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This book features the second volume of the proceedings of the 9th International Conference of the International Association of Cultural and Digital Tourism (IACuDiT). Held at the Syros Island in Greece in September 2022, the conference's lead theme was ¿Tourism, Travel, and Hospitality in a Smart and Sustainable World¿.With a full appreciation of the contributions made by numerous writers toward the progress in tourism research, this book presents a critical academic discourse on sustainable practices in a smart tourism context, stimulating future debates and advancing knowledge and understanding in this critical area of knowledge. It also puts emphasis on the knowledge economy and smart destinations notion. It enacts new modes of tourism management and development and presents chapters on cultural heritage tourism, emerging technologies and tourism consumer behaviour, such as tourism education, location-based services, Internet of Things, smart cities, mobile services, gamification, digital collections and the virtual visitor, social media, social networking, and augmented reality.

This book analyses international Green Infrastructure (GI) planning and design strategies. The GI strategy is widely recognized for its multifunctionality (as a tool for ecological, economic and social enhancement) and multiscalarity. Starting from this assumption, the book intends to implement the concept of GI and blue networks in planning strategies and their linked urban projects. New urban and regional paradigms of the latest years, such as urban sprawl, ecosystem services, biodiversity, urban resilience, climate change and health emergencies, have made it necessary to rethink cities and territories and their related plans and projects. To satisfy these paradigms, worldwide plans and projects have started to focus both on short-term and long-term processes and strategies which integrate environmental, landscape and ecological elements. Chapters 1 and 6 are available open access under a Creative Commons Attribution 4.0 International License via link.springer.com.

This book provides a basic understanding and state-of-the-art of urban metabolism. Urban centres are increasingly challenged by population increase and the resultant environmental concerns including the urban sprawl and climate change. Different patterns of urbanization contribute to the changing climate via. differences in their urban metabolism represented by energy and matter. Urban metabolic studies in terms of energy and material inflows, outflows, and stocks can be associated with traditional evaluation techniques to help assess the magnitude and potential effects of variety of environmental challenges the world is facing today. Urban centres are critical real time observatories that indicate the impact anthropogenic activities have on global biogeochemical cycles. Urban processes have significant and lasting impacts on the global carbon budget. The technological and infrastructural advancements have fuelled an increase in urban inputs and outputs of material and energy. Therefore, more sustainable approaches need to be adopted in changing scenarios for urban planning, particularly for sustainable resource utilization and better waste management practices. The book emphasises on the sustainability in urban metabolism, sustainable urban planning, ecosystem services, and disaster resilience to provide an interdisciplinary understanding of urban metabolism. The book also identifies an urgent need to develop new methodological approaches for real time and reliable evaluation of urban metabolism.

This book emphasizes various challenges and opportunities in biopolymers and identifying their potential applications in various fields including food, pharmaceuticals, cosmetics, and electronics. It offers an overview of the environmental-related issues, regulatory and legislative issues,  green extraction technologies, and sustainability challenges. It will be interesting and valuable for researchers working in the related field.

This book provides a critical theoretical framework for understanding the implementation and development of smart cities as innovation drivers, with long-term effects on productivity, livability, and the sustainability of specific initiatives. This framework is based on an empirical analysis of 21 case studies, which include pioneer projects from various regions. It investigates how successful smart city initiatives foster technological innovation by combining regulatory governance and private agency. The typologies of smart city-making approaches are thoroughly examined. This book presents the holistic approach of smart cities, which start from current issue and challenges, advanced technological development, disaster mitigation, ecological perspective, social issue, and urban governance. The book is organized into five major parts, which reflect interconnection between theories and practice. Part one explains the introduction which reflects the diversity andchallenges of the urban commons and its regeneration. Part two covers the current and future situation of urban growth, anglomeration agglomeration, and urban infrastructure. This section includes rethinking urban sprawl: moving towards sustainable cities, drivers of urban growth and infrastructure, urban land use dynamics and urban sprawl and urban infrastructure sustainability and resilience. Part three describes climate crisis, urban health, and waste management. This section includes climate change and health impacts in urban areas, green spaces: an invaluable resource for delivering sustainable urban health, health and wellbeing and quality of life in the changing urban environment, urban climate and pollution¿case study, sustainable urban waste management and urban sustainability and global warming and urban heat Island. Part four covers the ecological perspectives, advanced technology, and social impact for i.e., smart building, ecosystem services, society and future smart cities (SSC). This section includes urban ecosystem services, environmental planning, and city management, artificial intelligence and urban hazards and societal impact, and using geospatial application and urban/smart city energy conservation¿case study. Part five covers urban governance, smart solutions, and sustainable cities. It includes good governance, especially e-governance and citizen participation, urban governance, space and policy planning to achieve sustainability, smart city planning and management and Internet of things (IoT), advances in smart roads for future smart cities, sustainable city planning, innovation, and management, future strategy for sustainable smart cities and lessons from the pandemic: the future of smart cities.

