Master Degree Lecture concerning the underground space. Why we have to care about the underground space ? What are the challenges ? How the Smart Technology could help to meet these challenges ?
Conference of Isam Shahrour concerning the Lessons learned from a large Scale demonstrator of the Smart Campus (SunRise). The conference presents the history of the project and then why the Campus of the University is interesting to build a demonstrator of the Smart City. The lessons learned from this project are presented.
Conference Smart City for developing countries: Why ? and How to Start?Isam Shahrour
Conference of professor Isam Shahrour at Ecole Nationale d'Ingénieurs de Tunis (ENIT), Tunis May, 6, 2016.
Isam discusses why developing countries should develop Smart Cities and How to start a Smart City Project.
discusses why developing countries should develop Smart Cities and How to start a Smart City Project.
Smart Utility Tunnels - Conference of Isam SHAHROUR at ITASC 2017, ShanghaiIsam Shahrour
This keynote was presented at the International Symposium for Intelligent Transportation and Smart City; ITASC 2017; Shanghai. It presents How the Smart Technology could help in meeting the utility tunnels challenges?. The first part presents the utilities challenges and how the utility tunnel meets these challenges. Then it presents the application of the smart technology to establish an inclusive approach of the utility tunnel; that is based on the collection and analysis of data throughout the lifecycle of the utility tunnel. It shows that this approach enhances both the security and efficiency of the utility tunnel.
Isam Shahrour "Woh Hup Distinguished Lecture – Smart and Resilient City" at the Civil Engineering Department of the National University of Singapore (NUS):
Could the Smart City improve the resilience and sustainability of urban systems (the city)?
The Smart City in 3 questions: Why, What and How to succeed its implementat...Isam Shahrour
Key note lecture of professor Isam Shahrour "The Smart City in 3 questions: Why, What and How to succeed its implementation?" at the Smart City Conference, organiszed at the University AN Najah, Nablus, Palestine, April, 26, 2016.
Isam Shahrour conference at Shandong Agricultural University: Smart City for ...Isam Shahrour
This conference presented the world environmental challenges in particular the greenhouse emission, the global warming, the climate change and the air pollution, then the Smart City concept and how this concept could help in facing the environmental challenges.
Conference of Isam Shahrour concerning the Lessons learned from a large Scale demonstrator of the Smart Campus (SunRise). The conference presents the history of the project and then why the Campus of the University is interesting to build a demonstrator of the Smart City. The lessons learned from this project are presented.
Conference Smart City for developing countries: Why ? and How to Start?Isam Shahrour
Conference of professor Isam Shahrour at Ecole Nationale d'Ingénieurs de Tunis (ENIT), Tunis May, 6, 2016.
Isam discusses why developing countries should develop Smart Cities and How to start a Smart City Project.
discusses why developing countries should develop Smart Cities and How to start a Smart City Project.
Smart Utility Tunnels - Conference of Isam SHAHROUR at ITASC 2017, ShanghaiIsam Shahrour
This keynote was presented at the International Symposium for Intelligent Transportation and Smart City; ITASC 2017; Shanghai. It presents How the Smart Technology could help in meeting the utility tunnels challenges?. The first part presents the utilities challenges and how the utility tunnel meets these challenges. Then it presents the application of the smart technology to establish an inclusive approach of the utility tunnel; that is based on the collection and analysis of data throughout the lifecycle of the utility tunnel. It shows that this approach enhances both the security and efficiency of the utility tunnel.
Isam Shahrour "Woh Hup Distinguished Lecture – Smart and Resilient City" at the Civil Engineering Department of the National University of Singapore (NUS):
Could the Smart City improve the resilience and sustainability of urban systems (the city)?
The Smart City in 3 questions: Why, What and How to succeed its implementat...Isam Shahrour
Key note lecture of professor Isam Shahrour "The Smart City in 3 questions: Why, What and How to succeed its implementation?" at the Smart City Conference, organiszed at the University AN Najah, Nablus, Palestine, April, 26, 2016.
Isam Shahrour conference at Shandong Agricultural University: Smart City for ...Isam Shahrour
This conference presented the world environmental challenges in particular the greenhouse emission, the global warming, the climate change and the air pollution, then the Smart City concept and how this concept could help in facing the environmental challenges.
Conference of Isam Shahrour - Smart City for Energy Transition - Pre-COP22Isam Shahrour
This conference presents the contribution of the concept "Smart City" in the energy transition strategies. It includes 4 parts: presentation of the challenges of the energy transition, the role of the city in the energy transition, the concept of the smart city and how it contributed to the implementation of efficient Energy transition policy and finally the lessons learned from 5 years-experience of large scale demonstrator of the Smart City “SunRise".
Isam shahrour conference "Smart Water" at Shandong - China (translated in Ch...Isam Shahrour
Conference of Isam Shahrour (Smart Water- lessons learned from 4-years of large experimentation) at the hydrology office of Shandong province, in charge of the management of water resources for 100 million inhabitants.
