Your search keyword '"Mobile wireless sensor network"' showing total 84 results

1. Hybrid Multi-Level Detection and Mitigation of Clone Attacks in Mobile Wireless Sensor Network (MWSN)

Author

Haafizah Rameeza Shaukat, Fazirulhisyam Hashim, Muhammad Arslan Shaukat, and Kamal Ali Alezabi

Subjects

mobile wireless sensor network, hybrid, node replication attack, danger theory, danger zone, wireless sensor network, Chemical technology, TP1-1185

Abstract

Wireless sensor networks (WSNs) are often deployed in hostile environments, where an adversary can physically capture some of the sensor nodes. The adversary collects all the nodes’ important credentials and subsequently replicate the nodes, which may expose the network to a number of other security attacks, and eventually compromise the entire network. This harmful attack where a single or more nodes illegitimately claims an identity as replicas is known as the node replication attack. The problem of node replication attack can be further aggravated due to the mobile nature in WSN. In this paper, we propose an extended version of multi-level replica detection technique built on Danger Theory (DT), which utilizes a hybrid approach (centralized and distributed) to shield the mobile wireless sensor networks (MWSNs) from clone attacks. The danger theory concept depends on a multi-level of detections; first stage (highlights the danger zone (DZ) by checking the abnormal behavior of mobile nodes), second stage (battery check and random number) and third stage (inform about replica to other networks). The DT method performance is highlighted through security parameters such as false negative, energy, detection time, communication overhead and delay in detection. The proposed approach also demonstrates that the hybrid DT method is capable and successful in detecting and mitigating any malicious activities initiated by the replica. Nowadays, crimes are vastly increasing and it is crucial to modify the systems accordingly. Indeed, it is understood that the communication needs to be secured by keen observation at each level of detection. The simulation results show that the proposed approach overcomes the weaknesses of the previous and existing centralized and distributed approaches and enhances the performance of MWSN in terms of communication and memory overhead.

Published

2020

2. Optimizing Movement for Maximizing Lifetime of Mobile Sensors for Covering Targets on a Line

Author

Longkun Guo, Peihuang Huang, and Wenxing Zhu

Subjects

Schedule, 𝒩𝒫-hard, Computer science, 0102 computer and information sciences, 02 engineering and technology, lcsh:Chemical technology, 01 natural sciences, Biochemistry, Article, Analytical Chemistry, Line segment, 0202 electrical engineering, electronic engineering, information engineering, Mobile wireless sensor network, Point (geometry), lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, Integer programming, Time complexity, ??-hard, Atomic and Molecular Physics, and Optics, Exact algorithm, optimal solution, 010201 computation theory & mathematics, line boundary, Line (geometry), mobile sensor, 020201 artificial intelligence & image processing, Algorithm, target coverage

Abstract

Given a set of sensors distributed on the plane and a set of Point of Interests (POIs) on a line segment, a primary task of the mobile wireless sensor network is to schedule covering the POIs by the sensors, such that each POI is monitored by at least one sensor. For balancing the energy consumption, we study the min-max line barrier target coverage (LBTC) problem which aims to minimize the maximum movement of the sensors from their original positions to their final positions at which the coverage is composed. We first proved that when the radius of the sensors are non-uniform integers, even 1-dimensional LBTC (1D-LBTC), a special case of LBTC in which the sensors are distributed on the line segment instead of the plane, is NP -hard. The hardness result is interesting, since the continuous version of LBTC to cover a given line segment instead of the POIs is known polynomial solvable. Then we present an exact algorithm for LBTC with uniform radius and sensors distributed on the plane, via solving the decision version of LBTC. We argue that our algorithm runs in time O ( n 2 log n ) and produces an optimal solution to LBTC. The time complexity compares favorably to the state-of-art runtime O ( n 3 log n ) of the continuous version which aims to cover a line barrier instead of the targets. Last but not the least, we carry out numerical experiments to evaluate the practical performance of the algorithms, which demonstrates a practical runtime gain comparing with an optimal algorithm based on integer linear programming.

Published

2019

3. Dynamic Barrier Coverage in a Wireless Sensor Network for Smart Grids

Author

Gongping Wu, Fei Fan, Xuhui Ye, Qiaoling Ji, Quanjie Mei, and Man Wang

Subjects

Dynamic network analysis, Computer science, Real-time computing, ordinal potential game, 02 engineering and technology, lcsh:Chemical technology, 01 natural sciences, Biochemistry, Article, Analytical Chemistry, wireless sensor network, 0202 electrical engineering, electronic engineering, information engineering, Mobile wireless sensor network, delay-tolerant sensor network, Network performance, lcsh:TP1-1185, Electrical and Electronic Engineering, smart grid, Instrumentation, distributed algorithm, Node (networking), 010401 analytical chemistry, 020206 networking & telecommunications, inspection robot, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, Electric power transmission, Smart grid, Distributed algorithm, real-time network, barrier coverage, Robot, Wireless sensor network

Abstract

The development of engineering technology such as inspection robots (IR) for transmission lines and wireless sensor networks (WSN) are widely used in the field of smart grid monitoring. However, how to integrate inspection robots into wireless sensor networks is still a great challenge to form an efficient dynamic monitoring network for transmission lines. To address this problem, a dynamic barrier coverage (DBC) method combining inspection robot and wireless sensor network (WSN) is proposed to realize a low-cost, energy-saving and dynamic smart grid-oriented sensing system based on mobile wireless sensor network. To establish an effective smart grid monitoring system, this research focuses on the design of an effective and safe dynamic network coverage and network nodes deployment method. Multiple simulation scenarios are implemented to explore the variation of network performance with different parameters. In addition, the dynamic barrier coverage method for the actual scene of smart grid monitoring considers the balance between network performance and financial costs.

Published

2018

4. A Network Topology Control and Identity Authentication Protocol with Support for Movable Sensor Nodes

Author

Ying Zhang, Jixing Liang, Shengming Jiang, Bingxin Zheng, and Wei Chen

Subjects

Engineering, nodes mobility, business.industry, Topology control, Node (networking), Logical topology, soft handover, Network topology, lcsh:Chemical technology, Biochemistry, Atomic and Molecular Physics, and Optics, Article, Analytical Chemistry, Key distribution in wireless sensor networks, wireless sensor network, security topology control, Sensor node, Mobile wireless sensor network, identity authentication, lcsh:TP1-1185, Electrical and Electronic Engineering, business, Instrumentation, Wireless sensor network, Computer network

Abstract

It is expected that in the near future wireless sensor network (WSNs) will be more widely used in the mobile environment, in applications such as Autonomous Underwater Vehicles (AUVs) for marine monitoring and mobile robots for environmental investigation. The sensor nodes’ mobility can easily cause changes to the structure of a network topology, and lead to the decline in the amount of transmitted data, excessive energy consumption, and lack of security. To solve these problems, a kind of efficient Topology Control algorithm for node Mobility (TCM) is proposed. In the topology construction stage, an efficient clustering algorithm is adopted, which supports sensor node movement. It can ensure the balance of clustering, and reduce the energy consumption. In the topology maintenance stage, the digital signature authentication based on Error Correction Code (ECC) and the communication mechanism of soft handover are adopted. After verifying the legal identity of the mobile nodes, secure communications can be established, and this can increase the amount of data transmitted. Compared to some existing schemes, the proposed scheme has significant advantages regarding network topology stability, amounts of data transferred, lifetime and safety performance of the network.

Published

2015

5. The Optimization Based Dynamic and Cyclic Working Strategies for Rechargeable Wireless Sensor Networks with Multiple Base Stations and Wireless Energy Transfer Devices

Author

Jianghong Han, Xu Ding, and Lei Shi

Subjects

Wi-Fi array, Optimization problem, Computer science, Energy transfer, lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, Base station, wireless energy transfer, Electronic engineering, Mobile wireless sensor network, Computer Science::Networking and Internet Architecture, dynamic and cyclic working schemes, Wireless, lcsh:TP1-1185, Electrical and Electronic Engineering, Voronoi diagram, Fixed wireless, wireless sensor networks, Instrumentation, business.industry, energy replenishing procedure, Electrical engineering, Atomic and Molecular Physics, and Optics, Key distribution in wireless sensor networks, business, optimization problem, Wireless sensor network

Abstract

In this paper, the optimal working schemes for wireless sensor networks with multiple base stations and wireless energy transfer devices are proposed. The wireless energy transfer devices also work as data gatherers while charging sensor nodes. The wireless sensor network is firstly divided into sub networks according to the concept of Voronoi diagram. Then, the entire energy replenishing procedure is split into the pre-normal and normal energy replenishing stages. With the objective of maximizing the sojourn time ratio of the wireless energy transfer device, a continuous time optimization problem for the normal energy replenishing cycle is formed according to constraints with which sensor nodes and wireless energy transfer devices should comply. Later on, the continuous time optimization problem is reshaped into a discrete multi-phased optimization problem, which yields the identical optimality. After linearizing it, we obtain a linear programming problem that can be solved efficiently. The working strategies of both sensor nodes and wireless energy transfer devices in the pre-normal replenishing stage are also discussed in this paper. The intensive simulations exhibit the dynamic and cyclic working schemes for the entire energy replenishing procedure. Additionally, a way of eliminating “bottleneck” sensor nodes is also developed in this paper.

Published

2015

6. DCPVP: Distributed Clustering Protocol Using Voting and Priority for Wireless Sensor Networks

Author

Hooman Hematkhah and Yousef S. Kavian

Subjects

Engineering, prioritize, computer.software_genre, lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, Base station, Data link, wireless sensor network, Mobile wireless sensor network, lcsh:TP1-1185, Electrical and Electronic Engineering, Cluster analysis, Instrumentation, energy efficiency, business.industry, Node (networking), Atomic and Molecular Physics, and Optics, Key distribution in wireless sensor networks, routing, voting, Scalability, Data mining, business, computer, Wireless sensor network, Computer network, clustering

Abstract

This paper presents a new clustering protocol for designing energy-efficient hierarchical wireless sensor networks (WSNs) by dividing the distributed sensor network into virtual sensor groups to satisfy the scalability and prolong the network lifetime in large-scale applications. The proposed approach is a distributed clustering protocol called DCPVP, which is based on voting and priority ideas. In the DCPVP protocol, the size of clusters is based on the distance of nodes from the data link such as base station (BS) and the local node density. The cluster heads are elected based on the mean distance from neighbors, remaining energy and the times of being elected as cluster head. The performance of the DCPVP protocol is compared with some well-known clustering protocols in literature such as the LEACH, HEED, WCA, GCMRA and TCAC protocols. The simulation results confirm that the prioritizing- and voting-based election ideas decrease the construction time and the energy consumption of clustering progress in sensor networks and consequently improve the lifetime of networks with limited resources and battery powered nodes in harsh and inaccessible environments.

