Great Science, Technology, Engineering and Medicine Resources Web Search Univ...Matthew Von Hendy
Slide deck presentation from a session at WebSearch University 2014 on Great Science, Technology, Engineering and Medicine resources. Emphasis is on primarily open access resources.
European Green IT Webinar 2014 - Green Web Engineering (Germany)GreenLabCenter
The document discusses green web engineering, which aims to reduce the direct and indirect energy consumption of websites throughout their lifecycle. It defines green web engineering and presents a lifecycle model. Recommendations include optimizing media content through compression and attentive internet usage. A survey found that users are generally accepting of a "green web" and willing to take actions to support it. Optimizing websites can positively impact energy consumption without loss of information. The development of suitable tools could further spread these recommendations.
How business and community is leveraging the power of the Internet for Environmental and Social Good.
Business and individuals are leveraging the power of the Internet to grow the green economy. Principles of interconnectedness, accessibility, transparency, and democracy are powerfully demonstrated in the emerging Web 2.0 landscape. This presentation will provide case studies in Social Media, Online Activism, Green IT, Open Source Software, and Mobile Applications. Come learn how you can go green online.
This document summarizes a presentation on sustainability and green engineering benefits for Jamaica. It discusses principles of green engineering like minimizing pollution, conserving resources, and engaging communities. It also presents a case study on sugar production lifecycle assessment and recommendations for designing more energy efficient, sustainable buildings in Jamaica like considering microclimate, reducing urban heat island effects, and prioritizing occupant comfort. Local research on indoor environment quality in offices is analyzed to develop guidelines for better indoor environments and energy efficiency.
Engineers are leading the push to create greener products that will help us meet current and future sustainability challenges. Stanford Engineering Professor Mike Lepech discusses the impact of green engineering on our planet and on our daily lives.
The study of CAPE® Green Engineering will enable students to acquire the knowledge, skills, values and attitudes needed to sustain the natural environment. This course of study will enable students to apply Scientific, Technological, Engineering and Mathematical (STEM) principles to improve their environment at
the local, regional and global levels.
The study of Green Engineering will enhance quality of life for present and future generations, while providing wealth creation through new and innovative job opportunities and other economic possibilities including entrepreneurship. By pursuing this course, students will develop twenty-first century engineering skills and ethics required for sustainable development. The syllabus is designed to provide the knowledge, skills and competencies that are required for further studies, as well as for the world of work.
Green engineering aims to minimize pollution and risks to human health and the environment through more sustainable product and process design. It follows principles like using life-cycle thinking, conserving ecosystems, and ensuring materials and energy are safe and benign. Green engineering also strives to prevent waste and engage stakeholders. Traditional chemical processes can be modified to be greener by reducing pollution control costs and recycling wastes. Going green through technologies like solar, geothermal, and carbon capture can help reduce emissions and reliance on fossil fuels.
The document discusses green computing and its importance. It describes green computing as minimizing the carbon footprint of computing through efficient resource use. It outlines some approaches like using eco-friendly materials in manufacturing and more energy efficient displays. It also discusses challenges like increasing data center energy needs and electronic waste disposal. The future of green computing is explored through concepts like solar-powered and recyclable paper laptops. The conclusion emphasizes that green computing requires efforts from both the IT industry and governments to further reduce energy consumption and move towards more sustainable practices.
Great Science, Technology, Engineering and Medicine Resources Web Search Univ...Matthew Von Hendy
Slide deck presentation from a session at WebSearch University 2014 on Great Science, Technology, Engineering and Medicine resources. Emphasis is on primarily open access resources.
European Green IT Webinar 2014 - Green Web Engineering (Germany)GreenLabCenter
The document discusses green web engineering, which aims to reduce the direct and indirect energy consumption of websites throughout their lifecycle. It defines green web engineering and presents a lifecycle model. Recommendations include optimizing media content through compression and attentive internet usage. A survey found that users are generally accepting of a "green web" and willing to take actions to support it. Optimizing websites can positively impact energy consumption without loss of information. The development of suitable tools could further spread these recommendations.
How business and community is leveraging the power of the Internet for Environmental and Social Good.
Business and individuals are leveraging the power of the Internet to grow the green economy. Principles of interconnectedness, accessibility, transparency, and democracy are powerfully demonstrated in the emerging Web 2.0 landscape. This presentation will provide case studies in Social Media, Online Activism, Green IT, Open Source Software, and Mobile Applications. Come learn how you can go green online.
This document summarizes a presentation on sustainability and green engineering benefits for Jamaica. It discusses principles of green engineering like minimizing pollution, conserving resources, and engaging communities. It also presents a case study on sugar production lifecycle assessment and recommendations for designing more energy efficient, sustainable buildings in Jamaica like considering microclimate, reducing urban heat island effects, and prioritizing occupant comfort. Local research on indoor environment quality in offices is analyzed to develop guidelines for better indoor environments and energy efficiency.
