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research-article | 30-November-2020

Technical Introduction of Wireless Mesh Network

I. INTRODUCTION As a wireless access network that can be deployed quickly and does not need expensive network wiring infrastructure, its application value in the next generation Internet has been proved. In the process of evolution to the next generation network, wireless is an indispensable technology. Wireless Mesh can cooperate with other networks and is dynamic and calculable network architecture. Traditional wireless networks are mainly point-to-point or point-to-multipurpose star

Yana Luo, Jian Wang

International Journal of Advanced Network, Monitoring and Controls, Volume 6 , ISSUE 2, 73–78

Article | 11-April-2018

WLAN Based Wireless Self-organization Link: Research and Realization

Communication is one of essential elements of our life. In some cases, we need wireless links to support data transmission such as television relay. But the existing GPRS and other network often need the support of power transmission line. And in the remote areas, the transmission rate of traditional network is very slow. In this paper, the development and realization of wireless self-organization link based on the wireless router and WLAN, managed by OpenWrt open source system is presented. It

Yunhai Guo, Zhengxiang Li

International Journal of Advanced Network, Monitoring and Controls, Volume 2 , ISSUE 3, 199–202

Research Article | 20-February-2013

BRIDGE DEFLECTION MEASUREMENT USING WIRELESS MEMS INCLINATION SENSOR SYSTEMS

Bridge is an important part of modern transportation systems and deflection is an important index for bridge’s safety evaluation. In this paper, a method of deflection measurement using Wireless MEMS Inclination Sensor Systems (WMISS) is presented and validated. Firstly, based on various bridge deflection measuring methods, the method of deflection measurement using inclination parameter is introduced. Secondly, a low-power wireless inclination sensor based on 3D-MEMS SCA60 inclinometer

Yan Yu, Hang Liu, Dongsheng Li, Xingquan Mao, Jinping Ou

International Journal on Smart Sensing and Intelligent Systems, Volume 6 , ISSUE 1, 38–57

Research Article | 13-December-2017

RELIABLE DATA BROADCAST FOR ZIGBEE WIRELESS SENSOR NETWORKS

As we know, the data transmission in the wireless networks is more unreliable than it is in the wired network environment. Although the virtual carrier sensing scheme can be used in the wireless unicast transmission, the multicast and broadcast still not utilize the acknowledgement mechanism for reliable transmission. This is due to the acknowledgement packets of broadcast transmission will cause much higher communication traffic and overhead. Since reliable data broadcast is critical and

Tien-Wen Sung, Ting-Ting Wu, Chu-Sing Yang, Yueh-Min Huang

International Journal on Smart Sensing and Intelligent Systems, Volume 3 , ISSUE 3, 504–520

Article | 01-September-2014

A PC-BASED WIRELESS AND REMOTE CONTROL FOR SHAPE JUDGMENT EQUIPMENT USING A ZIGBEE MODULE

To increase manufacturing productivity, industrial automation is required. Additionally, in order to monitor the manufacturing process, a remote online monitoring and control system becomes compulsory. A conventional remote monitoring system often uses a wire connection for communication within a control center; however, it is time-consuming and inconvenient. To overcome this drawback, a wireless design is proposed for the manufacturing process. In this paper, a case study of a remote wireless

Ho-Chih Cheng, Min-Chie Chiu

International Journal on Smart Sensing and Intelligent Systems, Volume 7 , ISSUE 3, 1378–1400

Research Article | 15-February-2020

Marine based Wireless Sensor Networks: Challenges and Requirements

Marine environmental monitoring based on wireless sensor networks (WSN) is a challenging area of research due to the instability of the water field. Due to the characteristics of the water environment, there are certain considerations which must be taken into account before the establishment of marine based wireless sensor networks. These include the deployment of wireless nodes (WNs), energy consumption, network connectivity and security. This paper compares and contrasts the basic parameters

Walid Elgenaidi, Thomas Newe

International Journal on Smart Sensing and Intelligent Systems, Volume 7 , ISSUE 5, 1–5

Article | 01-December-2016

FALSE DATA FILTERING IN WIRELESS SENSOR NETWORKS

Wireless Sensor Networks (WSN) is often deployed in hostile environments, and the attacker can easily capture nodes to inject false data to the sensor network, which can cause serious results. This paper has studied various false data filtering techniques recently in wireless sensor network. Based on encryption technology, we have analyzed and compared the difference of various existing filtering strategies, then have pointed out the merits and demerits of them in detailed. At last, we give the

Ze LUO, Lingzhi ZHU, Yunjie CHANG, Qingyun LUO, Guixiang LI, Weisheng LIAO

International Journal on Smart Sensing and Intelligent Systems, Volume 9 , ISSUE 4, 1795–1821

Article | 30-November-2018

Application Research Based on 5G Wireless Communication Technology

I. OVERVIEW OF 5G WIRELESS COMMUNICATION TECHNOLOGY A. 5G wireless communication technology With the continuous development of the information industry, wireless communication technology has become an important part of people’s production and life. The Italian Marconi conducted radio transmission and reception experiments in 1897, a move that marked the era of human access to wireless communications. Since then, wireless communication technology has been greatly developed in both theoretical

Junying Bai, Yongli An, Ruihua Sun

International Journal of Advanced Network, Monitoring and Controls, Volume 4 , ISSUE 2, 86–92

Article | 01-December-2014

COVERAGE HOLES RECOVERY ALGORITHM BASED ON NODES BALANCE DISTANCE OF UNDERWATER WIRELESS SENSOR NETWORK

Underwater wireless sensor network nodes deployment optimization problem is studied and underwater wireless sensor nodes deployment determines its capability and lifetime. Underwater wireless sensor network if no wireless sensor node is available in the area due to used up energy or any other reasons, the area which is not detected by any wireless sensor node forms coverage holes. The coverage holes recovery algorithm aiming at the coverage holes in wireless sensor network is designed in this

Hengchang Jing

International Journal on Smart Sensing and Intelligent Systems, Volume 7 , ISSUE 4, 1890–1907

Research Article | 15-February-2020

Dynamically Reconfigurable Routing Protocol Design for Underwater Wireless Sensor Network

Underwater Wireless Sensor Networks (UWSN) share the common challenges of terrestrial Wireless Sensor Network (WSN), however they are significantly different from terrestrial WSN. Mainly, because acoustic wireless communication is the main physical layer technology in UWSN. Acoustic communication offers longer range, but has limitations due to low speed of sound, high error probability, limited bandwidth capacity, node mobility and 3-dimensional network architecture. Most of the ground based

Beenish Ayaz, Alastair Allen, Marian Wiercigroch

International Journal on Smart Sensing and Intelligent Systems, Volume 7 , ISSUE 5, 1–5

Article | 23-April-2018

Research on Balanced Energy Consumption of Wireless Sensor Network Nodes Based on Clustering Algorithm

A multi-cluster-head based clustering routing algorithm is researched and realized in order to achieve better balance the energy consumption of wireless sensor network nodes as well as promote the stability and extend the service life of the network. By taking cluster as the basic unit, it divides the wireless sensor network into multiple clusters, each of which includes a main cluster head node, an assistant cluster head node, a cluster management node and several ordinary nodes. The article

Jie Huang

International Journal of Advanced Network, Monitoring and Controls, Volume 2 , ISSUE 4, 15–19

Research paper | 01-September-2011

IMPLEMENTATION OF A SIMPLE WIRELESS SENSOR NODE FOR THE DETECTION OF GASEOUS SUBSTANCES LEAKAGE

The paper presents the steps involved in implementing a customizable wireless sensor node for the detection of gaseous substances leakage in both internal and external environments. The node consists of various modules namely, sensors, signal conditioning, computational unit, wireless communication and power supply. The measurand to be measured are carbon dioxide, oxygen, relative humidity and temperature. A computational analysis is performed using a nano-watt PIC18LF4620 microcontroller and

S. Edward Jero, A. Balaji Ganesh, T.K. Radhakrishnan

International Journal on Smart Sensing and Intelligent Systems, Volume 4 , ISSUE 3, 482–495

Research Article | 20-February-2013

DETECTING WORMHOLE ATTACKS IN WIRELESS SENSOR NETWORKS USING HOP COUNT ANALYSIS

The wormhole attack is a severe threat to wireless sensor networks. Most existing countermeasures for detecting and locating wormhole links either require extra hardware or are too complex for the inherently capability-constrained sensor nodes. Actually, wormhole links can enormously change the original sensor network topology. In this paper, we introduce the HCA4DW mechanism for detecting and locating wormholes in wireless sensor networks. It is based on the basic idea that the change of

