assessment of any far off communication system pivots basically on the accessibility of factual channel fashions that adequate portray the conveyance of constituent parameters within the eventualities of intrigued. Without a doubt, statistical fashions have been the institution of for all intents and functions every cell and WLAN industrial evaluation method for decades. The extension of these models to the millimeter wave (mm Wave) bands, in any case, is difficult: frameworks work over large bandwidths and with pretty mandate radio wire clusters, and as a consequence require fashions that seize the delay, headings, and route preferences up, with adequate determination to as it should be evaluate beamforming, equalization, and different key calculations . The parameters in these models can show absolutely complex relationships that are very troublesome to set up from first principles.
International Journal of Engineering Research and Development (IJERD)IJERD Editor
journal publishing, how to publish research paper, Call For research paper, international journal, publishing a paper, IJERD, journal of science and technology, how to get a research paper published, publishing a paper, publishing of journal, publishing of research paper, reserach and review articles, IJERD Journal, How to publish your research paper, publish research paper, open access engineering journal, Engineering journal, Mathemetics journal, Physics journal, Chemistry journal, Computer Engineering, Computer Science journal, how to submit your paper, peer reviw journal, indexed journal, reserach and review articles, engineering journal, www.ijerd.com, research journals,
yahoo journals, bing journals, International Journal of Engineering Research and Development, google journals, hard copy of journal
Survey of Wireless Sensor Network Applicationijsrd.com
Sensor networks offer a powerful combination of distributed sensing, computing and communication. They lend themselves to countless applications and, at the same time, offer numerous challenges due to their peculiarities, primarily the stringent energy constraints to which sensing nodes are typically subjected. The distinguishing traits of sensor networks have a direct impact on the hardware design of the nodes at least four levels: power source, processor, communication hardware, and sensors. Various hardware platforms have already been designed to test the many ideas spawned by the re-search community and to implement applications to virtually all fields of science and technology. We are convinced that CAS will be able to provide a substantial contribution to the development of this exciting field. A wireless sensor network (WSN) has important applications such as remote environmental monitoring and target tracking. This has been enabled by the availability, particularly in recent years, of sensors that are smaller, cheaper, and intelligent. These sensors are equipped with wireless interfaces with which they can communicate with one another to form a network. The design of a WSN depends significantly on the application, and it must consider factors such as the environment, the application's design objectives, cost, hardware, and system constraints. The goal of our survey is to present a comprehensive review of the recent literature since the publication of [I.F. Akyildiz, W. Su, Y. Sankarasubramaniam, E. Cayirci, A survey on sensor networks, IEEE Communications Magazine, 2002]. Following a top-down approach, we give an overview of several new applications and then review the literature on various aspects of WSNs. We classify the problems into three different categories: (1) Internal platform and underlying operating system, (2) Communication protocol stack, and (3) Network services, provisioning, and deployment. We review the major development in these three categories and outline new challenges.
Wideband Sensing for Cognitive Radio Systems in Heterogeneous Next Generation...CSCJournals
Mobile Next Generation Network (MNGN) is characterized as heterogeneous network where variety of access technologies are meant to coexist. Decisions on choosing an air interface that meets a particular need at a particular time will be shifted from the network’s side to (a more intelligent) user’s side. On top of that network operators and regularities have come to the realization that assigned spectrum bands are not utilized as they should be. Cognitive radio stands out as a candidate technology to address many emerging issues in MNGN such as capacity, quality of service and spectral efficiency. As a transmission strategy, cognitive radio systems depend greatly on sensing the radio environment. In this paper, we present a novel approach for interference characterization in cognitive radio networks based on wideband chirp signal. The results presented show that improved sensing accuracy is maintained at tolerable system complexity.