Around 100 researchers, senior engineers and engineers attended this conference. The conference focused on water challenges, Smart water concept, water network monitoring, SmartWater4Europe, lessons learned from the SunRise Smart City demonstrator.
Translation in Chinese by Hanbing Bian
Knowledge Society : Challenges and Opportunities for Economic and Territoria...Isam Shahrour
Lecture of Isam Shahrour Knowledge Society: Challenges and Opportunities for Economic and Territorial Development - Role of Higher Education and Research Institutions” At the Palestine Economic Policy Research Institute (MAS), Ramallah, Palestine, December 20, 2011
Working towards Sustainable Software for Science (an NSF and community view)Daniel S. Katz
This talk looks at the goal of sustainable scientific software from the point-of-view of an NSF program officer who funds software as infrastructure, meaning software that enables a community beyond the developers to perform research, and from the point-of-view of the attendees of the First Workshop on Sustainable Software for Science: Practice and Experiences (WSSSPE1, http://wssspe.researchcomputing.org.uk/wssspe1/). Issues to be discussed include what sustainability means, funding, incentives, career paths, and communities.
Conference at Tongi University - Shanghai: Smart City for developing and eme...Isam Shahrour
The conference of professor Isam Shahrour presented the urban challenges of emerging and developing countries, the concept of the Smart City and how this concept could help in facing the challenges of these countries. It also presents the implementation of the Smart City concept through the construction of the SunRise Smart City demonstrator.
Collection Methodology for Key Performance Indicators for Smart Sustainable C...ITU
These indicators have been developed to provide cities with a consistent and standardised method to collect
data and measure performance and progress to:
achieving the Sustainable Development Goals (SDGs)
becoming a smarter city
becoming a more sustainable city
The indicators will enable cities to measure their progress over time, compare their performance to other
cities and through analysis and sharing allow for the dissemination of best practices and set standards for
progress in meeting the Sustainable Development Goals (SDGs) at the city level.
For more information visit: https://www.itu.int/en/ITU-T/ssc/united/Pages/default.aspx
Ch0 introduction to smart city course aust 2015Isam Shahrour
Introduction to the summer course 'Smart City Solution and implementation” at the American University of Science and Technology - Beirut (AUST) - Summer 2015
Sustainable Mobility Planning in Mumbai - Examples from EuropeDon Guikink
India has huge challenges regarding sustainable development and urban mobility planning. the EU has, together with local partners in Mumbai, facilitated a number of workshops to exchange experiences between Europe and India.
Understanding Smart Cities as Social MachinesDirk Ahlers
Presentation at the 4th International Workshop on the Theory and Practice of Social Machines SOCM2016 at WWW2016.
Paper is here:
http://www2016.net/proceedings/companion/p759.pdf
More details: http://www.informatik.uni-oldenburg.de/~there/
Nhtv breda university of applied scienceDon Guikink
Brief presentation of NHTV's vision on implementation of "smart cities" education programmes at the KIC Urban Mobility Event in Brussels on March 29 2017
How can we make the transition to more sustainable urban mobility? Examples on concrete solutions from around the world - from SUSTAINIA's publications: Global Opportunity Report, SUSTAINIA100 and CITIES100.
Harry Mahardhika, HOT Indonesia, OSM for Disaster Management, Harry Mahardhik...Kathmandu Living Labs
State of the Map Asia (SotM-Asia) is the annual regional conference of OpenStreetMap (OSM) organized by OSM communities in Asia. First SotM-Asia was organized in Jakarta, Indonesia in 2015, and the second was organized in Manila, Philippines in 2016. This year’s conference, third in the series, was organized in Kathmandu, Nepal on September 23 – 24, 2017 at Park Village Resort, Budhanilkantha, Kathmandu, Nepal.
We brought nearly 200 Open Mapping enthusiasts from Asia and beyond to this year’s SotM-Asia. The event provided an opportunity to share knowledge and experience among mappers; expand their network; and generate ideas to expand map coverage and effective use of OSM data in Asian continent. We chose ‘from creation to use of OSM data’ as the theme of this year’s conference, emphasizing on the effective use of OSM data. We also brought together a government panel from four different countries in this year’s SotM-Asia. We believe this event will deepen the bond and enhance collaboration among OSM communities across Asia.
More information about the conference can be found on: http://stateofthemap.asia.
ISOCARP @ WUF10 | Projects and Activities of ISOCARP InstituteTjark Gall
The session at the World Urban Forum included an overview of the activities and projects of ISOCARP Institute, the research branch of the International Society of City and Regional Planners.
Démonstrateur à grande échelle de « Smart Water »Isam Shahrour
Cette conférence a été présentée aux journées de l’Office Internationale de l’Eau (OIEAU) sur le thème « Intelligence numérique : nouveaux outils pour la gestion des réseaux d’eau » qui a eu lieu à Paris le 15 mars, 2017. Elle présente le démonstrateur à grande échelle des réseaux d’eau intelligents réalisé sur la Cité Scientifique. Il décrit les réseaux d’eau potable et d’assainissement, l’instrumentation de ces réseaux, l’analyse des données et le retour d’expérience.