Published

2015

7. Design and Analysis of a Data Fusion Scheme in Mobile Wireless Sensor Networks Based on Multi-Protocol Mobile Agents

Author

Ernst Bekkering, Caihua Wan, Naixue Xiong, Wenliang Wu, and Chunxue Wu

Subjects

Engineering, Visual sensor network, 02 engineering and technology, multi-protocol, mobile sensor networks, data fusion, mobile agents, color sensors, lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, Network simulation, 0202 electrical engineering, electronic engineering, information engineering, Mobile wireless sensor network, Computer Science::Networking and Internet Architecture, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, Wireless network, business.industry, 020206 networking & telecommunications, Sensor fusion, Soft sensor, Atomic and Molecular Physics, and Optics, Key distribution in wireless sensor networks, 020201 artificial intelligence & image processing, business, Wireless sensor network, Computer network

Abstract

Sensors are increasingly used in mobile environments with wireless network connections. Multiple sensor types measure distinct aspects of the same event. Their measurements are then combined to produce integrated, reliable results. As the number of sensors in networks increases, low energy requirements and changing network connections complicate event detection and measurement. We present a data fusion scheme for use in mobile wireless sensor networks with high energy efficiency and low network delays, that still produces reliable results. In the first phase, we used a network simulation where mobile agents dynamically select the next hop migration node based on the stability parameter of the link, and perform the data fusion at the migration node. Agents use the fusion results to decide if it should return the fusion results to the processing center or continue to collect more data. In the second phase. The feasibility of data fusion at the node level is confirmed by an experimental design where fused data from color sensors show near-identical results to actual physical temperatures. These results are potentially important for new large-scale sensor network applications.

Published

2017

8. A Study on Wireless Charging for Prolonging the Lifetime of Wireless Sensor Networks

Author

Zongmao Cheng, Weijian Tu, Xianghua Xu, and Tingcong Ye

Subjects

Engineering, Wi-Fi array, Optimization problem, mobile charger, Real-time computing, 02 engineering and technology, lcsh:Chemical technology, Biochemistry, network size, Article, Analytical Chemistry, wireless sensor network, wireless energy transfer, 0202 electrical engineering, electronic engineering, information engineering, Mobile wireless sensor network, Computer Science::Networking and Internet Architecture, Wireless, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, moving path, optimization problem, 020203 distributed computing, business.industry, Wireless network, 020206 networking & telecommunications, Atomic and Molecular Physics, and Optics, Key distribution in wireless sensor networks, Sensor node, business, Wireless sensor network, Computer network

Abstract

Wireless charging is an important issue in wireless sensor networks, since it can provide an emerging and effective solution in the absence of other power supplies. The state-of-the-art methods employ a mobile car and a predefined moving path to charge the sensor nodes in the network. Previous studies only consider a factor of the network (i.e., residual energy of sensor node) as a constraint to design the wireless charging strategy. However, other factors, such as the travelled distance of the mobile car, can also affect the effectiveness of wireless charging strategy. In this work, we study wireless charging strategy based on the analysis of a combination of two factors, including the residual energy of sensor nodes and the travelled distance of the charging car. Firstly, we theoretically analyze the limited size of the sensor network to match the capability of a charging car. Then, the networked factors are selected as the weights of traveling salesman problem (TSP) to design the moving path of the charging car. Thirdly, the charging time of each sensor node is computed based on the linear programming problem for the charging car. Finally, a charging period for the network is studied. The experimental results show that the proposed approach can significantly maximize the lifetime of the wireless sensor network.

Published

2017

9. A Wireless Sensor System for Real-Time Monitoring and Fault Detection of Motor Arrays

Author

Juan Antonio Gómez Galán, Jonathan Medina-García, R. Jiménez, T. Sanchez-Rodriguez, Fernando Gómez-Bravo, and Aránzazu Delgado

Subjects

IEEE 802.15.4, Engineering, Wi-Fi array, Real-time computing, guaranteed time slot (GTS), 02 engineering and technology, lcsh:Chemical technology, Biochemistry, Article, Fault detection and isolation, Analytical Chemistry, wireless sensor network, 0202 electrical engineering, electronic engineering, information engineering, Mobile wireless sensor network, beacon-enabled mode, Wireless, motor current analysis, lcsh:TP1-1185, fault detection, Electrical and Electronic Engineering, Instrumentation, Motor current analysis, business.industry, Node (networking), 020208 electrical & electronic engineering, Condition monitoring, Beacon-enabled mode, Atomic and Molecular Physics, and Optics, Key distribution in wireless sensor networks, 020201 artificial intelligence & image processing, Guaranteed time slot (GTS), business, Fault detection, Wireless sensor network

Abstract

This paper presents a wireless fault detection system for industrial motors that combines vibration, motor current and temperature analysis, thus improving the detection of mechanical faults. The design also considers the time of detection and further possible actions, which are also important for the early detection of possible malfunctions, and thus for avoiding irreversible damage to the motor. The remote motor condition monitoring is implemented through a wireless sensor network (WSN) based on the IEEE 802.15.4 standard. The deployed network uses the beacon-enabled mode to synchronize several sensor nodes with the coordinator node, and the guaranteed time slot mechanism provides data monitoring with a predetermined latency. A graphic user interface offers remote access to motor conditions and real-time monitoring of several parameters. The developed wireless sensor node exhibits very low power consumption since it has been optimized both in terms of hardware and software. The result is a low cost, highly reliable and compact design, achieving a high degree of autonomy of more than two years with just one 3.3 V/2600 mAh battery. Laboratory and field tests confirm the feasibility of the wireless system.

Published

2017

10. An Energy-Efficient and Compact Clustering Scheme with Temporary Support Nodes for Cognitive Radio Sensor Networks

Author

Ilyong Chung, Dongmin Choi, Shelly Salim, and Sangman Moh

Subjects

Engineering, cognitive radio sensor network, lcsh:Chemical technology, Biochemistry, Article, clustering overhead, Analytical Chemistry, Computer Communication Networks, energy consumption, Cluster (physics), Mobile wireless sensor network, Cluster Analysis, Overhead (computing), lcsh:TP1-1185, Electrical and Electronic Engineering, Cluster analysis, Instrumentation, lifetime, business.industry, Radio, Atomic and Molecular Physics, and Optics, Key distribution in wireless sensor networks, Cognitive radio, Embedded system, clustering, business, Wireless Technology, Wireless sensor network, Computer network, Efficient energy use

Abstract

A cognitive radio sensor network (CRSN) is a wireless sensor network whose sensor nodes are equipped with cognitive radio capability. Clustering is one of the most challenging issues in CRSNs, as all sensor nodes, including the cluster head, have to use the same frequency band in order to form a cluster. However, due to the nature of heterogeneous channels in cognitive radio, it is difficult for sensor nodes to find a cluster head. This paper proposes a novel energy-efficient and compact clustering scheme named clustering with temporary support nodes (CENTRE). CENTRE efficiently achieves a compact cluster formation by adopting two-phase cluster formation with fixed duration. By introducing a novel concept of temporary support nodes to improve the cluster formation, the proposed scheme enables sensor nodes in a network to find a cluster head efficiently. The performance study shows that not only is the clustering process efficient and compact but it also results in remarkable energy savings that prolong the overall network lifetime. In addition, the proposed scheme decreases both the clustering overhead and the average distance between cluster heads and their members.

Published

2014

11. An Energy Efficient Distance-Aware Routing Algorithm with Multiple Mobile Sinks for Wireless Sensor Networks

Author

Jeong-Uk Kim, Bin Li, Jin Wang, Feng Xia, and Chang-Seob Kim

Subjects

Engineering, Distributed computing, mobile sink, lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, Computer Communication Networks, distance aware, wireless sensor networks, energy, lifetime, Mobile wireless sensor network, Network performance, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, business.industry, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Network partition, Energy consumption, Atomic and Molecular Physics, and Optics, Key distribution in wireless sensor networks, Remote Sensing Technology, Sink (computing), business, Wireless Technology, Wireless sensor network, Algorithms, Efficient energy use, Computer network

Abstract

Traffic patterns in wireless sensor networks (WSNs) usually follow a many-to-one model. Sensor nodes close to static sinks will deplete their limited energy more rapidly than other sensors, since they will have more data to forward during multihop transmission. This will cause network partition, isolated nodes and much shortened network lifetime. Thus, how to balance energy consumption for sensor nodes is an important research issue. In recent years, exploiting sink mobility technology in WSNs has attracted much research attention because it can not only improve energy efficiency, but prolong network lifetime. In this paper, we propose an energy efficient distance-aware routing algorithm with multiple mobile sink for WSNs, where sink nodes will move with a certain speed along the network boundary to collect monitored data. We study the influence of multiple mobile sink nodes on energy consumption and network lifetime, and we mainly focus on the selection of mobile sink node number and the selection of parking positions, as well as their impact on performance metrics above. We can see that both mobile sink node number and the selection of parking position have important influence on network performance. Simulation results show that our proposed routing algorithm has better performance than traditional routing ones in terms of energy consumption.

Published

2014

12. A Survey of Routing Protocols in Wireless Body Sensor Networks

Author

Mohammad Hossein Anisi, Abdul Hanan Abdullah, Abdul Waheed Khan, and Javed Iqbal Bangash

Subjects

Routing protocol, Patients, Computer science, Distributed computing, Wireless Routing Protocol, Review, Biosensing Techniques, lcsh:Chemical technology, Biochemistry, Analytical Chemistry, Computer Communication Networks, Mobile wireless sensor network, Humans, Telemetry, Wireless, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, business.industry, Data Collection, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Atomic and Molecular Physics, and Optics, Key distribution in wireless sensor networks, Routing domain, Link-state routing protocol, Multipath routing, Wireless Body Sensor Networks, Wireless Sensor Networks, business, Wireless Technology, Wireless sensor network, Algorithms, routing protocols, Computer network

Abstract

Wireless Body Sensor Networks (WBSNs) constitute a subset of Wireless Sensor Networks (WSNs) responsible for monitoring vital sign-related data of patients and accordingly route this data towards a sink. In routing sensed data towards sinks, WBSNs face some of the same routing challenges as general WSNs, but the unique requirements of WBSNs impose some more constraints that need to be addressed by the routing mechanisms. This paper identifies various issues and challenges in pursuit of effective routing in WBSNs. Furthermore, it provides a detailed literature review of the various existing routing protocols used in the WBSN domain by discussing their strengths and weaknesses.