30 Trees presents the favorite trees of 30 internationally renowned landscape architects. In each case, the designers describe the characteristics that represent the essence of the selected tree, the designed landscapes they associate with it, and how it was used in completed projects. These personal insights are complemented by five scholarly essays on criteria such as typology, ecology, maintenance, and seasons that are critical in matching trees to landscapes. Additionally, the book includes a botanical description of each species mentioned. The result is a compendium of insights into tree species and the use of trees in landscape architecture. This book will be of interest to professionals and amateurs alike. Compendium of the most popular trees used in landscape architecture Over 30 projects from around the world Selected by 30 international landscape architects Ron Henderson is Professor of Landscape Architecture + Urbanism at Illinois Institute of Technology (IIT) in Chicago, Illinois, USA, and founding principal of LIRIO Landscape Architecture

In this book, Jeanne Gang, one of America's most distinguished contemporary architects, proposes applying the plant cultivation technique of grafting to architecture and urban design as a way of rethinking adaptive reuse and combatting climate change. Grafting is the process of connecting two separate living plants-one old and one new-so they can grow and thrive as one. This ancient practice continues to be performed today in search of more fruitful, palatable, and resilient varieties of plants. Grafting is also a useful paradigm for how architecture can address climate change on a broadly impactful scale by reusing and expanding older structures. Addressing both the environmental and cultural value of reuse, Gang shows how the concept of grafting can inform architecture across many scales, provoking the imagination and shaping tectonic, programmatic, formal, and regenerative adaptations.

The book is one of the first ones focussing on how organisations (civil society, corporations, and public sector ones) are contributing to sustainability. The book starts by providing a discussion of the four dimensions of sustainability (economic, environmental, social, and time). The second chapter focusses on what organisations are, their system elements (e.g. operations and production, management and strategy, and governance), stakeholders, relationships within and between organisations (ranging from competition to collaboration), and a framework for organisations to understand and map how they can contribute to sustainability. The third chapter discusses the twenty-four main tools, initiatives, and approaches (TIAs) that have been developed for organisations to contribute to sustainability, such as Circular Economy, Corporate Social Responsibility, Environmental Management Systems, and Sustainability Reporting. The fourth chapter focusses on organisational change management for sustainability, including types of change, drivers for change, resistance to change, incorporation, and institutionalisation. The fifth chapter presents empirical evidence on what civil society organisations have contributed to sustainability, from priorities and impacts, TIAs, external stimuli, and internal factors, drivers for change, starts of change, and development of change. The sixth chapter presents empirical evidence on what corporations have contributed to sustainability, from priorities and impacts, TIAs, external stimuli, and internal factors, drivers for change, starts of change, and development of change. The seventh chapter presents empirical evidence on what public sector organisations have contributed to sustainability, from priorities and impacts, TIAs, external stimuli, and internal factors, drivers for change, starts of change, and development of change. The last chapter provides the conclusions of the book.The book is aimed at providing a multi-level, dynamic, and holistic perspective on the contributions of organisations to sustainability. The book's uniqueness lies in analysing organisations' efforts to become more sustainability oriented and contribute to making societies more sustainable through systems thinking, TIAs, and change processes.

