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Wireless Program. Interested Organizations - wiEngine Wireless Multiple Access Surface Acoustic Wave Sensor System for Diverse Environments M. Pereira da Cunha, University of Maine Micro/Nano Sensors & Low Interference Wireless IC's for Aerospace Applications David Russel , IAR-NRC - PowerPoint PPT Presentation
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Wireless ProgramWireless ProgramInterested Organizations - wiEngineInterested Organizations - wiEngineWireless Multiple Access Surface Acoustic Wave Sensor System for Diverse Environments
M. Pereira da Cunha, University of Maine
Micro/Nano Sensors & Low Interference Wireless IC's for Aerospace Applications David Russel, IAR-NRC
Advanced Sensory Prognostics and Management Systems Douglas L. Goodman, Ridgetop Group, Inc
Surface Acoustic Wave Passive Wireless Multi-Sensor Systems Donald C. Malocha, University of Central Florida
Microfabrication capabilities and optical microsensor activities at INO Francis Picard, INO
Power for Wireless Sensor Networks Ahmadreza Tabesh and Luc G. Fréchette, Universite de Sherbrooke
Challenges to Technology Development and Transition - From Idea to Implementation; Lockheed Martin Perspective Duane Cuttrell, Lockheed Martin Aeronautics
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Wireless ProgramWireless ProgramWorkshop - ProjectsWorkshop - Projects
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Focus Areas Projects / Programs
Description
Fly-by-Wireless
Wi-Testbed Testbeds to evaluate protocols for critical communications with airborne applications
Wi-Engine Replace the wiring harness and sensors currently used for engine monitoring with a wireless system that reduces the wire, wire connectors, wire holds, weight, component volume, system cost and maintenance cost.
Wi-SHM In-situ SHM of thick laminate composite structures
Wi-Sense Address the need for passive wireless thermal, acceleration, and acoustic emission sensors for structural health monitoring. This includes the distribution of sensor networks and the necessity for large quantities of sensors for testing and monitoring large structures
Fly-by-WirelessFly-by-WirelessFocus Areas Projects /
ProgramsDescription Status Outcome
Fly-by-Wireless
Wi-Testbed Testbeds to evaluate protocols for critical communications with airborne applications
Phase 1: Concept of operation completed Phase 2: Creation of project team completed Phase 3: Funding proposals to project team
members in progress Phase 4: Project implementation
Implement a wireless testbed to evaluate the most appropriate protocol for critical communications with airborne applications; ID key performance nodes, and Resistance to EMI/EMP/HIRF.
Wi-Engine Replace the wiring harness and sensors currently used for engine monitoring with a wireless system that reduces the wire, wire connectors, wire holds, weight, component volume, system cost and maintenance cost.
Phase 1: Concept of operation and Creation of project team in progress
Phase 2: Funding proposals in progress Phase 3: Teaming agreement Phase 4: Project implementation
Implementation of a Wireless Sensor System for Engine Monitoring
Wi-SHM In-situ SHM of thick laminate composite structures
Phase 1: The Wi-SENSE project team lead by NASA LaRC to formulate the concept of operation
Phase 2: Funding proposals in progress Phase 3: Teaming agreement Phase 4: Project implementation
Structural health monitoring of the main fuselage and/or the main structure
Wi-Sense Address the need for passive wireless thermal, acceleration, and acoustic emission sensors for structural health monitoring. This includes the distribution of sensor networks and the necessity for large quantities of sensors for testing and monitoring large structures
Phase 1: The Wi-SENSE project team lead by NASA LaRC to formulate the concept of operation
Phase 2: Funding proposals in progress Phase 3: Teaming agreement Phase 4: Project implementation
Simplification of the testing process, enhanced accuracy of test results, and reduced test time for larger surface areas
Wireless ProgramWireless ProgramwiEnginewiEngine
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Wireless ProgramWireless ProgramwiEnginewiEngine
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Wireless ProgramWireless ProgramwiEnginewiEngine
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UTC Wireless ProjectUTC Wireless Project• Potential Program for UTC GroupPotential Program for UTC Group• Pratt and Whitney – Canada RolePratt and Whitney – Canada Role• Sikorsky RoleSikorsky Role• Hamilton Sundstrand RoleHamilton Sundstrand Role• CANEUS RoleCANEUS Role• Project Concept ProposalProject Concept Proposal
UTC Wireless ProjectUTC Wireless Project
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Examples Examples
FundingFundingIRB OpportunitiesIRB Opportunities• Strategic Airlift – Engines:
Prime Contractor: Pratt & Whitney Company Contact: Rick Harvey 860-565-6331 Industry Canada Manager: John MacInnis 613-954-3529, Rick Santos 613-954-3180 Contract Period: 2007–2017 Description: Acquisition of the engines for the C-17s acquired to fill Canada's Strategic Airlift Capability.
• MHP – Maritime Helicopter Project Prime Contractor: Sikorsky Aircraft Corporation Company Contact: James Corcoran203-386-3317 Industry Canada Manager: Bryan Dalphy 613-946-5797 Contract Period: Acquisition contract: 2004–2014 In-Service Support contract: 2004–2024 Description: Replacement of the current SeaKing Helicopter fleet
and the provision of in-service support for the new fleet.
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