SunRise: Site pilote de la ville intelligente et durableIsam Shahrour
Conférence organisée avec NORPAC dans le cade de la semaine du développement durable, Mars 2014.
Isam Shahrour présente le projet SunRise "Démonstrateur de la ville intelligente et durable".
Conference of Isam Shahrour - Smart City for Energy Transition - Pre-COP22Isam Shahrour
This conference presents the contribution of the concept "Smart City" in the energy transition strategies. It includes 4 parts: presentation of the challenges of the energy transition, the role of the city in the energy transition, the concept of the smart city and how it contributed to the implementation of efficient Energy transition policy and finally the lessons learned from 5 years-experience of large scale demonstrator of the Smart City “SunRise".
Isam shahrour conference "Smart Water" at Shandong - China (translated in Ch...Isam Shahrour
Conference of Isam Shahrour (Smart Water- lessons learned from 4-years of large experimentation) at the hydrology office of Shandong province, in charge of the management of water resources for 100 million inhabitants.
Around 100 researchers, senior engineers and engineers attended this conference. The conference focused on water challenges, Smart water concept, water network monitoring, SmartWater4Europe, lessons learned from the SunRise Smart City demonstrator.
Translation in Chinese by Hanbing Bian
Knowledge Society : Challenges and Opportunities for Economic and Territoria...Isam Shahrour
Lecture of Isam Shahrour Knowledge Society: Challenges and Opportunities for Economic and Territorial Development - Role of Higher Education and Research Institutions” At the Palestine Economic Policy Research Institute (MAS), Ramallah, Palestine, December 20, 2011
Working towards Sustainable Software for Science (an NSF and community view)Daniel S. Katz
This talk looks at the goal of sustainable scientific software from the point-of-view of an NSF program officer who funds software as infrastructure, meaning software that enables a community beyond the developers to perform research, and from the point-of-view of the attendees of the First Workshop on Sustainable Software for Science: Practice and Experiences (WSSSPE1, http://wssspe.researchcomputing.org.uk/wssspe1/). Issues to be discussed include what sustainability means, funding, incentives, career paths, and communities.
Conference at Tongi University - Shanghai: Smart City for developing and eme...Isam Shahrour
The conference of professor Isam Shahrour presented the urban challenges of emerging and developing countries, the concept of the Smart City and how this concept could help in facing the challenges of these countries. It also presents the implementation of the Smart City concept through the construction of the SunRise Smart City demonstrator.
Collection Methodology for Key Performance Indicators for Smart Sustainable C...ITU
These indicators have been developed to provide cities with a consistent and standardised method to collect
data and measure performance and progress to:
achieving the Sustainable Development Goals (SDGs)
becoming a smarter city
becoming a more sustainable city
The indicators will enable cities to measure their progress over time, compare their performance to other
cities and through analysis and sharing allow for the dissemination of best practices and set standards for
progress in meeting the Sustainable Development Goals (SDGs) at the city level.
For more information visit: https://www.itu.int/en/ITU-T/ssc/united/Pages/default.aspx
Ch0 introduction to smart city course aust 2015Isam Shahrour
Introduction to the summer course 'Smart City Solution and implementation” at the American University of Science and Technology - Beirut (AUST) - Summer 2015
Sustainable Mobility Planning in Mumbai - Examples from EuropeDon Guikink
India has huge challenges regarding sustainable development and urban mobility planning. the EU has, together with local partners in Mumbai, facilitated a number of workshops to exchange experiences between Europe and India.
Understanding Smart Cities as Social MachinesDirk Ahlers
Presentation at the 4th International Workshop on the Theory and Practice of Social Machines SOCM2016 at WWW2016.
Paper is here:
http://www2016.net/proceedings/companion/p759.pdf
More details: http://www.informatik.uni-oldenburg.de/~there/
Nhtv breda university of applied scienceDon Guikink
Brief presentation of NHTV's vision on implementation of "smart cities" education programmes at the KIC Urban Mobility Event in Brussels on March 29 2017
How can we make the transition to more sustainable urban mobility? Examples on concrete solutions from around the world - from SUSTAINIA's publications: Global Opportunity Report, SUSTAINIA100 and CITIES100.
Harry Mahardhika, HOT Indonesia, OSM for Disaster Management, Harry Mahardhik...Kathmandu Living Labs
State of the Map Asia (SotM-Asia) is the annual regional conference of OpenStreetMap (OSM) organized by OSM communities in Asia. First SotM-Asia was organized in Jakarta, Indonesia in 2015, and the second was organized in Manila, Philippines in 2016. This year’s conference, third in the series, was organized in Kathmandu, Nepal on September 23 – 24, 2017 at Park Village Resort, Budhanilkantha, Kathmandu, Nepal.
We brought nearly 200 Open Mapping enthusiasts from Asia and beyond to this year’s SotM-Asia. The event provided an opportunity to share knowledge and experience among mappers; expand their network; and generate ideas to expand map coverage and effective use of OSM data in Asian continent. We chose ‘from creation to use of OSM data’ as the theme of this year’s conference, emphasizing on the effective use of OSM data. We also brought together a government panel from four different countries in this year’s SotM-Asia. We believe this event will deepen the bond and enhance collaboration among OSM communities across Asia.