Published

2014

13. Assessing Routing Strategies for Cognitive Radio Sensor Networks

Author

Suleiman Zubair, Kashif Saleem, Yakubu Suleiman Baguda, and Norsheila Fisal

Subjects

Engineering, Wireless ad hoc network, Information Storage and Retrieval, Review, lcsh:Chemical technology, Biochemistry, Analytical Chemistry, Computer Communication Networks, Cognition, wireless sensor network, Mobile wireless sensor network, lcsh:TP1-1185, cognitive radio, Electrical and Electronic Engineering, Instrumentation, cross-layer, business.industry, Physical layer, Signal Processing, Computer-Assisted, Equipment Design, Cognitive network, Atomic and Molecular Physics, and Optics, Equipment Failure Analysis, Key distribution in wireless sensor networks, Cognitive radio, routing, Telecommunications, Hazy Sighted Link State Routing Protocol, ad-hoc networks, business, Wireless Technology, Wireless sensor network, Algorithms, Computer network

Abstract

Interest in the cognitive radio sensor network (CRSN) paradigm has gradually grown among researchers. This concept seeks to fuse the benefits of dynamic spectrum access into the sensor network, making it a potential player in the next generation (NextGen) network, which is characterized by ubiquity. Notwithstanding its massive potential, little research activity has been dedicated to the network layer. By contrast, we find recent research trends focusing on the physical layer, the link layer and the transport layers. The fact that the cross-layer approach is imperative, due to the resource-constrained nature of CRSNs, can make the design of unique solutions non-trivial in this respect. This paper seeks to explore possible design opportunities with wireless sensor networks (WSNs), cognitive radio ad-hoc networks (CRAHNs) and cross-layer considerations for implementing viable CRSN routing solutions. Additionally, a detailed performance evaluation of WSN routing strategies in a cognitive radio environment is performed to expose research gaps. With this work, we intend to lay a foundation for developing CRSN routing solutions and to establish a basis for future work in this area.

Published

2013

14. Cognitive Radio Wireless Sensor Networks: Applications, Challenges and Research Trends

Author

Gyanendra Prasad Joshi, Sung Won Kim, and Seung Yeob Nam

Subjects

Engineering, Wireless intrusion prevention system, Radio Waves, Transducers, Review, lcsh:Chemical technology, cognitive sensors, Biochemistry, Analytical Chemistry, cognitive wireless sensor networks, Computer Communication Networks, Cognition, sensor networks, Artificial Intelligence, Mobile wireless sensor network, lcsh:TP1-1185, Electrical and Electronic Engineering, Radio resource management, Instrumentation, business.industry, Wireless network, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Signal Processing, Computer-Assisted, Equipment Design, Cognitive network, Atomic and Molecular Physics, and Optics, Equipment Failure Analysis, Key distribution in wireless sensor networks, Cognitive radio, business, Telecommunications, Wireless Technology, Wireless sensor network, Forecasting, Computer network

Abstract

A cognitive radio wireless sensor network is one of the candidate areas where cognitive techniques can be used for opportunistic spectrum access. Research in this area is still in its infancy, but it is progressing rapidly. The aim of this study is to classify the existing literature of this fast emerging application area of cognitive radio wireless sensor networks, highlight the key research that has already been undertaken, and indicate open problems. This paper describes the advantages of cognitive radio wireless sensor networks, the difference between ad hoc cognitive radio networks, wireless sensor networks, and cognitive radio wireless sensor networks, potential application areas of cognitive radio wireless sensor networks, challenges and research trend in cognitive radio wireless sensor networks. The sensing schemes suited for cognitive radio wireless sensor networks scenarios are discussed with an emphasis on cooperation and spectrum access methods that ensure the availability of the required QoS. Finally, this paper lists several open research challenges aimed at drawing the attention of the readers toward the important issues that need to be addressed before the vision of completely autonomous cognitive radio wireless sensor networks can be realized.

Published

2013

15. Distributed Information Compression for Target Tracking in Cluster-Based Wireless Sensor Networks

Author

Kai-Jay Lai, Chih-Yu Wen, Shi-Kuan Liao, and Hsiao-Ping Tsai

Subjects

information compression, Visual sensor network, Computer science, Real-time computing, Topology (electrical circuits), 02 engineering and technology, Network topology, lcsh:Chemical technology, 01 natural sciences, Biochemistry, Network operations center, Article, Analytical Chemistry, wireless sensor network, target tracking, 0202 electrical engineering, electronic engineering, information engineering, Mobile wireless sensor network, Wireless, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, Network architecture, business.industry, 010401 analytical chemistry, 020206 networking & telecommunications, Energy consumption, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, Energy conservation, Key distribution in wireless sensor networks, business, Wireless sensor network

Abstract

Target tracking is a critical wireless sensor application, which involves signal and information processing technologies. In conventional target position estimation methods, an estimate is usually demonstrated by an average target position. In contrast, this work proposes a distributed information compression method to describe the measurement uncertainty of tracking problems in cluster-based wireless sensor networks. The leader-based information processing scheme is applied to perform target positioning and energy conservation. A two-level hierarchical network topology is adopted for energy-efficient target tracking with information compression. A Level 1 network architecture is a cluster-based network topology for managing network operations. A Level 2 network architecture is an event-based and leader-based topology, utilizing the concept of information compression to process the estimates of sensor nodes. The simulation results show that compared to conventional schemes, the proposed data processing scheme has a balanced system performance in terms of tracking accuracy, data size for transmission and energy consumption.

Published

2016

16. An Embedded Sensor Node Microcontroller with Crypto-Processors

Author

Zoran Stamenkovic, G. Panic, and Oliver Stecklina

Subjects

Engineering, 02 engineering and technology, security, lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, system-on-chip, 0202 electrical engineering, electronic engineering, information engineering, Mobile wireless sensor network, System on a chip, lcsh:TP1-1185, Electrical and Electronic Engineering, processor, Instrumentation, cryptography, business.industry, sensor node, 020206 networking & telecommunications, Automation, Atomic and Molecular Physics, and Optics, Sensor web, Key distribution in wireless sensor networks, Microcontroller, Sensor node, Embedded system, 020201 artificial intelligence & image processing, business, Wireless sensor network

Abstract

Wireless sensor network applications range from industrial automation and control, agricultural and environmental protection, to surveillance and medicine. In most applications, data are highly sensitive and must be protected from any type of attack and abuse. Security challenges in wireless sensor networks are mainly defined by the power and computing resources of sensor devices, memory size, quality of radio channels and susceptibility to physical capture. In this article, an embedded sensor node microcontroller designed to support sensor network applications with severe security demands is presented. It features a low power 16-bitprocessor core supported by a number of hardware accelerators designed to perform complex operations required by advanced crypto algorithms. The microcontroller integrates an embedded Flash and an 8-channel 12-bit analog-to-digital converter making it a good solution for low-power sensor nodes. The article discusses the most important security topics in wireless sensor networks and presents the architecture of the proposed hardware solution. Furthermore, it gives details on the chip implementation, verification and hardware evaluation. Finally, the chip power dissipation and performance figures are estimated and analyzed.

Published

2016

17. A Wireless Sensor Enabled by Wireless Power

Author

Yu-Hong Liu, Dasheng Lee, and Chii-Ruey Lin

Subjects

Engineering, Wi-Fi array, wireless power, lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, Computer Communication Networks, wireless sensor network, Electricity, UHF RFID reader, Mobile wireless sensor network, Electronic engineering, Humans, Telemetry, ComputerSystemsOrganization_SPECIAL-PURPOSEANDAPPLICATION-BASEDSYSTEMS, lcsh:TP1-1185, Electrical and Electronic Engineering, Fixed wireless, Instrumentation, business.industry, Wireless network, wireless sensor, chip-type sensor, Temperature, Electrical engineering, Wireless WAN, Atomic and Molecular Physics, and Optics, Radio Frequency Identification Device, Key distribution in wireless sensor networks, Sensor node, business, Wireless Technology, Wireless sensor network, Algorithms

Abstract

Through harvesting energy by wireless charging and delivering data by wireless communication, this study proposes the concept of a wireless sensor enabled by wireless power (WPWS) and reports the fabrication of a prototype for functional tests. One WPWS node consists of wireless power module and sensor module with different chip-type sensors. Its main feature is the dual antenna structure. Following RFID system architecture, a power harvesting antenna was designed to gather power from a standard reader working in the 915 MHz band. Referring to the Modbus protocol, the other wireless communication antenna was integrated on a node to send sensor data in parallel. The dual antenna structure integrates both the advantages of an RFID system and a wireless sensor. Using a standard UHF RFID reader, WPWS can be enabled in a distributed area with a diameter up to 4 m. Working status is similar to that of a passive tag, except that a tag can only be queried statically, while the WPWS can send dynamic data from the sensors. The function is the same as a wireless sensor node. Different WPWSs equipped with temperature and humidity, optical and airflow velocity sensors are tested in this study. All sensors can send back detection data within 8 s. The accuracy is within 8% deviation compared with laboratory equipment. A wireless sensor network enabled by wireless power should be a totally wireless sensor network using WPWS. However, distributed WPWSs only can form a star topology, the simplest topology for constructing a sensor network. Because of shielding effects, it is difficult to apply other complex topologies. Despite this limitation, WPWS still can be used to extend sensor network applications in hazardous environments. Further research is needed to improve WPWS to realize a totally wireless sensor network.

Published

2012

18. Fundamental Lifetime Mechanisms in Routing Protocols for Wireless Sensor Networks: A Survey and Open Issues

Author

Shairah Abdul Razak and Mohammadreza Eslaminejad

Subjects

Routing protocol, Engineering, Distributed computing, energy-efficiency, multi-sink, mobile sink, Review, Biosensing Techniques, wireless sensor networks (WSNs), lcsh:Chemical technology, Biochemistry, Analytical Chemistry, Computer Communication Networks, Biomimetic Materials, Mobile wireless sensor network, Animals, Wireless, Computer Simulation, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, bio-inspired protocols, network lifetime, Behavior, Animal, business.industry, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Energy consumption, Atomic and Molecular Physics, and Optics, power control, Key distribution in wireless sensor networks, multi-path, business, Wireless Technology, Wireless sensor network, Algorithms, Efficient energy use, Computer network, Power control

Abstract

Wireless sensor networks basically consist of low cost sensor nodes which collect data from environment and relay them to a sink, where they will be subsequently processed. Since wireless nodes are severely power-constrained, the major concern is how to conserve the nodes' energy so that network lifetime can be extended significantly. Employing one static sink can rapidly exhaust the energy of sink neighbors. Furthermore, using a non-optimal single path together with a maximum transmission power level may quickly deplete the energy of individual nodes on the route. This all results in unbalanced energy consumption through the sensor field, and hence a negative effect on the network lifetime. In this paper, we present a comprehensive taxonomy of the various mechanisms applied for increasing the network lifetime. These techniques, whether in the routing or cross-layer area, fall within the following types: multi-sink, mobile sink, multi-path, power control and bio-inspired algorithms, depending on the protocol operation. In this taxonomy, special attention has been devoted to the multi-sink, power control and bio-inspired algorithms, which have not yet received much consideration in the literature. Moreover, each class covers a variety of the state-of-the-art protocols, which should provide ideas for potential future works. Finally, we compare these mechanisms and discuss open research issues.

