A smart building is the state-of-art in building with features that facilitates informed decision making based on the available data through smart metering and IoT sensors. This set provides useful information for developing smart buildings including significant improvement of energy efficiency, implementation of operational improvements and targeting sustainable environment to create an effective customer experience. It includes case studies from industrial results which provide cost effective solutions and integrates the digital SCADE solution. Describes complete implication of smart buildings via industrial, commercial and community platforms Systematically defines energy-efficient buildings, employing power consumption optimization techniques with inclusion of renewable energy sources Covers data centre and cyber security with excellent data storage features for smart buildings Includes systematic and detailed strategies for building air conditioning and lighting Details smart building security propulsion. This set is aimed at graduate students, researchers and professionals in building systems, architectural, and electrical engineering.

This book presents both the fundamental theory and numerical calculations and field experiments used in a range of practical engineering projects. It not only provides theoretical formulations and various solutions, but also offers concrete methods to extend the life of existing bridge structures and presents a guide to the rational design of new bridges, such as high-speed railway bridges and long-span bridges. Further, it offers a reference resource for solving vehicle-structure dynamic interaction problems in the research on and design of all types of highways, railways and other transport structures.

The book presents the work of the RILEM Technical Committee 261-CCF, which organized the challenging International Round Robin Test (RRT) on the creep behaviour of Fibre Reinforce Concrete (FRC) cracked specimens. Although different creep test methodologies have been developed in recent years, the absence of a standardised creep methodology hindered general comparisons. Therefore, the RILEM TC 261-CCF launched an ambitious international RRT program to improve the knowledge on long-term behaviour of cracked sections of FRC and assess all the different testing methodologies, assuming the big variability of testing criteria among the scientific community. The participation of 19 laboratories across 20 institutions in 14 countries all over the world enabled the realisation of the largest experimental campaign on creep in the cracked state. As a result of the RRT, an extensive database of creep test results was created containing comprehensive information from 124 cracked FRC specimens tested using different creep testing procedures in agreed conditions. The book will benefit academics and practitioners interested in the long-term behaviour of FRC since it served as basis for the recently published RILEM Recommendation on creep testing procedure and represents the current knowledge on creep in cracked FRC specimens.

This book provides a novel approach to building pathology in current buildings. Drawing on the available literature, hands-on experience and fieldwork inspections, it presents a systematic perspective on the pathology of the building envelope. The book addresses natural stone claddings, adhesive ceramic tiling, renders, painted surfaces, External Thermal Insulation Composite Systems (ETICS), architectural concrete surfaces, windows and doors framing, and claddings for pitched and flat roofs. In addition to highlighting selected materials and construction elements, the book proposes a global classification system for defects and their probable causes, together with in situ diagnosis methods and repair techniques. It also identifies the relationships between defects and causes, diagnosis methods and repair techniques, and the interdependence between different defects, presenting these relations in the form of correlation matrices. Support files with detailed information and an inspection form are also provided. Selected case studies are presented to illustrate the value of a guidance system in fieldwork. Given its scope, the book offers a valuable guide, particularly for researchers, building inspectors, civil engineers, architects and maintenance planners.

This book presents recent research works related to blast resistant buildings, green roofs and sustainability, retrofit interventions with C-FRP fibers, analysis of cracking in pile cap foundation by delayed ettringite formation and acoustic performance in buildings. It demonstrates that building pathology is a holistic approach to studying and understanding buildings, and in particular, building defects or problems and associated rehabilitation actions. Offering a systematic review of the current state of knowledge, the book serves as a valuable resource for scientists, students, practitioners, and lecturers in various scientific and engineering disciplines, including civil and materials engineering, as well as and other interested parties.

This book presents the new approach of resource-driven bamboo construction (RDBC), developing a clear assessment framework and operational solution to improve the value of resources and the sustainability of bamboo constructions. The book discusses how to carry out research on basic parameters and life cycle assessment, as well demonstrating the approach in practice. This book develops a sustainability assessment model for bamboo construction in Asia-Pacific bamboo areas to measure the effects and success of RDBC. It solves issues related to environmental impact, energy consumption, land cost, indoor comfort, construction durability, and sustainable material application of the bamboo constructions. It utilizes digital tools to perform statistical analysis on large sample conditions, enabling the method to be better implemented, and presents case studies of RDBC method in action. The large amount of data collected, method guidance, and demonstrations provide a comprehensive reference for those wishing to apply bamboo in the building industry. This book is particularly relevant to scientists, professionals, architects, civil engineers, and students who are interested in bamboo material and its application in building industry. It provides readers with a new perspective of the high-value utilization of bamboo forest resources and methods to achieve sustainable bamboo construction.

