In this paper, we introduce the concept of Twin-Antenna system for Energy Sensing and Low-Noise blind deconvolution using Field-Field Correlations. The holographic principle seen as a bridging connection between the geometry and information content of space-time is introduced for exploiting the Covariant Entropy bound. The Entropy-to-Energy and Entropy-to-Surface-Area bounds open new possibilities in communication theory for properly coupling Information-Signal Theory (IT) and Physical-Information Theory (PT) into a unified approach. Perspectives for evaluating Energy cost of information transfer are drawn for optimal wireless sensing and probing of stochastic Electromagnetic Field-Field correlations in environments with moving boundary conditions.     «

In this paper, we introduce the concept of Twin-Antenna system for Energy Sensing and Low-Noise blind deconvolution using Field-Field Correlations. The holographic principle seen as a bridging connection between the geometry and information content of space-time is introduced for exploiting the Covariant Entropy bound. The Entropy-to-Energy and Entropy-to-Surface-Area bounds open new possibilities in communication theory for properly coupling Information-Signal Theory (IT) and Physical-Informati...     »