The Experts below are selected from a list of 219 Experts worldwide ranked by ideXlab platform
J.-b. Viollet - One of the best experts on this subject based on the ideXlab platform.
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which wireless technology for industrial wireless sensor networks the development of ocari technology
IEEE Transactions on Industrial Electronics, 2009Co-Authors: Al K Agha, M.-h. Bertin, Tuan Dang, Alexandre Guitton, Pascale Minet, J.-b. ViolletAbstract:In this paper, we present an industrial development of a wireless sensor network technology called OCARI: optimization of communication for ad hoc reliable industrial networks. It targets Applications in harsh environments such as power plants and warships. OCARI is a wireless-communication technology that supports mesh topology and power-aware ad hoc routing protocol aimed at maximizing the network lifetime. It is based on IEEE 802.15.4 physical layer with deterministic media access control layer for time-constrained communication. During the nontime-constrained communication period, its ad hoc routing strategy uses an energy-aware optimized-link state-routing proactive protocol. An OCARI Application layer (APL) is based on Zigbee Application support sublayer and APL primitives and profiles to provide maximum compatibility with Zigbee Applications. To fully assess this technology, extensive tests are done in industrial facilities at ElectricitEacute De France R&D as well as at Direction des Constructions Navales Services. Our objective is then to promote this specification as an open standard of industrial wireless technology.
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Which Wireless Technology for Industrial Wireless Sensor Networks? The Development of OCARI Technology
IEEE Transactions on Industrial Electronics, 2009Co-Authors: Khaldoun Al Agha, M.-h. Bertin, Tuan Dang, Thierry Val, Alexandre Guitton, Pascale Minet, J.-b. ViolletAbstract:In this paper, we present an industrial development of a wireless sensor network technology called OCARI: Optimization of Communication for Ad hoc Reliable Industrial networks. It targets Applications in harsh environments such as power plants and warships. OCARI is a wireless-communication technology that supports mesh topology and power-aware ad hoc routing protocol aimed at maximizing the network lifetime. It is based on IEEE 802.15.4 physical layer with deterministic Media Access Control layer for time-constrained communication. During the nontime-constrained communication period, its ad hoc routing strategy uses an energy-aware optimized-link state-routing proactive protocol. An OCARI Application layer (APL) is based on Zigbee Application support sublayer and APL primitives and profiles to provide maximum compatibility with Zigbee Applications. To fully assess this technology, extensive tests are done in industrial facilities at Electricité De France R&D as well as at Direction des Constructions Navales Services. Our objective is then to pro mote this specification as an open standard of industrial wireless technology.
Kim Fung Tsang - One of the best experts on this subject based on the ideXlab platform.
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a novel tunable dual band low noise amplifier for 868 915 mhz and 2 4 ghz Zigbee Application by cmos technology
Microwave and Optical Technology Letters, 2010Co-Authors: Kai Xuan, Kim Fung TsangAbstract:A dual-band (868/915 MHz and 2.4 GHz) low noise amplifier for Zigbee Applications is designed using 0.35-μm CMOS technology.At 868/915 MHz and 2.4 GHz, the gains achieved are both 16 dB and the resulting noise figures are about 2.5 dB and 2.7 dB, respectively. The input and the output reflections are below −10 dB in both bands. The amplifier works at 2.5 V supply voltage with 12 mA current dissipation. © 2010 Wiley Periodicals, Inc. Microwave Opt Technol Lett 52: 507–510, 2010; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/mop.24964
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A novel tunable dual‐band low noise amplifier for 868/915 MHz and 2.4 GHz Zigbee Application by CMOS technology
Microwave and Optical Technology Letters, 2010Co-Authors: Kai Xuan, Kim Fung TsangAbstract:A dual-band (868/915 MHz and 2.4 GHz) low noise amplifier for Zigbee Applications is designed using 0.35-μm CMOS technology.At 868/915 MHz and 2.4 GHz, the gains achieved are both 16 dB and the resulting noise figures are about 2.5 dB and 2.7 dB, respectively. The input and the output reflections are below −10 dB in both bands. The amplifier works at 2.5 V supply voltage with 12 mA current dissipation. © 2010 Wiley Periodicals, Inc. Microwave Opt Technol Lett 52: 507–510, 2010; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/mop.24964
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a novel tunable dual band low noise amplifier for 868 915 mhz and 2 4 ghz Zigbee Application by 0 35 um cmos technology
Asia-Pacific Microwave Conference, 2008Co-Authors: Kai Xuan, Kim Fung TsangAbstract:This work presents a novel solution for dual-band Applications, which aims at 868/915MHz and 2.4GHz Zigbee Applications. In this proposed design, the receiver receives two signal bands simultaneously without using switches. In addition, the receiver band can be tuned by changing the resonant capacitance.
