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Vehicle-to-vehicle communication
Autonomous driving
Vehicle convoys
Abstract
USC researchers have developed a real-time multiple input and multiple output (MIMO) channel sounder to measure the vehicle-to-vehicle propagation channel. This software package and system allows for improvements in the wireless propagation mechanism and the design of...
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Remote localization
Point of sale systems
Inventory tracking
Abstract
USC researchers have developed a mechanism by which location information contained in the structural mode is optimally combined with information contained in the antenna mode, resulting in a signal-to-noise ratio (SNR) gain, which in turn yields more accurate location estimates...
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Wireless networks
Distributed sensing and localization
Beamforming for communications
Abstract
USC researchers have developed an algorithm for ultra-precise timing in large wireless networks. The approach uses physical-layer UWB round-trip time-of-flight measurements to achieve precise timing between any two nodes, and fast re-timing based on UWB...
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