This book discusses emerging contexts of global warming and climate change, agricultural vulnerability and adaptation from local to global scale. Climate change, resilience in relation to agriculture and livelihoods and multi-dimensionality of various approaches are clearly taken into account by providing studies and perspectives on various methods and scales based on natural science to social science frameworks. This edited work contains chapters that are interdisciplinary, covering climate change, agriculture vulnerability, disaster impact, productivity efficiency, food security, livelihood resilience, land degradation, sustainability, in terms of plan and perform for transformation, sustainability and adaptation, including philosophy, change and economics, as well as the natural sciences. This book addresses the sustainable development goals to reduce the adverse impacts on agricultural productivity brought on by climate change and its adaptation and disaster risk reductionin developing and developed nations. Some of the assessed challenges include soil erosion, land use conversion, natural resource mismanagement, crop productivity decline and economic stagnation. This book covers important issues in the production and consumption of food in the past and present periods, agriculture, livelihood, and climate change, disaster risk management and society. All of these are under the threat of ongoing climate change and significant challenges to livelihood sustainability. The book is arranged into five broad sections: each part will cover a set of chapters dealing with a particular issue of the climate change, agriculture and society: approach toward sustainability. This book aims to attract attention of students, researchers, academician, policymakers and other inquisitive readers interested in different aspects of climate change, agriculture, livelihood and sustainability, particularly at local to global context.

This book explains the challenges for efficient sustainable surface and groundwater development and management with the focus on India and other countries, providing a stable output presentation by using machine learning data mining methods, and modeling. It is a combination of machine learning, modeling, google earth engine, climate data modeling, remote sensing and GIS techniques, surface water modeling, AHP modeling, groundwater quality analysis, aquifer mapping, land use and land cover analysis, forecasting of water and rainfall and so on, its use to sustainable development, planning, and management of groundwater purposes in India and other countries. The main purpose of this book will develop better outlines for the development of surface and groundwater and management in the semi-arid region climate, which supports the Sustainable Development Goals (SDGs) in India, especially on sustainable surface water and groundwater resources management.This book provides amultidisciplinary overview for the faculty members, administrators scientists, policymakers, social science, and professionals involved in the various aspects of sustainable groundwater development, planning, and management.

This book contains peer-reviewed papers presented at the 10th International Conference on Energy Efficiency in Domestic Appliances and Lighting (EEDAL'19), held in Jinan, China from 6-8 November 2019.Energy efficiency helps to mitigate CO2 emissions and at the same time increases the security of energy supply. Energy efficiency is recognized as the cleanest, quickest and cheapest energy source. Not only this, but energy efficiency brings several additional benefits for society and end-users, such as lower energy costs, reduced local pollution, better outdoor and indoor air quality, etc.However, in some sectors, such as the residential sector, barriers to investments in energy efficiency remain. Legislation adopted in several jurisdictions (EU, Japan, USA, China, India, Australia, Brazil, etc.) helps in removing barriers and fosters investments in energy efficiency. These initiatives complement innovative financing schemes for energy efficiency, the provision of energy services by energy service companies and different types of information programs. At the same time, progress in appliance technologies and in solid state lighting offer high levels of efficiency. LED lighting is an example. As with previous conferences in this series, EEDAL'19 provided a unique forum to discuss and debate the latest developments in energy and environmental impact of households, including appliances, lighting, heating and cooling equipment, electronics, smart meters, consumer behavior, and policies and programs. EEDAL addressed non-technical issues such as consumer behavior, energy access in developing countries, and demand response.

This book focuses on holistic approaches of applying sustainable practices in all sectors of building, infrastructure, and energy to achieve a best-balanced global energy, building, infrastructure, transportation, and water technology (EBITW) regime.  It presents a series of solutions based on innovative research and applications for building a sustainable Earth for future generations. The goal of this book is to define the context of instigation for thinking through the scientific theories and practical  applications of sustainability mechanisms to confirm a global equilibrium  by the implementation of the following main practices: Sustainable Energy, Sustainable Architectural and Engineering Design Technology, Sustainable Environment and Society, and Sustainable Earth.   

This book covers the basics of animal manure, or animal dung, and highlights its applications in agriculture and biotechnology. The reader is given a comprehensive overview of the different types of animal manure. Although animal manure can cause environmental problems, e.g., when slurry pollutes rivers or burnt dung pollutes air, the book emphasizes the fact that animal dung is by no means a waste product. Animal manure is a valuable organic fertilizer that has a positive impact on soil conditions and helps save on chemical fertilizers. It is also a source of energy and can be either be used as fuel or converted into biogas through methanization. Old-age practices such as the use of dried dung as insulating material, or burnt dung as mosquito repellent are also taken up.With the increasing focus on the UN Sustainable Development Goals (SDGs), this book offers ideas and solutions related to SDG 2 Zero Hunger and SDG 15 Life on Land. The book will not only be an interesting read for students and researchers in the field of agriculture, but will also appeal to scientists working on waste management, organic manure production or in the paper industry.

