Hybrid Static-Dynamic Modeling and Experimental Analysis of Multi-Scale Complex Environments: Application to Ubiquitous Interactions
Abstract:
Hybridization of agile mm-Wave MIMO and Phased-Array technologies with static (Capacitive-Resistive-Inductive effects) and dynamic multi-physics (coupled ultrasonic and optical waves) sensing solutions is proposed toward new functionalities for environmental perceptions and ubiquitous interactions. The resulting paradigms will operate the unification of Contact-driven actions and contactless Gesture-driven interactions for enabling emerging technologies relative to interactions of humans with smart devices and systems in randomly changing environments. Perspectives for Autonomous Vehicles with Advanced Driver Assistance Systems (ADAS) including Gesture-Recognition (GR) through ubiquitous interactions based on hybrid agile mm-Wave RFIC technologies and optical systems are drawn.
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Hybridization of agile mm-Wave MIMO and Phased-Array technologies with static (Capacitive-Resistive-Inductive effects) and dynamic multi-physics (coupled ultrasonic and optical waves) sensing solutions is proposed toward new functionalities for environmental perceptions and ubiquitous interactions. The resulting paradigms will operate the unification of Contact-driven actions and contactless Gesture-driven interactions for enabling emerging technologies relative to interactions of humans with sm...
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Stichworte:
Hybrid agile mm-Wave and Optical Sensing , Co-Design , Ubiquitous Interactions , ADAS , MIMO , Phased-Array
Kongress- / Buchtitel:
2018 2nd URSI Atlantic Radio Science Meeting (AT-RASC)
Kongress / Zusatzinformationen:
Gran Canaria, Spain, 28 May - 01 June 2018 2018-05