Lan Yao, Zhibin Zhao, Ge Yu

International Journal on Smart Sensing and Intelligent Systems, Volume 6 , ISSUE 1, 209–223

Article | 11-April-2018

Design of Routing Protocol and Node Structure in Wireless Sensor Network based on Improved Ant Colony Optimization Algorithm

Wireless sensor network is composed of many wireless sensor nodes with the same or different functions. A typical sensor node consists of four parts: sensor unit, information processing unit, wireless communication unit and energy supply unit. In this paper, the existing ant colony algorithm is analyzed, and an improved ant colony optimization algorithm is proposed. The paper presents design of routing protocol and node structure in wireless sensor network based on improved ant colony

Yan Song, Xiaomei Yao

International Journal of Advanced Network, Monitoring and Controls, Volume 2 , ISSUE 3, 168–172

Article | 05-June-2013

BI-FILTERED FORWARDING: A QUASI-OPTIMAL ROUTING ALGORITHM FOR QUERY DELIVERY IN WIRELESS SENSOR NETWORKS

A quasi-optimal query propagation algorithm Bi-Filtered Forwarding (BFF) for quickly routing a query throughout a wireless sensor network is proposed in this paper. BFF is implemented in a limited flooding manner for guaranteeing quick query propagation and low message consumption in wireless sensor networks. The experimental results show that in comparison with the flooding algorithm, BFF can greatly reduce the redundant message consumption during the procedure of real time query propagation

Junhu Zhang, Xiujuan Zhu, Hui Peng

International Journal on Smart Sensing and Intelligent Systems, Volume 6 , ISSUE 3, 993–1011

Article | 01-December-2015

OPTIMAL CLUSTER HEAD NUMBER BASED ON ENTROY FOR DATA AGGREGATION IN WIRELESS SENSOR NETWORKS

In-network data aggregation plays an important role on energy consumption from the point of reducing the amount of communication in cluster-based wireless sensor networks. The selection of cluster heads is usually based on two criteria which are the number of cluster heads network needed and the times of every node serving as the cluster head. Too much or too little cluster head number will shorten the network lifetime for the energy premature depletion of some sensor nodes, so it has a great

Mingxin Yang

International Journal on Smart Sensing and Intelligent Systems, Volume 8 , ISSUE 4, 1935–1955

Research paper | 20-February-2013

PERFORMANCE ANALYSIS FOR DCT-BASED CODED IMAGE COMMUNICATION IN WIRELESS MULTIMEDIA SENSOR NETWORKS

The objective of this paper is to study the image communication behavior of a wireless video sensor, and analyze its performance under resource constrained wireless multimedia sensor networks. Energy consumption and rate distortion model of DCT-based coded image compression and transmission is developed. Based on energy consumption and rate distortion model proposed, resource allocation is optimized with limited energy and bandwidth. Number of DCT coefficient and step size of quantization table

Xiong Zheyuan, Fan Xiaping, Liu Shaoqiang, Li Yongzhou, Zhang Huan

International Journal on Smart Sensing and Intelligent Systems, Volume 6 , ISSUE 1, 120–135

Article | 03-September-2013

DISTRIBUTED TARGET LOCALIZATION AND TRACKING WITH WIRELESS PYROELECTRIC SENSOR NETWORKS

Due to the disadvantages of traditional localization & tracking at those aspects of users’ privacy protection, system configuration and maintenance, this paper proposes a new approach for infrared object localization and tracking with distributed wireless pyroelectric infrared sensors. A hierarchical architecture of visibility of Fresnel lens array is presented with spatial-modulated field of view (FOV). Firstly, the FOVs of Fresnel lens array in a sensor node are modulated to achieve a single

Baihua Shen, Guoli Wang

International Journal on Smart Sensing and Intelligent Systems, Volume 6 , ISSUE 4, 1400–1418

Research Article | 01-June-2011

A wireless inductive-capacitive (L-C) sensor for rotating component temperature monitoring

Temperature monitoring is critical in almost every type of machinery and application, especially in rotating components such as jet turbines, engines, and power plants, etc. These components involve harsh environments and where the physical connections for monitoring systems are impossible. This paper presents a resonant inductive-capacitive (L-C) circuit based wireless temperature sensor suitable for working in these harsh environments to monitor the temperature of rotating components. Design

Rogie I. Rodriguez, Yi Jia

International Journal on Smart Sensing and Intelligent Systems, Volume 4 , ISSUE 2, 325–337

Article | 01-September-2016

PGSA-BASED LOCALIZATION ALGORITHM FOR WIRELESS SENSOR NETWORK

This paper proposes a novel localization algorithm for wireless sensor network (WSN). Accurate localization is very important for WSN. WSN localization problem is sometimes regarded as an optimization problem. Plant growth simulation algorithm (PGSA) is a kind of new intelligent optimization algorithm, which is intelligent simulation of plant growth in natural way. In addition to the common characteristics of intelligent algorithms, PGSA show robustness and provides a global optimal solution

Yuqiang Qin, Hui Ying

International Journal on Smart Sensing and Intelligent Systems, Volume 9 , ISSUE 3, 1287–1304

Research Article | 20-February-2013

ADAPTIVE ESTIMATION AND PI LEARNING SPRING-RELAXATION TECHNIQUE FOR LOCATION ESTIMATION IN WIRELESS SENSOR NETWORKS

In order to reduce the location estimation error in Wireless Sensor Network(WSN). A localization algorithm is proposed combining adaptive estimation, PI-learning and spring-relaxation techniques for wireless sensor networks in this paper. Our proposed method takes the advantages of the spring-relaxation technique, thus it inherits its simplicity. The overall accuracy of the location estimations is improved by introducing adaptive estimation and PI-learning. Moreover, it requires only a few

Li Haiyan, Hu Yun-an, Zhu Min

International Journal on Smart Sensing and Intelligent Systems, Volume 6 , ISSUE 1, 317–332

Article | 01-September-2016

A NOVEL HYBRID LOCALIZATION METHOD FOR WIRELESS SENSOR NETWORK

Wireless sensor network is a kind of brand-new information acquisition platform, which is realized by the introduction of self-organizing and auto-configuration mechanisms. Node localization technology represents a crucial component of wireless sensor network. In this paper, a localization method based on kernel principal component analysis and particle swarm optimization back propagation algorithm is carefully discussed. First of all, taking KPCA as the front-end system to extract the main

Wang Jun, Zhang Fu, Ren Tiansi, Chen Xun, Liu Gang

International Journal on Smart Sensing and Intelligent Systems, Volume 9 , ISSUE 3, 1323–1340

Article | 03-November-2017

CRACK IDENTIFICATION OF A ROTATING SHAFT WITH INTEGRATED WIRELESS SENSOR

This paper presents a novel real-time crack identification method to determine the position and depth of a transverse open crack on a rotating shaft. A newly developed wireless sensor capable of being mounted directly on the shaft is employed to monitor acceleration at different points of the shaft in a rotating coordinate system. The vibration parameters obtained from the wireless sensors and Finite Element Model provide operational data to perform Modal Analysis with different mock crack

F. Andrés Bejarano, Yi Jia, Frederick Just

International Journal on Smart Sensing and Intelligent Systems, Volume 2 , ISSUE 4, 564–578

Article | 05-September-2013

AN ADAPTIVE CHANNEL HOPPING ALGORITHM FOR WIRELESS SENSOR NETWORK WITH MESH STRUCTURE

According to EGTS proposal, an adaptive channel hopping algorithm that can be used in wireless mesh sensor networks was is designed in this paper. The nodes select proper channels independently and use them to communicate with their neighbors. Once a pair of nodes find their current channel has been deteriorated, they abandoned the current channel and enable the reserved channel, so that the reliability of the network is improved. The algorithm is compatible with the primitives and the frame

Zhao Jindong, Fan Baode, Lu Yunhong, Mu Chunxiao

International Journal on Smart Sensing and Intelligent Systems, Volume 6 , ISSUE 4, –

Article | 01-December-2014

APPLICATIONS OF COMPRESSIVE SENSING OVER WIRELESS FADING CHANNELS

Wireless fading channels exist mixed noise, the most common noises are gaussian noise and impulse noise, to ensure the quality of the received signal, removing the noise in the channel is very important and necessary. WSDN (wavelet soft-threshold de-noising) can suppress low-intensity gaussian noise well; unfortunately, the denoising effect in removing impulse noise using WSDN is not obvious, especially when noise intensity is relatively high. BPDN (Basis Pursuit Denoising) which is a

Shan Wang, YongHong Hu, HaoJun Zhou, Yu Sun, TingYa Yan, Chi Zhang

International Journal on Smart Sensing and Intelligent Systems, Volume 7 , ISSUE 4, 1683–1700

