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Wireless Devices and Components

Description:

WT2. Wireless Devices and Components

Devices and subsystems that increase data throughput rates via cell density, increased spectrum, MIMO, and massive MIMO; new "antenna" concepts: embedded, fabric, dot antennas, 3D, multiferroic, biological;

Modulation and demodulation techniques for signal generation and reception through spectral efficiency, noise immunity, jamming immunity, and power efficiency; RF pollution: device and circuit (RF, microwave, mm-wave and optical); processing algorithms - 3D spatial control (targeted volume transmission/receiving and sensing; high resolution 3D localization); high efficiency (low heat) devices such as micro-TWT, smart dust, and inductive couplers. Proposals in the areas of spectrum-related research and development activities that improve the efficiency by which the radio spectrum is used, and the ability of all members of the public to access spectrum-related services. Mobile and automotive radar, smart solar panels, on-panel DC-AC converters, and self-testing and self-networking devices are also of interest mobility, minimum latency, and long battery life are sought. Examples include low-energy Bluetooth; IrDA point and shoot communications; light wave communications (Li-Fi for >10 Gbits/second); near-field communications; self-sustaining technologies; super Wi-Fi; technologies that enable IPv6 and IPv7; inter/intra vehicular communication; smart shopping systems; smart vehicles, traffic control, and parking;

body area networks; smart appliances and textiles; smart drones and drone networks; human body vital signs monitoring; and resilient wireless networks.

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