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This work is intended to help development workers and planners to identify and assess the risks of vector-borne diseases in a camp and to plan and implement cost-effective ways of controlling them. The main vector-borne diseases are described, the importance of identifying the particular disease, and of considering methods of control is emphasized.
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.
Arthropod Vector: Controller of Disease Transmission, Volume 1: Vector Microbiome and Innate Immunity of Arthropods is built on topics initially raised at a related Keystone Symposium on Arthropod Vectors. Together with the separate, related Volume 2: Vector Saliva-Host Pathogen Interactions, this work presents a logical sequence of topic development that leads to regulatory considerations for advancing these and related concepts for developing novel control measures. The three themes of symbionts, vector immune defenses and arthropod saliva modulation of the host environment are central to the concept of determinants of vector competence that involves all aspects of vector-borne pathogen development within the arthropod that culminates in the successful transmission to the vertebrate host. These three areas are characterized at the present time by rapid achievement of significant, incremental insights, which advances our understanding for a wide variety of arthropod vector species, and this work is the first to extensively integrate these themes. - Includes such major areas of coverage as host-derived factors, innate immunity of arthropod presentations and the arthropod microbiome/symbionts - Features expertly curated topics, ensuring appropriate scope of coverage and aid integration of concepts and content - Provides the necessary scientific background for the development of the research and discussions that have laid the groundwork for future efforts, including the Keystone Symposium and relevant meetings at NIAID/NIH
Arthropod Vector: Controller of Disease Transmission, Volume 2: Vector Saliva-Host Pathogen Interactions is built on topics initially raised at a related Keystone Symposium on Arthropod Vectors. Together with the separate, related Volume 1: Controller of Disease Transmission, this work presents a logical sequence of topic development that leads to regulatory considerations for advancing these and related concepts for developing novel control measures. The three themes of symbionts, vector immune defenses and arthropod saliva modulation of the host environment are central to the concept of determinants of vector competence that involves all aspects of vector-borne pathogen development within the arthropod that culminates in the successful transmission to the vertebrate host. These three areas are characterized at the present time by rapid achievement of significant, incremental insights, which advances our understanding for a wide variety of arthropod vector species, and this work is the first to extensively integrate these themes. - Provides overviews of host defenses encountered by the blood feeding arthropod vector at the cutaneous interface - Addresses how these defenses are modulated by the vector, specific functions of vector saliva components, host response to vector-borne infectious agents and how vector-borne pathogens themselves modulate host defenses - Features expertly curated topics to ensure appropriate scope of coverage and aid integration of concepts and content across chapters
In November 1973, William J. Wright, a former patient and trustee of the Farview State Hospital for the Criminally Insane, brutally murdered two teenage boys, Edmund Keen and Paul Freach, in Lackawanna County, a region that took great pride in not only its history, but its reputation as a friendly, family-oriented, safe place to live. It was a place where families could leave their doors unlocked, and be confident about allowing their children to play and explore outdoors. Yet all that would change in an instant. The brutal murders of these two boys forever altered the way people thought of this region and the safe neighborhoods they had come to take for granted. Kathleen P. Munley and Paul R. Mazzoni tell a story of unbelief, anger, and fear, but also courage and fortitude. They delve deep into the Commonwealth v. William J. Wright trial, looking inside the investigation, the trial, and how the public was impacted by this unthinkable crime. In captivating detail, the authors weave together the events of this devastating crime and remind us that, even in the pleasant light of day, evil can and does exist, and one must always be on guard.