Our Sponsors
FBW 2010 - 2010 CANEUS Fly-by-Wireless Workshop FBW10
Website www.caneus.org/fbw10 |
Edit Freely
Category Aerospace; wireless communications; passive sensors
Deadline: July 30, 2010 | Date: August 24, 2010
Venue/Country: University of Maine, U.S.A
Updated: 2010-06-10 21:12:27 (GMT+9)
Call For Papers - CFP
2010 CANEUS Fly-by-Wireless Workshop will bring together leaders from aerospace industry, academia, and government agencies, to discuss recent advances in wireless communications focused on applications in aerospace industry. The workshop will be hosted by the University of Maine, Orono, Maine, USA, on August 24- 27, 2010. The Workshop remains a unique forum for wireless technology providers and end-users to discuss aerospace roadmap for future research and development and form meaningful partnerships. New innovations such as battery-free wireless sensor systems, reliable multi-tier wireless networks, and high temperature sensors will be highlighted at the workshop. Ultimately, this effort will contribute to minimizing cables and connectors across the aerospace industry by providing more reliable and higher performance wireless alternatives at lower cost. The 2010 CANEUS FWB Workshop, third of its kind, builds on the successes from the 1st Joint CANEUS/NASA 2007 “Fly-by-Wireless” Workshop, held in March 2007 at Grapevine, Texas and the 2nd CANEUS "Fly-by-Wireless" Workshop held in June 2009 at Montreal, Canada. The first CANEUS/NASA FBW workshop grew out of an identified need from the CANEUS 2006 Aerospace End-User Committee on SHM - Structural Health Monitoring held at Toulouse. Organizations from the Americas, Europe and Asia regions, attending CANEUS workshops, have taken concrete steps to continue development of their wireless programs and also establish successful collaborative projects, e.g. Wi-Testbed, Frequecy Spectrum, Wi-Engine, Wi-SHM, Wi- Sense, and others.CANEUS FBW10 ScopeProvide an international forum for user needs and wireless alternatives to precipitate cooperation and partnerships.Promote understanding of the maturity and capability of alternatives to wired infrastructure.Identify key challenges and solution paths and capturing lessons learned from wired or wireless connectivity that need to be addressed in future architectures and technologies.Quantify the life cycle return on investment or mission need for various applications and opportunities to establish which investments and partnerships have promise.Identify and enable key partnerships, working groups, projects and plans to implementing “Fly-by-Wireless” in aerospace vehicles.Application End-Users Categories:Technology Developers Categories:Sensor DAQ Micro-MiniaturizationLess?Wire ArchitecturesStructural Health Monitoring (SHM)RF immunity in Electromagnetic EnvironmentFrequency Spectrum allocationAircraft/Rotorcraft/Spacecraft/RocketsManned and UnmannedJet Engines and Rockets (hot/cold sections)Ground Support Systems & instrumentationInflatable Wireless Antennas and StructuresPassive wireless RFID & sensor tagsStandalone, robust wireless data acquisitionSelf contained miniaturized wireless sensorsLow weight implementation of SHMScavenge and Rechargeable power sourcesHarsh Environment wireless sensorsRobust Programmable wireless radiosHigh speed wireless avionics communicationsMulti-drop systems & Data on power linesStandard interfaces for HW/SW & RFKeywords: Accepted papers list. Acceptance Rate. EI Compendex. Engineering Index. ISTP index. ISI index. Impact Factor.
Disclaimer: ourGlocal is an open academical resource system, which anyone can edit or update. Usually, journal information updated by us, journal managers or others. So the information is old or wrong now. Specially, impact factor is changing every year. Even it was correct when updated, it may have been changed now. So please go to Thomson Reuters to confirm latest value about Journal impact factor.