Published

2012

19. A Self-Optimizing Scheme for Energy Balanced Routing in Wireless Sensor Networks Using SensorAnt

Author

Mohd Fadlee A. Rasid, Alyani Ismail, Borhanuddin Mohd Ali, and Ahmed M. Shamsan Saleh

Subjects

Routing protocol, Engineering, lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, Packet loss, energy consumption, Mobile wireless sensor network, ant colony, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, energy balancing, battery lifetime, WSNs, business.industry, Ant colony optimization algorithms, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Energy consumption, Atomic and Molecular Physics, and Optics, Key distribution in wireless sensor networks, business, Wireless sensor network, Computer network, Efficient energy use

Abstract

Planning of energy-efficient protocols is critical for Wireless Sensor Networks (WSNs) because of the constraints on the sensor nodes’ energy. The routing protocol should be able to provide uniform power dissipation during transmission to the sink node. In this paper, we present a self-optimization scheme for WSNs which is able to utilize and optimize the sensor nodes’ resources, especially the batteries, to achieve balanced energy consumption across all sensor nodes. This method is based on the Ant Colony Optimization (ACO) metaheuristic which is adopted to enhance the paths with the best quality function. The assessment of this function depends on multi-criteria metrics such as the minimum residual battery power, hop count and average energy of both route and network. This method also distributes the traffic load of sensor nodes throughout the WSN leading to reduced energy usage, extended network life time and reduced packet loss. Simulation results show that our scheme performs much better than the Energy Efficient Ant-Based Routing (EEABR) in terms of energy consumption, balancing and efficiency.

Published

2012

20. Detecting Unknown Attacks in Wireless Sensor Networks That Contain Mobile Nodes

Author

David Fraga, Zorana Bankovic, José M. Moya, and Juan Carlos Vallejo

Subjects

Engineering, Robótica e Informática Industrial, 02 engineering and technology, lcsh:Chemical technology, Security policy, Biochemistry, Article, Analytical Chemistry, reputation systems, Computer Communication Networks, Base station, 0202 electrical engineering, electronic engineering, information engineering, Mobile wireless sensor network, Cluster Analysis, lcsh:TP1-1185, Computer Simulation, unknown attacks, Electrical and Electronic Engineering, wireless sensor networks, clustering algorithms, Instrumentation, Computer Security, Telecomunicaciones, business.industry, 020206 networking & telecommunications, Models, Theoretical, mobility, Atomic and Molecular Physics, and Optics, Key distribution in wireless sensor networks, Identification (information), Reputation system, Electrónica, 020201 artificial intelligence & image processing, Anomaly detection, business, Wireless Technology, Wireless sensor network, Algorithms, Computer network

Abstract

As wireless sensor networks are usually deployed in unattended areas, security policies cannot be updated in a timely fashion upon identification of new attacks. This gives enough time for attackers to cause significant damage. Thus, it is of great importance to provide protection from unknown attacks. However, existing solutions are mostly concentrated on known attacks. On the other hand, mobility can make the sensor network more resilient to failures, reactive to events, and able to support disparate missions with a common set of sensors, yet the problem of security becomes more complicated. In order to address the issue of security in networks with mobile nodes, we propose a machine learning solution for anomaly detection along with the feature extraction process that tries to detect temporal and spatial inconsistencies in the sequences of sensed values and the routing paths used to forward these values to the base station. We also propose a special way to treat mobile nodes, which is the main novelty of this work. The data produced in the presence of an attacker are treated as outliers, and detected using clustering techniques. These techniques are further coupled with a reputation system, in this way isolating compromised nodes in timely fashion. The proposal exhibits good performances at detecting and confining previously unseen attacks, including the cases when mobile nodes are compromised.

Published

2012

21. A Novel Energy-Aware Distributed Clustering Algorithm for Heterogeneous Wireless Sensor Networks in the Mobile Environment

Author

Jarong Chou, Ying Gao, Chris Hadri Wkram, and Jiajie Duan

Subjects

Brooks–Iyengar algorithm, Computer science, Visual sensor network, Distributed computing, lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, heterogeneous wireless sensor networks, sensor computing, distributed clustering algorithm, collaborative information processing, energy efficient, mobile sensor, Mobile wireless sensor network, lcsh:TP1-1185, Electrical and Electronic Engineering, Cluster analysis, Instrumentation, business.industry, Wireless network, Energy consumption, Atomic and Molecular Physics, and Optics, Key distribution in wireless sensor networks, Hierarchical network model, business, Wireless sensor network, Heterogeneous network, Computer network, Efficient energy use

Abstract

In order to prolong the network lifetime, energy-efficient protocols adapted to the features of wireless sensor networks should be used. This paper explores in depth the nature of heterogeneous wireless sensor networks, and finally proposes an algorithm to address the problem of finding an effective pathway for heterogeneous clustering energy. The proposed algorithm implements cluster head selection according to the degree of energy attenuation during the network’s running and the degree of candidate nodes’ effective coverage on the whole network, so as to obtain an even energy consumption over the whole network for the situation with high degree of coverage. Simulation results show that the proposed clustering protocol has better adaptability to heterogeneous environments than existing clustering algorithms in prolonging the network lifetime.

Published

2015

22. FRCA: A Fuzzy Relevance-Based Cluster Head Selection Algorithm for Wireless Mobile Ad-Hoc Sensor Networks

Author

Chong-Deuk Lee and Taeg-Won Jeong

Subjects

Routing protocol, resource management and sharing, Computer science, Wireless ad hoc network, Distributed computing, fuzzy relevance, lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, Computer Communication Networks, Mobile wireless sensor network, Computer Science::Networking and Internet Architecture, Resource management, lcsh:TP1-1185, Electrical and Electronic Engineering, mobile ad hoc, Cluster analysis, Instrumentation, business.industry, flat structure, Mobile ad hoc network, Ad hoc wireless distribution service, Atomic and Molecular Physics, and Optics, mobility, Bandwidth allocation, Optimized Link State Routing Protocol, business, Wireless sensor network, Wireless Technology, Algorithms, Computer network, clustering

Abstract

Clustering is an important mechanism that efficiently provides information for mobile nodes and improves the processing capacity of routing, bandwidth allocation, and resource management and sharing. Clustering algorithms can be based on such criteria as the battery power of nodes, mobility, network size, distance, speed and direction. Above all, in order to achieve good clustering performance, overhead should be minimized, allowing mobile nodes to join and leave without perturbing the membership of the cluster while preserving current cluster structure as much as possible. This paper proposes a Fuzzy Relevance-based Cluster head selection Algorithm (FRCA) to solve problems found in existing wireless mobile ad hoc sensor networks, such as the node distribution found in dynamic properties due to mobility and flat structures and disturbance of the cluster formation. The proposed mechanism uses fuzzy relevance to select the cluster head for clustering in wireless mobile ad hoc sensor networks. In the simulation implemented on the NS-2 simulator, the proposed FRCA is compared with algorithms such as the Cluster-based Routing Protocol (CBRP), the Weighted-based Adaptive Clustering Algorithm (WACA), and the Scenario-based Clustering Algorithm for Mobile ad hoc networks (SCAM). The simulation results showed that the proposed FRCA achieves better performance than that of the other existing mechanisms.

Published

2011

23. An Electronic-Nose Sensor Node Based on a Polymer-Coated Surface Acoustic Wave Array for Wireless Sensor Network Applications

Author

Shih-Wen Chiu, Kea-Tiong Tang, and Cheng-Han Li

Subjects

electronic nose, Engineering, Wi-Fi array, Interdigital transducer, Polymers, lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, SAW sensor array, wireless sensor network, Sensor array, Proximity sensor, Electronic engineering, Mobile wireless sensor network, sensor node, Hardware_INTEGRATEDCIRCUITS, ComputerSystemsOrganization_SPECIAL-PURPOSEANDAPPLICATION-BASEDSYSTEMS, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, business.industry, Electro-optical sensor, Equipment Design, Atomic and Molecular Physics, and Optics, Sound, Sensor node, Optoelectronics, Electronics, business, Wireless sensor network, Wireless Technology

Abstract

This study developed an electronic-nose sensor node based on a polymer-coated surface acoustic wave (SAW) sensor array. The sensor node comprised an SAW sensor array, a frequency readout circuit, and an Octopus II wireless module. The sensor array was fabricated on a large K(2) 128° YX LiNbO3 sensing substrate. On the surface of this substrate, an interdigital transducer (IDT) was produced with a Cr/Au film as its metallic structure. A mixed-mode frequency readout application specific integrated circuit (ASIC) was fabricated using a TSMC 0.18 μm process. The ASIC output was connected to a wireless module to transmit sensor data to a base station for data storage and analysis. This sensor node is applicable for wireless sensor network (WSN) applications.

Published

2011

24. Simple Random Sampling-Based Probe Station Selection for Fault Detection in Wireless Sensor Networks

Author

Rimao Huang, Lanlan Rui, and Xuesong Qiu

Subjects

Engineering, Time Factors, Real-time computing, Fault (power engineering), simple random sampling, probe station, fault detection, wireless sensor network, probing frequency, Pareto principle, lcsh:Chemical technology, Biochemistry, Article, Fault detection and isolation, Analytical Chemistry, Computer Communication Networks, Mobile wireless sensor network, Computer Simulation, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, business.industry, Wireless network, Network packet, Node (networking), Atomic and Molecular Physics, and Optics, Equipment Failure Analysis, Key distribution in wireless sensor networks, business, Wireless Technology, Wireless sensor network, Algorithms, Computer network

Abstract

Fault detection for wireless sensor networks (WSNs) has been studied intensively in recent years. Most existing works statically choose the manager nodes as probe stations and probe the network at a fixed frequency. This straightforward solution leads however to several deficiencies. Firstly, by only assigning the fault detection task to the manager node the whole network is out of balance, and this quickly overloads the already heavily burdened manager node, which in turn ultimately shortens the lifetime of the whole network. Secondly, probing with a fixed frequency often generates too much useless network traffic, which results in a waste of the limited network energy. Thirdly, the traditional algorithm for choosing a probing node is too complicated to be used in energy-critical wireless sensor networks. In this paper, we study the distribution characters of the fault nodes in wireless sensor networks, validate the Pareto principle that a small number of clusters contain most of the faults. We then present a Simple Random Sampling-based algorithm to dynamic choose sensor nodes as probe stations. A dynamic adjusting rule for probing frequency is also proposed to reduce the number of useless probing packets. The simulation experiments demonstrate that the algorithm and adjusting rule we present can effectively prolong the lifetime of a wireless sensor network without decreasing the fault detected rate.

Published

2011

25. Developing a New Wireless Sensor Network Platform and Its Application in Precision Agriculture

Author

Raúl Alejandro Virgen-Ortiz, Arthur Edwards-Block, Raul Aquino-Santos, and Apolinar González-Potes

Subjects

Ubiquitous computing, Computer science, Distributed computing, lcsh:Chemical technology, Biochemistry, Embedded operating system, Article, Analytical Chemistry, sensor networks, routing algorithm, technological platform, precision agriculture, Mobile wireless sensor network, Wireless, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, business.industry, Atomic and Molecular Physics, and Optics, Flooding (computer networking), Key distribution in wireless sensor networks, Embedded system, Scalability, business, Wireless sensor network

Abstract

Wireless sensor networks are gaining greater attention from the research community and industrial professionals because these small pieces of “smart dust” offer great advantages due to their small size, low power consumption, easy integration and support for “green” applications. Green applications are considered a hot topic in intelligent environments, ubiquitous and pervasive computing. This work evaluates a new wireless sensor network platform and its application in precision agriculture, including its embedded operating system and its routing algorithm. To validate the technological platform and the embedded operating system, two different routing strategies were compared: hierarchical and flat. Both of these routing algorithms were tested in a small-scale network applied to a watermelon field. However, we strongly believe that this technological platform can be also applied to precision agriculture because it incorporates a modified version of LORA-CBF, a wireless location-based routing algorithm that uses cluster-based flooding. Cluster-based flooding addresses the scalability concerns of wireless sensor networks, while the modified LORA-CBF routing algorithm includes a metric to monitor residual battery energy. Furthermore, results show that the modified version of LORA-CBF functions well with both the flat and hierarchical algorithms, although it functions better with the flat algorithm in a small-scale agricultural network.

