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Fields and input admittance of a flanged coaxial antenna excited by a TEM waveAburwein, Abdulmagid Abdussalam, 1948- January 1977 (has links)
No description available.
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The analysis and optimization of bow-tie and TEM horn antennas for pulse radiation using the finite-difference time-domain methodSchlager, Kurt L. 05 1900 (has links)
No description available.
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Partially adaptive space-time processingYang, Ho 12 1900 (has links)
No description available.
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304 |
The effect of common predictable surface errors on the radiation pattern of a paraboloidWynn, Woodson Dale 08 1900 (has links)
No description available.
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Analysis and design of conical spiral antennas in free space and over groundHertel, Thorsten Walter 12 1900 (has links)
No description available.
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Spatial sampling of microwave frequency electrical signals using photoconductive switches on a microstrip transmission lineJones, Mark Loyd 05 1900 (has links)
No description available.
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307 |
Analysis of single and coupled microstrip-fed slot antennasAkhavan, Haj Ghadir January 1996 (has links)
No description available.
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Novel wireless sensor configurations incorporating isotropic radiators on conformal artificial magnetic conductorsCooper, James Roger 27 August 2014 (has links)
The objective of the presented research is to develop a novel, ink-jet printed, chipless, passive, wireless sensor topology, which can radiate in a near isotropic pattern without interference from embedded devices, for use in dispersed sensor networks. This objective includes the development of a hardware based, uniquely identifiable, collision avoidance communication method, and an integrated sensor system that is easily integrated into the topology.
Wireless sensor networks can be and are used in military, medical and industrial applications; and the demand for them is ever growing. However, current sensor networks have various trade-offs and limitations, including cost, number of distinguishable nodes, and ease of manufacturing. These trade-offs lead to unique sensors needing to be designed for each situation. To develop a widely used module, a topology must be developed that can meet as many demands as possible with fair tradeoffs.
Many of the above proposed criteria for the topology are already integrated into RFID technology. Therefore, much of the research is the application and advancement of current RFID technology for the purpose of designing the topology. The research begins with the theory and design of conformal artificial magnetic conductors, which is used in the design of a near isotropic radiator and isolated core for device embedding. Then, novel fabrication techniques will be investigated and deployed in the fabrication of the topology. Next, a novel "smart skin" sensor is developed which is easily integrated into the desired fabrication technique. Finally, an anti-collision RFID circuit for on-tag placement, which is based on frequency-doubling transceivers, is designed, which can also be easily integrated into the final topology.
This module is designed for use with a variety of different sensors. This versatility gives it ruggedness for use in many different environments. For proof of concept, this topology is fabricated and tested against current commercially sold tags.
Through the design and testing of the radiator, circuitry, and embedded sensors, it is shown that this design is a suitable topology for use in many different environments and applications.
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Computer aided optimization of non-equally spaced linear arrays.Lau, Honkan January 1971 (has links)
No description available.
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310 |
Detection algorithms for multiple access and multiple antenna channels /Reid, Aaron Barry. Unknown Date (has links)
The research in this dissertation involves the computationally efficient decoding of multiple access systems and multiple antenna systems. / Thesis (PhDTelecommunications)--University of South Australia, 2004.
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