Engineering Research
Materials Science
Engineering Series
Books by Keyword: Operation
Books
The 141 papers are grouped as follows:
Chapter 1: Applications of Artificial Intelligence in Power Engineering;
Chapter 2: Electrical Drives and Power Electronics;
Chapter 3: Electrical Machines and Apparatus;
Chapter 4: Quality and Reliability of Power, Protection and Electromagnetic Compatibility in Power Systems;
Chapter 5: Planning, Operation and Economics of Power Systems;
Chapter 6: Energy Policy and Engineering Management of Renewable Energy Systems;
Chapter 7: Applied Decisions in Energy and Power Research
The 262 papers are grouped as follows:
Chapter 1: Hydrology, Water Resources, Flood and Drought Management,
Chapter 2: Hydraulic Engineering,
Chapter 3: Water Purification and Wastewater Treatment,
Chapter 4: Oil, Gas and Mineral Resources Exploitation,
Chapter 5: Landscape Planning and Design,
Chapter 6: Urban, Rural Planning and Design,
Chapter 7: Transportation Planning, Operation and Organization,
Chapter 8: Traffic Control,
Chapter 9: Renewable Energy, Energy Saving Building, Low-Carbon Building, Ecological Building,
Chapter 10: Sustainable City and Regional Development,
Chapter 11: Indoor Environment,
Chapter 12: Environmental Engineering, Monitoring and Protection,
Chapter 13: Electronics and Power Engineering,
Chapter 14: Information Technologies
The 228 papers are grouped as follows:
Chapter 1: Road and Railway Engineering;
Chapter 2: Vehicle Engineering and Carrier Operation Engineering;
Chapter 3: Transport and Transportation Networks, Planning, Construction and Operation;
Chapter 4: Modern Logistics System Planning and Optimization;
Chapter 5: Traffic Control and Traffic Safety
The primary aim of the proceeding is the combined coverage of the electronic test of devices, boards and systems—covering the complete cycle from design verification, design-for-test, design-for-manufacturing, silicon debug, manufacturing test, system test, diagnosis, failure analysis and back to process and design improvement at the advanced level. Such an approach enables the engineer to take into account the essential mechanical properties of the material itself and special features of practical implementation, including manufacturing technology, experimental results, and design characteristics.