Constructal Theory of Social Dynamics
Constructal Theory of Social Dynamics brings together for the first time social scientists and engineers to develop a predictive theory of social organization, as a conglomerate of mating flows that morph in time to flow more easily (people, goods, money, energy, information). These flows have objectives (e.g., minimization of effort, travel time, cost), and the objectives clash with global constraints (space, time, resources). The result is organization (flow architecture) derived from one principle of configuration evolution in time (the constructal law): "for a flow system to persist in time, its configuration must morph such that it provides easier access to its streams."
Constraint-Based Verification
Constraint-Based Verifcation covers the emerging field in functional verification of electronic designs thats is now commonly referred to by this name. Topics are developed in the context of a wide range of dynamic and static verification approaches including stimulation, emulation and formal methods. The goal is to show how constraints, or assertions, can be used toward automating the generation of testbenches, resulting in a seamless verifcation flow. Topics such as verification coverage, and connection with assertion-based verification are also covered.
Constrained optimization and image space analysis ; Vol.1 : Separation of sets and optimality conditions
Constrained Optimization and Image Space Analysis unites his results and presents optimization theory and variational inequalities in their light.It presents a new approach to the theory of constrained extremum problems, including Mathematical Programming, Calculus of Variations and Optimal Control Problems. Such an approach unifies the several branches: Optimality Conditions, Duality, Penalizations, Vector Problems, Variational Inequalities and Complementarity Problems. The applications benefit from a unified theory.
Connecting Mathematics and Mathematics Education : Collected Papers on Mathematics Education as a Design Science
This book features a selection of articles written by Erich Ch. Wittmann between 1984 to 2019, which shows how the “design science conception” has been continuously developed over a number of decades.
Conjoint measurement : Methods and applications
Covering developments in Conjoint Analysis, this book presents the theory and applications of this technique. It discusses: normative models that maximize return, extension of choice-based conjoint simulations, latent class, hierarchical Bayes modelling, choice simulators, and normative models for representing competitive actions and reactions.
Conformation-Dependent Design of Sequences in Copolymers II
The book include : 1 V.O. Aseyev, H. Tenhu, F. Winnik: Temperature Dependence of the Colloidal Stability of Neutral Amphiphilic Polymers in Water.- 2 V.I. Lozinsky: Approaches to Chemical Synthesis of Protein-Like Copolymers.- 3 S.I. Kuchanov, A.R. Khokhlov: Role of Physical Factors in the Processes of Obtaining of Copolymers.- 4 A.Y. Grosberg, A.R. Khokhlov: After-Action of the Ideas of I.M. Lifshitz in Polymer and Biopolymer Physics.-
Conformation-Dependent Design of Sequences in Copolymers I
The book include : *Computer-aided conformation-dependent design of copolymer sequences *Folding and Formation of Mesoglobules in Dilute Copolymer Solutions *Water solutions of amphiphilic polymers : nanostructure formation and possibilities for catalysis Temperature Dependence of the Colloidal Stability of neutral amphiphilic polymers in water *Approaches to chemical synthesis of protein like copolymers *Role of physical factors in the process of obtaining copolymers *After-action of the ideas of I.M. Lifshitz in polymer and biopolymer physics
Conducting Quantitative Research In Education
provides a clear and straightforward guide for all those seeking to conduct quantitative research in the field of education, using primary research data samples. While positioned as less powerful and somehow inferior, non-parametric tests can be very useful where the research can only be designed to accommodate data structure which is ordinal, or scale but violates a normality assumption, which is required for parametric tests. Non-parametric data are a staple of educational research, and as such, it is essential that educational researchers learn how to work with these data with confidence and rigour.
Concrete-Filled Double-Skin Steel Tubular Columns: Behavior and Design
Concrete-Filled Double-Skin Steel Tubular Columns: Behavior and Design provides a thorough review of the recent advances on the behaviour and design of concrete-filled double-skin steel tubular (CFDST) columns. Drawing on their extensive knowledge and research, the authors cover topics such as different CFDST columns under axial compression, innovative techniques including the use of rubberised concrete, columns with different cross-sections, and steel material envelops and failure modes.
Concrete Structures : Design and Residual Capacity Assessment
Based primarily on Eurocode 2, this book offers a comprehensive exploration of theory alongside a substantial collection of solved examples. Intended for students and professionals specializing in structural engineering, the content delves into the fundamental aspects of designing and evaluating concrete structures. Discover a unique focus on both theoretical and practical aspects, empowering engineers to unearth solutions that minimize steel usage.