Article | 01-June-2016

A COMPREHENSIVE REVIEW ON THE IMPACT OF COMPRESSED SENSING IN WIRELESS SENSOR NETWORKS

Sensor networking is a promising technology that facilitates the monitoring of the physical world using tiny, inexpensive wireless devices that are spatially distributed across a wide region. These networks are highly constrained in power, computational capacities and memory. Incorporation of techniques based on the concept of Compressed Sensing (CS) which aims to encode sparse signals using a much lower sampling rate than the traditional Nyquist approach has revolutionized the wireless network

G. Edwin Prem Kumar, K. Baskaran, R. Elijah Blessing, M. Lydia

International Journal on Smart Sensing and Intelligent Systems, Volume 9 , ISSUE 2, 818–844

Article | 01-September-2016

SECURE DATA STORAGE MECHANISM FOR INTEGRATION OF WIRELESS SENSOR NETWORKS AND MOBILE CLOUD

Together with an explosive growth of the mobile applications and emerging of cloud computing concept, mobile cloud computing (MCC) has been introduced to be a potential technology for mobile services. Wireless Sensor Networks (WSN) is the technology that connects the virtual world and the physical world where nodes can autonomously communicate among each other and with intelligent systems. This paper describes the concept of wireless sensor networks and mobile cloud computing. Recently, much

Chengwei Hu

International Journal on Smart Sensing and Intelligent Systems, Volume 9 , ISSUE 3, 1563–1591

Article | 01-December-2016

A DOOR MONITORING SYSTEM FOR SUBWAY CARS BASED ON WIRELESS SENSOR NETWORK

The place and performance of wireless sensor networks are rapidly improving in the automotive industry, industrial and environmental monitoring. Uptake of this technology can be used in urban rail vehicle management system. Due to the difficult and time-consuming maintenance of vehicle management, a remote automatic monitoring system is needed. In this paper, it is proposed to design, develop and implement a remote automatic vehicle monitoring system. The complete system architecture includes a

WU Minghu, CHEN Rui, YANG Jie, JIAO Liangbao

International Journal on Smart Sensing and Intelligent Systems, Volume 9 , ISSUE 4, 1822–1839

Article | 05-June-2013

AN ESTIMATION ALGORITHM FOR MISSING DATA IN WIRELESS SENSOR NETWORKS

For estimating the missing data of wireless sensor networks, an estimation algorithm called HD method, which can make use of sensoring space-time correlation of the data, was proposed based on mathematical Hermite and DESM statistical models. The algorithm not only can adaptively adjust the time and space weights, but also can accurately estimate the missing or unavailable data. The experimental results show that the algorithm has good stability and relatively high estimation accuracy.

Nan Yan, Ming-zheng Zhou, Li Tong

International Journal on Smart Sensing and Intelligent Systems, Volume 6 , ISSUE 3, 1032–1053

Article | 05-June-2013

THE RESEACH ON WIRELESS SENSOR NETWORK FOR LANDSLIDE MONITORING

The paper mainly discusses design and implementation of key functions such as transceiver unit, MCU control unit, Data acquisition module and Background monitoring unit. Furthermore, the corresponding software platform is implemented according to hardware architecture. Finally the solution is applied into Loess landslide at Luoshan County in China. The experimental results show that bit error rate remains between at 10-5~ 10-6. This range coincides with communication standards of wireless

He Yueshun, Zhang Wei

International Journal on Smart Sensing and Intelligent Systems, Volume 6 , ISSUE 3, 867–887

Article | 02-November-2017

DESIGN OF WIRELESS COMMUNICATION SENSING NETWORKS FOR TUNNELS, TRAINS AND BUILDINGS

This paper deals with the various assumptions used in the design and analysis of distributed antenna system (DAS) for trains, tunnels and in-building wireless radio coverage. The design includes handover overlap design, base station connectivity, signal reticulation using splitters, couplers, bi-directional amplifiers, attenuators, discrete antennas, radiating cables and opto-electric couplers etc. It is found that signal strength, noise, intermodulation calculated for the up and down links are

S. K. Palit, Stuart. Bickerstaff, Chris Langmaid

International Journal on Smart Sensing and Intelligent Systems, Volume 2 , ISSUE 1, 118–134

Research Article | 15-February-2020

Comparison and overview of Wireless sensor network systems for Medical Applications

The need for technology to assist in medical monitoring applications is becoming more necessary in society as the number of patients in hospital and clinics continues to grow. The demand on staff to monitor every individual consistently becomes necessary. Wireless sensor networks (WSN) are now being used to facilitate this on-demand monitoring both at the patients home and in the hospital/clinic environment. This paper looks at the basic parameters necessary for a medical based WSN with

Avijit Mathur, Thomas Newe

International Journal on Smart Sensing and Intelligent Systems, Volume 7 , ISSUE 5, 1–6

Article | 23-December-2013

A Climbing Hold With an Integrated Three Dimensional Force Measurement and Wireless Data Acquisition

A three dimensional force measurement system was integrated in a climbing hold. The force measurement system consisted of three orthogonally mounted platform load cells. Data acquisition and power supply of the load cells was performed by a wireless data acquisition system ViFDAQ. Data was transferred by ViFDAQ to a nearby laptop by a wireless Bluetooth connection. Measurements were done during a regional climbing competition. The instrumented climbing hold was mounted in one of the climbing

B. Lechner, I. Filzwieser, M. Lieschnegg, P. Sammer

International Journal on Smart Sensing and Intelligent Systems, Volume 6 , ISSUE 5, 2296–2307

Article | 05-June-2013

MODEL BASED APPLICATION LEVEL MIDDLEWARE FOR DESIGN OF WIRELESS SMART CITY

The Wireless Smart City (WSC), an emerging concept in Smart Grid and Internet of Things, has attracted an increasing number of customers and developers - based with its promise of low cost implementation and flexibility. At the same time, the challenges faced with in the field applications hinder the progress of WSC from researches into commercial production. A model based application level auxiliary platform is presented to help the development of WSC. This middleware together with the

Yujie Liang, Rendong Ying, Peilin Liu

International Journal on Smart Sensing and Intelligent Systems, Volume 6 , ISSUE 3, 1180–1199

Research Article | 15-February-2020

Condition Monitoring and Diagnosis of Steam Traps with Wireless Smart Sensors

An autonomous, wireless and self-powered smart sensor is described, addressing the condition monitoring and diagnosis of steam traps, whose performance degradation impairs energy efficiency in most of the process industries. The diagnostic criteria in the two possible failure modes of steam traps are presented, as well as the structure and technologies of the embedded devices for sensing, communication, and power supply, special attention being paid to the capability to run the system on the

Joana R. C. Faria, Sónia M. V. Semedo, Francisco J. A. Cardoso, José Oliveira

International Journal on Smart Sensing and Intelligent Systems, Volume 7 , ISSUE 5, 1–6

Article | 01-March-2015

A DEPLOYMENT ALGORITHM FOR MOBILE WIRELESS SENSOR NETWORKS BASED ON THE ELECTROSTATIC FIELD THEORY

This paper proposes a deployment algorithm based on the electrostatic field theory for mobile wireless sensor networks. The nodes and obstacles in the deployment area are taken as the charged particles; and the particles will move due to the Coulomb’s force from other particles or obstacles. Finally, the nodes automatically spread to the whole area by the resultant action and complete the deployment. Four metrics, including coverage, uniformity, deployment time and average displacement distance

Jiang Xu, Huanyan Qian, Wenhao Ying, Jun Zhang

International Journal on Smart Sensing and Intelligent Systems, Volume 8 , ISSUE 1, 516–537

Research Article | 15-February-2020

Optimisation  of solar power intake for wireless sensor networks at temperate latitudes

In many outdoor locations solar power provides the greatest power densities for energy harvesting to power wireless sensor networks in comparison to other practical alternative such as wind, vibrations or temperature gradients. Since solar power is highly variable with location and time, it is necessary to optimise the sensor nodes for individual locations.  Presented here, is an assessment of the solar power availability in Manchester, UK (53°28′N, 2°14′W). Wireless

Ralph Stevenson-Jones, Med Benyezzar, Patricia Scully

International Journal on Smart Sensing and Intelligent Systems, Volume 7 , ISSUE 5, 1–5

Article | 03-December-2015

THE IMPLEMENTATION OF HIGH EFFICIENCY WIRELESS SENSOR IN ACOUSTIC OBJECT TRACKING

Energy control in Wireless Sensor Network is one of the most crucial technologies. Based on the acoustic object localization background, we designed a new structure of the sensor node to realize the energy efficiency in the power supply and artificial sleeping scheduling in this paper. The power control model is independent with data processing and control model and can separately realize the power supply for different part of the node. The node can transfer status according the different

