Titlebook: Optical Imaging in Human Disease and Biological Research; Xunbin Wei,Bobo Gu Book 2021 The Editor(s) (if applicable) and The Author(s), un

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Tissue Optical Clearing for Biomedical Imaging: From In Vitro to In Vivo,ly gives a brief introduction to mechanisms of tissue optical clearing techniques, from the physical mechanism to chemical mechanism, which is the most important foundation to develop tissue optical clearing methods. During the past years, in vitro and in vivo tissue optical clearing methods were de

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In Vivo Flow Cytometry,od with no need to draw blood. The IVFC field has made great progress during the last decade with the development of fluorescence, photoacoustic, and multiphoton microscopy. Moreover, the application of IVFC is no longer restricted to circulating cells. IVFC based on fluorescence and photoacoustic a

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ore apparent. In order to limit fragmentation of IoT development and improve compatibility, web mechanisms and technologies can be applied, forming the Web of Things (WoT). The World Wide Web Consortium (W3C) supports the standardization of WoT by providing a platform-independent specification calle

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Jian Ren,Brett E. Bouma spaces. However, increasing instances of malicious attacks on industrial processes are observed as an effect resulting from the exposure of sensitive, isolated, safety-critical operations to the wider cyber environment. To be able to protect the entire application space from malicious attack, appro

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Li Lin,Jian Yemobility, and above all, it can reach in places where humans cannot. Internet of Things (IoT) applications are also utilising the advantages of UAVs either by transmitting data to the UAV or to a UAV networks or integrating IoT devices in the UAV networks. Both scenarios can be considered under UAV-

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