More information about the conference can be found on: http://stateofthemap.asia.
ISOCARP @ WUF10 | Projects and Activities of ISOCARP InstituteTjark Gall
The session at the World Urban Forum included an overview of the activities and projects of ISOCARP Institute, the research branch of the International Society of City and Regional Planners.
Démonstrateur à grande échelle de « Smart Water »Isam Shahrour
Cette conférence a été présentée aux journées de l’Office Internationale de l’Eau (OIEAU) sur le thème « Intelligence numérique : nouveaux outils pour la gestion des réseaux d’eau » qui a eu lieu à Paris le 15 mars, 2017. Elle présente le démonstrateur à grande échelle des réseaux d’eau intelligents réalisé sur la Cité Scientifique. Il décrit les réseaux d’eau potable et d’assainissement, l’instrumentation de ces réseaux, l’analyse des données et le retour d’expérience.
SunRise: Site pilote de la ville intelligente et durableIsam Shahrour
Conférence organisée avec NORPAC dans le cade de la semaine du développement durable, Mars 2014.
Isam Shahrour présente le projet SunRise "Démonstrateur de la ville intelligente et durable".
Augmented and virtual Reality for the Smart CityIsam Shahrour
Presentation of how the Augmented and Virtual Reality could help in the implementation of the Smart City Concept through living and sharing experiences related to the Smart City and enhancing this concept
Smart City : Preuve par l'exemple - démonstrateur SunRise – Smart CityIsam Shahrour
Conférence de Shahrour Isam lors de la Rencontre Legrand “Paroles d’Experts” sur le thème « Ville intelligente et bâtiment connecté », organisé le 6 Décembre 2016 au stade Pierre Mauroy. La conférence montre à travers le bilan du démonstrateur à grande échelle “SunRise Smart City” tout l’intérêt et la pertinence du concept Smart City.
Cours "Ville et territoires intelligents : l’innovation au service de l’actio...Isam Shahrour
Cours d’Isam Shahrour sur la ville et les territoires innovants donné dans le cadre du cycle de formation aux Directeurs Généraux de l’INET de Strasbourg « l’innovation au service de l’action publique locale », Strasbourg, 7 Juin 2016.
Chapitre 4 "Ville résiliente"
Cours «Gouvernance des systèmes urbains »
3eme année de la Licence Génie Civil – Génie Urbain , Université Lille1/Polytech’Lille, France.
Ce cours décrit le concept de la résilience urbaine en présentant successivement les risques urbains, la résilience, le rôle des réseaux techniques et les actions à mener pour rendre la ville résiliente.
SunRise Smart City: Expérimentations à grande échelle de la ville intelligen...Isam Shahrour
Présentation du projet SunRise SmartCity lors du colloque organisé par Eiffage Construction et le Laboratoire Génie Civil et géo-Environnement (LGCgE) le 14 octobre 2014 sur le thème "Expérimentations à grande échelle de la ville
intelligente et durable.
Le projet Sunrise vise à transformer le campus de la Cité Scientifique en un démonstrateur, à l’échelle d’une petite ville, de la ville intelligente et durable. Il couvre l’ensemble des réseaux urbains et des bâtiments du campus.
Smart City en 2 questions : Quel intérêt ? internet des démonstrateurs ? Isam Shahrour
Conférence d’Isam Shahrour lors du colloque Colloque « Objets Connectés » organisé par l’Association Tunisienne pour le Développement de l’Automatique (ATuDA), à Hammamet, Tunisie, le 7 Mai 2016. Cette conférence présente les défis de la ville et comment ce concept peut aider les villes à faire face à ces défis. Elle présente tout l’intérêt de passer par des démonstrateurs à grande échelle.
Smart City AUST Summer Course_Lecture1 World Challenges_summer2016Isam Shahrour
The first lecture of the Smart City Summer Course at AUST (2016) presents the main world challenges concerning the environment, the economy and the society as well as the role of the city in these challenges. It aims at introducing why we have to focus on the city and on the role of the Smart City Concept to meet the city challenges, the world challenges.
Chapitre 2 Energie : demande, consommations et précarité énergétique Isam Shahrour
Ce cours présente la consommation de l’énergie dans le monde, en France et aux Etats Unis. Il présente aussi la précarité énergétique et les principales problématiques de l’énergie
Dit zijn de slides van de eindpresentatie op de Smart Cities Challenge van 3 mei 2016 te Gent. Een overzicht door Delaware Consulting van de 7 strategische domeinen waarover die dag gebrainstormd werd: Smart Economy, Smart Food, Smart Governance, Smart Mobility, Smart Energy, Smart Citizens, Smart Living. Dit evenement werd mogelijk danzij deze partners: Provincie Oost-Vlaanderen, Stad Gent, Eneco, Vlaamse Overheid, Universiteit Gent, Eandis, TomTom, BNP Paribas-Fortis, Roof Food, Delaware Consulting, Indra, Volvo, Port of Ghent, Bright Advocaten, Seeq animatievideo's, Trigger social media marketing en de talrijke aanwezigen, bedankt!