ChengFang Zhen, Wenyi LIU, Hanming WEI

International Journal on Smart Sensing and Intelligent Systems, Volume 8 , ISSUE 4, 1997–2017

Article | 01-March-2016

A NEW THREE-DIMENSION SPATIAL LOCATION ALGORITHM OF WIRELESS SENSOR NETWORK

Aiming at three-dimensional space localization problem in wireless sensor network, a method of three-dimensional centroid algorithm with spherical perception radius (3DCSPR) is proposed. The algorithm uses Gaussian probability density function to estimate the sensor node radius, and uses tetrahedron method and three-dimensional center to locate unknown node with estimated. Firstly, RSSI value between beacon nodes and destination node is selected by RSSI distribution density function, that

Xiang Hua, Zhang Jinjin, Bin Lei

International Journal on Smart Sensing and Intelligent Systems, Volume 9 , ISSUE 1, 233–255

Research Article | 20-February-2013

OUTLIER DETECTION BASED ON SIMILAR FLOCKING MODEL IN WIRELESS SENSOR NETWORKS

Outlier detection plays a crucial role in secure monitoring in Wireless Sensor Networks (WSN). Moreover, outlier detection techniques in WSN face the problem of limited resources of transmission bandwidth, energy consumption and storage capacity. In this paper, similar flocking model is proposed and a cluster algorithm based on similar flocking model (CASFM) is put forward to detect outliers in real-time stream data collected by sensor nodes. The similar flocking model improves the Vicsek model

Cheng Chunling, Wu Hao, Yu Zhihu, Zhang Dengyin, Xu Xiaolong

International Journal on Smart Sensing and Intelligent Systems, Volume 6 , ISSUE 1, 18–37

Research Article | 01-September-2017

WIRELESS ZIGBEE NETWORK CLUSTER - CAPACITY CALCULATION AND SECURE DATA CONVEYANCE USING INDEGREE

A tree topology is used to construct to construct a Zigbee networks practices by wireless sensor network for data delivery applications. There are 3 types of nodes in zigbee networks; coordinator, router and mobile end devices. Coordinator performs the initialization and maintenance functions in the network. A router is responsible for routing data between the coordinator and mobile end device. In-order to avoid the delivery failures occurs due to node movements and network topology changes

R. Elankavi, R. Kalaiprasath, R. Udayakumar

International Journal on Smart Sensing and Intelligent Systems, Volume 10 , ISSUE 5, 174–185

Research Article | 20-February-2013

CFM: A FITNESS-MODEL-BASED TOPOLOGY CONTROL ALGORITHM FOR WIRELESS SENSOR NETWORKS

The main objective of wireless sensor network design is to maximize network lifetime. The network topology, which is the important foundation of upper layer protocols, serves as the supportive groundwork for this goal. We constructed the model of sensor networks, and investigated the property of topology with complex network theory. Three statistical parameters were used to describe the network structure, and then some ideal characteristics were concluded for topology. The characteristics of

Linfeng Liu, Jiagao Wu, Fu Xiao, Ruchuan Wang

International Journal on Smart Sensing and Intelligent Systems, Volume 6 , ISSUE 1, 58–76

Research Article | 15-February-2020

Designing a Wireless Sensors Network for  Monitoring and Predicting Droughts

Global warming and lack of rain were the main problems that caused increased drought around the world. In New Zealand, according to National Institute of Water and Atmospheric Research (NIWA) the drought in 2012 and 2013 was the worst drought in the last 70 years. Therefore, there is a need for technological intervention to monitor basic information about the weather and soil condition in order to identify and predict drought conditions. Initial experiments have shown that the proposed wireless

A Gaddam, M Al-Hrooby, W F Esmael

International Journal on Smart Sensing and Intelligent Systems, Volume 7 , ISSUE 5, 1–6

Article | 01-June-2016

WIRELESS ENERGY MONITORING SYSTEM OF PHOTOVOLTAIC PLANTS WITH SMART ANTI-THEFT SOLUTION INTEGRATED WITH CONTROL UNIT OF HOUSEHOLD ELECTRICAL CONSUMPTION

anti-tampering systems communicate with PC or remote stations by wireless modules. Finally, wireless monitoring system of household facilities measures absorbed currents viewing consumption values on web-page. Depending on light/presence sensors, system can switch on/off monitored facilities obtaining energy savings.

P. Visconti, A. Lay-Ekuakille, P Primiceri, G. Cavalera

International Journal on Smart Sensing and Intelligent Systems, Volume 9 , ISSUE 2, 681–708

Article | 01-December-2015

SEFP: A NEW ROUTING APPROACH USING FUZZY LOGIC FOR CLUSTERED HETEROGENEOUS WIRELESS SENSOR NETWORKS

Wireless sensor networks (WSNs) are composed of set sensor nodes communicating through wireless channels with limited resources. Therefore, several routing protocols and approaches about energy efficient operation of WSNs have been proposed. Clustering algorithm based routing protocols are well used for efficient management of sensing sensor node energy resources. However, many researches were focused on optimization of well-known hierarchical routing approaches of WSNs using fuzzy logic system

hassan EL ALAMI, Abdellah NAJID

International Journal on Smart Sensing and Intelligent Systems, Volume 8 , ISSUE 4, 2286–2306

Research Article | 01-September-2017

INTELLIGENT ENVIRONMENTAL SENSING WITH AN UNMANNED AERIAL SYSTEM IN A WIRELESS SENSOR NETWORK

This paper proposes a novel environmental monitoring mechanism to integrate recentlyestablished development of an Unmanned Aerial System (UAS) with WSNs for remote monitoring. The high mobility of UASs can solve the limitations associated with using WSNs in hazardous areas. In this paper, the WSN node, the Wireless Environmental Monitoring Station (WEMS), is based on ZigBee protocol for long-duration monitoring. Furthermore, to ensure the integrity of collected environmental data, an algorithm

Ching-Ju Chen, Jou-An Chen, Yueh-Min Huang

International Journal on Smart Sensing and Intelligent Systems, Volume 10 , ISSUE 3, 696–717

Article | 01-December-2015

DATA COMPRESSION AND VISUALIZATION FOR WIRELESS SENSOR NETWORKS

A basic tenet of wireless sensor networks is that processing of data is less expensive in terms of power than transmitting data. A data compression method is proposed to limit the amount of data transmitted within the network. In this paper, we propose a novel data compression algorithm suitable for low power computing devices. In our method, a data point density algorithm is used to determine which points to discard in a given data region. This algorithm is applied to uniform sections

Ahadul Imam, Justin Chi, Mohammad Mozumdar

International Journal on Smart Sensing and Intelligent Systems, Volume 8 , ISSUE 4, 2083–2115

Article | 17-January-2018

A NOVEL INTEGRATED WIRELESS SENSOR NETWORK ARCHITECTURE FOR DISASTER PREVENTION

There has been growing interest in the application of Wireless Sensor Networks (WSN) in the field of disaster prevention. In such applications, sensor nodes are randomly deployed in an area of interest, a large number of exactly same wireless sensor nodes form a robust mesh network to prevent damages in case of a disaster. In many applications, however, deploying sophisticated sensors on every sensor nodes is unnecessary and very costly. For example, in case of Earthquake one seismographic

Md. Abdullah-al MAMUN, Yuji koi, Naoshi Nakaya, Goutam Chakraborty

International Journal on Smart Sensing and Intelligent Systems, Volume 2 , ISSUE 2, 309–328

Research Article | 10-April-2013

An Enhanced Scheme in Controlling Both Coverage and Quality of Service in Wireless Sensor Networks

With the increasing number of applications for Wireless Sensor Networks (WSNs), different Quality of Services (QoS) levels based on the type of applications are required. An increasing research interest has been noted in the provision of QoS support in WSNs. QoS support in WSNs is challenging because of very limited resources, such as battery power, processing power, memory, and bandwidth. An earlier study introduced a QoS control approach based on the Gur Game. The Gur Game-based scheme can

Hao-Li Wang, Rong-Guei Tsai, Long-Sheng Li

International Journal on Smart Sensing and Intelligent Systems, Volume 6 , ISSUE 2, 772–790

Article | 05-June-2013

WIRELESS SENSOR NETWORK APPLICATIONS IN COLD ALPINE AREA OF WEST CHINA: EXPERIENCES AND CHANLLENGES

Wireless sensor network (WSN) shows unique advantages in cold alpine area comparing with traditional in-situ monitoring approaches. This paper presents two WSN applications in cold alpine area, one in the Hulugou watershed and the other in the Babaohe watershed, both of which are situated in the upper mountainous reach of the Heihe River Basin of West China. Apart from introductions to the two WSN applications and experimental results, experiences learned and challenges met during designing

