The Experts below are selected from a list of 24 Experts worldwide ranked by ideXlab platform
Ihab Adly - One of the best experts on this subject based on the ideXlab platform.
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Wireless street lighting system using Zigbee Cluster Library
2017 Japan-Africa Conference on Electronics Communications and Computers (JAC-ECC), 2017Co-Authors: Beshoy Samy, Ihab AdlyAbstract:Street lighting consumes a substantial amount of energy and improving its efficiency is a significant challenge. A promising approach to enhance the efficiency is through the use of intelligent control systems. Intelligent street lighting utilizing LED-based luminaries are made to be energy efficient through using adaptable/dynamic illumination and around the clock lamp monitoring. In this work, an intelligent LED street lighting solution is proposed based on Zigbee wireless network and using the Zigbee Cluster Library (ZCL) messaging protocol to accelerate the development of the control application meanwhile allowing for Over The Air programming (OTA) of the wireless nodes after deployment. An experimental prototype for the proposed solution was implemented using the Zigbee Cluster Libraries, a sample control application was developed and ZCL functions were tested with the prototype.
Beshoy Samy - One of the best experts on this subject based on the ideXlab platform.
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Wireless street lighting system using Zigbee Cluster Library
2017 Japan-Africa Conference on Electronics Communications and Computers (JAC-ECC), 2017Co-Authors: Beshoy Samy, Ihab AdlyAbstract:Street lighting consumes a substantial amount of energy and improving its efficiency is a significant challenge. A promising approach to enhance the efficiency is through the use of intelligent control systems. Intelligent street lighting utilizing LED-based luminaries are made to be energy efficient through using adaptable/dynamic illumination and around the clock lamp monitoring. In this work, an intelligent LED street lighting solution is proposed based on Zigbee wireless network and using the Zigbee Cluster Library (ZCL) messaging protocol to accelerate the development of the control application meanwhile allowing for Over The Air programming (OTA) of the wireless nodes after deployment. An experimental prototype for the proposed solution was implemented using the Zigbee Cluster Libraries, a sample control application was developed and ZCL functions were tested with the prototype.
Gerard Broeksteeg - One of the best experts on this subject based on the ideXlab platform.
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Bridging light applications to the IP domain
2011 IEEE International Conference on Consumer Electronics (ICCE), 2011Co-Authors: Johan J. Lukkien, Emmanuel David Lucas Michael Frimout, Gerard BroeksteegAbstract:With the advent of LED lights as well as lighting systems that have communication capabilities, new lighting setups and scenarios have become possible. New standards of the Zigbee Cluster Library (ZCL) in lighting systems describe the protocols for controlling and monitoring devices in such systems. In this paper we examine the problem of bridging this Zigbee domain to the IP domain such as allowing standardized access and easy integration of advanced lighting scenarios. We define two access levels for the bridging: a message-based API, which translates the protocol and which allows integration in arbitrary networked environments and an HTTP interface that gives access to an embedded web application for direct control purposes. We show a realization of this design on a prototype board of Zigbee and IP modules along with measurements on response times.
Johan J. Lukkien - One of the best experts on this subject based on the ideXlab platform.
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Bridging light applications to the IP domain
2011 IEEE International Conference on Consumer Electronics (ICCE), 2011Co-Authors: Johan J. Lukkien, Emmanuel David Lucas Michael Frimout, Gerard BroeksteegAbstract:With the advent of LED lights as well as lighting systems that have communication capabilities, new lighting setups and scenarios have become possible. New standards of the Zigbee Cluster Library (ZCL) in lighting systems describe the protocols for controlling and monitoring devices in such systems. In this paper we examine the problem of bridging this Zigbee domain to the IP domain such as allowing standardized access and easy integration of advanced lighting scenarios. We define two access levels for the bridging: a message-based API, which translates the protocol and which allows integration in arbitrary networked environments and an HTTP interface that gives access to an embedded web application for direct control purposes. We show a realization of this design on a prototype board of Zigbee and IP modules along with measurements on response times.
Hezhi Lin - One of the best experts on this subject based on the ideXlab platform.
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ICCSE - LED intelligent lighting system based on 6LoWPAN
2016 11th International Conference on Computer Science & Education (ICCSE), 2016Co-Authors: Lianfen Huang, Yang Xiao, Jianyuan Liu, Hezhi LinAbstract:Nowadays, the LED industry has witnessed an ever-growing development. LED intelligent lighting system, which is highly-efficient, environment-friendly, intelligent, and user-friendly, has become a new trend in the lighting industry. Formed by LED lamps, wireless sensor network needs a large amount of nodes. To realize its IP, a large number of IP addresses are needed. But the wireless sensor network is not compatible with IPv6, which contains lots of address resources. The design and implementation of ipv6 node based on the protocol of 6LoWPAN will be first illustrated in this paper. IPv6node uses CC2530 as the hardware core, and combines with LED constant-current drive circuit. The software part applies Contiki, an open-source operating system, adopts Zigbee Cluster Library as the application, blends uIPv6 protocol stack and 6LoWPAN technology to achieve the compatibility between IPv6 and IEEE 802.15.4, and connects the IPv6 nodes by using RPL router protocol so as to form a wireless lighting network based on IPv6. Then the design of the gateway node used to convert IPv4 protocol and IPv6 protocol will be introduced in the paper. It applies CC2538 microcontroller and make possible the frequent transceiver of wireless radio. Then the paper introduces the design and implementation of network communication module and the interface and function module on the Android interface through the appliance of the IPv4 control node.