(event powered by JCI Gent Artevelde)
Smart campus: an effective concept for the Smart City developmentIsam Shahrour
Concept presented by Isam Shahrour at the World Bank meeting - May 2014 concerning the use of the "Smart Campus" Concept for the dissemination and the implementation of smart and sustainable cities.
Every one in the world wants to live in a compact environment. like in olden days the peoples they were used telephone, telegram, etc. for communication. but in the current scenario every one have smart phones for better communication. Because smartphones are compact and convenient to them.This presentation about Compact City planning and also it dealt how various compact cities in the developed and developing countries manage themselves. This presentation just gives an outline of the compact city planning.
How the smart city solution could help in urban systems resilience?Isam Shahrour
This conference discusses the urban hazards including natural hazards and how we can combine the resilience approach as well as the smart city solution to cope with the urban hazards challenges
Peut-on encore sauver la ville : Rencontre « La Ville au futur » du réseau CA...Isam Shahrour
Lors de cette conférence Isam Shahrour présente les grands défis de la ville aussi bien dans les pays développés qu’en voie de développement, montre la situation critique de la ville et explore les solutions à mettre en place pour éviter le chaos.
Article I. Shahrour dans « Pouvoir locaux » Comment la mutation technologique...Isam Shahrour
Le concept Smart City connaît aujourd’hui un très grand intérêt à travers le monde.
Une récente enquête en France montre que près de la moitié des collectivités sont engagées dans un projet de Smart City. Plus d’un millier de villes en Europe, aux Etats-Unis, en Inde et en Chine portent déjà des projets de ce type. L’Afrique, qui connaît aujourd’hui une très forte urbanisation, montre aussi un grand intérêt pour ce concept. La question se pose, pourquoi tant d‘intérêt ? Que signifie ce concept ? Est-ce que la Smart City est la solution « miracle » pour les nombreux défis que rencontrent nos villes ? et enfin, comment réussir un projet « Smart City » ? Cet article tente d’apporter des éléments de réponses à ces questions. Il présente d’abord les défis liés à la transformation urbaine et les difficultés à y faire face. Ensuite, il présente le concept Smart City et discute de la façon dont il peut aider à faire face aux défis de la ville et dont on peut réussir son implémentation.
Approche inclusive de l’innovation dans le logement social : Apport de la Tec...Isam Shahrour
Lors de cette conférence Isam Shahrour présente une synthèse des défis rencontrés dans le logement social, une approche globale de l’amélioration des conditions de vie dans le logement social, le rôle du bailleur et l’apport de l’apport de la technologie numérique dans la gestion du patrimoine et le développement d’une plateforme transversale de services.
Smart City : Quel modèle de gouvernance? Cycle la gouvernance territoriale - ...Isam Shahrour
Conférence sur le modèle de gouvernance de la Smart City dans le cadre des jeudis de la gouvernance territoriale à l’ENA. La conférence présente le concept de la Smart City, ce que ce concept induit comme changement dans la gouvernance de la ville et un modèle de gouvernance qui assure la participation des acteurs de la ville.
Smart City: Governance of the Information SystemIsam Shahrour
Isam Shahrour presentation at the Global Management Conference GMC 2017 – IAE Lille. The conference presents first the role of the Information System in Smart City projects and then discusses how this information system could be governed and finally proposes a governance model.
How the Smart Underground Space could help meet urban transport challenges?, ...Isam Shahrour
This keynote was presented at the International Symposium for Intelligent Transportation and Smart City (ITASC 2017; Shanghai). It presents first the urban transport challenges and how the underground space helps meet these challenges. Then it presents the application of the smart technology to establish an inclusive approach of the underground space; that is based on the collection and analysis of data throughout the lifecycle of the underground space. It shows that this approach enhances both the security and efficiency of the underground space.
Smart City au Service de la Transition Energétique:Isam Shahrour
Conférence sur le Rôle de la « Smart City » dans la transition énergétique, qui a été donnée par Isam Shahrour lors du colloque international « Transition Energétique en Afrique entre défis économiques et enjeux environnementaux », organisé à Alger le 1er octobre, 2016. La conférence a comporté 3 parties : la transition énergétique, le rôle de la ville dans cette transition et comment le concept de ville intelligente peut aider dans cette transition.
La ville numérique au service de l’accessibilité des personnes en situation d...Isam Shahrour
Présentation d’Isam Shahrour au forum HANDINUM 2016 à Dunkerque. La conférence présente d’abord les problèmes rencontrés par les handicapés en milieu urbain, les difficultés d’adaptation de la ville aux situations de handicap et l’apport de la technologie numérique (ville numérique) dans l’amélioration de la mobilité urbaine des handicapés.
La Ville du Futur : Entre défis, exigences et innovationsIsam Shahrour
Présentation d’Isam Shahrour à la table ronde « Ville du Futur : apport de la technologie numérique » , qui a été organisée dans le cadre des 24H de Saint JO, le 29 Avril 2016.