Chen Hao, Nan Zhuotong

International Journal on Smart Sensing and Intelligent Systems, Volume 6 , ISSUE 3, 932–952

Research Article | 20-February-2013

Traffic Signal Control for Urban Trunk Road Based on Wireless Sensor Network and Intelligent Algorithm

Based on the analysis for the present research on controlling urban trunk road, a intelligent control method for urban trunk road based on wireless sensor and fuzzy neural network was proposed. In this method, we took two layers of WSN structure. The first one was data collecting layer, which consisted of traffic information collecting nodes and sink nodes. Data collecting layer was responsible for collecting vehicle information at single crossing, transmitted to the second layer after data

Peng Xiaohong, Mo Zhi, Liao Riyao

International Journal on Smart Sensing and Intelligent Systems, Volume 6 , ISSUE 1, 352–367

Article | 01-December-2014

ADAPTIVE MOBILE ANCHOR LOCALIZATION ALGORITHM BASED ON ANT COLONY OPTIMIZATION IN WIRELESS SENSOR NETWORKS

In wireless sensor networks (WSNs), node’s locations play a critical role in many applications. Having a GPS receiver on every sensor node is costly. In this paper, we propose an adaptive mobile anchor localization algorithm based on ant colony optimization , firstly, some virtual anchor nodes are distributed in the area, second, ant colony was used which has the maximum of transition probabilities to obtain the optimal path, last, the centroid-weighted localization algorithm was proposed to

Yan Hong Lu, Ming Zhang

International Journal on Smart Sensing and Intelligent Systems, Volume 7 , ISSUE 4, 1943–1961

Article | 01-March-2012

AN AIR QUALITY MONITORING SYSTEM FOR URBAN AREAS BASED ON THE TECHNOLOGY OF WIRELESS SENSOR NETWORKS

 air quality monitoring system based on the technology of wireless sensor networks (WSNs). It also integrates with the global system for mobile communications (GSM). The system consists of sensor nodes, a gateway, and a control center managed by the LabVIEW program through which sensing data can be stored in a database. This system is deployed to the main roads in the Taipei city to monitor the carbon monoxide (CO) concentration caused by vehicle emissions. The experimental results show that

Jen-Hao Liu, Yu-Fan Chen, Tzu-Shiang Lin, Chia-Pang Chen, Po-Tang Chen, Tzai-Hung Wen, Chih-Hong Sun, Jehn-Yih Juang, Joe-Air Jiang

International Journal on Smart Sensing and Intelligent Systems, Volume 5 , ISSUE 1, 191–214

Article | 01-June-2015

DEVELOPMENT OF WIRELESS SENSOR NETWORK USING BLUETOOTH LOW ENERGY (BLE) FOR CONSTRUCTION NOISE MONITORING

In this paper the development of a Wireless Sensor Network (WSN) for construction noise identification and sound locating is investigated using the novel application of Bluetooth Low Energy (BLE). Three WSNs using different system-on-chip (SoC) devices and networking protocols have been prototyped using a Raspberry Pi as the gateway in the network. The functionality of the system has been demonstrated with data logging experiments and comparisons has been made between the different WSN systems

Josie Hughes, Jize Yan, Kenichi Soga

International Journal on Smart Sensing and Intelligent Systems, Volume 8 , ISSUE 2, 1379–1405

Research paper | 01-September-2014

POSTERIOR BELIEF CLUSTERING ALGORITHM FOR ENERGY-EFFICIENT TRACKING IN WIRELESS SENSOR NETWORKS

In this paper, we propose a novel posterior belief clustering (PBC) algorithm to solve the tradeoff between target tracking performance and sensors energy consumption in wireless sensor networks. We model the target tracking under dynamic uncertain environment using partially observable Markov decision processes (POMDPs), and transform the optimization of the tradeoff between tracking performance and energy consumption into yielding the optimal value function of POMDPs. We analyze the error of

Bo Wu, Yanpeng Feng, Hongyan Zheng

International Journal on Smart Sensing and Intelligent Systems, Volume 7 , ISSUE 3, 628–641

Research paper | 02-November-2017

SENSITIVITY IMPROVEMENT OF WIRELESS PRESSURE SENSOR BY INCORPORATING A SAW REFLECTIVE DELAY LINE

this paper presents a wireless surface acoustic wave (SAW) pressure sensor on 41oYX LiNbO3 for tire pressure monitoring system (TPMS) application, in which a reflective delay line composed of an interdigital transducer (IDT) and several reflectors was used as the sensor element. Using the coupling of modes (COM), the SAW reflective delay line was simulated, and the optimal design parameters were determined. The fabricated 2.4GHz SAW sensor was wirelessly characterized by the network analyzer

Haekwan Oh, Weng Wang, Keekeun Lee, Ikmo Park, Sang Sik Yang

International Journal on Smart Sensing and Intelligent Systems, Volume 1 , ISSUE 4, 940–954

Article | 01-September-2015

SELADG: SECURE ENERGY EFFICIENT LOCATION AWARE DATA GATHERING APPROACH FOR WIRELESS SENSOR NETWORKS

Recent trends in wireless sensor networks leads to the development of new protocols for data gathering. In this paper, a secure energy efficient location aware data gathering approach is introduced to secure data gathering. An Elliptic Curve Diffie Hellman Key Exchange (ECDHKE) algorithm is utilized for key generation and key exchange between the sensor nodes to maintain security and prevent the data from malicious nodes. The performance of the proposed scheme is validated in terms of packet

M. Roseline Juliana, S. Srinivasan

International Journal on Smart Sensing and Intelligent Systems, Volume 8 , ISSUE 3, 1748–1767

Research Article | 15-February-2020

A Fuzzy Based Predictive Cluster Head Selection Scheme for Wireless Sensor Networks

Clustering, an energy efficient approach is used in Wireless Sensor Network. Clustering involves cluster formation and Cluster Head Selection. As the Cluster Head is involved in carrying out the entire communication, a high energy node has to be selected as Cluster Head. In this paper, a novel predictive Fuzzy based Cluster Head selection algorithm is proposed. The proposal suggests a new input parameter, Rate of recurrent Communication apart from the standard parameters namely the Residual

Hemavathi Natarajan, Sudha Selvara

International Journal on Smart Sensing and Intelligent Systems, Volume 7 , ISSUE 5, 1–8

Article | 30-November-2018

Application of Wireless Return Topology Planning Based on K-Means

I. THE PROBLEM BACKGROUND With the rapid development of mobile communication network, various mobile terminal devices and applications affect every aspect of people’s life. However, the current network information construction faces some problems: the acceleration of urban construction makes the urban environment more and more complex, which leads to the formation of many wireless signal black spots and weak coverage areas in densely populated urban areas; Some urban residents misunderstand the

Weixia Yang, He Li, Yuan Chen, Fei Xu

International Journal of Advanced Network, Monitoring and Controls, Volume 4 , ISSUE 2, 61–68

Research Article | 01-March-2017

DEVELOPMENT AND VALIDATION OF A TRACK BICYCLE INSTRUMENT FOR TORQUE MEASUREMENT USING THE
ZIGBEE WIRELESS SENSOR NETWORK

8.25%, and 1.86, respectively. The results show that the bicycle torque can be measured accurately and transmitted using ZigBee wireless protocol.

