Modified Dwarf Mongoose Optimization Enabled Energy Aware Clustering Scheme for Cognitive Radio Wireless Sensor Networks

Cognitive radio wireless sensor networks(CRWSN)can be defined as a promising technology for developing bandwidth-limited applications.CRWSN is widely utilized by future Internet of Things(IoT)applications.Since a promising technology,Cognitive Radio(CR)can be modelled to alleviate the spectrum scarcity issue.Generally,CRWSN has cognitive radioenabled sensor nodes(SNs),which are energy limited.Hierarchical clusterrelated techniques for overall network management can be suitable for the scalability and stability of the network.This paper focuses on designing the Modified Dwarf Mongoose Optimization Enabled Energy Aware Clustering(MDMO-EAC)Scheme for CRWSN.The MDMO-EAC technique mainly intends to group the nodes into clusters in the CRWSN.Besides,theMDMOEAC algorithm is based on the dwarf mongoose optimization(DMO)algorithm design with oppositional-based learning(OBL)concept for the clustering process,showing the novelty of the work.In addition,the presented MDMO-EAC algorithm computed a multi-objective function for improved network efficiency.The presented model is validated using a comprehensive range of experiments,and the outcomes were scrutinized in varying measures.The comparison study stated the improvements of the MDMO-EAC method over other recent approaches.

Determination of Threshold for Energy Detection in Cognitive Radio Sensor Networks

The Internet of Things （loT） is called the world＇ s third wave of the information industry. As the core technology of IoT, Cognitive Radio Sensor Networks （CRSN） technology can improve spectrum utilization efficiency and lay a sofid foundation for large-scale application of IoT. Reliable spectrum sensing is a crucial task of the CR. For energy de- tection, threshold will determine the probability of detection （Pd） and the probability of false alarm Pf at the same time. While the threshold increases, Pd and Pf will both decrease. In this paper we focus on the maximum of the difference of Pd and Pf, and try to find out how to determine the threshold with this precondition. Simulation results show that the proposed method can effectively approach the ideal optimal result.

Energy-Efficient Sensing and Transmission for Multi-Hop Relay Cognitive Radio Sensor Networks

How to achieve transmissions in an energy-efficient way in multi-hop decode and forward(DF) relay cognitive radio sensor networks(CRSNs) is important since sensor nodes in CRSNs are usually battery powered. This paper aims to maximize energy efficiency(EE) by joint optimizing sensing time and power allocation in multi-channels & multihops DF relay CRSNs under constraints on outage probability and sensing performance. First, we design a channel selection scheme for sensing according to the available probabilities of multi channels. Second, we analyze the expected throughput and energy consumption and formulate the EE problem as a concave/concave fractional program. Third, coordinate ascent and Charnes-Cooper Transformation(CCT) methods are used to transform the nonlinear fractional problem into an equivalent concave problem. Subsequently, the closed form of outage probability is derived and the convergence rate of the iterative algorithm is analyzed. Finally, simulation results show that the proposed scheme can achieve effective EE.

Cooperative Spectrum Sensing for Cognitive Radio-Wireless Sensors Network Based on OR Rule Decision to Enhance Energy Consumption in Greenhouses

Wireless sensors networks (WSNs) combined with cognitive radio have developed and solved the limited space of the frequency spectrum. In this paper, we propose different types of spectrums sensing and their own decisions depend on the probabilities that applied into fusion center, and how these probabilities’ techniques help to enhance the energy consumption of WSNs. In the same way, the importance of designing balanced distribution between the wireless sensors networks and their own sinks. This research also provides an overview of security issues in CR-WSN, especially in Spectrum Sensing Data Falsification (SSDF) attacks that enforces harmful effects on spectrum sensing and spectrum sharing. We adopt OR rule as four types of CRSN sensing protocolin greenhouses application by using Matlab and Netsim simulators. Our results show that the designing balanced wireless sensors and their sinks in greenhouses are very significant to decrease the energy, which is due to the traffic congestion in the sink range area. Furthermore, by applying OR rule has enhanced the energy consumption, and improved the sensors network lifetime compared to cognitive radio network.