This book aims to seek for the truth which connects public value and social development as basis to build a harmony community for individuals as well as society. The book tries to bridge science, technology, economics, politics, history, ethics, and environment under the concept of public values, and reveals the essentials of public policy for individual and social development. The potential audience of the book are officials and policy makers in the public sectors, as well as managers in the private sectors.

This book explores the role of renewable energy sources in driving sustainable development, with a focus on their circular use in achieving environmental efficiency and an energy balance. The authors highlights the significance of renewable energy in reducing costs for producers and consumers while also ensuring the production of clean energy that can be integrated seamlessly into the national power grid without compromising reliability or energy security.Readers are introduced to the circular economy model and its importance in the context of renewable energy. The book sheds light on the challenges associated with transitioning to alternative energy systems, particularly in cases where not all resources can be fully circulated. Through the research presented in this book, stakeholders will gain insights into how the sustainable renewable energy supply chain can be adapted within the circular economy. This will have a synergistic effect in reducing carbonemissions, and also aid in the production of renewable energy equipment.

This book is devoted to strengthening the theoretical and methodological basis, systematization of international experience, and scientific elaboration of prospects for developing a climate-smart economy and business as a vector of the sustainable development of Industry 4.0 in the Decade of Action.The first part of the book focuses on climate-responsible entrepreneurship in support of the sustainable development of Industry 4.0. The part systematizes best practices for climate-smart green innovations across sectors of the digital economy. The third part reveals the experience of climate risk management based on smart green innovations in regions and countries. Particular attention is paid to the best practices of the European Union (EU) and the Eurasian Economic Union (EAEU). The book ends with part four, which explores ESG climate risk management and green finance in support of combating climate change.The book¿s novelty is that it rethinks the environmental footprints of Industry 4.0 from the perspective of climate risks and their management. The theoretical significance of the book lies in the formation of an innovative concept of climate change risk management, in which the economy, society, nature, and technology are presented and interact effectively. The book is intended for scientists. In this book, they will find an innovative and systemic vision of smart green innovations in Industry 4.0 for climate change risk management.

This monograph explores the potential of blockchain technology to facilitate the transition in the oil and gas (O&G) industry.As the world shifts towards a sustainable energy future, the oil and gas industry faces significant challenges and opportunities. Focusing on the development of a sustainable O&G industry, the book delves into the role of climate and financial markets in the energy sector, applications of blockchain in sustainable energy development, and the challenges of legal and regulatory issues in applying blockchain technology. It provides insight into how the energy industry is already working on reducing carbon emissions and paving the way to a sustainable future with detailed examples of reducing methane emissions, carbon credit markets, sustainable aviation fuels, and plastics. The book also examines how O&G companies could further their sustainability initiatives using blockchain technology for emission data monitoring, carbon capture, utilization, storage, and supply-chain management to develop clean products.

This book features a collection of high-quality and peer-reviewed papers from 2022 13th International Conference on Environmental Science and Technology, which was held in Shandong, China, during October 21¿23, 2022. ICEST is held annually as a platform for presentation of new advances and research results in the fields of Environmental Science and Technology. This year, we focus on the theme: Environmental Protection and Sustainable Development. With the continuous development of human society, environmental problems are becoming more and more serious. How to realize the rational use of resources, realize the sustainable development of ecological environment, and protect the environment on which human beings live has become an urgent problem to be solved. Based on the conference theme this year, the presentations include the topical areas of environmental sustainability, environmental restoration, waste minimization, solid waste management, water pollution control, water treatment and reclamation, air pollution control, carbon capture and storage and environmental monitoring, etc.

This book examines social innovation strategies in the collaborative development of spaces for growing food in cities. It enables readers to gain valuable insights into an innovative social and spatial practice whilst advancing knowledge in an emerging area of research. The book will also be of great relevance to social activists, urban designers, planners, and decision-makers with an interest in applying this expertise to their own neighbourhoods and cities.Urban food growing spaces have multiplied in recent times. This green and inclusive urbanism creates social value for the health, wellbeing, and welfare of local inhabitants. Therefore, there is a convincing argument to investigate innovative spatial practices that can enable cities to meet the needs of an increasing population. Despite the mounting interest in collective approaches to sustainable development, limited attention has been given to the diverse ways in which this social action has been pursued. How are urban food growing spaces produced through social innovation? What are the innovative processes that can be translated in a replicable model to other cities, yet suitable for local needs, to support the development of healthier, more socially just built environments?