Conférence d'Isam Shahrour Eau dans la ville - Smart WaterIsam Shahrour
Conférence donnée par professeur Isam Shahrour sur le retour d'expérience du projet SunRise - Smart City lors du Forum l’Eau dans la Ville, organisée le 22 avril 2016 par le Syndicat de l’eau du dunkerquois
Chapitre 4 Transition Energétique- Cours Energie et développement durable» ma...Isam Shahrour
Ce chapitre fait partie du cours «Energie et développement durable» du master Génie Civil, à Lille1/Polytech’Lille
présente la transition énergétique à travers 3 questions : pourquoi il faut une politique de transition énergétique, comment mettre en place cette politique et quelles réalisations dans ce domaine.
Forklift Classes Overview by Intella PartsIntella Parts
Discover the different forklift classes and their specific applications. Learn how to choose the right forklift for your needs to ensure safety, efficiency, and compliance in your operations.
For more technical information, visit our website https://intellaparts.com
We have compiled the most important slides from each speaker's presentation. This year’s compilation, available for free, captures the key insights and contributions shared during the DfMAy 2024 conference.
Understanding Inductive Bias in Machine LearningSUTEJAS
This presentation explores the concept of inductive bias in machine learning. It explains how algorithms come with built-in assumptions and preferences that guide the learning process. You'll learn about the different types of inductive bias and how they can impact the performance and generalizability of machine learning models.
The presentation also covers the positive and negative aspects of inductive bias, along with strategies for mitigating potential drawbacks. We'll explore examples of how bias manifests in algorithms like neural networks and decision trees.
By understanding inductive bias, you can gain valuable insights into how machine learning models work and make informed decisions when building and deploying them.
Saudi Arabia stands as a titan in the global energy landscape, renowned for its abundant oil and gas resources. It's the largest exporter of petroleum and holds some of the world's most significant reserves. Let's delve into the top 10 oil and gas projects shaping Saudi Arabia's energy future in 2024.
Welcome to WIPAC Monthly the magazine brought to you by the LinkedIn Group Water Industry Process Automation & Control.
In this month's edition, along with this month's industry news to celebrate the 13 years since the group was created we have articles including
A case study of the used of Advanced Process Control at the Wastewater Treatment works at Lleida in Spain
A look back on an article on smart wastewater networks in order to see how the industry has measured up in the interim around the adoption of Digital Transformation in the Water Industry.
NUMERICAL SIMULATIONS OF HEAT AND MASS TRANSFER IN CONDENSING HEAT EXCHANGERS...ssuser7dcef0
Power plants release a large amount of water vapor into the
atmosphere through the stack. The flue gas can be a potential
source for obtaining much needed cooling water for a power
plant. If a power plant could recover and reuse a portion of this
moisture, it could reduce its total cooling water intake
requirement. One of the most practical way to recover water
from flue gas is to use a condensing heat exchanger. The power
plant could also recover latent heat due to condensation as well
as sensible heat due to lowering the flue gas exit temperature.
Additionally, harmful acids released from the stack can be
reduced in a condensing heat exchanger by acid condensation. reduced in a condensing heat exchanger by acid condensation.
Condensation of vapors in flue gas is a complicated
phenomenon since heat and mass transfer of water vapor and
various acids simultaneously occur in the presence of noncondensable
gases such as nitrogen and oxygen. Design of a
condenser depends on the knowledge and understanding of the
heat and mass transfer processes. A computer program for
numerical simulations of water (H2O) and sulfuric acid (H2SO4)
condensation in a flue gas condensing heat exchanger was
developed using MATLAB. Governing equations based on
mass and energy balances for the system were derived to
predict variables such as flue gas exit temperature, cooling
water outlet temperature, mole fraction and condensation rates
of water and sulfuric acid vapors. The equations were solved
using an iterative solution technique with calculations of heat
and mass transfer coefficients and physical properties.
Hierarchical Digital Twin of a Naval Power SystemKerry Sado
A hierarchical digital twin of a Naval DC power system has been developed and experimentally verified. Similar to other state-of-the-art digital twins, this technology creates a digital replica of the physical system executed in real-time or faster, which can modify hardware controls. However, its advantage stems from distributing computational efforts by utilizing a hierarchical structure composed of lower-level digital twin blocks and a higher-level system digital twin. Each digital twin block is associated with a physical subsystem of the hardware and communicates with a singular system digital twin, which creates a system-level response. By extracting information from each level of the hierarchy, power system controls of the hardware were reconfigured autonomously. This hierarchical digital twin development offers several advantages over other digital twins, particularly in the field of naval power systems. The hierarchical structure allows for greater computational efficiency and scalability while the ability to autonomously reconfigure hardware controls offers increased flexibility and responsiveness. The hierarchical decomposition and models utilized were well aligned with the physical twin, as indicated by the maximum deviations between the developed digital twin hierarchy and the hardware.