A Fault-Tolerant Cooperative Spectrum Sensing Algorithm over Cognitive Radio Network Based on Wireless Sensor Network

A serious threat to cognitive radio networks that sense the spectrum in a cooperative manner is the transmission of false spectrum sensing data by malicious sensor nodes. SNR fluctuations due to wireless channel effects complicate handling such attackers even further. This enforces the system to acquire authentication. Actually, the decision maker needs to determine the reliability or trustworthiness of the shared data. In this paper, the evaluation process is considered as an estimation dilemma on a set of evidences obtained through sensor nodes that are coordinated in an underlying wireless sensor network. Then, a likelihood-based computational trust evaluation algorithm is proposed to determine the trustworthiness of each sensor node's data. The proposed procedure just uses the information which is obtained from the sensor nodes without any presumptions about node’s reliability. Numerical results confirm the effectiveness of the algorithm in eliminating malicious nodes or faulty nodes which are not necessarily conscious attackers.

Cognitive Radio Sensor Node Empowered Mobile Phone for Explosive Trace Detection

Usefulness of sensor network applications in human life is increasing day by day and the concept of wireless connection promises new application areas. Sensor network can be very beneficial in saving human life from terrorist attacks causing explosion in certain areas leading to casualties. But realization of the sensor network application in explosive detection requires high scalability of the sensor network and fast transmission of the information through real time monitoring and control. In this paper a novel mechanism for explosive trace detection in any populated area by the use of mobile telephony has been described. The aim is to create a system that will assure common men, local population and above all the nation a secured environment, without disturbing their freedom of movement. It would further help the police in detection of explosives more quickly, isolation of suicide bombers, remediation of explosives manufacturing sites, and forensic and criminal investigation. To achieve this, the paper has projected an idea that can combine the strength of the mobile phones, the polymer sensor and existing cellular network. The idea is to design and embed a tiny cog-nitive radio sensor node into the mobile phone that adapts to the changing environment by analyzing the RF surroundings and adjusting the spectrum use appropriately. The system would be capable of detecting explo-sives within a defined territory. It would communicate the location of the detected explosives to the respec-tive service provider, which in turn would inform the law and enforcement agency or Police.

Managing Energy Consumption of Wireless Sensors Networks in Multiple Greenhouses

An extensive area implementation of fully observed greenhouses motivates on research, especially in remote greenhouses. However, implementation of wireless sensor networks (WSNs) is still needed for investigation. Cognitive radio sensor networks (CRSNs) took advantage of using the cognitive radio (CR) concept to which allowed wireless sensor networks to dynamically access into white space channels which is unused channels. In this paper, we adopted the Generalized Implicit-OR as CRSN sensing protocol to reduce the energy consumption and increase the network lifetime in multiple numbers of greenhouses. Our results showed that enhanced energy consumption and improved network lifetime compared to ordinary WSN.

CRSN中基于随机网络演算的拥塞控制协议QoS边界分析

为了保证认知无线电传感器网络(CRSN)的服务质量(QoS),需精确求解所采用协议的性能边界,为此提出了一种基于随机网络演算(SNC)的QoS性能边界分析方法。以CRSN中的和式增加积式减少(AIMD)拥塞控制机制为评估对象,以通信时延和数据积压为QoS性能指标。根据CR资源传感器的发送速率分布,利用基于矩量母函数(MGF)的随机网络演算推导出AIMD机制的时延和积压边界模型。实验结果表明,不同CRSN场景中的模型计算值都在理论边界范围之内,证明了该边界分析模型具有良好的性能。

一种基于CRSN的简单有效Rendezvous算法

基于传统的会合(Rendezvous)机制,提出了一种简单快速的跳频算法SRPX(sender-receiver-parameter-X,SRPX),算法将节点状态划分为发送状态和接收状态,通过调整步长和信道使用概率参数生成信道跳频序列,实现节点间的通信.算法有效解决了CRSN中公共控制信道的瓶颈问题,支持信道集的对称模型和非对称模型,满足多用户/多跳应用场景,实现了信道的有效相遇(Rendezvous).通过理论证明和实验对比分析,验证了SRPX算法在最大相遇时间(MTTR)和平均相遇时间(ATTR)上优于其它相关算法.