This book, from the perspectives of the spatial and intergenerational externalities of environmental public goods, provides a comprehensive overview of the concepts and theories concerning environmental public goods supply and illustrates how to design the mechanism for promoting resident participation in effective environmental public goods supply under the guidance of the government. Noticeably, an intergenerational overlapping model for resident participation in environmental public goods supply has been created in the book, which generates new ideas for mitigating the long-standing forward intergenerational goods shortage. Moreover, this book uses happiness dataset to measure the feasibility of resident participation in environmental public goods supply and also makes a comparison between two supply models: Government Provide Model and Residents, Enterprises and Government Provide Model, so as to offer theoretically feasible suggestions.Not only is this book highly recommended for professionals in government units, universities, and research institutions that are engaged in environmental governance, but it can be used as a reference book for students of relevant majors in institutions of higher learning.

There are multiple variants of environmental footprints such as carbon footprint, ecological footprint, water footprint, nitrogen footprint and so on. There are numerous developments in terms of measuring the environmental footprints of various products. Many new indicators are being developed in terms of footprints to measure the environmental performance of various products. The need to measure various environmental footprints of agricultural crops is obvious and does not need any explanation these days when the importance of sustainability is felt so much and being practiced in all industrial sectors, including agriculture. This book presents five interesting chapters pertaining to environmental footprints of crops.

Exploring how the concept and practice of the CE can help address and achieve targets linked to relevant SDGs, this book is a great resource for researchers and policy makers alike.

The cooperative banks' business model is unique in the financial market. It is featured by democratic foundations (one-head-one-vote principle), proximity to the members and the community they serve, limited profit-seeking nature, and prudent management. However, these principles are applied in a variety of organisational structures and economic and regulatory contexts, making cooperative banks significantly different from one country to another. This book expands existing knowledge on the European cooperative banking sector by analysing recent trends affecting cooperative banks. Namely, the book discusses the role of cooperative banks in the policy and societal movement towards sustainability, including in adopting sustainable finance practices. It explores the digital transformation journey of cooperative banks and the impact of the consolidation of Fintech players in the financial services markets. It further showcases the need to evolve the cooperative banks' governance structures and processes in order to foster (and in some cases restore) democracy and transparency in the decision-making. Lastly, the book debates the specific role of cooperative banks in the economic crisis that has followed the unfolding of the Covid-19 pandemic vis-a-vis their members and the communities they serve. Of interest to scholars, professors, students, and practitioners of banking and finance, this book will build on the existing research and explore the latest trends in the space.

This book highlights the recent findings and advances in science engineering technology and sustainability issues. It aims to discuss, reflect and share experience in addressing the findings in science engineering technology and sustainability. The book aims to report the various interrelated disciplines from different institutions to discuss, reflect and share technology and experience in addressing new findings and strategies. This book presents the proceedings of the Science Engineering Technology and Sustainability International Conference (SETS2021) which was held virtually¿as sustainable virtual conferences become the new normal¿during December 23¿25, 2021. This book is presenting latest research findings, and it is suitable for researchers, postgraduate students, professionals and experts. The book includes interesting and top research in fuzzy modeling and decision-making applications in computer science. Several chapters address trending research about bioremediation and phytoremediation. There are mainly three research findings that cover artificial intelligence, sustainability and new technologies.

This book provides recent understanding about the sustainable development in agriculture. It includes information regarding new approaches for sustainable development in agriculture, horticulture and fisheries. It examines the effect of climate change and provides information on climate smart practices. In addition, some important aspects like quality seed production, role of bioinoculants, on-farm water harvesting, non-thermal processing of food, importance of water use in organic agriculture have also been discussed. It also presents in detail plant disease aspect and their management strategies. This book aims to provide an overall understanding of all aspects related to the study of environment resources, its protection for sustainable development. To meet the growing food demand of the over nine billion people who will exist by 2050 and the expected dietary changes, agriculture will need to produce 60 percent more food globally in the same period. The goal of sustainable agriculture is to meet society's food and textile needs in the present without compromising the ability of future generations to meet their own needs. Practitioners of sustainable agriculture seek to integrate three main objectives into their work: a healthy environment, economic profitability, and social and economic equity. Every person involved in the food system growers, food processors, distributors, retailers, consumers, and waste managers can play a role in ensuring a sustainable agricultural system.