An Efficient Approach for Data Gathering and Sharing with Inter Node Communi...cscpconf
In today’s era Wireless sensor networks (WSNs) have emerged as a solution for a wide range of
applications. Most of the traditional WSN architectures consist of static nodes which are densely deployed
over a sensing area. Recently, several WSN architectures based on mobile elements (MEs) have been
proposed. Most of them exploit mobility to address the problem of data collection in WSNs. The common
drawback among them is to data sharing between interconnected nodes. In this paper we propose an
Efficient Approach for Data Gathering and Sharing with Inter Node Communication in Mobile-Sink. Our
algorithm is divided into seven parts: Registration Phase, Authentication Phase, Request and Reply Phase,
Setup Phase, Setup Phase (NN), Data Gathering, and Forwarding to Sink. Our approach provides an
efficient way to handle data in between the intercommunication nodes. By the above approach we can
access the data from the node which is not in the list, by sharing the data from the node which is
approachable to the desired node. For accessing and sharing we need some security so that the data can
be shared between authenticated nodes. For this we use two way security approach one for the accessing
node and other for the sharing.
Secure Spectrum Sensing In Cognitive Radio Sensor Networks: A Surveyijceronline
The rapid growth in wireless communications has contributed to a huge demand on the deployment of new wireless services in both the licensed and unlicensed frequency spectrum. Cognitive Radio Networks (CRNs) is a recently emerging paradigm that aim to opportunistically access the intermittent periods of unoccupied frequency bands and therefore increasing the spectral efficiency. Unlike conventional radios, cognitive radios can intelligently adjust their transmission/reception parameters based on the interaction with the environment and find the best available spectrum bands to use. CRNs rely on cooperation for much of their functionality to make network more efficient. However, due to the distributed nature of cooperative spectrum sensing, the network is vulnerable to new types of security threats. The current spectrum sensing methods do not provide security mechanism to mitigate against these attacks. Traditional security solutions for noncognitive wireless networks do not work well when they are confronted with these new attacks. Furthermore, the security mechanisms proposed for cognitive radio ad hoc networks are not applicable for resource constrained cognitive radio sensor networks. These present considerable obstacles to development of a security mechanism that can defend against such attacks. This paper investigates threats and defense mechanism applicable for cognitive radio sensor networks to use the proposed guidelines for future development of a security mechanism for cognitive radio sensor networks.
TOP 10 AD HOC NETWORKS PAPERS: RECOMMENDED READING – NETWORK RESEARCHIJCNCJournal
The high-level contribution of this paper is a detailed simulation based analysis about the impact of mobility models on the performance of node-disjoint and link-disjoint multipath routing algorithms for mobile ad hoc networks (MANETs).
A Comparative Analysis for Hybrid Routing Protocol for Wireless Sensor NetworksIJERA Editor
Wireless Sensor Networks (WSNs) consist of smallnodes with sensing, computation and wireless
communicationscapabilities. These sensor networks interconnect a several othernodes when established in large
and this opens up severaltechnical challenges and immense application possibilities.These wireless sensor
networks communicate using multi-hopwireless communications, regular ad hoc routing techniquescannot be
directly applied to sensor networks domain due tothe limited processing power and the finite power available
toeach sensor nodes hence recent advances in wireless sensornetworks have developed many protocols
depending on theapplication and network architecture and are specificallydesigned for sensor networks where
energy awareness is anessential consideration. This paper presents routingprotocols for sensor networks and
compares the routingprotocols that are presently of increasing importance.
In this paper, we propose Hybrid Routing Protocol whichcombines the merits of proactive and reactive approach
andovercome their demerits.