Nanotechnology has already demonstrated surprising potential for improving the performance of construction materials and many of these recent developments were facilitated by NICOM symposia. The NICOM5 proceedings will cover the emerging opportunities and future use of nanotechnology in construction and will illustrate the broad potential for application of nanotechnology to challenging problems involving materials and infrastructure.

This thesis studies the effects of superplasticizers, polyacrylate latexes and asphalt emulsions, which differ in molecular/particle size from nanometers to microns, on the rheological properties of fresh cement pastes (FCPs), as well as the action mechanisms involved. It systematically investigates the rheological properties and microstructure of cement-based materials, and elucidates the adsorption behaviors of polycarboxylate polymers with different functional groups and their effects on cement hydration. Moreover, it reveals how the working mechanism of naphthalene sulfonate formaldehyde (NSF) differs from that of polycarboxylate ether-based (PCE) superplasticizers. Lastly, it develops a conceptual microstructure model and two rheological equations. These findings lend theoretical support to the development of new chemical admixtures and new, higher-performance, cement-based composites.

The book includes peer-reviewed contributions selected from presentations given at the Istanbul Bridge Conference 2014, held from August 11 - 13 in Istanbul, Turkey. It reports on the current challenges in bridge engineering faced by professionals around the globe, giving a special emphasis to recently developed techniques, innovations and opportunities. The book covers key topics in the field, including modeling and analysis methods; construction and erection techniques; design for extreme events and condition assessment and structural health monitoring. There is a balanced presentation of theory, research and practice. This book, which provides the readers with a comprehensive and timely reference guide on current practices in bridge engineering, is intended for professionals, academic researchers and students alike.

The importance of these books to the construction industry as a description of construction practice at specific points in history is now beginning to be appreciated by modern-day architects, technologists and building surveyors as they prepare to update or repair existing buildings from the late 1890's.

This book presents a selection of the best papers from the HEaRT 2013 conference, held in Cosenza, Italy, which provided a valuable forum for engineers and architects, researchers and educators to exchange views and findings concerning the technological history, construction features and seismic behavior of historical timber-framed walls in the Mediterranean countries. The topics covered are wide ranging and include historical aspects and examples of the use of timber-framed construction systems in response to earthquakes, such as the gaiola system in Portugal and the Bourbon system in southern Italy; interpretation of the response of timber-framed walls to seismic actions based on calculations and experimental tests; assessment of the effectiveness of repair and strengthening techniques, e.g., using aramid fiber wires or sheets; and modelling analyses. In addition, on the basis of case studies, a methodology is presented that is applicable to diagnosis, strengthening and improvement of seismic performance and is compatible with modern theoretical principles and conservation criteria. It is hoped that, by contributing to the knowledge of this construction technique, the book will help to promote conservation of this important component of Europe's architectural heritage.

Fundamental environmental challenges such as climate change, resource depletion, and pollution are still widely relevant in today's world. Many of these problems have been associated with the architecture, engineering, and construction industries due to the level of resources used in these professions. In recent years, many manufacturers in these fields have expressed the motivation to make necessary changes that would be beneficial to the environment. Despite this progress, there remains a lack of research and assessment on the methods to achieve environmental stability within these architectural fields. Examining the Environmental Impacts of Materials and Buildings provides emerging research exploring the theoretical and practical aspects of ecological performance within modern building design and materials-based construction. Featuring coverage on a broad range of topics such as life cycle assessment, material flows analysis, and sustainability, this book is ideally designed for architects, civil engineers, construction professionals, environmentalists, ecologists, business practitioners, scientists, policymakers, designers, researchers, and academicians seeking research on current trends in environmental performance within building design.