Concrete segmental bridges : Theory, design, and construction to AASHTO LRFD specifications
Presents comprehensive theory, design and key construction methods, with a simple design example based on the AASHTO LRFD Design Specifications for each of the main bridge types. It outlines design techniques and relationships between analytical methods, specifications, theory, design, construction and practice. It combines mathematics and engineering mechanics with the authors’ design and teaching experience.
Concrete permeability and durability performance: from theory to field applications
Durability and service life design of concrete constructions have considerable socio-economic and environmental consequences, in which the permeability of concrete to aggressive intruders plays a vital role.Concrete Permeability and Durability Performance provides deep insight into the permeability of concrete, moving from theory to practice, and presents over 20 real cases.
Concrete gravity and arch dams on rock foundation
Presents and analyzes the designs of erected concrete dams, which allows for a better understanding of the approaches and decision-making principles for designing dams, taking into account the specifics of natural, construction, and other conditions, and also analyzes a number of new solutions that reflect the various ways that engineering theory and practice has sought further improvement of concrete dams.
Concrete composite columns : Behavior and design
Moves beyond existing resources, to study the relationship between existing composite structures and design methods for the sectional form of concrete composite structure. Chapters cover the failure criteria of concrete; confined concrete types; models including axial stress prediction, analysis oriented constitutive, and design-oriented constitutive models; the design and analysis of section form; double confined concrete; seismic behaviors of concrete composite columns; and the seismic design of concrete composite columns.
Concrete - filled steel tubular arch bridges
Discusses the features of composite materials and arch structures. Providing an in-depth fundamental and practical guide to the field, it systemically addresses all aspects of concrete-filled steel tubular (CFST) arch bridges, including a comprehensive overview on technical developments, structural systems, structural detailing, design and analysis, construction technology, and maintenance.
CONCREEP 10 : Mechanics and physics of creep, shrinkage, and durability of concrete and concrete structures
Contains 187 papers invited on the basis of carefully peer-reviewed abstracts. It elucidates the intricacies of concrete, linking atomistic physics to real life civil engineering design. Topics include: microstructures and micromechanics; multiscale creep, shrinkage, fracture, and durability properties; constitutive and numerical modeling; simulation and design of concrete structures; molecular- to lab-scale simulations and characterization of concrete; macroscopic material testing; creep and shrinkage of concrete under extreme conditions; monitoring of concrete structures and exploitation of measurement data; and creep and shrinkage properties of new cementitious materials.
Conceptual structural design : Bridging the gap between architects and engineers
Aims to 'bridge the gap' between engineers' and architects' understanding of structural form. It aims to inspire designers to develop innovative and viable structural forms. This book is presented in two parts. The first part is theoretical and investigates source of inspiration for developing structural form; learning from natural forms; applying our own intuition; seeking inspiration from precedents; applying understanding of structural principles; and developing design through physical models.
Conceptual Modelling in Information Systems Engineering
Conceptual modeling has always been one of the cornerstones for information systems engineering as it describes the general knowledge of the system in the so-called conceptual schema.It contiant data modeling, goal-oriented modeling, agent-oriented modeling, and process-oriented modeling. Overall, the contributions reflect the most important developments and application areas of conceptual modeling in recent years, and they also pinpoint trends in conceptual modeling for the next decade.
Conceptual Modeling of Information Systems
When designing an information system, conceptual modeling is the activity that elicits and describes the general knowledge the system needs to know. This description, called the conceptual schema, is necessary in order to develop an information system.textbook explains in detail the principles of conceptual modeling independently from particular methods and languages and shows how to apply them in real-world projects. It covers all aspects of the engineering process from structural modeling over behavioral modeling to meta-modeling, and completes the presentation with an extensive case study based on the osCommerce system, an online store-management software program freely available under the GNU General Public License. His presentation is based on well-known industry standards like UML and OCL as a particular conceptual modeling language, yet also delivers the basics of the formal logical language background.
Conceptual Modeling for Traditional and Spatio-Temporal Applications : The MADS Approach
This book shows that a conceptual design approach for spatio-temporal databases is both feasible and easy to apprehend. While providing a firm basis through extensive discussion of traditional data modeling concepts, the major focus of the book is on modeling spatial and temporal information. Parent, Spaccapietra and Zimányi provide a detailed and comprehensive description of an approach that fills the gap between application conceptual requirements and system capabilities, covering both data modeling and data manipulation features.



