Sadik Kamel Gharghan, Rosdiadee Nordin, Mahamod Ismail

International Journal on Smart Sensing and Intelligent Systems, Volume 10 , ISSUE 1, 124–145

Research Article | 15-February-2020

Numerical Terrain Modelling for Wireless Underground Sensor Networks

Underground terrain poses a highly intricate and challenging environment to the propagation of waves carrying information from sensor to the sink nodes.  Due to the complexity and level of detail, it is often difficult to realistically model such an environment for conducting tests. However, using numerical methods, the environment characteristics could be translated to a compatible framework, for testing complex networking models such as Wireless Underground Sensor Network (WUSN). Such

Vinod Parameswaran, Zhongwei Zhang, Hong Zhou

International Journal on Smart Sensing and Intelligent Systems, Volume 7 , ISSUE 5, 1–5

Research Article | 01-December-2017

LOAD AWARE CHANNEL ESTIMATION AND CHANNEL SCHEDULING FOR 2.4GHZ FREQUENCY BAND BASED WIRELESS NETWORKS FOR SMART GRID APPLICATIONS

The advanced monitoring and control applications consider Wireless Sensor Networks (WSN) as a promising technology for modern applications like the Internet of Things (IoT), Smart Grid and Wireless Body Area Networks (WBAN). The WSN has important features like less cost, low power usage, supportable data rates and complexity. There is a need for continuous research on improving characteristics and abilities of WSN. The reliable performance of WSN depends on the latency necessities depending on

Vikram K, Sarat Kumar Sahoo

International Journal on Smart Sensing and Intelligent Systems, Volume 10 , ISSUE 4, 879–902

Research Article | 15-February-2020

Load-Balancing Enhancement by a Mobile Data Collector in Wireless Sensor Networks

 Decrease in the time interval between the first node death and the last node death, due to the completion of their energy supply, is the main goal of load-balancing methods in Wireless Sensor Networks (WSN). This paper proposes a Load-Balancing Enhancement (LBE) method, in WSN. LBE method uses a mobile data collector to data gathering from sensor nodes. The mobile data collector can directly communicate with the base station. Indeed, the mobile data collector acts as an interface between

Ahmad Patooghy, Meisam Kamarei, Ali Farajzadeh, Fatemeh Tavakoli, Mehdi Saeidmanesh

International Journal on Smart Sensing and Intelligent Systems, Volume 7 , ISSUE 5, 1–5

Article | 01-September-2014

ANALYSIS OF NON-BINARY FAULT TOLERANT EVENT DETECTION IN WIRELESS SENSOR NETWORKS

A distributed non-binary fault tolerant event detection technique is proposed for a wireless sensor network (WSN) consisting of a large number of sensors. The sensor nodes may be faulty due to harsh environment and manufacturing reasons. In the existing works on event detection, the detection of event is decided by only one threshold level. The objective of this paper is to extend the fault recognition and correction algorithm for non-binary event detection. The analysis presented here takes

B Victoria Jancee, S Radha, Nandita Das

International Journal on Smart Sensing and Intelligent Systems, Volume 7 , ISSUE 3, 1287–1309

Article | 01-March-2015

NODES CONTROL ALGORITHM DESIGN BASED COVERAGE AND CONNECTIVITY OF WIRELESS SENSOR NETWORK

Coverage and connectivity are two important problems in wireless sensor network. This paper focuses on the wireless sensor network communication radius in the high density of sensor nodes deployed randomly and two times smaller than the sensing radius; put forward a distributed k coverage multi connected node deployment algorithm based on grid. Simulation results show that the algorithm in this paper while guaranteeing the wireless sensor network coverage and connectivity can reduce the number

Yin Zhouping

International Journal on Smart Sensing and Intelligent Systems, Volume 8 , ISSUE 1, 272–290

Article | 01-September-2014

DEVELOPMENT OF SMART DETACHABLE WIRELESS SENSING SYSTEM FOR ENVIRONMENTAL MONITORING

We present the work on development of Smart Detachable Wireless Sensing System for environment monitoring (SDWSS) complying with the IEEE 1451 standard. Barometric and alcohol two different detachable smart sensor have been developed by incorporating generic transducer, customized peripheral interface controller (PIC) 18LF2550 microcontroller and with other peripherals. Detachable smart transducer interface module (DSTIM) implemented using centralized PIC 18F4550 microcontroller based embedded

D. Bhattacharjee, R. Bera

International Journal on Smart Sensing and Intelligent Systems, Volume 7 , ISSUE 3, 1239–1253

Research Article | 20-February-2013

A VORONOI-BASED DEPTH-ADJUSTMENT SCHEME FOR UNDERWATER WIRELESS SENSOR NETWORKS

Underwater wireless sensor network (UWSN) is a special kind of wireless sensor network which is composed of a large quantity number of wireless sensor nodes deployed in the water. While there are extensive studies on deploy-issue of terrestrial wireless sensor networks (WSN), UWSN has not been paid enough attention due to the challenges of UWSN, such as low available bandwidth, highly varying multipath, and large propagation delays. In this paper, we propose a depth-adjustment scheme to

Jiagao Wu, Yinan Wang, Linfeng Liu

International Journal on Smart Sensing and Intelligent Systems, Volume 6 , ISSUE 1, 244–258

Article | 01-June-2016

TRUST AWARE DATA AGGREGATION AND INTRUSION DETECTION SYSTEM FOR WIRELESS SENSOR NETWORKS

Data Aggregation (DA) is one of the most frequently used techniques in Wireless Sensor Networks (WSNs) to improve the network lifetime. It involves gathering, consolidating, and routing the sensory data collected by sensor nodes. However, research studies have demonstrated that the dependability of the DA process affects severely when malicious nodes are present in the network. Many security solutions using cryptography and Intrusion Detection System (IDS) have been proposed in the literature

P. Raghu Vamsi, Krishna Kant

International Journal on Smart Sensing and Intelligent Systems, Volume 9 , ISSUE 2, 537–562

research-article | 30-November-2019

Guaranteed time slot trade-off in QOS improvement with IEEE standard 802.15.4 for wireless sensor networks at the MAC layer

IEEE standard 802.15.4 due to its flexible features such as low data rate, low power consumption, and low cost makes it most suitable for WSNs (Koubaa et al., 2007). Furthermore, ZigBee protocol (ZigBee Specifications ◾) based upon the physical and MAC layers of IEEE standard 802.15.4 completes the protocol stack for building low rate-wireless personal area networks (LR-WPANS). Physical layer of IEEE standard 802.15.4 because of its low data rate, low power consumption, and robustness is

S. S. Bamber

International Journal on Smart Sensing and Intelligent Systems, Volume 13 , ISSUE 1, 1–12

Research Article | 01-March-2017

DESIGN OF A WIRELESS CAPACITIVE POWER TRANSFER SYSTEM

This paper presents the design of a capacitive power transfer (CPT) system by using the Class-E amplifier approach. The Class-E amplifier approach is chosen to be adopted since it produces high efficiency as close as to 100%, theoretically. Based on the Class-E approach, a design of wireless power transfer system is used to transfer power to a LED lamp. The system has an output around 4.2 watts at a distance of 2 millimeters which transfer enough output power to light a

Xin Wang, Bowen Li

International Journal on Smart Sensing and Intelligent Systems, Volume 10 , ISSUE 1, 69–87

research-article | 30-November-2018

Implementing a lightweight Schmidt-Samoa cryptosystem (SSC) for sensory communications

The technology of wireless sensor networks (WSNs) is in the front part of the investigation of the computer networks and it could be the next technologic market of a huge sum of money. A WSN contains hundreds to thousands of small sensors where these sensors are designed to be self-organized wireless networks. A sensor node is usually a node for sensing, a router node is a node for relaying data, and a base station node is a node for exchanging data with other networks, also known as sink node

Qasem Abu Al-Haija, Ibrahim Marouf, Mohammad M. Asad, Kamal Al Nasr

International Journal on Smart Sensing and Intelligent Systems , Volume 12 , ISSUE 1, 1–9

Article | 07-May-2018

The Monitoring and Wireless Transmission System of PM2.5 in the Scenic

This Scenic area has large traffic volume and complex environment and some scenic areas need to be protected. So developing an air quality monitoring system is very important. In this paper, the temperature sensor, the PM2.5 sensor and the wireless transmission module were combined by the MCU. It monitors the spot in PM2.5 concentration and the temperature information. When the PM2.5 concentration is higher than the threshold, the wireless transmission module sends the warning signal. So the

Wang Xiaohui, Lei Kewei

International Journal of Advanced Network, Monitoring and Controls, Volume 3 , ISSUE 2, 71–74

Article | 03-November-2017

Adaptive Routing Protocol for Reliable Sensor Network Applications

The existing routing protocol for sensor networking can be divided into proactive routing protocol, reactive routing protocol and hybrid routing protocol. Each routing protocol has its merits and shortcomings. The lifetime will end when the working routing protocol can no longer support the whole wireless sensor network. An adaptive method based on redundancy node and dual routing protocol was proposed in the study. Redundancy node, when wireless sensor network is being deployed, can divide the

Jiann-Liang Chen, Yu-Ming Hsu, I-Cheng Chang

International Journal on Smart Sensing and Intelligent Systems, Volume 2 , ISSUE 4, 515–539

Article | 01-December-2012

LIGHTWEIGHT TRUSTED ID-BASED SIGNCRYPTION SCHEME FOR WIRELESS SENSOR NETWORKS

Wireless sensor networks (WSN) are usually deployed in hostile environments, which having a wide variety of malicious attacks. As various applications of WSN have been proposed, security has become one of the big research challenges dan is receiving increasing attention. In order to insure the security of communication in wireless sensor networks, we proposed a new ID-based signcryption scheme using bilinear pairing. Under the computational Diffie-Hellman assumption, the security of the scheme

