الصفحة 1
الصفحة 1
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Optical signal processing technologies for communication, computing, and sensing applications

Optical technology is one of the key technologies that have been widely used for communication, computing and sensing. By utilizing different degrees of freedom for photon, optical signals can be detected and processed in different dimensions including amplitude, phase, polarization, time, frequency, and spatial mode. Multidimensional signal processing technologies have thus been broadly studied for improving the performance of communication, sensing and even computing systems. Recently, innovative optical signal processing methods and devices have been emerged to serve those needs driven by applications including but not limited to optical fiber transmission, supercontinuum generation, phase conjugation, free space optical communication, optical beamforming, photonic integration, fiber amplification, pose estimation and so on.

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Atmospheric Boundary Layers : Nature, Theory, and Application to Environmental Modelling and Security

This collection of peer reviewed papers represents a concise, up-to-date summary of our current knowledge of planetary boundary layer (PBL) physics and parameterization. As such, it makes a major contribution to the interchange of knowledge and ideas between physicists, meteorologists and environmental modellers and sets out the course to be followed in subsequent research to improve PBL parameterizations in climate, numerical weather prediction, air quality, and emergency preparedness models. Major themes covered are: Nature and theory of turbulent boundary layers, Boundary layer flows - modelling and applications to environmental security, Nature, theory and modelling of boundary-layer flows, and Air flows within and above urban and other complex canopies - air-sea-ice interactions.

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Advances in Turbulence XI ; Proceedings of the 11th EUROMECH European Turbulence Conference, June 25-28, 2007, Porto, Portugal

This volume comprises the communications presented at the ETC 11, the EUROMECH European Turbulence Conference held in 2007 in Porto.The scientific committee has chosen the contributions out of the following topics: Acoustics of turbulent flows / Atmospheric turbulence / Control of turbulent flows / Geophysical and astrophysical turbulence / Instability and transition / Intermittency and scaling / Large eddy simulation and related techniques / MHD turbulence / Reacting and compressible turbulence / Transport and mixing / Turbulence in multiphase and non-Newtonian flows / Vortex dynamics and structure formation / Wall bounded flows

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Advanced machine learning and deep learning approaches for remote sensing

Provides research on how technologies such as artificial intelligence-based machine learning and deep learning can be applied to remote sensing. Through this, we can see the process of solving the existing problems of image and image signal processing for remote sensing. These techniques are computationally intensive and require the help of high-performance computing devices. With the development of devices such as GPUs, remote sensing technology, and aerial sensing technology, it is possible to monitor the Earth with high-resolution images and to obtain vast amounts of Earth observation data. The papers published in this reprint describe recent advances in big data processing and artificial intelligence-based technologies for remote sensing technology.

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