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A novel tunable dual-band low noise amplifier for 868/915 MHz and 2.4 GHz Zigbee Application by 0.35 um CMOS technology.
2008 Asia-Pacific Microwave Conference, 2008Co-Authors: Kai Xuan, Kim Fung TsangAbstract:This work presents a novel solution for dual-band Applications, which aims at 868/915MHz and 2.4GHz Zigbee Applications. In this proposed design, the receiver receives two signal bands simultaneously without using switches. In addition, the receiver band can be tuned by changing the resonant capacitance.
M.-h. Bertin - One of the best experts on this subject based on the ideXlab platform.
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which wireless technology for industrial wireless sensor networks the development of ocari technology
IEEE Transactions on Industrial Electronics, 2009Co-Authors: Al K Agha, M.-h. Bertin, Tuan Dang, Alexandre Guitton, Pascale Minet, J.-b. ViolletAbstract:In this paper, we present an industrial development of a wireless sensor network technology called OCARI: optimization of communication for ad hoc reliable industrial networks. It targets Applications in harsh environments such as power plants and warships. OCARI is a wireless-communication technology that supports mesh topology and power-aware ad hoc routing protocol aimed at maximizing the network lifetime. It is based on IEEE 802.15.4 physical layer with deterministic media access control layer for time-constrained communication. During the nontime-constrained communication period, its ad hoc routing strategy uses an energy-aware optimized-link state-routing proactive protocol. An OCARI Application layer (APL) is based on Zigbee Application support sublayer and APL primitives and profiles to provide maximum compatibility with Zigbee Applications. To fully assess this technology, extensive tests are done in industrial facilities at ElectricitEacute De France R&D as well as at Direction des Constructions Navales Services. Our objective is then to promote this specification as an open standard of industrial wireless technology.
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Which Wireless Technology for Industrial Wireless Sensor Networks? The Development of OCARI Technology
IEEE Transactions on Industrial Electronics, 2009Co-Authors: Khaldoun Al Agha, M.-h. Bertin, Tuan Dang, Thierry Val, Alexandre Guitton, Pascale Minet, J.-b. ViolletAbstract:In this paper, we present an industrial development of a wireless sensor network technology called OCARI: Optimization of Communication for Ad hoc Reliable Industrial networks. It targets Applications in harsh environments such as power plants and warships. OCARI is a wireless-communication technology that supports mesh topology and power-aware ad hoc routing protocol aimed at maximizing the network lifetime. It is based on IEEE 802.15.4 physical layer with deterministic Media Access Control layer for time-constrained communication. During the nontime-constrained communication period, its ad hoc routing strategy uses an energy-aware optimized-link state-routing proactive protocol. An OCARI Application layer (APL) is based on Zigbee Application support sublayer and APL primitives and profiles to provide maximum compatibility with Zigbee Applications. To fully assess this technology, extensive tests are done in industrial facilities at Electricité De France R&D as well as at Direction des Constructions Navales Services. Our objective is then to pro mote this specification as an open standard of industrial wireless technology.
Pascale Minet - One of the best experts on this subject based on the ideXlab platform.
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which wireless technology for industrial wireless sensor networks the development of ocari technology
IEEE Transactions on Industrial Electronics, 2009Co-Authors: Al K Agha, M.-h. Bertin, Tuan Dang, Alexandre Guitton, Pascale Minet, J.-b. ViolletAbstract:In this paper, we present an industrial development of a wireless sensor network technology called OCARI: optimization of communication for ad hoc reliable industrial networks. It targets Applications in harsh environments such as power plants and warships. OCARI is a wireless-communication technology that supports mesh topology and power-aware ad hoc routing protocol aimed at maximizing the network lifetime. It is based on IEEE 802.15.4 physical layer with deterministic media access control layer for time-constrained communication. During the nontime-constrained communication period, its ad hoc routing strategy uses an energy-aware optimized-link state-routing proactive protocol. An OCARI Application layer (APL) is based on Zigbee Application support sublayer and APL primitives and profiles to provide maximum compatibility with Zigbee Applications. To fully assess this technology, extensive tests are done in industrial facilities at ElectricitEacute De France R&D as well as at Direction des Constructions Navales Services. Our objective is then to promote this specification as an open standard of industrial wireless technology.