Physically unclonable functions (PUFs) are innovative physical security primitives that produce unclonable and inherent instance-specific measurements of physical objects; in many ways they are the inanimate equivalent of biometrics for human beings. Since they are able to securely generate and store secrets, they allow us to bootstrap the physical implementation of an information security system. In this book the author discusses PUFs in all their facets: the multitude of their physical constructions, the algorithmic and physical properties which describe them, and the techniques required to deploy them in security applications. The author first presents an extensive overview and classification of PUF constructions, with a focus on so-called intrinsic PUFs. He identifies subclasses, implementation properties, and design techniques used to amplify submicroscopic physical distinctions into observable digital response vectors. He lists the useful qualities attributed to PUFs and captures them in descriptive definitions, identifying the truly PUF-defining properties in the process, and he also presents the details of a formal framework for deploying PUFs and similar physical primitives in cryptographic reductions. The author then describes a silicon test platform carrying different intrinsic PUF structures which was used to objectively compare their reliability, uniqueness, and unpredictability based on experimental data. In the final chapters, the author explains techniques for PUF-based entity identification, entity authentication, and secure key generation. He proposes practical schemes that implement these techniques, and derives and calculates measures for assessing different PUF constructions in these applications based on the quality of their response statistics. Finally, he presents a fully functional prototype implementation of a PUF-based cryptographic key generator, demonstrating the full benefit of using PUFs and the efficiency of the processing techniques described. This is a suitable introduction and reference for security researchers and engineers, and graduate students in information security and cryptography.

Foundation Design and Construction has long been established as the most comprehensive and authoritative guide to the subject. The combination of soil engineering principles, design information, and construction details, makes this book an essential resource for undergraduates and practitioners alike. The text first introduces basic theory and then, by means of case studies, practical worked examples and design charts, develops an in-depth understanding of foundation design and construction methods. Types of foundation covered include shallow strip, pad and raft, basement structures, driven and bored piles, and deep shafts. Practical information is also given on foundation design for swelling and shrinking clays, filled ground and mining subsidence areas. In addition the text contains a useful introduction to computer-aided design.The seventh edition has been brought up-to-date with recent developments in foundation design and construction techniques. These include recent research undertaken by the Construction Industry Research and Development Association (CIRIA) leading to new methods and design rules, and a discussion of the requirements for the latest draft of Eurocode 7: Geotechnical Design.

This book presents interviews with 20 successful Malaysian housing developers, to provide real-world insights and practical know-how for future developers. It is designed in a way that reveals the secrets of successful developers, from their origins to their current status with the interviews conducted in a semi-structured manner so that the interviewees were able to freely share their experiences, thoughts, opinions and tips acquired throughout their business careers. Covering the developers' success stories, from their background, educational history and personal traits to their business challenges and achievements, it appeals to academics and practitioners alike.

The papers in this volume provide an introduction to well known and established system identification methods for structural health monitoring and to more advanced, state-of-the-art tools, able to tackle the challenges associated with actual implementation. Starting with an overview on fundamental methods, introductory concepts are provided on the general framework of time and frequency domain, parametric and non-parametric methods, input-output or output only techniques. Cutting edge tools are introduced including, nonlinear system identification methods; Bayesian tools; and advanced modal identification techniques (such as the Kalman and particle filters, the fast Bayesian FFT method). Advanced computational tools for uncertainty quantification are discussed to provide a link between monitoring and structural integrity assessment. In addition, full scale applications and field deployments that illustrate the workings and effectiveness of the introduced monitoring schemes are demonstrated.

Residents look at their neighborhood differently than visitors and designers do. The features that they see as most important can differ significantly, so that spaces that are viewed as successful by designers may be disliked by residents. Designers who hope to create successful residential environments can benefit from a more complete understanding of the residents' perspective and their priorities. This residents-eye-view is especially critical in troubled neighborhoods.

Brower compares the responses to the same environment by residents, tourists, and designers. Using observations, interviews, innovative survey methods, and an examination of the literature, he details accepted norms that govern who uses and controls neighborhood spaces, children's play networks, neighboring patterns, territorial behavior, and the personalization of space. Brower then describes the application of these ideas and findings in a series of design interventions in an inner city neighborhood in Baltimore. These interventions are thoroughly documented and evaluated, and the lessons learned from both successes and failures are used to inform design ouidelines for the study area. The interventions also help to define the role of outside professionals; in particular, the importance of involving residents in defining and resolving their own problems, and the need to accept space management and social organization as proper concerns of design. The book is written in clear, simple language, and uses drawings and photographs to illustrate the ideas presented.

