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Climate change and the loss of biodiversity are now realities.
Their causes and origins stem from the energy, goods and resources
relied upon by the lifestyle of a growing part of humanity. Smart
Users for Energy and Societal Transition presents this much needed
transition, as well as the scenarios and paths essential to
mitigating the impacts of climate change. It deals with transitions
experimented in the form of ecosystems in universities, cities and
territories, as well as with concepts of smart buildings, smart
grids and smart cities, addressed to smart users - or not - in an
interdisciplinary research context. Sociological issues related to
the role of smart building users are discussed, ranging from
acceptance to the appropriation of the technologies made available
to them. The book highlights the ethics of this essential
transition and the importance of individual behaviors in
safeguarding humanity on a preserved planet.
After a brief introduction to the main law of physics and
fundamental concepts inherent in electromechanical conversion,
Vector Control of Induction Machines introduces the standard
mathematical models for induction machines - whichever rotor
technology is used - as well as several squirrel-cage induction
machine vector-control strategies. The use of causal ordering
graphs allows systematization of the design stage, as well as
standardization of the structure of control devices. Vector Control
of Induction Machines suggests a unique approach aimed at reducing
parameter sensitivity for vector controls based on a theoretical
analysis of this sensitivity. This analysis naturally leads to the
introduction of control strategies that are based on the
combination of different controls with different robustness
properties, through the use of fuzzy logic supervisors. Numerous
applications and experiments confirm the validity of this simple
solution, which is both reproducible and applicable to other
complex systems. Vector Control of Induction Machines is written
for researchers and postgraduate students in electrical engineering
and motor drive design.
After a brief introduction to the main law of physics and
fundamental concepts inherent in electromechanical conversion,
Vector Control of Induction Machines introduces the standard
mathematical models for induction machines - whichever rotor
technology is used - as well as several squirrel-cage induction
machine vector-control strategies. The use of causal ordering
graphs allows systematization of the design stage, as well as
standardization of the structure of control devices. Vector Control
of Induction Machines suggests a unique approach aimed at reducing
parameter sensitivity for vector controls based on a theoretical
analysis of this sensitivity. This analysis naturally leads to the
introduction of control strategies that are based on the
combination of different controls with different robustness
properties, through the use of fuzzy logic supervisors. Numerous
applications and experiments confirm the validity of this simple
solution, which is both reproducible and applicable to other
complex systems. Vector Control of Induction Machines is written
for researchers and postgraduate students in electrical engineering
and motor drive design.
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