HEAP SORT ILLUSTRATED WITH HEAPIFY, BUILD HEAP FOR DYNAMIC ARRAYS.
Heap sort is a comparison-based sorting technique based on Binary Heap data structure. It is similar to the selection sort where we first find the minimum element and place the minimum element at the beginning. Repeat the same process for the remaining elements.
7. 1) Lifecycle management
Planning Design Construction Exploitation
how to ensure data and information transmission between
stakeholders all over the lifecycle ?
4 major and complex stages for the use of the underground space
10. 1) Lifecycle approach
Each stage is based on data and generates new data
Planning Design Construction Exploitation
• Urban environment
• Subsoil (preliminary studies and
investigations)
• Data from soil excavation
• Specific soil exploration
• Soil treatment
• Soil and Structure movement
• Hydraulic parameters
• Advanced soil exploration (geophysics, field
exploration, laboratory tests, hydraulic)
• Output (AutoCad, BIM, plans, charts,..)
11. 1) Lifecycle approach
Each stage is based on data and generates new data
Planning Design Construction Exploitation
• Urban environment
• Subsoil (preliminary studies and
investigations)
• Data from soil excavation
• Specific soil exploration
• Soil treatment
• Soil and Structure movement
• Hydraulic parameters
• Exploitation data
• Energy, water, air quality
• Safety
• Maintenance
• Surveillance
• Advanced soil exploration (geophysics, field
exploration, laboratory tests, hydraulic)
• Output (AutoCad, BIM, plans, charts,..)
16. Planning Design Construction Exploitation
• Urban planning
• Geo- environmental
• Construction process –
• Excavated soil re-use
• Impact on the subsoil and water
• Energy and water consumption
2) Sustainability – Environment
Integrated eco- friendly strategy for underground facilities ?
17. Planning Design Construction Exploitation
• Urban planning
• Geo- environmental
• Use of green technology
• Reduction of water and energy
consumption
• Prevention of soil, water and air
pollution
• Treatment of excavated soil
• Construction process
• Excavated soil re-use
• Impact on the subsoil and water
• Energy and water consumption
2) Sustainability – Environment
Integrated eco- friendly strategy for underground facilities ?
18. Preliminary
studies
Design Construction Exploitation
• Urban planning
• Geo- environmental
• Use of green technology
• Reduction of water and energy
consumption
• Prevention of soil, water and air
pollution
• Treatment of excavated soil
• Reduction of Energy and Water
Consumption
• Air Quality
• Local Energy production
• Construction process
• Excavated soil re-use
• Impact on the subsoil and water
• Energy and water consumption
2) Sustainability – Environment
Integrated eco- friendly strategy for underground facilities ?
20. Safety in the underground space is more critical than in the
surface space, because of the access restriction.
Accidents could occur during the construction or exploitation
stages.
It concerns:
• Structural instability,
• water infiltration,
• Fire,
• Electrical outage,
• Air contamination
• Accidents
3) Resiliency, safety and risk management
22. Preliminary
studies
Design Construction Exploitation
• Identification of the safety
challenges (Indicators)
• Integration of safety and
resilience
3) Resiliency, Safety and risk management
Integrated strategy for underground resiliency, safety and risk
management?
23. Preliminary
studies
Design Construction Exploitation
• Identification of the safety
challenges (Indicators)
• Integration of safety and
resilience
• Identification of the safety and
resilience challenges (Indicators)
• Integration of the Smart
Technology in the safety issue …
Real-time supervision and
équipement control
3) Resiliency, Safety and risk management
Integrated strategy for underground resiliency, safety and risk
management?
24. Preliminary
studies
Design Construction Exploitation
• Identification of the safety
challenges (Indicators)
• Integration of safety and
resilience
• Identification of the safety and
resilience challenges (Indicators)
• Monitoring of the soil-structure
movement and hydraulic parameters
• Interpretation of the excavation
parameters
• Use of historical and real – time data
for safe and optimal management of
the excavation process.
• Identification of the safety and
resilience challenges (Indicators)
• Integration of the Smart
Technology in the safety issue …
Real-time supervision and
équipement control
3) Resiliency, Safety and risk management
Integrated strategy for underground resiliency, safety and risk
management?
25. Preliminary
studies
Design Construction Exploitation
• Identification of the safety
challenges (Indicators)
• Integration of safety and
resilience
• Identification of the safety and
resilience challenges (Indicators)
• Monitoring of the soil-structure
movement and hydraulic parameters
• Interpretation of the excavation
parameters
• Use of historical and real – time data
for safe and optimal management of
the excavation process.
• Identification of the safety and
resilience challenges (Indicators)
• Real-time Monitoring of the space
and equipment
• Real-time control of the
equipment
• Decision based on real-time and
historical data
• Identification of the safety and
resilience challenges (Indicators)
• Integration of the Smart
Technology in the safety issue …
Real-time supervision and
équipement control
3) Resiliency, Safety and risk management
Integrated strategy for underground resiliency, safety and risk
management?