This book provides a comprehensive and multidisciplinary approach to addressing geohazards, with topics such as social vulnerability reduction, risk prevention, institutional preparedness, and community resilience. It also introduces new technologies to study geohazards, which is important since geohazards have caused many casualties, economic losses, and damage to cultural heritage throughout human history. Despite this, the culture of risk prevention is not yet widespread, so Disaster Risk Reduction activities must focus on increasing capacities, strategies, and action plans for prevention and preparedness in local communities.

This book covers advanced manufacturing in biological, petroleum, and nanotechnology processing for the development of novel products and systems that incorporate enhanced pollution control and waste management for environmental remediation. The book is divided into three parts. The first section looks at the design and application of process systems, the second section focuses largely on pollution control and management, and the final section discusses areas related to process modeling and simulation. Coverage highlights the integration of smart tools and solutions and looks at current advances in monitoring industrial and environmental processes that can assist in making significant progress in process design for the effective control of pollution and waste management. 

Sustainability Sustainability is to become the guiding principle of social action and economic activity. At the same time, its ways and means are far from clear. As a holistic praxis, sustainability must combine technical and material as well as social, economic, ecological and also ethical strategies, which have multiple complex interactions and all too often also conflicting goals and priorities. In no other field can these be better observed, addressed and influenced than in architecture and building. "Building Better - Less - Different" Each volume of "Building Better - Less - Different" details two fundamental areas of sustainability and explores their specific dynamics and interactions. After introductory overviews, innovative methods and current developments are described and analysed in in-depth essays, international case studies and pointed commentaries. The sustainability criteria of efficiency ("better"), sufficiency ("less") and consistency ("different") form the framework for each book. What the press say about the first volume"Circular Construction and Circular Economy" "The articles, case studies and commentaries in this book make a major contribution to advancing the current discourse on implementing circular-based economic models in the building sector." Hessian Chamber of Architects, book reviews "To think of tomorrow when building today is the core message that Dirk E. Hebel and Felix Heisel want to convey to their readers. ... And they also show us how: with the help of relevant examples, grouped under the headings 'better', 'less' and 'different', they demonstrate concrete applications and argue that circular construction can also benefit the construction industry..." architektur aktuell Clean energy transition It has long been common knowledge that energy and sustainability are closely interlinked. And yet we are witnessing a profound shift in the sector. While the earlier focus was on improving energy efficiency and increasing the proportion of renewable energy in buildings, current energy conservation policies are supporting a broader, more holistic view. This encompasses integral approaches in which building design and construction measures form part of the energy concept from the outset, as well as accounting for grey energy in building materials and a holistic evaluation of buildings over their entire life cycle. For the energy-intensive and emission-producing building sector, climate change presents an even greater challenge than conserving resources. How can we contribute to a shift in heating strategies and employ new technologies to achieve climate-neutral heating? How can we respond to rising temperatures and the risk of increased energy consumption for cooling? Can low-tech concepts help to reduce the environmental impact of buildings over their life cycle? Shouldn't we take greater account of the users of buildings, and do we need completely different energy supply strategies? Digital Transformation At a time of natural ubiquity of digital tools, widely adopted to streamline project delivery in architecture, the foundations have been laid for a profound transformation of the construction industry to address the climate crisis. Digital architectural design and construction methods can be used as enabling technologies for a fundamental change towards a circular construction approach with significantly reduced ecological and climate impact. This approach comprises a digital reinterpretation of natural building materials through digital construction technologies. Digital deconstruction and reuse strategies can transform the existing building stock into resources for the future. Mass customization of tailor-made building components minimizes resource consumption. Architects, in their emerging role as interdisciplinary interface and digital master builders, reunite design and making through digital craft. Finally, the book provides a glimpse into the potential future of construction, which might be characterized by fundamentally different concepts of design and materialization of our built environment, challenging current paradigms within our discipline.