This book provides a comprehensive introduction to techniques for quantitative subsidence analysis and visualization with example applications. Subsidence analysis is an essential step to understand basin evolution through geologic time and space in the study of sediments and sedimentary basins. Quantifying techniques have been developed and applied in many basin research projects to evaluate total, tectonic and thermal subsidence. They are also a pre-requisite for basin evolution modelling. Recent studies have applied visualization techniques to understand regional subsidence contexts and trends, which confirmed that three-dimensional visualization of the basin subsidence is highly helpful to gain insight into basin evolution. In this book, we show how geoscience and computer science can be effectively combined in advanced basin analysis, especially in terms of basin subsidence. Each type of subsidence analysis is introduced with example applications. In particular we present a study of the Vienna basin using BasinVis, a MATLAB-based program for analyzing and visualizing basin subsidence. Given its breadth of coverage, this book will benefit students in undergraduate and postgraduate courses and provide helpful information for research projects and industry applications.
This book provides a comprehensive introduction to techniques for quantitative subsidence analysis and visualization with example applications. Subsidence analysis is an essential step to understand basin evolution through geologic time and space in the study of sediments and sedimentary basins. Quantifying techniques have been developed and applied in many basin research projects to evaluate total, tectonic and thermal subsidence. They are also a pre-requisite for basin evolution modelling. Recent studies have applied visualization techniques to understand regional subsidence contexts and trends, which confirmed that three-dimensional visualization of the basin subsidence is highly helpful to gain insight into basin evolution. In this book, we show how geoscience and computer science can be effectively combined in advanced basin analysis, especially in terms of basin subsidence. Each type of subsidence analysis is introduced with example applications. In particular we present a study of the Vienna basin using BasinVis, a MATLAB-based program for analyzing and visualizing basin subsidence. Given its breadth of coverage, this book will benefit students in undergraduate and postgraduate courses and provide helpful information for research projects and industry applications.
HIT-GBM-D was the largest high grade glioma study in Europe. It grew out of a series of mainly German protocols, and is the only one translated to English. These protocols contained very detailed standard of care guidelines. This book makes the original study protocol text available to the public.
Based on an interdisciplinary investigation of future visions, scenarios, and case-studies of low carbon innovation taking place across economic domains, Decarbonising Economies analyses the ways in which questions of agency, power, geography and materiality shape the conditions of possibility for a low carbon future. It explores how and why the challenge of changing our economies are variously ascribed to a lack of finance, a lack of technology, a lack of policy and a lack of public engagement, and shows how the realities constraining change are more fundamentally tied to the inertia of our existing high carbon society and limited visions for what a future low carbon world might become. Through showcasing the first seeds of innovation seeking to enable transformative change, Decarbonising Economies will also chart a course for future research and policy action towards our climate goals. This title is also available as Open Access on Cambridge Core.
Recent technological breakthroughs, most notably in the field of lasers as well as detection and data processing, have made it possible to apply high-resolution molecular spectroscopy to such areas as environmental science, bioanalysis, and chemical physics. This book describes recent advances and applications of high-resolution molecular spectroscopy in low temperature solid matrices.
Fighter ace Col. Johannes Steinhoff commanded an elite group of pilots trained to fly the first jet aircraft employed in combat, the famous Messerschmitt Me-262, at a time when Reich Marshal Hermann Goring, by then out of favor with Hitler for his failure to stop the Allied bombing raids, denounced his own pilots as cowards. After Goring refused to deploy the Me-262 as a fighter, the role for which it was designed, and instead ordered its use as a bomber, Steinhoff and other senior air leaders devised a plot to depose Goring from his command of the Luftwaffe in the futile hope of staving off final defeat in the air. The pilotsOCO long-standing disgust with their Reich MarshalOCOs military incompetence and technical dilettantism led to their dangerous intrigue in the fall of 1944. There was an added element of risk as their desperate gamble came in the wake of the July 20 plot against Hitler, the onrushing Allied onslaught, and the general disintegration of the German military and its war effort.Steinhoff crashed while trying to take off in a heavily laden Me-262. The explosion left him badly burned and still in the hospital when the war ended. From his hospital bed in the summer of 1945, he dictated to a fellow wounded German soldier the account that became The Final Hours. His memories are vivid, painful, and gripping. Free from the years of recrimination and reflection so common in similar works, his tale recounts the pressure of fighting for a lost cause and the intrigue fostered by an unstable command. His account reveals every facet of a remarkable fighter pilotOCOs struggle for survival and provides an excellent case study of the plodding bureaucracy and scheming obscurantism so characteristic of the Third Reich.
A maid who is unexpectedly left her wealthy employers' worldly possessions, when they flee the country after the Nazi occupation; a loyal bank clerk, who steals a Renaissance portrait of a Spanish noblewoman, and falls into troublesome love with her; a middle-aged travel agent, who is perhaps the least well-travelled man in the city and advises his clients from what he has read in books, anxiously awaits his looming honeymoon; a widowed villager, whose 'magnetic' (or perhaps 'crazy') twelve-year-old daughter witnesses a disturbing event; and a tiny village thrown into civil war by the disappearance of a freshly baked cheesecake - these stories about the tremendous upheaval which results when the ordinary encounters the unexpected are vividly told, with both humour and humanity. This is the first ever English publication of these both literally and metaphorically enchanting Bohemian tales, by one of the great overlooked writers of the twentieth century.
Today, the pressure on healthcare costs and resources is increasing, and especially for biopharmaceuticals that require parenteral administration, the inherent complex and invasive dosing procedure adds to the demand for efficient medical management. In light of the COVID-19 pandemic the value of drug delivery technologies in enabling a flexible care setting is broadly recognized. In such a setting, patients and their caregivers can choose the place of drug administration based on individual preferences and capabilities. This includes not only dosing in the clinic but also supervised at-home dosing and self-administration for eligible patients. Formulation and Device Lifecycle Management of Biotherapeutics: A Guidance for Researchers and Drug Developers covers the various aspects of improving drug delivery of biological medicines with the ultimate goal to reduce dosing complexity associated with parenteral administration and, thus, enhance patient experience and drug administration-related healthcare capacity. The target audience are multidisciplinary researchers and drug developers in the pharmaceutical industry, biotech companies, and academia involved in formulation and device development. This includes pharmacology and medical experts in charge of generating nonclinical and clinical data to support approval of novel dosing regimens, and drug delivery scientists and engineers responsible for technical particulars of product optimizations. Moreover, professionals in market access and commercial functions are expected to benefit from the discussions about the impact of patient and healthcare provider needs and country-specific reimbursement models on realizing a truly convenient and cost and resource efficient drug delivery solution. Summarizes formulation and device lifecycle management activities that enable customer-centric and sustainable drug delivery for biotherapeutics Describes the pharmacokinetic-based clinical development pathway for subcutaneous dosing alternatives to established intravenous formulations for monoclonal antibodies Details established clinical development pathways supporting the approval of automated subcutaneous injection devices and proposes novel concepts Discusses how to realize home- and self-administration of biotherapeutics in cancer care Highlights aspects of multidisciplinary formulation and device lifecycle management that can be leveraged across different disease areas and introduces a decision architecture on when and how drug developers should embark into related development activities
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