PERFORMANCE COMPARISON OF QOS METRICS FOR A DISTRIBUTED PRICING SCHEMEijasuc
De-centralized nature of nodes, in ad-hoc networks, results in the users adapting their operations
independently. Such operations are mostly biased upon the figures and data available for the parameters
which are imperative for superior performance or, in other words, improved Quality of Performance (QoS)
of the nodes. In centrally controlled networks following cooperative game theory principles, collective
operations are performed by the nodes for better QoS of the network. Although nodes in decentralized
networks undertake individual operations, the final outcome of the whole network and thus the performance
of the nodes in the network are influenced by the operations of other nodes. Hence, a distributed resource
allocation approach in such a scenario can be modeled as a non-cooperative game. Asynchronous
Distributed Pricing (ADP) is one such virtual pricing algorithm in which a user’s payoff is determined by
the difference between how much a given performance metric is valued and how much is paid for it. User
service demands and priorities are modeled using numerically emulated QoS metrics termed as utility
functions. The network objective is to maximize the sum of all users’ payoff. However, for convergence of
the sum of all users’ payoff to a global maximum, the determination of the QoS metric’s utility function
with sufficient concavity is essential. Although supermodularity conditions have been previously defined
and determined to obtain suitable utility functions, we have numerically and analytically illustrated that the
convergence performance characteristics fluctuates with the choice of QoS metrics in the algorithm for
similar utility functions as well. We have assessed the optimality of utility functions under Signal-toInterference-plus-Noise ratio and Signal-to-Interference ratio based calculations. This paper also explores
into the difference in performance characteristics obtained by the addition of a significant value noise
variance in the ADP algorithm.
International Journal on AdHoc Networking Systems (IJANS)pijans
In recent years, AdHoc networks have been attracting much interest in both academic and industrial communities. International Journal on AdHoc Networking Systems is an open access peer-reviewed journal that serves as a forum to discuss on ongoing research and new contributions. The journal addresses both practical and theoretical research in the areas of ad hoc networks, sensor networks, mesh networks and vehicular networks. Its main focus is on all issues from link layer up to the application layer. The journal solicits original technical papers that were not previously published and are not currently under review for publication elsewhere.
A QoS Based MAC Protocol For Wireless Ad-hoc NetworkIJNSA Journal
Multimedia communication over wireless Ad-hoc networks has become the driving technology for many of the important applications, experiencing dramatic market growth and promising revolutionary experiences in personal communication, gaming, entertainment, military, security, environment monitoring, and more. The advances in wireless communications and growth of real-time applications have necessitated the development of wireless networks that can support high Quality of Service (QoS) and power control. A node in an ad hoc network is normally battery operated which poses a huge constraint on the power consumption of such a node. Hence, designing a power efficient MAC protocol for ad hoc wireless networks is a major challenge. In this paper, we propose a CDMA based power controlled medium access protocol for mobile and ad hoc network (MNA). The protocol conserves power and provides QoS guarantees for multimedia traffics. In that network one of the fundamental challenger in MANETs is how to increase the overall network throughputs well as reading the delay while maintaining how energy consumption for packet processing in communication. simulation results shows that the performance of the protocol with increase in traffic while QoS is better in terms of Energy consumption, throughput, & communication delay than existing protocol.
Energy Efficient Resource Allocation and Relay Selection Schemes for D2D Comm...ijtsrd
Device to Device D2D communication is a wireless peer to peer service, that allows direct communication to discharge hub input by binding wireless broadcasting amongst devices, as a vital technology module for next generation cellular communication system. Mobile devices limited battery power is a barricade for harnessing the performance of cellular communication systems. High data rate Device to Device communication is requisite to boost the crescent traffic requirement of apparent applications. In this paper suggest a centralized relay selection and power allocation process to state a multi objective optimization trouble to clearance the commutation in between total transmit power and system throughput. The proposed framework, suggest lowest perplexity modulation and demodulation procedure by route discovery for Generalized frequency division multiplexing systems. The proposed diplomacy deed the peculiar framework of the modulation matrix to depress the computational rate in the absence of meet with any performance loss distress. Centralized algorithm to discover the outcome in polynomial time. Proposed algorithms markedly minimize the total transmit power and enhance the system throughput. Surya S M | Prof. K. Kalai Selvi "Energy-Efficient Resource Allocation and Relay Selection Schemes for D2D Communications in 5G Wireless Networks" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-3 , April 2020, URL: https://www.ijtsrd.com/papers/ijtsrd30413.pdf Paper Url :https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/30413/energyefficient-resource-allocation-and-relay-selection-schemes-for-d2d-communications-in-5g-wireless-networks/surya-s-m