Engineers are leading the push to create greener products that will help us meet current and future sustainability challenges. Stanford Engineering Professor Mike Lepech discusses the impact of green engineering on our planet and on our daily lives.
The study of CAPE® Green Engineering will enable students to acquire the knowledge, skills, values and attitudes needed to sustain the natural environment. This course of study will enable students to apply Scientific, Technological, Engineering and Mathematical (STEM) principles to improve their environment at
the local, regional and global levels.
The study of Green Engineering will enhance quality of life for present and future generations, while providing wealth creation through new and innovative job opportunities and other economic possibilities including entrepreneurship. By pursuing this course, students will develop twenty-first century engineering skills and ethics required for sustainable development. The syllabus is designed to provide the knowledge, skills and competencies that are required for further studies, as well as for the world of work.
Green engineering aims to minimize pollution and risks to human health and the environment through more sustainable product and process design. It follows principles like using life-cycle thinking, conserving ecosystems, and ensuring materials and energy are safe and benign. Green engineering also strives to prevent waste and engage stakeholders. Traditional chemical processes can be modified to be greener by reducing pollution control costs and recycling wastes. Going green through technologies like solar, geothermal, and carbon capture can help reduce emissions and reliance on fossil fuels.
The document discusses green computing and its importance. It describes green computing as minimizing the carbon footprint of computing through efficient resource use. It outlines some approaches like using eco-friendly materials in manufacturing and more energy efficient displays. It also discusses challenges like increasing data center energy needs and electronic waste disposal. The future of green computing is explored through concepts like solar-powered and recyclable paper laptops. The conclusion emphasizes that green computing requires efforts from both the IT industry and governments to further reduce energy consumption and move towards more sustainable practices.
Green computing aims to reduce the environmental impact of computers and their use. It promotes energy efficient and environmentally friendly computing practices like using energy efficient CPUs and servers, implementing power management features, and properly disposing of or recycling electronic waste. Common components in computers like lead, mercury, and cadmium can be toxic, so green manufacturing seeks to reduce pollution and use of hazardous materials. Adopting practices like using energy star certified devices, enabling power saving modes, recycling electronics, and opting for thin clients can help make computing more environmentally friendly.
This presentation discusses green computing and how to implement it. Green computing aims to reduce the environmental impact of computers and associated hardware. It encourages energy efficient use, less hazardous materials, and better recycling. Some strategies discussed are using virtualization to reduce server numbers, downloading software instead of physical copies, replacing paper with online systems, using more efficient LCD displays, optimizing algorithms, and virtualizing desktops. Adopting green computing can provide cost savings and business benefits while helping the environment.
This document provides an overview of green computing. It defines green computing as the study and practice of designing, manufacturing, using, and disposing of computers and associated systems efficiently and effectively while minimizing environmental impact. The document then discusses reasons for adopting green computing such as growing environmental awareness and regulations. It outlines approaches to green computing like virtualization, power management, and material recycling. It also provides examples of green computing initiatives from companies like Apple, Wipro, and Google and recommends steps organizations can take to implement green computing practices.
Green Computing refers to environmentally sustainable computing practices that minimize environmental impact. Computing harms the environment through high energy use in data centers and devices, as well as hazardous materials in electronics. Approaches to green computing include virtualization, power management, efficient storage and displays, recycling, and reducing travel. Simple individual tasks include using energy efficient devices, enabling power management settings, and recycling electronics. Companies have implemented green computing through products like low-power thin clients and initiatives to offset carbon emissions and recycle equipment.
The document discusses green computing, which aims to reduce the environmental impact of computing through more efficient use of computing resources and reducing pollution from manufacturing and disposal of electronics. It notes that computers use a lot of energy and lists ways to reduce energy usage such as using power saving modes, turning off monitors and computers when not in use, and choosing more efficient LCD monitors over older CRT monitors. The document also discusses reducing hazardous materials used in manufacturing and better disposal and recycling of electronics to reduce pollution and toxicity.
This document discusses green computing and reducing the environmental impact of computers and electronic devices. It notes that typical desktop computers and monitors use 100-150 watts of power, and printers can use up to 100 watts. Leaving devices on when not in use wastes energy. Manufacturing computers uses toxic chemicals like lead, mercury, cadmium and hexavalent chromium. The document recommends reducing energy use by using power saving modes and turning devices off when not in use. It also suggests reusing, refurbishing and properly recycling electronic waste to reduce environmental pollution.
