Engineering Education for Sustainability PDF Download
Are you looking for read ebook online? Search for your book and save it on your Kindle device, PC, phones or tablets. Download Engineering Education for Sustainability PDF full book. Access full book title Engineering Education for Sustainability by João Paulo Davim. Download full books in PDF and EPUB format.
Author: João Paulo Davim
Publisher: River Publishers Management Sc
ISBN: 9788770221047
Category : Education
Languages : en
Pages : 0
Get Book Here
Book Description
Understood to be a key issue in modern society, sustainability is characterized by its three essential pillars, namely: the environment, society and the economy. Education plays an important role in how people understand and accept sustainability. The integration of sustainability in engineering education is a relatively new phenomenon, and presenting information about engineering education for sustainability is of great interest to improve communication between professors, researchers and students at universities, institutes and research laboratories. Topics discussed in the book include: Experiences from 5 years of educating sustainability to computer science students Review of decision support methods in green and sustainable supply chains Analyzing the drivers of engineering education for sustainability using the MCDM approach Visualization technologies in construction education: a comprehensive review of recent advances A legal framework and compliance with construction safety laws and regulations.
Author: João Paulo Davim
Publisher: River Publishers Management Sc
ISBN: 9788770221047
Category : Education
Languages : en
Pages : 0
Get Book Here
Book Description
Understood to be a key issue in modern society, sustainability is characterized by its three essential pillars, namely: the environment, society and the economy. Education plays an important role in how people understand and accept sustainability. The integration of sustainability in engineering education is a relatively new phenomenon, and presenting information about engineering education for sustainability is of great interest to improve communication between professors, researchers and students at universities, institutes and research laboratories. Topics discussed in the book include: Experiences from 5 years of educating sustainability to computer science students Review of decision support methods in green and sustainable supply chains Analyzing the drivers of engineering education for sustainability using the MCDM approach Visualization technologies in construction education: a comprehensive review of recent advances A legal framework and compliance with construction safety laws and regulations.
Author: Tom Avermaete
Publisher:
ISBN: 9789085065661
Category : Architecture
Languages : en
Pages : 399
Get Book Here
Book Description
Author: Manuel Gausa
Publisher:
ISBN:
Category : Architecture
Languages : en
Pages : 696
Get Book Here
Book Description
A dictionary for a world whose cities are linked by fiber optic cables and whose citizens are virtually global, a world where airports are meeting places and meetings take place via web conference, the Metapolis Dictionary of Advanced Architecture in the Information Age.
Author: Aurora Fernández Per
Publisher:
ISBN: 9788461464524
Category : Architecture, Modern
Languages : en
Pages : 277
Get Book Here
Book Description
This is Hybrid is a selection of the articles and projects published in the Hybrids series of the magazine a+t running over four issues, during 2008 and 2009. The prologue, written by Steven Holl specially for this compilation, puts forward the potential of hybrid buildings in the 21st Century.
Author: Rajiv Pandey
Publisher: Springer Nature
ISBN: 303064619X
Category : Technology & Engineering
Languages : en
Pages : 415
Get Book Here
Book Description
This book is focused on an emerging area, i.e. combination of IoT and semantic technologies, which should enable breaking the silos of local and/or domain-specific IoT deployments. Taking into account the way that IoT ecosystems are realized, several challenges can be identified. Among them of definite importance are (this list is, obviously, not exhaustive): (i) How to provide common representation and/or shared understanding of data that will enable analysis across (systematically growing) ecosystems? (ii) How to build ecosystems based on data flows? (iii) How to track data provenance? (iv) How to ensure/manage trust? (v) How to search for things/data within ecosystems? (vi) How to store data and assure its quality? Semantic technologies are often considered among the possible ways of addressing these (and other, related) questions. More precisely, in academic research and in industrial practice, semantic technologies materialize in the following contexts (this list is, also, not exhaustive, but indicates the breadth of scope of semantic technology usability): (i) representation of artefacts in IoT ecosystems and IoT networks, (ii) providing interoperability between heterogeneous IoT artefacts, (ii) representation of provenance information, enabling provenance tracking, trust establishment, and quality assessment, (iv) semantic search, enabling flexible access to data originating in different places across the ecosystem, (v) flexible storage of heterogeneous data. Finally, Semantic Web, Web of Things, and Linked Open Data are architectural paradigms, with which the aforementioned solutions are to be integrated, to provide production-ready deployments.