35. Smart City PlatformInformation
Sytem
Asset Data (GIS)
Analytics
Wb servor
communication
• Users
• Management staff
• Technical staff
• Academic Staff
• Public
Data transfert:
• Wired
• Wireless
Monitoring
• Buildings
• Water Network
• Energy network
• Others
Sensors data
Users
Alert
Information
Users data
Open data
• Weather
• Traffic
• Emergency
Open data
Architecture of the Smart System
36. Information system (IS)
Asset data :
Soils, structural elements;
adjacent buildings;
Electrical, mechanical
equipment; maintenance
information
Soil and structure movement
water flow and pressure
Information on operating
equipment and devices
(electrical grid, ventilation,
access control, air quality and
fire equipment)
Useful information: traffic,
weather, urban activities and
events (sport, spectacles...),
density of users
Information
System
37. Data management
Data management could use professional tools such as:
• Geographic Information System (GIS)
• Building Information Modelling (BIM).
• Civil Information Modelling (CIM)
38. Implementation of the Smart system
Designation of a Smart System Team with multidisciplinary skills
Smart System
Team
Digital
technology
Data mining
and analysis
Civil -
geotechnical
engineering
Mechanical
and electrical
engineering,
Security
and
emergency
Management
39. Implementation of the Smart system
The SST should work with all services in order to understand their
mission, data required and generated, its use and interaction with other
services.
The governance of the Smart System Team (SST) should be effective over
all issues concerning the management and safety of the underground space.
40. Smart System Team Mission
Integrate existing data and
associated tools in the Smart
System Platform.
Establish with all services the smart
monitoring program and the
acquisition of related data
Set the data access rights and
share with other services.
Share with services available tools
(data analysis, data mining,
engineering analytics and
visualization tools)
Training
41. Implementation of the Smart system
The SST should establish clearly for each data a key actor (service) as
well as the associated actors (services).
The key actor is responsible for the data acquisition, verification and
integration as well as its share with other services.
42. Implementation of the Smart system
Each service should:
• Dress up process tools and tools for the use of data for safety and optimal
management.
• Establish alerts and security measurement in case of any incident.
• Share with other services any abnormal event and as well as strategies
for the optimal management of the underground space.
43. Planning Design Construction Exploitation
• Identification of parameters to be
followed and controlled
• Design of the monitoring system
• Design of the Information System
• Design of the control system
• Construction of the Smart Platform
(GIS, BIM, CIM,…)
Smart System for underground space
Work to conduct at each step
44. Planning Design Construction Exploitation
• Data collection and transfer to
the Information system
• Use of Data for the control of
the excavation process and
environment
• Performance analysis
• Share of information
• Identification of parameters to be
followed and controlled
• Design of the monitoring system
• Design of the Information System
• Design of the control system
• Construction of the Smart Platform
(GIS, BIM, CIM,…)
Smart System for underground space
Work to conduct at each step
45. Planning Design Construction Exploitation
• Data collection and transfer to
the Information system
• Use of Data for the control of
the excavation process and
environment
• Performance analysis
• Share of information
• Data collection and transfer to the IS
• Use of Data for the control of the
equipment, devices, environment
• Performance analysis
• Share of Data
• Users information
• Identification of parameters to be
followed and controlled
• Design of the monitoring system
• Design of the Information System
• Design of the control system
• Construction of the Smart Platform
(GIS, BIM, CIM,…)
Smart System for underground space
Work to conduct at each step
46. 1) Information system
Asset data :
• Soils, structural
elements;
• adjacent
buildings;
• Electrical,
mechanical
equipment;
• maintenance
information
Dynamic data
• Soil and
structure
movement
• water flow
and pressure
Other
information:
• Traffic,
• weather,
• Urban
activities
• Users
Operating Data
• Electrical grid,
• ventilation,
• access control,
• air quality
• fire equipment
• Water
Data management
Data management could use professional tools such as:
• Geographic Information System (GIS)
• Building Information Modelling (BIM).
• Civil Information Modelling (CIM)
47. Smart system for the construction stage
Challenges :
• Construction in hazardous soils
• Necessity to control the soil movement and deformations
• Obligation to ensure the continuity of public services such as transport,
water and energy supply and access to public and private spaces.
These challenges led to the development of innovative technology:
• Shield tunneling, micro-tunneling and soil improvement
• Observational method, that uses monitoring to adapt the construction
process to the soil response.
• Early-warning decision support system of the underground construction
using the Information Technology
48. Exploitation stage
A comprehensive system for an integrated monitoring and control of :
Electrical system
electrical grid,
substations, transformers,
lighting and generators)
Ventilation system:
Air treatment, air quality
control, pumping
equipment and air
distribution system
Heating/cooling system,
which is generally
associated to the
ventilation system
Fire protection system.
Access control and
surveillance system
Water system
drinking water, storm
water and sanitation
49. Smart System for the safety
According to the type of the incident, the system should:
• Ensure data and information transmission to services and authorities
concerned by the incident.
• Take appropriate actions through control devices and equipment
(switches, valves, pumps,…) to confine the incident and ensure
immediate emergency measurements.
• Use data collected during the incident to enhance the underground
space resiliency.