On parle beaucoup de la transformation de nos produits. Pour qu'ils soient plus respectueux de l'environnement, les déchets sont désormais pensés dès la phase de fabrication. Mais qu'en est-il pour les logiciels? En effet ils ne consomment que par le matériel, ne génèrent pas de déchets, pourtant les principes d'éco-conception du produit s'appliquent de la même façon.
Les premiers retours d'expérience montrent que cette démarche donne des gains environnementaux et économiques très intéressants.
L'objectif de cette présentation est de présenter les 10 bonnes raisons de mettre en œuvre l'éco-conception dans le domaine des logiciels, que ce soit dans le web, le mobile, les objets connectés ou l'informatique de gestion.
Kaliterre a développé une solution unique : Greenspector(r) pour mettre en œuvre l'éco-conception logicielle de manière facile et intégrée.
Restitution collective du 19 Décembre 2014 !GreenLabCenter
Une restitution collective a eu lieu le vendredi 19 décembre à 14h au Green Lab Center basé au Hub Creatic : Cette opération est menée par les sociétés Kaliterre, Easyvirt, A2JV, portée par l’association ADN’Ouest et soutenue par l’ADEME.
European Green IT Webinar 2014 - MicroPro Computers (Ireland)GreenLabCenter
This document discusses MicroPro, an Irish company that designs and manufactures eco-friendly computers. It summarizes MicroPro's history since 1991 developing modular, upgradable, and recyclable computer models like the iameco v1, v3, and D4R laptop. These models are designed for longer lifespans, using recycled materials, and are ISO14001 and ISO9001 certified. The document also discusses barriers to marketing sustainable computers, opportunities for further product improvements through research partnerships, and MicroPro's current and proposed R&D projects focused on eco-innovation and the circular economy.
European Green IT Webinar 2014 - Energy WatchIT (Ireland) GreenLabCenter
This document summarizes the need for and benefits of an IT energy management software called EnergyWatchIT. It states that PCs waste half the energy they use when idle, and that this software can automatically shut down and put PCs into low-power modes to cut energy costs by over 50% and save an average of €60 per PC per year. The software was developed by 3PRO Energy Watch Ltd to help organizations reduce energy costs and carbon footprints by managing idle and unused PCs from a single server interface. It establishes energy savings policies, monitors PCs remotely, and generates reports on monetary, electricity, and carbon savings.
European Green IT Webinar 2014 - Green Code Lab (France)GreenLabCenter
This document discusses eco-friendly software design and the Green Code Lab initiative. It notes that information and communication technologies are responsible for 2% of global CO2 emissions and outlines Green Code Lab's mission to promote good programming practices to reduce social and environmental impacts through avoiding obsolescence, reducing consumption, and limiting exclusions. The Green Code Lab hosts challenges for students and professionals to eco-design web applications and organizes conferences to promote sustainable software practices.
European Green IT Webinar 2014 - Kaliterre (France)GreenLabCenter
KaliTerre is a French company founded in 2010 that provides eco-design training, consulting, and software called Greenspector to help companies detect resource-intensive patterns in source code. Greenspector analyzes code based on 250 eco-design rules, proposes practices to correct issues, and provides metrics on estimated resource savings. It is available both as a cloud-based SaaS and a plugin for the Eclipse IDE. Customers range from small startups to large enterprises seeking to extend hardware lifetime and reduce IT costs through more efficient software.
European Green IT Webinar 2014 - The Green Little Men (France)sGreenLabCenter
1) Smartphone batteries have limited capacity due to physical size constraints of the devices, yet power demands continue increasing with new features.
2) Potential solutions to improve battery life include developing higher capacity batteries like solid-state, carrying additional external batteries or power supplies, or harvesting energy from external sources like motion, solar, or wireless charging.
3) Another approach is optimizing software and settings to better manage power consumption and match it to users' needs through solutions like the GreeniScore app that monitors usage and provides tips to improve battery life.
European Green IT Webinar 2014 - Erasmus Mundus Master PERCCOMGreenLabCenter
The document describes the PERCCOM program, the first Erasmus Mundus Master's program in green information and communication technologies (ICT). The program includes four semesters across multiple European universities focused on eco-design, green networking, computing and services, and smart systems. It offers scholarships and results in three national master's degrees. The program aims to provide an international experience for students of various nationalities and connections to companies and organizations in the ICT field.
Green computing aims to reduce the environmental impact of computers and their use. It promotes energy efficient and environmentally friendly computing practices like using energy efficient CPUs and servers, implementing power management features, and properly disposing of or recycling electronic waste. Common components in computers like lead, mercury, and cadmium can be toxic, so green manufacturing seeks to reduce pollution and use of hazardous materials. Adopting practices like using energy star certified devices, enabling power saving modes, recycling electronics, and opting for thin clients can help make computing more environmentally friendly.
