On the Embedded Intelligent Remote Monitoring and Control System of Workshop Based on Wireless Sensor Networks
Issue:
Volume 1, Issue 5, October 2013
Pages:
50-54
Received:
4 August 2013
Published:
10 September 2013
DOI:
10.11648/j.ijssn.20130105.11
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Abstract: The embedded intelligent remote monitoring and control system of workshop based on wireless sensor networks sets the sensor technology, embedded technology, network communication technology, data processing technology, Beidou positioning technology, sensing information technology of image and weather, geographic information technology and remote sensing technology in one, forming a digital information management system that can provide a full range of electronic remote monitoring and control for the workshop. Its wireless sensor network is a self-organizing network that is constructed from a large number of sensor nodes, which sets such three technologies of sensor, micro-electromechanical system and network in one, taking the perception, collection and processing of the information of the perceive objects in the network coverage as its aim and transfering it to data processing center to provide a basis for the remote monitoring and control of the workshop. This embedded intelligent remote monitoring and control system of workshop has many advantages: high safety, low cost, intelligence, timely alarm, energy conservation, good real-time control, wide monitoring range, strong adaptability, and so on. This monitoring system can be applied to not only plant monitoring but also other fields, such as environmental monitoring, industrial control, intelligent city, intelligent home, etc, so it has important practical significance and valuable practical value for exerting network advantage and making artificial intelligence promote social progress.
Abstract: The embedded intelligent remote monitoring and control system of workshop based on wireless sensor networks sets the sensor technology, embedded technology, network communication technology, data processing technology, Beidou positioning technology, sensing information technology of image and weather, geographic information technology and remote se...
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Differentiated Service for Smart Grid Neighbourhood Area Networks via Optimal Resource Allocation
Yifeng He,
Mohammad Shams Yazdi
Issue:
Volume 1, Issue 5, October 2013
Pages:
55-60
Received:
11 August 2013
Published:
20 September 2013
DOI:
10.11648/j.ijssn.20130105.12
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Abstract: Smart grid is a modern electric system which uses advanced information and communication technologies to improve efficiency, reliability, and safety in electric power distribution and management. Smart grid communication architecture is typically comprised of three interconnected networks: Wide Area Network (WAN), Neighborhood Area Network (NAN), and Home Area Network (HAN). This paper studies the resource allocation problem for NAN. Specifically, we propose an optimal resource allocation scheme to provide differentiated service, in terms of end-to-end delay, to different classes of traffic in the NAN. The resource allocation problem is formulated into a Linear Programming (LP) problem, which can be solved efficiently. The simulation results demonstrate that the proposed scheme can provide a lower delay to the prioritized class by optimally allocating the resource at each node in the NAN.
Abstract: Smart grid is a modern electric system which uses advanced information and communication technologies to improve efficiency, reliability, and safety in electric power distribution and management. Smart grid communication architecture is typically comprised of three interconnected networks: Wide Area Network (WAN), Neighborhood Area Network (NAN), a...
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Energy Efficient and Trust Metric Based Routing Technique Using Collection Tree Protocol for WSNs
Pooja Kalidas Shinde,
Veeresh Gangappa Kasabegoudar
Issue:
Volume 1, Issue 5, October 2013
Pages:
61-68
Received:
26 August 2013
Published:
30 September 2013
DOI:
10.11648/j.ijssn.20130105.13
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Abstract: In this paper, a readily deployable trust and energy-aware routing protocol is presented. A distributed trust management system incorporating direct and indirect trust information is used to detect and avoid malicious nodes performing routing attacks as well as attacks threatening the reputation exchange process. Also, the energy-awareness is relied upon to extend the network lifetime. Although, significant research effort has been spent on the design of trust models to detect malicious nodes based on direct and indirect evidence, this comes at the cost of additional energy consumption. In order to enhance the security of routing information between the nodes, energy efficient and trust metric based routing protocol using collection tree protocol (CTP) for wireless sensor networks (WSN) has been proposed. Simulated results presented here indicate that the proposed protocol satisfactorily performs the routing and is strong against attacks by exploiting the replay of routing information.
Abstract: In this paper, a readily deployable trust and energy-aware routing protocol is presented. A distributed trust management system incorporating direct and indirect trust information is used to detect and avoid malicious nodes performing routing attacks as well as attacks threatening the reputation exchange process. Also, the energy-awareness is relie...
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