Mapping the Germans explores the development of statistical science and cartography in Germany between the beginning of the nineteenth century and the start of World War One, examining their impact on the German national identity. It asks how spatially-specific knowledge about the nation was constructed, showing the contested and difficult nature of objectifying this frustratingly elastic concept. Ideology and politics were not themselves capable of providing satisfactory answers to questions about the geography and membership of the nation; rather, technology also played a key role in this process, helping to produce the scientific authority needed to make the resulting maps and statistics realistic. In this sense, Mapping the Germans is about how the abstract idea of the nation was transformed into a something that seemed objectively measurable and politically manageable. Jason Hansen also examines the birth of radical nationalism in central Europe, advancing the novel argument that it was changes to the vision of nationality rather than economic anxieties or ideological shifts that radicalized nationalist practice at the close of the nineteenth century. Numbers and maps enabled activists to "see" nationality in local and spatially-specific ways, enabling them to make strategic decisions about where to best direct their resources. In essence, they transformed nationality into something that was actionable, that ordinary people could take real actions to influence.
This book presents a language integrated query framework for big data. The continuous, rapid growth of data information to volumes of up to terabytes (1,024 gigabytes) or petabytes (1,048,576 gigabytes) means that the need for a system to manage and query information from large scale data sources is becoming more urgent. Currently available frameworks and methodologies are limited in terms of efficiency and querying compatibility between data sources due to the differences in information storage structures. For this research, the authors designed and programmed a framework based on the fundamentals of language integrated query to query existing data sources without the process of data restructuring. A web portal for the framework was also built to enable users to query protein data from the Protein Data Bank (PDB) and implement it on Microsoft Azure, a cloud computing environment known for its reliability, vast computing resources and cost-effectiveness.
Veterinary Oral and Maxillofacial Pathology focuses on methods for establishing a diagnosis and set of differential diagnoses. Provides the only text dedicated solely to veterinary oral and maxillofacial pathology Guides the pathologist through the thought process of diagnosing oral and maxillofacial lesions Focuses on mammalian companion animals, including dogs, cats and horses, with some coverage of ruminants, camelids, and laboratory animal species Features access to video clips narrating the process of histological diagnosis on a companion website
Translational Gastroenterology: Organogenesis to Disease bridges the gap between basic and clinical research by providing information on GI (gastrointestinal) organ development discovered through scientific inquiry, alongside clinical observations of acquired and congenital abnormalities. Paired chapters, written from basic science and clinical viewpoints, review the major biological pathways and molecules at work in organ ontogeny and disease. In addition to a comprehensive survey of GI organ development and pathologies, the book also highlights model organisms and new areas of research, with chapters devoted to recent advances in the field of GI stem cell biology, and the potential for tissue engineering of GI organs. The topics covered provide a unique window onto current activity in the field of gastroenterology, fostering enhanced knowledge for developmental biologists as well as for clinical practitioners. Notable features include the following: • Basic science chapters review the molecular and cellular pathways of GI organ development alongside clinical chapters examining organ-based diseases, closing the gap between the bench and the clinic. • Derivative organs – esophagus, stomach, pylorus, small intestine, colon, liver, and pancreas –as well as tissues such as serosa and enteric nervous system that are common to multiple GI organs. • Chapters detailing the use of model organisms – Drosophila, sea urchin, zebrafish, C. elegans, Xenopus – for basic discovery studies are included. • Chapters on GI stem cells and the potential for tissue engineering of the GI organs provide a view to the future of research and therapy in these organs.
Thank you for visiting our website. Would you like to provide feedback on how we could improve your experience?
This site does not use any third party cookies with one exception — it uses cookies from Google to deliver its services and to analyze traffic.Learn More.