Construction contractors must regularly wade through complicated contractual and technical issues. Claims and disputes can ruin a project or prevent it from even getting started. While many studies concentrate on case law imported from different jurisdictions, CONTRACTUAL DIMENSIONS IN CONSTRUCTION takes a practical approach that relies on quantity surveying. This approach enables all parties involved to establish and maintain fair agreements for a dispute free project delivery. With this guidebook, you will learn how to anticipate and avoid problems while concentrating on solutions. Topics covered include:
Contract formation, existence, and invalidation Contract and pricing modalities Contract interpretation Attributes of contractual provisions Defaults and remedies Variations, claims and disputes

You'll also learn about the duties, rights, and obligations of the parties to a contract, as well as the issues related to commencement, completion, extension, and damages. Examples and real-life scenarios make learning about the contractual process easy.

CONTRACTUAL DIMENSIONS IN CONSTRUCTION is for all contract specialists, commercial managers, forensic delay analysts, quantity surveyors, cost engineers, and undergraduates studying construction and surveying related subjects. Those who are interested in para-legal functions related to construction may also find this book of value, as will students of engineering disciplines.

With portland cement and cementitious building products (currently used in over 95% of cement applications) consuming vast quantities of natural resources, constitutse a large proportion of industrial waste and currently represent about 5% of anthropogenic global CO2 emissions, there is an urgent need for innovative, creative, cost-effective and sustainable approaches to reduce the tremendous environmental impact of conventional cement-based technology and applications.

Magnesia cements offer one alternative, witha unique set of properties that set them apart from the conventional Portland based cements, such as superior strength, fire resistance, and exceptional ability to bond to a wide range of aggregates. Sorel cement as well as some magnesium compounds and minerals also have the ability to react with atmospheric carbon dioxide and effectively sequester it via carbonation. This will have obvious appeal as carbon dioxide sequestration is currently center stage as an environmental concern.

This reference handbook provides detailed analysis of the chemistry, properties, manufacture and the classical and new uses for magnesia cements. The focus is on Sorel cement (magnesium oxychloride), magnesium oxysulfate and magnesium phosphate cements. The work is ideally suited for materials scientists, cement chemists and ceramicists researching related subjects at academic institutions, and beyond materials research, for any academic working with construction and remediation, cement clinker, novel cement systems (sustainability), hydration and durability, thermodynamic modeling, waste management, and hydrate characterization. Research engineers working on any aspect of cement systems with environmental impacts will also be highly interested.
Formulary information aids research into more environmentally-friendly cement systems

Property chemistry discussion aids chemical phase analysis and improves impact of formulation

Applications analysis and history of global uses provides support for future environmentally stable industrial, building, and non-building applications "

This book gathers the latest innovations and applications in the field of resource-saving technologies and advanced materials in civil and environmental engineering, as presented by leading international researchers and engineers at the 2nd International Scientific Conference EcoComfort and Current Issues of Civil Engineering, held in Lviv, Ukraine on September 16-18, 2020. It covers a diverse range of topics, including ecological and energy-saving technologies; renewable energy sources; heat, gas and water supply; microclimate provision systems; innovative building materials and products; smart technologies in water purification and treatment; protection of water ecosystems; and architectural shaping and structural solutions. The contributions, which were selected using a rigorous international peer-review process, highlight exciting ideas that will spur novel research directions and foster multidisciplinary collaborations.

This book gathers the best peer-reviewed papers presented at the Italian Concrete Days national conference, held in Lecco, Italy, on June 14-15, 2018. The conference topics encompass the aspects of design, execution, rehabilitation and control of concrete structures, with particular reference to theory and modeling, applications and realizations, materials and investigations, technology and construction techniques. The contributions amply demonstrate that today's structural concrete applications concern not only new constructions, but more and more rehabilitation, conservation, strengthening and seismic upgrading of existing premises, and that requirements cover new aspects within the frame of sustainability, including environmental friendliness, durability, adaptability and reuse of works and / or materials. As such the book represents an invaluable, up-to-the-minute tool, providing an essential overview of structural concrete, as well as all new materials with cementitious matrices.