This book covers the unique application of flow cytometry in drug discovery and development. The first section includes two introductory chapters, one on flow cytometry and one on biomarkers, as well as a chapter on recent advances in flow cytometry. The second section focuses on the unique challenges and added benefits associated with the use of flow cytometry in the drug development process. The third section contains a single chapter presenting an in depth discussion of validation considerations and regulatory compliance issues associated with drug development.
The power and elegance of generic types have long been acknowledged. Generics allow developers to parameterize data types much like you would parameterize a method. This brings a new dimension of reusability to your types without compromising expressiveness, type-safety, or efficiency. Now .NET generics makes this power available to all .NET developers. By introducing generic concepts directly into the Common Language Runtime (CLR), Microsoft has also created the first language-independent generics implementation. The result is a solution that allows generic types to be leveraged by all the languages of the .NET platform. This book explores all aspects of the .NET generics implementation, covering everything from fundamental generic concepts, to the elements of generic syntax, to a broader view of how and when you might apply generics. It digs into the details associated with creating and consuming your own generic classes, structures, methods, delegates, and interfaces, examining all the nuances associated with leveraging each of these language constructs. The book also looks at guidelines for working with generic types, the performance gains achieved with generics, the new generic container libraries (BCL and third party), and key aspects of the underlying .NET implementation. For those transitioning from C++, the book provides an in-depth look at the similarities and differences between templates and.NET generics. It also explores the syntactic variations associated with using generics with each of the .NET languages, including C#, Visual Basic, J#, and C++.
Thermal Physics of the Atmosphere offers a concise and thorough introduction on how basic thermodynamics naturally leads on to advanced topics in atmospheric physics. The book starts by covering the basics of thermodynamics and its applications in atmospheric science. The later chapters describe major applications, specific to more specialized areas of atmospheric physics, including vertical structure and stability, cloud formation, and radiative processes. The book concludes with a discussion of non-equilibrium thermodynamics as applied to the atmosphere. This book provides a thorough introduction and invaluable grounding for specialised literature on the subject. Introduces a wide range of areas associated with atmospheric physics Starts from basic level thermal physics Ideally suited for readers with a general physics background Self-assessment questions included for each chapter Supplementary website to accompany the book
Starting with an updated description of Allen's calculus, the book proceeds with a description of the main qualitative calculi which have been developed over the last two decades. It describes the connection of complexity issues to geometric properties. Models of the formalisms are described using the algebraic notion of weak representations of the associated algebras. The book also includes a presentation of fuzzy extensions of qualitative calculi, and a description of the study of complexity in terms of clones of operations.