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Reinforcement fabrics with electronic transmission capabilities

National Textile Center. F05-AE13. Reinforcement fabrics with electronic transmission capabilities. Gwynedd Thomas, Auburn Polymer and Fiber Engineering Sabit Adanur, Auburn Polymer and Fiber Engineering Lloyd Riggs, Auburn Electrical and Computer Engineering

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Reinforcement fabrics with electronic transmission capabilities

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  1. National Textile Center F05-AE13 Reinforcement fabrics with electronic transmission capabilities Gwynedd Thomas, Auburn Polymer and Fiber Engineering Sabit Adanur, Auburn Polymer and Fiber Engineering Lloyd Riggs, Auburn Electrical and Computer Engineering David Elton, Auburn Civil Engineering Houmin Li, Graduate Student, Auburn Polymer and Fiber Engineering

  2. The Concept • A national communications infrastructure can be built into the roads solves connection problems • Localized antennas would be a part of the road structure and supplemented by cell towers will allow better coverage and robustness • Automobiles could identify their locations as well as communicate with other vehicles A network can be created by burying antennas underneath the roads

  3. Problems with present technology • Cell phones drop calls • Cell towers are vulnerable to weather and deliberate attack • Current GPS applications are mainly for navigation and do not account for other users Cell towers have fragile equipment that can be easily damaged

  4. Copper Tape Roadbed material Copper Tape Fiber-Based Road Antenna Materials • Geosynthetic materials are a norm for use in road construction • We are integrating antenna structures into the geosynthetics to transmit and receive from the road itself • Antennas can be constructed using roadbed material as a basic component • Performance characteristics are similar to those of conventional antennas Road construction using geosynthetics 2.8 GHz fabric patch antenna Patch antenna structure

  5. Power Loss from Asphalt Interference Field test, 3/4/06 - Successful transmission from underneath an asphalt slab with minimal power loss Field test configurations for asphalt power loss test

  6. Transmission Power Loss Test 2 • Replication test on 4/20/06 verified earlier testing by successful transmission with minimal power loss • Results of both experiments show antennas are capable of transmitting through asphalt Buried antenna test configuration at NCAT

  7. Fabric Antenna Transmission Test Results Antenna performance characteristics were similar to those of conventional antennas Radiation pattern VSWR* *Voltage Standing Wave Ratio

  8. Implications of the Research • Antennas placed periodically along the road will ensure uninterrupted cell phone coverage • Cars equipped with antennas and integrated hardware and software can become users on the network • Communication from car to car, avoiding collisions and obtaining best traffic information • Police can track a stolen vehicle in seconds • Street lights become smarter with more information Antennas placed periodically under the road create a network of uninterrupted coverage along its entire length

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