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A Successful Transformation? : Restructuring of the Czech Automobile Industry

This book investigates the complex processes of the post-1990 transformation in the Czech automotive industry and its selective integration in the West European automobile manufacturing system. The post-1990 restructuring of the Czech automotive industry is analyzed in the context of its pre-1990 development and in the context of the Central and East European automobile industry as a whole. Specifically, the book examines the development and post-1990 restructuring of the Czech passenger car industry, the components industry and truck manufacturing. Major topics covered include the development of the Czech automotive industry before 1990, the detailed case study of Škoda Auto, the effects of the post-1990 privatization in the Czech automotive industry, the role and effects of foreign direct investment during the post-1990 restructuring, the restructuring of the Czech truck industry, and the rapid development of the automotive components manufacturing.

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6G Mobile Wireless Networks

Specifically, this book covers the following topics: 6G Use Cases, Requirements, Metrics and Enabling Technologies, PHY Technologies for 6G Wireless, Reconfigurable Intelligent Surface for 6G Wireless Networks, Millimeter-wave and Terahertz Spectrum for 6G Wireless, Challenges in Transport Layer for Tbit/s Communications, High-capacity Backhaul Connectivity for 6G Wireless, Cloud Native Approach for 6G Wireless Networks, Machine Type Communications in 6G, Edge Intelligence and Pervasive AI in 6G, Blockchain: Foundations and Role in 6G, Role of Open-source Platforms in 6G, and Quantum Computing and 6G Wireless.

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3D Segmentation for medical images (OsteoVision) = التقطيع ثلاثي الأبعاد للصور الطبية

With the increasing integration of AI across various sectors, artificial intelligence (AI) is already playing a significant role in the healthcare industry, and its use is expected to grow further. AI systems used in image processing and computer vision algorithms have shown a significant ability to perform many operations such as segmentation, classification, and detection. This project presents the application of computer vision algorithms in the field of medical imaging for diagnostic, therapeutic, and interventional purposes. This thesis explores the use of several computer vision algorithms to address different pathologies, specifically brain tumors (glioma) (see Appendix A) and knee osteoarthritis (OA), as well as tracking the progression of knee osteoarthritis using the Kellgren and Lawrence (KL) grading system, a common method for classifying the severity of OA into five grades. To achieve the desired impact, the project employs various techniques, including 3D segmentation for brain tumors, 2D segmentation for knee joints, and multinomial classification for determining the severity of knee OA injuries. The primary aims of the project are to enhance diagnostic accuracy, assist in creating treatment plans, provide an assistive tool for healthcare providers to make more informed decisions, leverage AI's capabilities to detect abnormalities that might escape the human eye, and streamline workflow. To facilitate these goals, the project incorporates a user-friendly UI, a website, and a Flutter-based mobile application, enabling healthcare providers to efficiently integrate these tools into their practice and improve patient care.

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