Published

2011

26. Multi-Channel Distributed Coordinated Function over Single Radio in Wireless Sensor Networks

Author

Carlene Campbell, Shafiullah Khan, Orhan Gemikonakli, Kok-Keong Jonathan Loo, and Dhananjay Singh

Subjects

Engineering, Frequency band, lcsh:Chemical technology, channels, Distributed coordination function, Biochemistry, Article, Analytical Chemistry, Computer Science::Networking and Internet Architecture, Mobile wireless sensor network, lcsh:TP1-1185, Electrical and Electronic Engineering, Radio resource management, Instrumentation, MAC, business.industry, Wireless network, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, multi-channel, WSN, Atomic and Molecular Physics, and Optics, Key distribution in wireless sensor networks, business, Wireless sensor network, 802.11 DCF, Computer network, Communication channel

Abstract

Multi-channel assignments are becoming the solution of choice to improve performance in single radio for wireless networks. Multi-channel allows wireless networks to assign different channels to different nodes in real-time transmission. In this paper, we propose a new approach, Multi-channel Distributed Coordinated Function (MC-DCF) which takes advantage of multi-channel assignment. The backoff algorithm of the IEEE 802.11 distributed coordination function (DCF) was modified to invoke channel switching, based on threshold criteria in order to improve the overall throughput for wireless sensor networks (WSNs) over 802.11 networks. We presented simulation experiments in order to investigate the characteristics of multi-channel communication in wireless sensor networks using an NS2 platform. Nodes only use a single radio and perform channel switching only after specified threshold is reached. Single radio can only work on one channel at any given time. All nodes initiate constant bit rate streams towards the receiving nodes. In this work, we studied the impact of non-overlapping channels in the 2.4 frequency band on: constant bit rate (CBR) streams, node density, source nodes sending data directly to sink and signal strength by varying distances between the sensor nodes and operating frequencies of the radios with different data rates. We showed that multi-channel enhancement using our proposed algorithm provides significant improvement in terms of throughput, packet delivery ratio and delay. This technique can be considered for WSNs future use in 802.11 networks especially when the IEEE 802.11n becomes popular thereby may prevent the 802.15.4 network from operating effectively in the 2.4 GHz frequency band.

Published

2011

27. An Efficient Management System for Wireless Sensor Networks

Author

Mei Yu Lee, Yueh-Min Huang, Yi-Wei Ma, and Jiann-Liang Chen

Subjects

Engineering, Computer User Training, Visual sensor network, Efficiency, Organizational, lcsh:Chemical technology, Models, Biological, Biochemistry, fault management, Article, Management Information Systems, Analytical Chemistry, Computer Communication Networks, User-Computer Interface, wireless sensor network, Mobile wireless sensor network, management system, configuration management, Humans, performance management, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, Computer Security, business.industry, Wireless network, Signal Processing, Computer-Assisted, Atomic and Molecular Physics, and Optics, Sensor web, Key distribution in wireless sensor networks, Sensor node, Remote Sensing Technology, business, Wireless Technology, Wireless sensor network, Network management station, Computer network, SNMP

Abstract

Wireless sensor networks have garnered considerable attention recently. Networks typically have many sensor nodes, and are used in commercial, medical, scientific, and military applications for sensing and monitoring the physical world. Many researchers have attempted to improve wireless sensor network management efficiency. A Simple Network Management Protocol (SNMP)-based sensor network management system was developed that is a convenient and effective way for managers to monitor and control sensor network operations. This paper proposes a novel WSNManagement system that can show the connections stated of relationships among sensor nodes and can be used for monitoring, collecting, and analyzing information obtained by wireless sensor networks. The proposed network management system uses collected information for system configuration. The function of performance analysis facilitates convenient management of sensors. Experimental results show that the proposed method enhances the alive rate of an overall sensor node system, reduces the packet lost rate by roughly 5%, and reduces delay time by roughly 0.2 seconds. Performance analysis demonstrates that the proposed system is effective for wireless sensor network management.

Published

2010

28. Performance Analysis of Receive Diversity in Wireless Sensor Networks over GBSBE Models

Author

Shivali Goel, Jemal H. Abawajy, and Tai-hoon Kim

Subjects

geometrically based single bounce elliptical model, Engineering, Time Factors, Wi-Fi array, Efficiency, lcsh:Chemical technology, Models, Biological, Biochemistry, Article, Analytical Chemistry, Computer Communication Networks, Electronic engineering, Mobile wireless sensor network, Computer Science::Networking and Internet Architecture, lcsh:TP1-1185, Electrical and Electronic Engineering, wireless sensor networks, Instrumentation, Computer Science::Information Theory, business.industry, Signal Processing, Computer-Assisted, Equipment Design, Models, Theoretical, Antenna diversity, Atomic and Molecular Physics, and Optics, Cooperative diversity, Key distribution in wireless sensor networks, Remote Sensing Technology, Antenna (radio), business, receive diversity, Wireless Technology, Wireless sensor network, Algorithms, Multipath propagation, smart antennas

Abstract

Wireless sensor networks have attracted a lot of attention recently. In this paper, we develop a channel model based on the elliptical model for multipath components involving randomly placed scatterers in the scattering region with sensors deployed on a field. We verify that in a sensor network, the use of receive diversity techniques improves the performance of the system. Extensive performance analysis of the system is carried out for both single and multiple antennas with the applied receive diversity techniques. Performance analyses based on variations in receiver height, maximum multipath delay and transmit power have been performed considering different numbers of antenna elements present in the receiver array, Our results show that increasing the number of antenna elements for a wireless sensor network does indeed improve the BER rates that can be obtained.

Published

2010

29. A Distance-Based Energy Aware Routing Algorithm for Wireless Sensor Networks

Author

Jin Wang, Lei Shu, Sungyoung Lee, Yu Niu, and Jeong-Uk Kim

Subjects

Routing protocol, Energy-Generating Resources, Engineering, Distributed computing, Geographic routing, lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, Computer Communication Networks, Computer Science::Networking and Internet Architecture, Mobile wireless sensor network, Cluster Analysis, Telemetry, lcsh:TP1-1185, Computer Simulation, Destination-Sequenced Distance Vector routing, Electrical and Electronic Engineering, wireless sensor networks, Instrumentation, energy efficiency, network lifetime, Electronic Data Processing, Static routing, business.industry, hop number, Energy consumption, Atomic and Molecular Physics, and Optics, Key distribution in wireless sensor networks, Link-state routing protocol, routing, hotspot, business, Algorithms, Computer network

Abstract

Energy efficiency and balancing is one of the primary challenges for wireless sensor networks (WSNs) since the tiny sensor nodes cannot be easily recharged once they are deployed. Up to now, many energy efficient routing algorithms or protocols have been proposed with techniques like clustering, data aggregation and location tracking etc. However, many of them aim to minimize parameters like total energy consumption, latency etc., which cause hotspot nodes and partitioned network due to the overuse of certain nodes. In this paper, a Distance-based Energy Aware Routing (DEAR) algorithm is proposed to ensure energy efficiency and energy balancing based on theoretical analysis of different energy and traffic models. During the routing process, we consider individual distance as the primary parameter in order to adjust and equalize the energy consumption among involved sensors. The residual energy is also considered as a secondary factor. In this way, all the intermediate nodes will consume their energy at similar rate, which maximizes network lifetime. Simulation results show that the DEAR algorithm can reduce and balance the energy consumption for all sensor nodes so network lifetime is greatly prolonged compared to other routing algorithms.

Published

2010

30. Automated Construction of Node Software Using Attributes in a Ubiquitous Sensor Network Environment

Author

Jang-Mook Kang, Juil Kim, and Woojin Lee

Subjects

Engineering, Brooks–Iyengar algorithm, automated construction, Visual sensor network, Real-time computing, attributes, lcsh:Chemical technology, Biochemistry, Article, node software, Analytical Chemistry, Network simulation, Computer Communication Networks, ubiquitous sensor network application, Mobile wireless sensor network, Telemetry, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, business.industry, Node (networking), Models, Theoretical, Atomic and Molecular Physics, and Optics, Sensor web, Key distribution in wireless sensor networks, model-based development, business, Wireless sensor network, Software

Abstract

In sensor networks, nodes must often operate in a demanding environment facing restrictions such as restricted computing resources, unreliable wireless communication and power shortages. Such factors make the development of ubiquitous sensor network (USN) applications challenging. To help developers construct a large amount of node software for sensor network applications easily and rapidly, this paper proposes an approach to the automated construction of node software for USN applications using attributes. In the proposed technique, application construction proceeds by first developing a model for the sensor network and then designing node software by setting the values of the predefined attributes. After that, the sensor network model and the design of node software are verified. The final source codes of the node software are automatically generated from the sensor network model. We illustrate the efficiency of the proposed technique by using a gas/light monitoring application through a case study of a Gas and Light Monitoring System based on the Nano-Qplus operating system. We evaluate the technique using a quantitative metric—the memory size of execution code for node software. Using the proposed approach, developers are able to easily construct sensor network applications and rapidly generate a large number of node softwares at a time in a ubiquitous sensor network environment.

Published

2010

31. The Coverage Problem in Video-Based Wireless Sensor Networks: A Survey

Author

Luiz Affonso Guedes and Daniel G. Costa

Subjects

Wi-Fi array, Computer science, Visual sensor network, Video Recording, Review, lcsh:Chemical technology, Biochemistry, Analytical Chemistry, Computer Communication Networks, the coverage problem, sensor deployment, Mobile wireless sensor network, Wireless, lcsh:TP1-1185, video-based wireless sensor networks, Electrical and Electronic Engineering, Fixed wireless, Instrumentation, business.industry, Wireless network, coverage metrics, Wireless WAN, Atomic and Molecular Physics, and Optics, Wireless site survey, Key distribution in wireless sensor networks, directional sensing, business, Wireless Technology, Wireless sensor network, Algorithms, Municipal wireless network, Computer network

Abstract

Wireless sensor networks typically consist of a great number of tiny low-cost electronic devices with limited sensing and computing capabilities which cooperatively communicate to collect some kind of information from an area of interest. When wireless nodes of such networks are equipped with a low-power camera, visual data can be retrieved, facilitating a new set of novel applications. The nature of video-based wireless sensor networks demands new algorithms and solutions, since traditional wireless sensor networks approaches are not feasible or even efficient for that specialized communication scenario. The coverage problem is a crucial issue of wireless sensor networks, requiring specific solutions when video-based sensors are employed. In this paper, it is surveyed the state of the art of this particular issue, regarding strategies, algorithms and general computational solutions. Open research areas are also discussed, envisaging promising investigation considering coverage in video-based wireless sensor networks.