Interference aware resource allocation model for D2D under cellular network IJECEIAES
Device-to-Device communication (D2D) has emerged as an efficient communication model in future generation cellular network for offloading cellular traffic and enhance overall network performance. D2D communication aid in attaining better spectrum utilization, lower delay, and less energy consumption, which can well adapt to meet demand of higher transmission rate, larger network capacity. Further, enhances spectral efficiency by reutilizing resource. However, it may result in severe cross-tier interference and co-tier interference. Therefore, efficient interference modelling design are required to address performance degradation caused by the interferences. The existing model has focused on addressing interference considering D2D association operating on same cell with the cellular association. As a result, it incurs interference to the cellular user located in the same cell. However, practically D2D association in overlapping area will reutilize spectrum of multiple neighboring cells. As a result, it incurs interference in multiple cells. For overcoming research challenges, this work presented Interference Aware Resource Allocation (IARA) model for D2D under cellular network as a game theory model. This work consider a resource allocation game where base station as a contender for catering D2D resource needs under different assumptions. Experiment are conducted to evaluate performance of IARA. The outcome shows IARA attained significant performance improvement over state-of-art models in terms of sum rate (utility), successful packet transmission, revenue, and delay.
A bipartite graph based proportional fair scheduling strategy to improve thr...IJECEIAES
The fifth-generation wireless communication is expected to provide a huge amount of capacity to cater to the need of an increasing number of mobile consumers, which can be satisfied by device-to-device (D2D) communication. Reusing the cellular user’s resources in an efficient manner helps to increase the spectrum efficiency of the network but it leads to severe interference. The important point in reusing cellular user resources is that D2D communication should not affect the cellular user’s efficiency. After achieving this requirement, the focus is now turned toward the allocation of resources to D2D communication. This resource allocation strategy is to be designed in such a way that it will not affect communication among the cellular user (CU). This scheme improves various performance objectives. This paper aims at designing a proportional fair resource allocation algorithm based on the bipartite graph which maintains the quality of service (QoS) of CUs while providing D2D communication. This algorithm can be merged with any other scheme of resource allocation for improving QoS and adopting changing channels. In this scheme, a D2D pair can be allocated with one or more than one resource blocks. The MATLAB simulations analyze the performance of the proposed scheme.
A Review on - Comparative Study of Issues in Cellular, Sensor and Adhoc Networkscscpconf
A cellular network is an asymmetric radio network which is made up of fixed transceivers or
nodes, maintain the signal while the mobile transceiver which is using the network is in the
vicinity of the node. An ad-hoc network is a local area network (LAN) that is built
spontaneously as devices connect.
Instead of relying on a base station to coordinate the flow of messages to each node in the
network, the individual network nodes forward packets to and from each other.
This paper focuses on various issues in cellular, adhoc and sensor network. As issues proves helpful for forthcoming research, this paper work as a backbone to elaborate the various research areas.
GAME THEORY BASED INTERFERENCE CONTROL AND POWER CONTROL FOR D2D COMMUNICATIO...IJCNCJournal
With the current development of mobile communication services, people need personal communication of
high speed, excellent service, high quality and low latency,however, limited spectrum resources become
the most important factor to hamper improvement of cellular systems. As big amount of data traffic will
cause greater local consumption of spectrum resources, future networks are required to have appropriate
techniques to better support such forms of communication. D2D (Device-to-device) communication
technology in a cellular network makes full use of spectrum resources underlaying, reduces the load of the
base station, minimizes transmit power of the terminals and the base stations, thereby enhances the overall
throughput of the networks. Due to the use of multiplexing D2D UE (User equipment) resources and
spectrum, and the interference caused by the sharing of resources between adjacent cells, it has become a
major factor affecting coexisting of cellular subscribers and D2D users. When D2D communication
multiplexes the uplink resources, the base-stations are easily to be disturbed; when the downlink resources
are multiplexed, the users of downlink are susceptible to interference. In order to build a high-efficient
mobile network, we can meet the QoS requirements by controlling the power to suppress the interference
between the base station and a terminal user.