Zhimin Li, Xin Xu, Zexiang Fan

International Journal on Smart Sensing and Intelligent Systems, Volume 5 , ISSUE 4, 799–810

Article | 23-April-2018

Research on Wireless Sensor Network Coverage Based on Improved Particle Swarm Optimization Algorithm

In order to improve the network coverage, this paper presents the research on wireless sensor network coverage based on improved particle swarm optimization algorithmfor wireless sensor nodes that are randomly deployed in a certain area.In this paper, we use the regional network coverage as the target objective function, and combine various improved particle swarm optimization algorithms to optimize the deployment location of all nodes to enhance the area coverage. The experimental results show

Li Changxing, Zhang Qing, Zhang Long-yao

International Journal of Advanced Network, Monitoring and Controls, Volume 2 , ISSUE 4, 20–25

Article | 01-September-2016

EVALUATION OF HYBRID TRUST MODELS USING ANT COLONY OPTIMIZATION IN WIRELESS SENSOR NETWORKS

Wireless sensor networks (WSNs) are prone to various kinds of threats and are subjected to several constraints like energy, communication overhead and lifetime. Application of bio-inspired algorithms based trust models has shown significant improvement in the security mechanism of the wireless sensor networks. This paper presents a brief survey on application of Ant Colony Optimization (ACO) and significance of trust models in WSNs. ACO application in routing, increase in lifetime, energy

G. Edwin Prem Kumar, K. Baskaran, R. Elijah Blessing, M. Lydia

International Journal on Smart Sensing and Intelligent Systems, Volume 9 , ISSUE 3, 1243–1260

Article | 16-December-2013

Mobility of IP based Wireless Sensor Nodes in Sensor-Grid infrastructure

As the world is moving towards the “Internet of Things” [1], Internet Protocol enabled wireless sensor network is becoming an important research area. In order to make it possible and to facilitate transmission of IPv6 packets over low powered networks, 6Lowpan [2,3] has been introduced. Since the IPWSN application domain is expanded to real-time applications such as health-care [17] and surveillance systems, a fast and seamless handover becomes an important criterion for supporting mobility in

Suman Sankar Bhunia, Sarbani Roy, Nandini Mukherjee

International Journal on Smart Sensing and Intelligent Systems, Volume 6 , ISSUE 5, 2075–2102

Research Article | 27-December-2017

Extended Kalman Filtering and Pathloss modeling for Shadow Power Parameter Estimation in Mobile Wireless Communications

In this paper accurate estimation of parameters, higher order state space prediction methods and Extended Kalman filter (EKF) for modeling shadow power in wireless mobile communications are developed. Path-loss parameter estimation models are compared and evaluated. Shadow power estimation methods in wireless cellular communications are very important for use in power control of mobile device and base station. The methods are validated and compared to existing methods, Kalman Filter (KF) with

George P. Pappas, Mohamed A. Zohdy

International Journal on Smart Sensing and Intelligent Systems, Volume 7 , ISSUE 2, 898–924

Article | 11-April-2018

Egwra: Qos Routing Algorithm In Wireless Mesh Networks Based On Evolutionary Game Theory

This paper applies the theory of Evolutionary Game to QoS routing algorithm for wireless mesh networks which can not only improve the performance of traditional QoS routing protocols but also be able to reduce the cost of the routing algorithm.

Yan Weiguang, Pan Xianmin

International Journal of Advanced Network, Monitoring and Controls, Volume 2 , ISSUE 3, 203–206

Article | 01-March-2015

LOW-POWER WIRELESS LIQUID MONITORING SYSTEM USING ULTRASONIC SENSORS

Monitoring Systems are necessary to understand the changes that take place in environments. Remote monitoring and data collection systems are useful and effective tools to collect information from bulk storage tanks and to monitor the same. The measurement of liquid inside the tank is most important and such systems are useful in industries which are categorized as safety critical systems. This paper presents the architecture and initial testing results of a low power wireless system for tank

Samarth Viswanath, Marco Belcastro, John Barton, Brendan O’Flynn, Nicholas Holmes, Paul Dixon

International Journal on Smart Sensing and Intelligent Systems, Volume 8 , ISSUE 1, 26–44

Research Article | 03-September-2018

Mobile Wireless Sensor Networks in a Smart City

This research supports the possibility of implementing in a smart city, a wireless sensor network, with sensitive nodes in movements implemented in public transport system vehicles and static sink nodes located in a vehicular intersection. The methodology contemplates the influence of mobility in obtaining the parameters of network operation, through mathematical models and probabilistic calculations of the data collected through measurement campaigns carried out in a real traffic light

Jorge Gomez-Rojas, Luis Camargo, Ruben Montero

International Journal on Smart Sensing and Intelligent Systems, Volume 11 , ISSUE 1, 1–8

Research Article | 20-February-2013

A SIMPLE SCHEME FOR LOCATION AND DISTANCE ESTIMATION OF WIRELESS SENSOR NODES IN OUTDOOR ENVIRONMENTS

In this paper we suggest a simple, practical and cost effective localization scheme that can be used to manually deploy wireless sensors to form wireless sensor networks (WSNs). We test our scheme exclusively in outdoor environments using commercially available IRIS XM2110 sensor motes. The location discovery of sensor motes deployed in outdoor environments is obtained in accordance with geographical latitude and longitude. The distance between the deployed sensor motes is also computed using

Tarun Dubey, O.P. Sahu

International Journal on Smart Sensing and Intelligent Systems, Volume 6 , ISSUE 1, 368–382

Article | 05-September-2013

OPTIMAL SINK NODE ALLOCATION FOR BALANCING COMMUNICATION LOAD IN A WIRELESS SENSOR NETWORK

Wireless sensor networks are attracting attention as network technology that is essential to the expansion of the ICT society. One of the challenges facing the implementation of wireless sensor networks is the problem of load concentrations at local sensor nodes. Sink node allocation methods have recently been proposed to resolve this problem, but they do not solve the problem of the dramatic deterioration in operating times caused by an increase in the sensor nodes. This paper proposes a drive

Masato Noto, Seiji Yoneda

International Journal on Smart Sensing and Intelligent Systems, Volume 6 , ISSUE 4, 1533–1558

Research Article | 15-February-2020

WSN and M2M for cycling performance assessment

Cycling assessment to increase performance during sport training is an important issue. In this article presents a wireless sensor network including multi-sensing channels for dynamic and cinematic measurement during cycling training. The Smart Mountain Bike is a system that includes the bicycle and the associated sports equipment, such as gloves, shoes and chest strap. The system is characterized by sensing channels as part of wireless sensor network which base station is expressed by embedded

José Barreiro, Octavian Postolache, Pedro Passos

International Journal on Smart Sensing and Intelligent Systems, Volume 7 , ISSUE 5, 1–6

Article | 01-December-2014

SHARING RESEARCH EXPERIENCES OF WSN BASED SMART HOME

We are pursuing our research on ZigBee based WSNs for more than 8 years; a lot of realization stories are conveyed in literature on the development of wireless measurement of sensors data using ZigBee (XBee RF module). Many projects are fruitfully completed for applications such as smart home for elder care, environmental monitoring, big building monitoring and so on. Still a lot of design issues are there while the systems are designed using ZigBees. In this research paper the working

H. Ghayvat, A. Nag, N. K. Suryadevara, S.C. Mukhopadhyay, X. Gui, J. Liu

International Journal on Smart Sensing and Intelligent Systems, Volume 7 , ISSUE 4, 1997–2013

Research paper | 01-December-2011

Wireless sensing of open loop micro inductors using Helmholtz coil

This paper reports wireless sensing of open loop micro inductors parameters i.e. distributed capacitance, inductance, resistance and Q factor in presence uniform magnetic fields generated by Helmholtz coils pair. A frequency dependent analytical model is developed which models the inductively coupled system including the effects generated by the presence of test micro coil in uniform magnetic field. Micro inductor parameters are extracted from the remotely measured impedance signal and compared

A. Yousaf, F.A. Khan, Prof. Dr. L.M Reindl

International Journal on Smart Sensing and Intelligent Systems, Volume 4 , ISSUE 4, 527–546

Article | 16-December-2013

Cluster-based Routing Performance Optimization Constraint of Energy, Delay and Connectivity Metrics in Wireless Sensor Network

This paper aims to propose a framework for optimizing performance in cluster-based wireless sensor networks (WSNs) with constrains of energy consumption, delay and connectivity. For the limitation of energy storage being discussed a lot, many researches try to find more solutions to improve it. But, the other index of wireless sensor networks may be deteriorated by many routings which are dedicated to optimizing energy consumption. Thereby, multi-objectives optimization is one of significant