Published

2010

32. Wireless Intelligent Sensors Management Application Protocol-WISMAP

Author

J. C. Cuevas-Martinez, M. A. Gadeo-Martos, J. Canada-Bago, Antonio Jesus Yuste-Delgado, and J. A. Fernandez-Prieto

Subjects

Visual sensor network, Computer science, Real-time computing, application protocol, lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, Computer Communication Networks, Intelligent sensor, Artificial Intelligence, Mobile wireless sensor network, fuzzy rule-based system, Telemetry, Wireless, lcsh:TP1-1185, Electrical and Electronic Engineering, wireless sensor networks, Instrumentation, business.industry, Signal Processing, Computer-Assisted, Equipment Design, Application layer, Atomic and Molecular Physics, and Optics, Sensor web, Key distribution in wireless sensor networks, Sensor node, business, Communications protocol, Wireless Technology, Wireless sensor network, Software

Abstract

Although many recent studies have focused on the development of new applications for wireless sensor networks, less attention has been paid to knowledge-based sensor nodes. The objective of this work is the development in a real network of a new distributed system in which every sensor node can execute a set of applications, such as fuzzy ruled-base systems, measures, and actions. The sensor software is based on a multi-agent structure that is composed of three components: management, application control, and communication agents, a service interface, which provides applications the abstraction of sensor hardware and other components, and an application layer protocol. The results show the effectiveness of the communication protocol and that the proposed system is suitable for a wide range of applications. As real world applications, this work presents an example of a fuzzy rule-based system and a noise pollution monitoring application that obtains a fuzzy noise indicator.

Published

2010

33. An Efficient Lagrangean Relaxation-based Object Tracking Algorithm in Wireless Sensor Networks

Author

Frank Yeong-Sung Lin and Cheng-Ta Lee

Subjects

Mathematical optimization, Optimization problem, Computer science, Visual sensor network, lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, Mobile wireless sensor network, lcsh:TP1-1185, Electrical and Electronic Engineering, wireless sensor networks, Instrumentation, object tracking, Models, Theoretical, Lagrangean relaxation, Atomic and Molecular Physics, and Optics, Key distribution in wireless sensor networks, Video tracking, Remote Sensing Technology, Scalability, Relaxation (approximation), Wireless Technology, Algorithm, Wireless sensor network, Algorithms

Abstract

In this paper we propose an energy-efficient object tracking algorithm in wireless sensor networks (WSNs). Such sensor networks have to be designed to achieve energy-efficient object tracking for any given arbitrary topology. We consider in particular the bi-directional moving objects with given frequencies for each pair of sensor nodes and link transmission cost. This problem is formulated as a 0/1 integer-programming problem. A Lagrangean relaxation-based (LR-based) heuristic algorithm is proposed for solving the optimization problem. Experimental results showed that the proposed algorithm achieves near optimization in energy-efficient object tracking. Furthermore, the algorithm is very efficient and scalable in terms of the solution time.

Published

2010

34. Energy-Efficient and Fast Data Gathering Protocols for Indoor Wireless Sensor Networks

Author

Abdullah Erdal Tümer, Mesut Gündüz, and Selçuk Üniversitesi

Subjects

Routing protocol, Engineering, reactive applications, data gathering, lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, Computer Communication Networks, event-driven, data aggregation and filtering, xor, Mobile wireless sensor network, Telemetry, Computer Simulation, lcsh:TP1-1185, wireless sensor networks, routing protocols, data gathering, reactive applications, critical threshold, Electrical and Electronic Engineering, Instrumentation, Bitwise operation, Protocol (science), business.industry, Atomic and Molecular Physics, and Optics, Key distribution in wireless sensor networks, Link-state routing protocol, business, Wireless sensor network, Algorithms, Efficient energy use, Computer network

Abstract

WOS: 000282218800009, PubMed: 22163640, Wireless Sensor Networks have become an important technology with numerous potential applications for the interaction of computers and the physical environment in civilian and military areas. In the routing protocols that are specifically designed for the applications used by sensor networks, the limited available power of the sensor nodes has been taken into consideration in order to extend the lifetime of the networks. In this paper, two protocols based on LEACH and called R-EERP and S-EERP with base and threshold values are presented. R-EERP and S-EERP are two efficient energy aware routing protocols that can be used for some critical applications such as detecting dangerous gases (methane, ammonium, carbon monoxide, etc.) in an indoor environment. In R-EERP, sensor nodes are deployed randomly in a field similar to LEACH. In S-EERP, nodes are deployed sequentially in the rooms of the flats of a multi-story building. In both protocols, nodes forming clusters do not change during a cluster change time, only the cluster heads change. Furthermore, an XOR operation is performed on the collected data in order to prevent the sending of the same data sensed by the nodes close to each other. Simulation results show that our proposed protocols are more energy-efficient than the conventional LEACH protocol., Selcuk UniversitySelcuk University [09101011], This work has been conducted within the scope of a doctorial thesis and was supported by BAP coordinator ship of Selcuk University under Project No. 09101011.

Published

2010

35. Authentication and Key Establishment in Dynamic Wireless Sensor Networks

Author

Joonsang Baek, Javier Lopez, Ying Qiu, and Jianying Zhou

Subjects

Key establishment, Brooks–Iyengar algorithm, Computer science, lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, Secure communication, key management, Mobile wireless sensor network, lcsh:TP1-1185, Electrical and Electronic Engineering, wireless sensor networks, Key management, Instrumentation, energy efficiency, scalability, business.industry, Atomic and Molecular Physics, and Optics, Sensor web, Key distribution in wireless sensor networks, Sensor node, Key (cryptography), authentication, business, Wireless sensor network, Computer network, Efficient energy use

Abstract

When a sensor node roams within a very large and distributed wireless sensor network, which consists of numerous sensor nodes, its routing path and neighborhood keep changing. In order to provide a high level of security in this environment, the moving sensor node needs to be authenticated to new neighboring nodes and a key established for secure communication. The paper proposes an efficient and scalable protocol to establish and update the authentication key in a dynamic wireless sensor network environment. The protocol guarantees that two sensor nodes share at least one key with probability 1 (100%) with less memory and energy cost, while not causing considerable communication overhead.

Published

2010

36. Reliable Fiber Sensor System with Star-Ring-Bus Architecture

Author

Kuan-Yan Huang, Jun-Bo Wang, and Peng-Chun Peng

Subjects

Engineering, Reliability (computer networking), A* search algorithm, Ring laser, Topology (electrical circuits), Star (graph theory), lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, law.invention, fiber Bragg grating, Computer Science::Hardware Architecture, Fiber Bragg grating, law, Mobile wireless sensor network, Computer Science::Networking and Internet Architecture, lcsh:TP1-1185, Electrical and Electronic Engineering, star-ring-bus architecture, Instrumentation, business.industry, sensor system, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Electrical engineering, Atomic and Molecular Physics, and Optics, Key distribution in wireless sensor networks, business, Computer hardware

Abstract

This work presents a novel star-ring-bus sensor system and demonstrates its effectiveness. The main trunk of the proposed sensor system is a star topology and the sensing branches comprise a series of bus subnets. Any weakness in the reliability of the sensor system is overcome by adding remote nodes and switches to the ring and bus subnets. To construct the proposed star-ring-bus sensor system, a fiber ring laser scheme is used to improve the signal-to-noise ratio of the sensor system. The proposed system increases the reliability and capacity of fiber sensor systems.

Published

2010

37. Energy-aware Scheduling of Surveillance in Wireless Multimedia Sensor Networks

Author

Xinyao Sun, Sheng Wang, Xue Wang, and Junjie Ma

Subjects

energy-aware scheduling, business.industry, Computer science, Visual sensor network, wireless multimedia sensor networks, Real-time computing, lcsh:Chemical technology, Soft sensor, Biochemistry, Article, Atomic and Molecular Physics, and Optics, Analytical Chemistry, Scheduling (computing), Key distribution in wireless sensor networks, Embedded system, Sensor node, Computer Science::Networking and Internet Architecture, Mobile wireless sensor network, lcsh:TP1-1185, Electrical and Electronic Engineering, target tracking, business, Instrumentation, Wireless sensor network, Data transmission

Abstract

Wireless sensor networks involve a large number of sensor nodes with limited energy supply, which impacts the behavior of their application. In wireless multimedia sensor networks, sensor nodes are equipped with audio and visual information collection modules. Multimedia contents are ubiquitously retrieved in surveillance applications. To solve the energy problems during target surveillance with wireless multimedia sensor networks, an energy-aware sensor scheduling method is proposed in this paper. Sensor nodes which acquire acoustic signals are deployed randomly in the sensing fields. Target localization is based on the signal energy feature provided by multiple sensor nodes, employing particle swarm optimization (PSO). During the target surveillance procedure, sensor nodes are adaptively grouped in a totally distributed manner. Specially, the target motion information is extracted by a forecasting algorithm, which is based on the hidden Markov model (HMM). The forecasting results are utilized to awaken sensor node in the vicinity of future target position. According to the two properties, signal energy feature and residual energy, the sensor nodes decide whether to participate in target detection separately with a fuzzy control approach. Meanwhile, the local routing scheme of data transmission towards the observer is discussed. Experimental results demonstrate the efficiency of energy-aware scheduling of surveillance in wireless multimedia sensor network, where significant energy saving is achieved by the sensor awakening approach and data transmission paths are calculated with low computational complexity.

Published

2010

38. An Adaptive Fault-Tolerant Event Detection Scheme for Wireless Sensor Networks

Author

Yoon-Hwa Choi and Sung-Jib Yim

Subjects

Brooks–Iyengar algorithm, Visual sensor network, Computer science, Real-time computing, lcsh:Chemical technology, Biochemistry, Article, Pattern Recognition, Automated, Analytical Chemistry, Constant false alarm rate, sensor networks, Mobile wireless sensor network, lcsh:TP1-1185, Computer Simulation, Electrical and Electronic Engineering, Instrumentation, fault tolerance, event detection, adaptive, Models, Theoretical, Soft sensor, Atomic and Molecular Physics, and Optics, Key distribution in wireless sensor networks, Sensor node, Remote Sensing Technology, Wireless sensor network

Abstract

In this paper, we present an adaptive fault-tolerant event detection scheme for wireless sensor networks. Each sensor node detects an event locally in a distributed manner by using the sensor readings of its neighboring nodes. Confidence levels of sensor nodes are used to dynamically adjust the threshold for decision making, resulting in consistent performance even with increasing number of faulty nodes. In addition, the scheme employs a moving average filter to tolerate most transient faults in sensor readings, reducing the effective fault probability. Only three bits of data are exchanged to reduce the communication overhead in detecting events. Simulation results show that event detection accuracy and false alarm rate are kept very high and low, respectively, even in the case where 50% of the sensor nodes are faulty.