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Which Wireless Technology for Industrial Wireless Sensor Networks? The Development of OCARI Technology
IEEE Transactions on Industrial Electronics, 2009Co-Authors: Khaldoun Al Agha, M.-h. Bertin, Tuan Dang, Thierry Val, Alexandre Guitton, Pascale Minet, J.-b. ViolletAbstract:In this paper, we present an industrial development of a wireless sensor network technology called OCARI: Optimization of Communication for Ad hoc Reliable Industrial networks. It targets Applications in harsh environments such as power plants and warships. OCARI is a wireless-communication technology that supports mesh topology and power-aware ad hoc routing protocol aimed at maximizing the network lifetime. It is based on IEEE 802.15.4 physical layer with deterministic Media Access Control layer for time-constrained communication. During the nontime-constrained communication period, its ad hoc routing strategy uses an energy-aware optimized-link state-routing proactive protocol. An OCARI Application layer (APL) is based on Zigbee Application support sublayer and APL primitives and profiles to provide maximum compatibility with Zigbee Applications. To fully assess this technology, extensive tests are done in industrial facilities at Electricité De France R&D as well as at Direction des Constructions Navales Services. Our objective is then to pro mote this specification as an open standard of industrial wireless technology.
Alexandre Guitton - One of the best experts on this subject based on the ideXlab platform.
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which wireless technology for industrial wireless sensor networks the development of ocari technology
IEEE Transactions on Industrial Electronics, 2009Co-Authors: Al K Agha, M.-h. Bertin, Tuan Dang, Alexandre Guitton, Pascale Minet, J.-b. ViolletAbstract:In this paper, we present an industrial development of a wireless sensor network technology called OCARI: optimization of communication for ad hoc reliable industrial networks. It targets Applications in harsh environments such as power plants and warships. OCARI is a wireless-communication technology that supports mesh topology and power-aware ad hoc routing protocol aimed at maximizing the network lifetime. It is based on IEEE 802.15.4 physical layer with deterministic media access control layer for time-constrained communication. During the nontime-constrained communication period, its ad hoc routing strategy uses an energy-aware optimized-link state-routing proactive protocol. An OCARI Application layer (APL) is based on Zigbee Application support sublayer and APL primitives and profiles to provide maximum compatibility with Zigbee Applications. To fully assess this technology, extensive tests are done in industrial facilities at ElectricitEacute De France R&D as well as at Direction des Constructions Navales Services. Our objective is then to promote this specification as an open standard of industrial wireless technology.
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Which Wireless Technology for Industrial Wireless Sensor Networks? The Development of OCARI Technology
IEEE Transactions on Industrial Electronics, 2009Co-Authors: Khaldoun Al Agha, M.-h. Bertin, Tuan Dang, Thierry Val, Alexandre Guitton, Pascale Minet, J.-b. ViolletAbstract:In this paper, we present an industrial development of a wireless sensor network technology called OCARI: Optimization of Communication for Ad hoc Reliable Industrial networks. It targets Applications in harsh environments such as power plants and warships. OCARI is a wireless-communication technology that supports mesh topology and power-aware ad hoc routing protocol aimed at maximizing the network lifetime. It is based on IEEE 802.15.4 physical layer with deterministic Media Access Control layer for time-constrained communication. During the nontime-constrained communication period, its ad hoc routing strategy uses an energy-aware optimized-link state-routing proactive protocol. An OCARI Application layer (APL) is based on Zigbee Application support sublayer and APL primitives and profiles to provide maximum compatibility with Zigbee Applications. To fully assess this technology, extensive tests are done in industrial facilities at Electricité De France R&D as well as at Direction des Constructions Navales Services. Our objective is then to pro mote this specification as an open standard of industrial wireless technology.