CRSN中基于信道使用概率的Rendezvous算法

为了解决认知无线传感器网络(CRSN)中公共控制信道受限问题,在不使用公共控制信道情况下,减少信道冲突,提高CRSN的通信效率和频谱适应性。本文提出了一种分布式的Rendezvous信道跳频算法SRP,该算法通过调整步长,动态生成逻辑跳频序列,根据信道的使用概率,将逻辑序列映射到物理信道,实现节点间的信道Rendezvous,算法支持时钟同步和异步模型,保证了节点间的有效通信。通过理论证明和实验对比分析,验证了SRP算法在最大相遇时间(MTTR)和平均相遇时间(ATTR)上优于其他算法。

CRSN中一种基于频谱已知的多信道机会路由协议

为了解决在无线认知传感网络(CRSN)中,因为无线链路的不稳定性所导致的一般路由方式取得的吞吐量非常有限的问题,提出一种基于频谱已知的多信道机会路由协议(SAMOR).该路由方式一方面可以克服无线链路的不稳定性,另一方面可以提高频谱资源的利用率.在构造节点的传输竞争集时,综合考虑了投递率、能量消耗和时延三者之间的权衡设计了一个竞争集优化算法.在数据的传输过程中,中继节点和数据信道的选择是在一种基于控制信道的跨层协商机制(MC-OMAC)中完成的.仿真结果表明:SAMOR比基于频谱已知的机会路由协议(SAOR)在平均吞吐量、平均丢包率和平均时延上表现得更加优越;链路的平均投递率越小,SAMOR表现出来的优势就越明显.

基于熵权法的CRSN软决策协作频谱感知方法

在实际的无线环境中,阴影和衰落的影响会导致传感节点接收到的信号具有不同的特征。因此,深度衰落中的一些协作节点会出现严重的漏检,这将影响融合操作的最终结果。针对上述问题,提出一种基于熵权法的认知无线传感网(cognitive radio sensor network,CRSN)软决策协作频谱感知方法。该方法将传感器节点组织成逻辑组,以获得能源效率和传感性能的提高,在接收到来自所有成员节点的软传感信息后,簇头采用等增益的软融合来进行簇间融合,然后将局部决策转发给融合中心,在最终决策过程中,采用熵权法为相应的聚类局部决策分配最优权值。仿真结果表明,该方法检测概率和总误差概率方面均优于典型的协作频谱感知分簇方案。

CRSNs中基于传感器选择的高能效频谱感知算法

协同频谱感知(cooperative spectrum sensing,CSS)是认知无线电传感器网络中解决频谱资源稀缺的主要手段,针对现有频谱感知方法在降低能耗方面存在的不足,考虑一种从主要用户接收的具有不同的信噪比值的传感器所组成的真实网络场景,提出一种基于传感器选择的高能效频谱感知算法。该算法将可被传感器用来传输数据的信道按时间分成相等的框架,每框架中包含3个阶段:频谱感知、报告和数据传输;通过聚类得到所有能够满足CSS所需精度的传感器子集,并计算在每次协同频谱感知中这些传感器的平均能耗;在考虑传感器剩余能量的基础上,将每个框架中使用最少数量的传感器参与CSS过程建模为面向能耗的优化问题,并提出一种启发式算法进行求解。仿真实验结果表明,与现有的其他频谱感知方法相比,提出的算法在能量利用方面具有更好的性能。

Energy-efficient spectrum-aware clustering for cognitive radio sensor networks

As a smart combination of cognitive radio networks and wireless sensor networks,recently introduced cognitive radio sensor network(CRSN) poses new challenges to the design of topology maintenance techniques for dynamic primary-user activities.This paper aims to provide a solution to the energy-efficient spectrum-aware CRSN clustering problem.Specifically,we design the clustered structure,establish a network-wide energy consumption model and determine the optimal number of clusters.We then employ the ideas from constrained clustering and propose both a centralized spectrum-aware clustering algorithm and a distributed spectrum-aware clustering(DSAC) protocol.Through extensive simulations,we demonstrate that DSAC can effectively form clusters under a dynamic spectrum-aware constraint.Moreover,DSAC exhibits preferable scalability and stability with its low complexity and quick convergence under dynamic spectrum variation.