Published

2010

39. Distributed Power Allocation for Sink-Centric Clusters in Multiple Sink Wireless Sensor Networks

Author

Lei Cao, Hui Zhou, Qiang Sun, Yuehua Guo, Guoan Zhang, Chen Xu, and Wei Shao

Subjects

Routing protocol, Computer science, Distributed computing, Network topology, lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, Computer Communication Networks, sensor networks, clustering hierarchy, Mobile wireless sensor network, Computer Science::Networking and Internet Architecture, Wireless, Cluster Analysis, Telemetry, Computer Simulation, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, Wireless network, business.industry, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, wireless communication, Atomic and Molecular Physics, and Optics, power control, Key distribution in wireless sensor networks, Sensor node, multiple sink, business, Wireless sensor network, Algorithms, Computer network, Power control

Abstract

Due to the battery resource constraints, saving energy is a critical issue in wireless sensor networks, particularly in large sensor networks. One possible solution is to deploy multiple sink nodes simultaneously. Another possible solution is to employ an adaptive clustering hierarchy routing scheme. In this paper, we propose a multiple sink cluster wireless sensor networks scheme which combines the two solutions, and propose an efficient transmission power control scheme for a sink-centric cluster routing protocol in multiple sink wireless sensor networks, denoted as MSCWSNs-PC. It is a distributed, scalable, self-organizing, adaptive system, and the sensor nodes do not require knowledge of the global network and their location. All sinks effectively work out a representative view of a monitored region, after which power control is employed to optimize network topology. The simulations demonstrate the advantages of our new protocol.

Published

2010

40. An Enhanced Backbone-Assisted Reliable Framework for Wireless Sensor Networks

Author

Syed Ali Khayam, Ki-Hyung Kim, Muhammad Taqi Raza, Ali Tufail, and Amna Ali

Subjects

Dynamic Source Routing, Computer science, Distributed computing, Reliability (computer networking), lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, Computer Communication Networks, backbone routers, Default gateway, Mobile wireless sensor network, Telemetry, Computer Simulation, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, Wireless Sensor Network (WSN), reliability, business.industry, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Reproducibility of Results, Models, Theoretical, Atomic and Molecular Physics, and Optics, Key distribution in wireless sensor networks, sensor nodes, Routing (electronic design automation), business, Wireless sensor network, Algorithms, Computer network

Abstract

An extremely reliable source to sink communication is required for most of the contemporary WSN applications especially pertaining to military, healthcare and disaster-recovery. However, due to their intrinsic energy, bandwidth and computational constraints, Wireless Sensor Networks (WSNs) encounter several challenges in reliable source to sink communication. In this paper, we present a novel reliable topology that uses reliable hotlines between sensor gateways to boost the reliability of end-to-end transmissions. This reliable and efficient routing alternative reduces the number of average hops from source to the sink. We prove, with the help of analytical evaluation, that communication using hotlines is considerably more reliable than traditional WSN routing. We use reliability theory to analyze the cost and benefit of adding gateway nodes to a backbone-assisted WSN. However, in hotline assisted routing some scenarios where source and the sink are just a couple of hops away might bring more latency, therefore, we present a Signature Based Routing (SBR) scheme. SBR enables the gateways to make intelligent routing decisions, based upon the derived signature, hence providing lesser end-to-end delay between source to the sink communication. Finally, we evaluate our proposed hotline based topology with the help of a simulation tool and show that the proposed topology provides manifold increase in end-to-end reliability.

Published

2010

41. PIYAS-Proceeding to Intelligent Service Oriented Memory Allocation for Flash Based Data Centric Sensor Devices in Wireless Sensor Networks

Author

Tae-Sun Chung and Sanam Shahla Rizvi

Subjects

Visual sensor network, Computer science, Nand flash memory, Transducers, Information Storage and Retrieval, intelligent techniques, lcsh:Chemical technology, computer.software_genre, Biochemistry, Article, Flash memory, Analytical Chemistry, Computer Communication Networks, Mobile wireless sensor network, Telemetry, lcsh:TP1-1185, wireless sensor networks, data organization, query processing, memory management, Static random-access memory, Electrical and Electronic Engineering, Instrumentation, File system, Computer Storage Devices, business.industry, Equipment Design, Atomic and Molecular Physics, and Optics, Equipment Failure Analysis, Key distribution in wireless sensor networks, Memory management, Embedded system, Sensor node, Computer data storage, business, computer, Wireless sensor network, Computer network

Abstract

Flash memory has become a more widespread storage medium for modern wireless devices because of its effective characteristics like non-volatility, small size, light weight, fast access speed, shock resistance, high reliability and low power consumption. Sensor nodes are highly resource constrained in terms of limited processing speed, runtime memory, persistent storage, communication bandwidth and finite energy. Therefore, for wireless sensor networks supporting sense, store, merge and send schemes, an efficient and reliable file system is highly required with consideration of sensor node constraints. In this paper, we propose a novel log structured external NAND flash memory based file system, called Proceeding to Intelligent service oriented memorY Allocation for flash based data centric Sensor devices in wireless sensor networks (PIYAS). This is the extended version of our previously proposed PIYA [1]. The main goals of the PIYAS scheme are to achieve instant mounting and reduced SRAM space by keeping memory mapping information to a very low size of and to provide high query response throughput by allocation of memory to the sensor data by network business rules. The scheme intelligently samples and stores the raw data and provides high in-network data availability by keeping the aggregate data for a longer period of time than any other scheme has done before. We propose effective garbage collection and wear-leveling schemes as well. The experimental results show that PIYAS is an optimized memory management scheme allowing high performance for wireless sensor networks.

Published

2009

42. A Cluster-Based Architecture to Structure the Topology of Parallel Wireless Sensor Networks

Author

Miguel Garcia, Jaime Lloret, Diana Bri, and Juan R. Diaz

Subjects

Engineering, sensor algorithms, sensor network, clusters architecture, Wireless mesh network, Wireless network, business.industry, Logical topology, lcsh:Chemical technology, Network topology, Topology, Biochemistry, Article, Atomic and Molecular Physics, and Optics, Analytical Chemistry, Key distribution in wireless sensor networks, Mobile wireless sensor network, lcsh:TP1-1185, Electrical and Electronic Engineering, Hierarchical network model, business, Instrumentation, Wireless sensor network

Abstract

A wireless sensor network is a self-configuring network of mobile nodes connected by wireless links where the nodes have limited capacity and energy. In many cases, the application environment requires the design of an exclusive network topology for a particular case. Cluster-based network developments and proposals in existence have been designed to build a network for just one type of node, where all nodes can communicate with any other nodes in their coverage area. Let us suppose a set of clusters of sensor nodes where each cluster is formed by different types of nodes (e.g., they could be classified by the sensed parameter using different transmitting interfaces, by the node profile or by the type of device: laptops, PDAs, sensor etc.) and exclusive networks, as virtual networks, are needed with the same type of sensed data, or the same type of devices, or even the same type of profiles. In this paper, we propose an algorithm that is able to structure the topology of different wireless sensor networks to coexist in the same environment. It allows control and management of the topology of each network. The architecture operation and the protocol messages will be described. Measurements from a real test-bench will show that the designed protocol has low bandwidth consumption and also demonstrates the viability and the scalability of the proposed architecture. Our ccluster-based algorithm is compared with other algorithms reported in the literature in terms of architecture and protocol measurements.

Published

2009

43. High-Resolution Images with Minimum Energy Dissipation and Maximum Field-of-View in Camera-Based Wireless Multimedia Sensor Networks

Author

Mohsen Ebrahimi Moghaddam, Maghsoud Abbaspour, Pouya Bisadi, and Hadi S. Aghdasi

Subjects

Engineering, Visual sensor network, minimum wasted energy, Real-time computing, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Topology (electrical circuits), image stitching, lcsh:Chemical technology, Network topology, Biochemistry, Article, Analytical Chemistry, Image stitching, Mobile wireless sensor network, lcsh:TP1-1185, Electrical and Electronic Engineering, Image sensor, Instrumentation, camera-based sensor networks, high-resolution and wide images, business.industry, Electrical engineering, Energy consumption, Atomic and Molecular Physics, and Optics, Key distribution in wireless sensor networks, business, two-tier network topology, camera selection problem

Abstract

High-resolution images with wide field of view are important in realizing many applications of wireless multimedia sensor networks. Previous works that generally use multi-tier topology and provide such images by increasing the capabilities of camera sensor nodes lead to an increase in network cost. On the other hand, the resulting energy consumption is a considerable issue that has not been seriously considered in previous works. In this paper, high-resolution images with wide field of view are generated without increasing the total cost of network and with minimum energy dissipation. This is achieved by using image stitching in WMSNs, designing a two-tier network topology with new structure, and proposing a camera selection algorithm. In the proposed two-tier structure, low cost camera sensor nodes are used only in the lower-tier and sensor nodes without camera are considered in the upper-tier which decreases total network cost as much as possible. Also, since a simplified image stitching method is implemented and a new algorithm for selecting active nodes is utilized, energy dissipation in the network is decreased by applying the proposed methods. The results of simulations supported the preceding statements.

Published

2009

44. Optimization-Based Channel Constrained Data Aggregation Routing Algorithms in Multi-Radio Wireless Sensor Networks

Author

Hong-Hsu Yen

Subjects

data aggregation, multi-radio, Computer science, Retransmission, channel assignment, optimization, wireless sensor networks, lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, Computer Science::Networking and Internet Architecture, Mobile wireless sensor network, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, Computer Science::Information Theory, business.industry, Quality of service, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Energy consumption, Atomic and Molecular Physics, and Optics, Data aggregator, Key distribution in wireless sensor networks, Sensor node, business, Wireless sensor network, Computer network, Communication channel

Abstract

In wireless sensor networks, data aggregation routing could reduce the number of data transmissions so as to achieve energy efficient transmission. However, data aggregation introduces data retransmission that is caused by co-channel interference from neighboring sensor nodes. This kind of co-channel interference could result in extra energy consumption and significant latency from retransmission. This will jeopardize the benefits of data aggregation. One possible solution to circumvent data retransmission caused by co-channel interference is to assign different channels to every sensor node that is within each other’s interference range on the data aggregation tree. By associating each radio with a different channel, a sensor node could receive data from all the children nodes on the data aggregation tree simultaneously. This could reduce the latency from the data source nodes back to the sink so as to meet the user’s delay QoS. Since the number of radios on each sensor node and the number of non-overlapping channels are all limited resources in wireless sensor networks, a challenging question here is to minimize the total transmission cost under limited number of non-overlapping channels in multi-radio wireless sensor networks. This channel constrained data aggregation routing problem in multi-radio wireless sensor networks is an NP-hard problem. I first model this problem as a mixed integer and linear programming problem where the objective is to minimize the total transmission subject to the data aggregation routing, channel and radio resources constraints. The solution approach is based on the Lagrangean relaxation technique to relax some constraints into the objective function and then to derive a set of independent subproblems. By optimally solving these subproblems, it can not only calculate the lower bound of the original primal problem but also provide useful information to get the primal feasible solutions. By incorporating these Lagrangean multipliers as the link arc weight, the optimization-based heuristics are proposed to get energy-efficient data aggregation tree with better resource (channel and radio) utilization. From the computational experiments, the proposed optimization-based approach is superior to existing heuristics under all tested cases.