AN ENERGY EFFICIENT DISTRIBUTED PROTOCOL FOR ENSURING COVERAGE AND CONNECTIVI...ijasuc
As wireless sensor networks (WSNs) continue to attract more and more researchers attention, new ideas for
applications are continually being developed, many of which involve consistent coverage with good
network connectivity of a given area of interest. For the successful operation of the wireless Sensor
Network, the active sensor nodes must maintain both coverage and also connectivity. These are two closely
related essential prerequisites and they are also very important measurements of quality of service (QoS)
for wireless sensor networks. This paper presents the design and analysis of novel protocols that can
dynamically configure a sensor network to result in guaranteed degrees of coverage and connectivity. This
protocol is simulated using NS2 simulated and compared against a distributed probabilistic coveragepreserving configuration protocol (DPCCP) with SPAN [1] protocol in the literature and show that it
activates lesser number of sensor nodes, consumes much lesser energy and maximises the network lifetime
significantly.
Device-to-device (D2D) communications underlaying a cellular infrastructure has been proposed as a means of taking advantage of the physical proximity of communicating devices, increasing resource utilization, and improving cellular coverage. Relative to the traditional cellular methods, there is a need to design new peer discovery methods, physical layer procedures, and radio resource management algorithms that help realize the potential article we use the 3GPP Long Term Evolution system as a baseline for D2D design, review some of the key design challenges, and propose solution approaches that allow cellular devices and D2D pairs to share spectrum resources and thereby increase the spectrum and energy efficiency of traditional cellular networks. Sim- ulation results illustrate the viability of the proposed design.
Impact of Next Generation Cognitive Radio Network on the Wireless Green Eco s...ijeei-iaes
Land mobile communication is burdened with typical propagation constraints due to the channel characteristics in radio systems.Also,the propagation characteristics vary form place to place and also as the mobile unit moves,from time to time.Hence,the tramsmission path between transmitter and receiver varies from simple direct LOS to the one which is severely obstructed by buildings, foliage and terrain. Multipath propagation and shadow fading effects affect the signal strength of an arbitrary Transmitter-Receiver due to the rapid fluctuations in the phase and amplitude of signal which also determines the average power over an area of tens or hundreds of meters. Shadowing introduces additional fluctuations, so the received local mean power varies around the area –mean. The present paper deals with the performance analysis of impact of next generation wireless cognitive radio network on wireless green eco system through signal and interference level based k coverage probability under the shadow fading effects.
IJERA (International journal of Engineering Research and Applications) is International online, ... peer reviewed journal. For more detail or submit your article, please visit www.ijera.com
A Cooperative Approach to Extend Cellular Coverage via D2D Architecture based...IJCNCJournal
The access part of all cellular network’s generation suffers from common concerns related to dead spots (zones that are not covered by the network) and hot spots (zones where the number of users is higher compared to network resources). During the last decade, lots of research proposals have tried to overcome cellular problems through multi-hop D2D architecture, which is a new paradigm allowing the direct communication between devices in cellular network to enhance network performances and improve user QoS. In this paper, we propose a multi-hop D2D architecture based on the OLSR protocol to extend cellular coverage. Cell-OLSR, which is the proposed adaptation of OLSR for our architecture, allows the exchange of cellular parameters between nodes to choose the best proxy device to forward data to the cellular base station (BS).