Performance Analysis of Multi-Channel CR Enabled IoT Network with Better Energy Harvesting

Wireless Sensor Networks(WSNs)can be termed as an autoconfigured and infrastructure-less wireless networks to monitor physical or environmental conditions,such as temperature,sound,vibration,pressure and motion etc.WSNs may comprise thousands of Internet of Things(IoT)devices to sense and collect data from its surrounding,process the data and take an automated and mechanized decision.On the other side the proliferation of these devices will soon cause radio spectrum shortage.So,to facilitate these networks,we integrate Cognitive Radio(CR)functionality in these networks.CR can sense the unutilized spectrum of licensed users and then use these empty bands when required.In order to keep the IoT nodes functional all time,continuous energy is required.For this reason the energy harvested techniques are preferred in IoT networks.Mainly it is preferred to harvest Radio Frequency(RF)energy in the network.In this paper a region based multi-channel architecture is proposed.In which the coverage area of primary node is divided as Energy Harvesting Region and Communication Region.The Secondary User(SU)that are the licensed user is IoT enabled with Cognitive Radio(CR)techniques so we call it CR-enabled IoT node/device and is encouraged to harvest energy by utilizing radio frequency energy.To harvest energy efficiently and to reduce the energy consumption during sensing,the concept of overlapping region is given that supports to sense multiple channels simultaneously and help the SU to find best channel for transmitting data or to harvest energy from the ideal channel.From the experimental analysis,it is proved that SU can harvest more energy in overlapping region and this architecture proves to consume less energy during data transmission as compared to single channel.We also show that channel load can be highly reduced and channel utilization is proved to be more proficient.Thus,this proves the proposed architecture cost-effective and energy-efficient.

无线认知传感器网络的研究

在无线传感器网络中引入认知无线电技术,构成无线认知传感器网络,可以减少ISM频段干扰,提高数据传输率。对无线认知传感器网络的研究目前已成为一个新的研究领域。介绍了无线认知传感器网络的概念,从无线认知传感器网络的节点、频谱感知、频谱决策、频谱共享、频谱迁移、网络层、传输层、应用层等方面综述了现有的研究成果,讨论了目前存在的问题和需要进一步研究的方向。

认知无线电在矿井无线传感器网络系统中的应用

为了有效地实现矿井环境监测,将认知无线电(CR)技术和无线传感器网络(WSNs)技术相结合,提出了CR-WSNs新概念。分析了煤矿井下特殊的工作环境,介绍了适用于矿井的CR-WSNs监测系统结构、节点的硬件组成和CR-WSNs模块间的通信,给出了简单的性能测试方案。实际测试结果表明:CR-WSNs比普通WSNs具有更强的抗干扰性能。

一种宽带频谱检测的空域频域压缩感知方法

压缩感知(CS)技术使快速宽频检测成为可能,采用CS技术的WSN可为认知无线电用户提供频谱信息。针对WSN检测到的频谱数据,该文建立了一种基于空域和频域2维压缩的空频压缩感知(SFCS)模型,提出了相应的重构算法,并详细分析了SFCS的各种性能。仿真结果证实了在同一检测概率下,SFCS模型下比传统模型所需传输数据更少;在相同总压缩率下,该文算法下的ROC性能优于传统算法的性能。

基于改进遗传算法的认知无线传感网动态频谱分配方案

将认知无线电中的动态频谱分配技术应用在无线传感网中,针对工作在ISM(industrial,scientific and medical)频段的无线传感网面临的频谱资源紧缺问题,提出一种基于改进自适应遗传算法的动态频谱分配方案。该算法以图论着色模型为基础,以最大带宽收益和最小切换频率为目标函数,在交叉和变异过程中采用自适应交叉概率和变异概率代替固定的交叉概率和变异概率。仿真结果表明,与传统遗传算法和颜色敏感图论着色算法相比,该算法可以实现提高频谱利用率、降低能量消耗的预期目标。

无线多媒体传感器网络中的动态频谱分配技术研究

无线多媒体传感器网络(WMSNs)具有实时监控,收集和处理多媒体信息的功能,有广泛的应用前景。较之传统无线传感器网络,WMSNs无线传输多媒体信息需要更大带宽。然而,随着无线通信设备的广泛应用,有限的可用频谱资源日益匮乏。利用动态频谱分配技术,可以扩展WMSNs的通信频段,增强抗干扰能力。考虑到WMSNs节点的物理限制,如计算能力和能量供应,该文提出了适合WMSNs的频谱感知方法和频谱管理方法。频谱感知采用各节点的轮换机制感知整个频段;频谱管理可以确保对授权用户影响最小的信道被首先使用。WMSNs使用上述方法可以感知周围无线电环境,利用空闲私有频段进行无线通信。最后,通过实验证明了该文提出的动态频谱分配技术对WMSNs的有效性。