Published

2009

45. Design and Evaluation of a Wireless Sensor Network Based Aircraft Strength Testing System

Author

Shenfang Yuan, Sai Ji, Jian Wu, Genyuan Zhou, Yang Wang, and Zilong Wang

Subjects

Engineering, Wi-Fi array, business.industry, cluster-star topology protocol, Real-time computing, aircraft strength testing, lcsh:Chemical technology, undercarriage static test, Network topology, Biochemistry, Article, Atomic and Molecular Physics, and Optics, Analytical Chemistry, Wireless site survey, Key distribution in wireless sensor networks, wireless sensor network, Embedded system, Mobile wireless sensor network, Systems design, Wireless, lcsh:TP1-1185, Electrical and Electronic Engineering, business, Instrumentation, Wireless sensor network

Abstract

The verification of aerospace structures, including full-scale fatigue and static test programs, is essential for structure strength design and evaluation. However, the current overall ground strength testing systems employ a large number of wires for communication among sensors and data acquisition facilities. The centralized data processing makes test programs lack efficiency and intelligence. Wireless sensor network (WSN) technology might be expected to address the limitations of cable-based aeronautical ground testing systems. This paper presents a wireless sensor network based aircraft strength testing (AST) system design and its evaluation on a real aircraft specimen. In this paper, a miniature, high-precision, and shock-proof wireless sensor node is designed for multi-channel strain gauge signal conditioning and monitoring. A cluster-star network topology protocol and application layer interface are designed in detail. To verify the functionality of the designed wireless sensor network for strength testing capability, a multi-point WSN based AST system is developed for static testing of a real aircraft undercarriage. Based on the designed wireless sensor nodes, the wireless sensor network is deployed to gather, process, and transmit strain gauge signals and monitor results under different static test loads. This paper shows the efficiency of the wireless sensor network based AST system, compared to a conventional AST system.

Published

2009

46. CoCMA: Energy-Efficient Coverage Control in Cluster-Based Wireless Sensor Networks Using a Memetic Algorithm

Author

Chwan-Lu Tseng, Chia-Pang Chen, En-Cheng Yang, Tzu-Shiang Lin, Yung-Chung Wang, Joe-Air Jiang, and Cheng-Long Chuang

Subjects

Engineering, Schedule, memetic algorithm, lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, wireless sensor network, Mobile wireless sensor network, ComputerSystemsOrganization_SPECIAL-PURPOSEANDAPPLICATION-BASEDSYSTEMS, lcsh:TP1-1185, Electrical and Electronic Engineering, sensing coverage, Instrumentation, energy efficiency, business.industry, Quality of service, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Energy consumption, Atomic and Molecular Physics, and Optics, Key distribution in wireless sensor networks, Embedded system, Memetic algorithm, business, Wireless sensor network, Efficient energy use, Computer network

Abstract

Deployment of wireless sensor networks (WSNs) has drawn much attention in recent years. Given the limited energy for sensor nodes, it is critical to implement WSNs with energy efficiency designs. Sensing coverage in networks, on the other hand, may degrade gradually over time after WSNs are activated. For mission-critical applications, therefore, energy-efficient coverage control should be taken into consideration to support the quality of service (QoS) of WSNs. Usually, coverage-controlling strategies present some challenging problems: (1) resolving the conflicts while determining which nodes should be turned off to conserve energy; (2) designing an optimal wake-up scheme that avoids awakening more nodes than necessary. In this paper, we implement an energy-efficient coverage control in cluster-based WSNs using a Memetic Algorithm (MA)-based approach, entitled CoCMA, to resolve the challenging problems. The CoCMA contains two optimization strategies: a MA-based schedule for sensor nodes and a wake-up scheme, which are responsible to prolong the network lifetime while maintaining coverage preservation. The MA-based schedule is applied to a given WSN to avoid unnecessary energy consumption caused by the redundant nodes. During the network operation, the wake-up scheme awakens sleeping sensor nodes to recover coverage hole caused by dead nodes. The performance evaluation of the proposed CoCMA was conducted on a cluster-based WSN (CWSN) under either a random or a uniform deployment of sensor nodes. Simulation results show that the performance yielded by the combination of MA and wake-up scheme is better than that in some existing approaches. Furthermore, CoCMA is able to activate fewer sensor nodes to monitor the required sensing area. Source Code

Published

2009

47. Using Reputation Systems and Non-Deterministic Routing to Secure Wireless Sensor Networks

Author

Daniel Villanueva, Juan-Mariano de Goyeneche, José M. Moya, David Fraga, Alvaro Araujo, and Juan Carlos Vallejo

Subjects

Routing protocol, Engineering, Wireless Routing Protocol, 02 engineering and technology, security, routing protocol, Computer security, computer.software_genre, lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, 0202 electrical engineering, electronic engineering, information engineering, Sybil attack, Mobile wireless sensor network, Computer Science::Networking and Internet Architecture, lcsh:TP1-1185, Electrical and Electronic Engineering, wireless sensor networks, Instrumentation, Computer Science::Cryptography and Security, business.industry, 020206 networking & telecommunications, Deterministic routing, Atomic and Molecular Physics, and Optics, Key distribution in wireless sensor networks, reputation system, Reputation system, 020201 artificial intelligence & image processing, business, Wireless sensor network, computer, countermeasure, sybil attack, Computer network

Abstract

Security in wireless sensor networks is difficult to achieve because of the resource limitations of the sensor nodes. We propose a trust-based decision framework for wireless sensor networks coupled with a non-deterministic routing protocol. Both provide a mechanism to effectively detect and confine common attacks, and, unlike previous approaches, allow bad reputation feedback to the network. This approach has been extensively simulated, obtaining good results, even for unrealistically complex attack scenarios.

Published

2009

48. A Mobile Sensor Network System for Monitoring of Unfriendly Environments

Author

Aiguo Song, Guangming Song, Fei Ding, and Yaoxin Zhou

Subjects

Engineering, Visual sensor network, Distributed computing, Deployment, lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, Mobile wireless sensor network, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, Mobile node, business.industry, Node (networking), Testbed, Atomic and Molecular Physics, and Optics, Key distribution in wireless sensor networks, Software deployment, Localization, Embedded system, Systems architecture, business, Wireless sensor network, Mobile sensor network

Abstract

Observing microclimate changes is one of the most popular applications of wireless sensor networks. However, some target environments are often too dangerous or inaccessible to humans or large robots and there are many challenges for deploying and maintaining wireless sensor networks in those unfriendly environments. This paper presents a mobile sensor network system for solving this problem. The system architecture, the mobile node design, the basic behaviors and advanced network capabilities have been investigated respectively. A wheel-based robotic node architecture is proposed here that can add controlled mobility to wireless sensor networks. A testbed including some prototype nodes has also been created for validating the basic functions of the proposed mobile sensor network system. Motion performance tests have been done to get the positioning errors and power consumption model of the mobile nodes. Results of the autonomous deployment experiment show that the mobile nodes can be distributed evenly into the previously unknown environments. It provides powerful support for network deployment and maintenance and can ensure that the sensor network will work properly in unfriendly environments.

Published

2008

49. Development of Light Powered Sensor Networks for Thermal Comfort Measurement

Author

Dasheng Lee

Subjects

Energy beacon enabled mode, Engineering, Thermal comfort, lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, Mobile wireless sensor network, Electronic engineering, Wireless, lcsh:TP1-1185, CSV, Wireless power transfer, Electrical and Electronic Engineering, Instrumentation, Light-powered sensor networks, business.industry, Node (networking), Electrical engineering, RF module, Atomic and Molecular Physics, and Optics, Key distribution in wireless sensor networks, PMV, Sensor node, business, Wireless sensor network

Abstract

Recent technological advances in wireless communications have enabled easy installation of sensor networks with air conditioning equipment control applications. However, the sensor node power supply, through either power lines or battery power, still presents obstacles to the distribution of the sensing systems. In this study, a novel sensor network, powered by the artificial light, was constructed to achieve wireless power transfer and wireless data communications for thermal comfort measurements. The sensing node integrates an IC-based temperature sensor, a radiation thermometer, a relative humidity sensor, a micro machined flow sensor and a microprocessor for predicting mean vote (PMV) calculation. The 935 MHz band RF module was employed for the wireless data communication with a specific protocol based on a special energy beacon enabled mode capable of achieving zero power consumption during the inactive periods of the nodes. A 5W spotlight, with a dual axis tilt platform, can power the distributed nodes over a distance of up to 5 meters. A special algorithm, the maximum entropy method, was developed to estimate the sensing quantity of climate parameters if the communication module did not receive any response from the distributed nodes within a certain time limit. The light-powered sensor networks were able to gather indoor comfort-sensing index levels in good agreement with the comfort-sensing vote (CSV) preferred by a human being and the experimental results within the environment suggested that the sensing system could be used in air conditioning systems to implement a comfort-optimal control strategy.

Published

2008

50. An Energy-Efficient and High-Quality Video Transmission Architecture in Wireless Video-Based Sensor Networks

Author

Mohsen Ebrahimi Moghadam, Maghsoud Abbaspour, Yasaman Samei, and Hadi S. Aghdasi

Subjects

Routing protocol, Energy Efficiency, Visual sensor network, Computer science, lcsh:Chemical technology, Video quality, Biochemistry, Article, Analytical Chemistry, Wireless Multimedia Sensor Network, Video Sensor Nodes, Communication Protocol Stack, Video Quality, Mobile wireless sensor network, Wireless, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, business.industry, Network layer, Atomic and Molecular Physics, and Optics, Key distribution in wireless sensor networks, Communications protocol, business, Wireless sensor network, Efficient energy use, Computer network

Abstract

Technological progress in the fields of Micro Electro-Mechanical Systems (MEMS) and wireless communications and also the availability of CMOS cameras, microphones and small-scale array sensors, which may ubiquitously capture multimedia content from the field, have fostered the development of low-cost limited resources Wireless Video-based Sensor Networks (WVSN). With regards to the constraints of video-based sensor nodes and wireless sensor networks, a supporting video stream is not easy to implement with the present sensor network protocols. In this paper, a thorough architecture is presented for video transmission over WVSN called Energy-efficient and high-Quality Video transmission Architecture (EQV-Architecture). This architecture influences three layers of communication protocol stack and considers wireless video sensor nodes constraints like limited process and energy resources while video quality is preserved in the receiver side. Application, transport, and network layers are the layers in which the compression protocol, transport protocol, and routing protocol are proposed respectively, also a dropping scheme is presented in network layer. Simulation results over various environments with dissimilar conditions revealed the effectiveness of the architecture in improving the lifetime of the network as well as preserving the video quality.

Published

2008