ER Publication,
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A STRUCTURED DEEP NEURAL NETWORK FOR DATA-DRIVEN LOCALIZATION IN HIGH FREQUEN...IJCNCJournal
Next-generation wireless networks such as 5G and 802.11ad networks will use millimeter waves operating
at 28GHz, 38GHz, or higher frequencies to deliver unprecedentedly high data rates, e.g., 10 gigabits per
second. However, millimeter waves must be used directionally with narrow beams in order to overcome the
large attenuation due to their higher frequency. To achieve high data rates in a mobile setting,
communicating nodes need to align their beams dynamically, quickly, and in high resolution. We propose a
data-driven, deep neural network (DNN) approach to provide robust localization for beam alignment,
using a lower frequency spectrum (e.g., 2.4 GHz). The proposed DNN-based localization methods use the
angle of arrival derived from phase differences in the signal received at multiple antenna arrays to infer the
location of a mobile node. Our methods differ from others that use DNNs as a black box in that the
structure of our neural network model is tailored to address difficulties associated with the domain, such as
collinearity of the mobile node with antenna arrays, fading and multipath. We show that training our
models requires a small number of sample locations, such as 30 or fewer, making the proposed methods
practical. Our specific contributions are: (1) a structured DNN approach where the neural network
topology reflects the placement of antenna arrays, (2) a simulation platform for generating training and
evaluation data sets under multiple noise models, and (3) demonstration that our structured DNN approach
improves localization under noise by up to 25% over traditional off-the-shelf DNNs, and can achieve submeter
accuracy in a real-world experiment.
International Journal of Computational Engineering Research(IJCER) ijceronline
International Journal of Computational Engineering Research(IJCER) is an intentional online Journal in English monthly publishing journal. This Journal publish original research work that contributes significantly to further the scientific knowledge in engineering and Technology.
SHADOWING EFFECTS ON ROUTING PROTOCOL OF MULTIHOP AD HOC NETWORKSijasuc
Two-ray ground reflection model has been widely used as the propagation model to investigate the
performance of an ad hoc network. But two-ray model is too simple to represent a real world network. A
more realistic model namely shadowing propagation model has been used in this investigation. Under
shadowing propagation model, a mobile node may receive a packet at a signal level that is below a
required threshold level. This low signal level affects the routing protocol as well as the medium access
control protocol of a network. An analytical model has been presented in this paper to investigate the
shadowing effects on the network performance. The analytical model has been verified via simulation
results. Simulation results show that the performance of a network becomes very poor if shadowing
propagation model is used in compare to the simple two-ray model. Two solutions have also been proposed
in this paper to overcome the effects of shadowing. One solution is a physical layer solution and the other
one is a Medium Access Control (MAC) layer solution. Simulation results show that these two solutions
reduce the shadowing effect and improve network performance.
Similar to Connectivity of cognitive device to-device communications underlying cellular networks (20)
Computing the rate distortion region for the ceo problem with independent sou...
Connectivity of cognitive device to-device communications underlying cellular networks
1. Connectivity of Cognitive Device-to-Device Communications
Underlying Cellular Networks
Abstract:
Providing direct communications among a rapidly growing number
of wireless devices within the coverage area of a cellular system is an
attractive way of exploiting the proximity among them to enhance
coverage and spectral and energy efficiency. However, such device-to-
device (D2D) communications create a new type of interference in cellular
systems, calling for rigorous system analysis and design to both protect
mobile users (MUs) and guarantee the connectivity of devices. Motivated
by the potential advantages of cognitive radio (CR) technology in detecting
and exploiting underutilized spectrum, we investigate CR-assisted D2D
communications in a cellular network as a viable solution for D2D
communications, in which devices access the network with mixed overlay-
underlay spectrum sharing. Our comprehensive analysis reveals several
engineering insights useful to system design. We first derive bounds of
pivotal performance metrics. For a given collision probability constraint, as
the prime spectrum-sharing criterion, we also derive the maximum
2. allowable density of devices. This captures the density of MUs and that of
active macro base stations. Limited in spatial density, devices may not have
connectivity among them. Nevertheless, it is shown that for the derived
maximum allowable density, one should judiciously push a portion of
devices into receiving mode in order to preserve the connectivity and to
keep the isolation probability low. Furthermore, upper bounds on the
cellular coverage probability are obtained incorporating load-based power
allocation for both path-loss and fading-based cell association mechanisms,
which are fairly accurate and consistent with our in-depth simulation
results. Finally, implementation issues are discussed.