Ting CAO, Yuhao WANG, Xinmin XIONG, Yan HAO

International Journal on Smart Sensing and Intelligent Systems, Volume 6 , ISSUE 5, 2103–2118

Case Study | 04-November-2019

THE IMPACT OF TRAILER CONDITIONS ON THE QUALITY OF REFRIGERATED FOOD TRANSPORT SERVICES – A CASE STUDY

The carriage of food products, in particular fresh products, is particularly sensitive to transport conditions. The aim of this paper is to examine the effect of trailer conditions on the quality of refrigerated food transport services. Six wireless measuring devices installed permanently in 3 trailers were used for the analysis. The built-in transmitter sensors have enabled the collection of data in the areas of temperature, humidity, pressure, shock and light intensity. Monitoring parameters

Teresa GAJEWSKA, Augustyn LORENC

Transport Problems, Volume 14 , ISSUE 3, 97–108

Research Article | 15-February-2020

A Wireless Wearable Human Jump Analysis System

In most sports, the vertical jump is one of the most basic actions. Jumping force and explosive power are two specific indicators to reflect the ability of the muscles in one vertical jump. This paper presents a light-weight and easy-to-use wireless system to analyze the process of human vertical jumping up through the use of a Micro Electro Mechanical System (MEMS) accelerometer and a MEMS gyroscope. The system allows the users to be able to measure the jump parameters, including jumping force

Penghai Wang, Haiyang Quan, Lidong Lan

International Journal on Smart Sensing and Intelligent Systems, Volume 7 , ISSUE 5, 1–5

Research Article | 01-September-2017

ANDROID BASED HOME AUTOMATION AND ENERGY CONSERVATION

Wireless Sensor Network (WSN) consists of three main components: nodes, gateways, and software. The spatially distributed measurement nodes interface with sensors to monitor assets or their environment. In a WSN network the devices are connected to WSN nodes wherein the entire nodes uses Zigbee network to transfer the status of connected applications to a controller which controls the whole applications but the main drawback of Wireless sensor networks is its high interference, low coverage

M.Anto Bennet, B Thamilvalluvan, C.A. Hema Priya, B. Bhavani, M. Shalini

International Journal on Smart Sensing and Intelligent Systems, Volume 10 , ISSUE 5, 69–86

Research Article | 27-December-2017

A REVIEW OF ENERGY OPTIMAL TOPOLOGY CONTROL FOR LARGE WIRELESS NETWORK USING YAO-GRAPH AND ITS VARIANTS

The advent of wireless communication and networking in the last two decades has led to the need of modification in the regular graphs used as spanners. The spanner is a sub graph of the original graph which connects the essential nodes for transmission of the message. For this purpose the Omni directional antennas are usually used and the “spanner-graph” performance metric is a constant multiplied by the same of the original graph. This constant is known as the “stretch factor”. One of the most

Anindya Nag, Rajarshi Roy

International Journal on Smart Sensing and Intelligent Systems, Volume 7 , ISSUE 2, 740–761

Research Article | 15-February-2020

Organoleptic Properties Remote Sensing and LifeTime Prediction along the Perishables Goods Supply-Chain

Nowadays, two of the most compelling challenges in the field of food safety and certification are the reduction of the multitude of food losses and wastes in the supply chain and the improvement of certification and monitoring procedures during each stage of production. The aim of this paper is to propose an effective solution to both problems: a wireless sensor network (WSN) combined with a further data processing for real-time monitoring and shelf life prediction.

V.F. Annese, G.E. Biccario, S. Cipriani, D. De Venuto

International Journal on Smart Sensing and Intelligent Systems, Volume 7 , ISSUE 5, 1–6

Article | 01-April-2018

Gathering Correlated Data in Wireless Sensor Networks Using a Heuristic Algorithm

We propose a routing scheme for data gathering and aggregation in wireless sensor networks. The scheme aims to optimise an aggregation tree in order to minimise the energy dissipation of data aggregation and transmission. A modified particle swarm optimisation algorithm is developed in the proposed scheme. In addition, the routing scheme uses a generic data aggregation model which accommodates different correlation conditions. The performance of the proposed scheme is evaluated and compared

Yuexian Wang, Cheng Chew Lim

International Journal of Advanced Network, Monitoring and Controls, Volume 1 , ISSUE 1, –

Article | 01-March-2012

A REVIEW OF SENSING AND DISTRIBUTED DETECTION ALGORITHMS FOR COGNITIVE RADIO SYSTEMS

of distributed detection in wireless sensor networks have been considered. In this paper, we review sensing algorithms and approaches of distributed detection and their relevance to CR systems.

Ramanarayanan Viswanathan, Babak Ahsant

International Journal on Smart Sensing and Intelligent Systems, Volume 5 , ISSUE 1, 177–190

Research Article | 15-February-2020

Reprogramming Embedded Systems at Run-Time

The dynamic re-programming of embedded systems is a long-standing problem in the field.  With the advent of wireless sensor networks and the ‘Internet of Things’ it has now become necessary to be able to reprogram at run-time due to the difficulty of gaining access to such systems once deployed.  The issues of power consumption, flexibility, and operating system protections are examined for a range of approaches, and a critical comparison is given.  A combination of

Richard Oliver, Adriana Wilde, Ed Zaluska

International Journal on Smart Sensing and Intelligent Systems, Volume 7 , ISSUE 5, 1–6

Article | 01-June-2016

STUDY ON THE DISCRETE TIME MULTICHANNEL THREE-DIMENSIONAL PROBABILITY CSMA PROTOCOL IN WSN

With the development of the times, in the wireless sensor networks, the increasing amount of information transmission requires more advanced transmission protocols. Especially accompanied by the arrival of the era of Big Data, the conflicts between traditional transport agreement and the sudden or large amount of data are increasingly prominent. The discrete time three-dimensional probability CSMA protocol with multichannel mechanism proposed solves these problems pretty well. By the new MAC

Yifan Zhao, Shengjie Zhou, Hongwei Ding, Zhijun Yang, Qianlin Liu

International Journal on Smart Sensing and Intelligent Systems, Volume 9 , ISSUE 2, 845–863

Research Article | 15-February-2020

Performance Study of Virtual Fence Unit Using Wireless Sensor Network

This paper presents the experiments and performance analysis of virtual fence unit consists of microwave motion detector and IEEE 802.15.4 wireless sensor network (WSN) for maximum sensing range. In particular, the analysis is focusing on the maximum sensing range in terms of azimuth angle, height, sensitivity level for indoor and outdoor implementation. The WSN platform is developed using Octopus II sensor nodes while the microwave motion detector is HB100 which detects the movement using

H.T Chan, T.A Rahman, A. Arsad

International Journal on Smart Sensing and Intelligent Systems, Volume 7 , ISSUE 5, 1–4

Article | 16-December-2013

WEIGHTED HYBRID LOCALIZATION SCHEME FOR IMPROVED NODE POSITIONING IN WIRELESS SENSOR NETWORKS

Localization schemes have a significant role in wireless sensor networks. During random deployment in an untouched area, the nodes have to be capable of self-management to determine their position. Received Signal Strength (RSS) and DV-Hop, are two different schemes that each have environment or hop dependency problem. Hybrid localization scheme, called H-Loc, is a combination of RSS and DV-Hop method. This scheme is proposed to make the selection of distance determination process based on the

Prima Kristalina, Wirawan, Gamantyo Hendrantoro

International Journal on Smart Sensing and Intelligent Systems, Volume 6 , ISSUE 5, 1986–2010

Article | 01-June-2016

DETECTING SYBIL ATTACKS IN WIRELESS SENSOR NETWORKS USING SEQUENTIAL ANALYSIS

Wireless Sensor Networks (WSNs) suffer from many security attacks when deployed either in remote or hostile environments. Among possible attacks, the Sybil attack is one of the severe attacks in which malicious nodes report false identities and location information such that the remaining nodes believe that many nodes exist in their vicinity. The current study proposes a method for detecting Sybil attack using sequential analysis. This method works in two stages. First, it collects the

P. Raghu Vamsi, Krishna Kant

International Journal on Smart Sensing and Intelligent Systems, Volume 9 , ISSUE 2, 651–680

Article | 30-June-2013

DUTY CYCLING IN TARGET MONITORING WIRELESS SENSOR NETWORK SYSTEMS

Ying Guo, Feng Hong, Zhongwen Guo

International Journal on Smart Sensing and Intelligent Systems, Volume 6 , ISSUE 3, 1054–1076

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