This presentation discusses green computing and how to implement it. Green computing aims to reduce the environmental impact of computers and associated hardware. It encourages energy efficient use, less hazardous materials, and better recycling. Some strategies discussed are using virtualization to reduce server numbers, downloading software instead of physical copies, replacing paper with online systems, using more efficient LCD displays, optimizing algorithms, and virtualizing desktops. Adopting green computing can provide cost savings and business benefits while helping the environment.
This document provides an overview of green computing. It defines green computing as the study and practice of designing, manufacturing, using, and disposing of computers and associated systems efficiently and effectively while minimizing environmental impact. The document then discusses reasons for adopting green computing such as growing environmental awareness and regulations. It outlines approaches to green computing like virtualization, power management, and material recycling. It also provides examples of green computing initiatives from companies like Apple, Wipro, and Google and recommends steps organizations can take to implement green computing practices.
Green Computing refers to environmentally sustainable computing practices that minimize environmental impact. Computing harms the environment through high energy use in data centers and devices, as well as hazardous materials in electronics. Approaches to green computing include virtualization, power management, efficient storage and displays, recycling, and reducing travel. Simple individual tasks include using energy efficient devices, enabling power management settings, and recycling electronics. Companies have implemented green computing through products like low-power thin clients and initiatives to offset carbon emissions and recycle equipment.
The document discusses green computing, which aims to reduce the environmental impact of computing through more efficient use of computing resources and reducing pollution from manufacturing and disposal of electronics. It notes that computers use a lot of energy and lists ways to reduce energy usage such as using power saving modes, turning off monitors and computers when not in use, and choosing more efficient LCD monitors over older CRT monitors. The document also discusses reducing hazardous materials used in manufacturing and better disposal and recycling of electronics to reduce pollution and toxicity.
This document discusses green computing and reducing the environmental impact of computers and electronic devices. It notes that typical desktop computers and monitors use 100-150 watts of power, and printers can use up to 100 watts. Leaving devices on when not in use wastes energy. Manufacturing computers uses toxic chemicals like lead, mercury, cadmium and hexavalent chromium. The document recommends reducing energy use by using power saving modes and turning devices off when not in use. It also suggests reusing, refurbishing and properly recycling electronic waste to reduce environmental pollution.
On parle beaucoup de la transformation de nos produits. Pour qu'ils soient plus respectueux de l'environnement, les déchets sont désormais pensés dès la phase de fabrication. Mais qu'en est-il pour les logiciels? En effet ils ne consomment que par le matériel, ne génèrent pas de déchets, pourtant les principes d'éco-conception du produit s'appliquent de la même façon.
Les premiers retours d'expérience montrent que cette démarche donne des gains environnementaux et économiques très intéressants.
L'objectif de cette présentation est de présenter les 10 bonnes raisons de mettre en œuvre l'éco-conception dans le domaine des logiciels, que ce soit dans le web, le mobile, les objets connectés ou l'informatique de gestion.
Kaliterre a développé une solution unique : Greenspector(r) pour mettre en œuvre l'éco-conception logicielle de manière facile et intégrée.
Restitution collective du 19 Décembre 2014 !GreenLabCenter
Une restitution collective a eu lieu le vendredi 19 décembre à 14h au Green Lab Center basé au Hub Creatic : Cette opération est menée par les sociétés Kaliterre, Easyvirt, A2JV, portée par l’association ADN’Ouest et soutenue par l’ADEME.
European Green IT Webinar 2014 - MicroPro Computers (Ireland)GreenLabCenter
This document discusses MicroPro, an Irish company that designs and manufactures eco-friendly computers. It summarizes MicroPro's history since 1991 developing modular, upgradable, and recyclable computer models like the iameco v1, v3, and D4R laptop. These models are designed for longer lifespans, using recycled materials, and are ISO14001 and ISO9001 certified. The document also discusses barriers to marketing sustainable computers, opportunities for further product improvements through research partnerships, and MicroPro's current and proposed R&D projects focused on eco-innovation and the circular economy.
European Green IT Webinar 2014 - Energy WatchIT (Ireland) GreenLabCenter
This document summarizes the need for and benefits of an IT energy management software called EnergyWatchIT. It states that PCs waste half the energy they use when idle, and that this software can automatically shut down and put PCs into low-power modes to cut energy costs by over 50% and save an average of €60 per PC per year. The software was developed by 3PRO Energy Watch Ltd to help organizations reduce energy costs and carbon footprints by managing idle and unused PCs from a single server interface. It establishes energy savings policies, monitors PCs remotely, and generates reports on monetary, electricity, and carbon savings.
European Green IT Webinar 2014 - Green Code Lab (France)GreenLabCenter
This document discusses eco-friendly software design and the Green Code Lab initiative. It notes that information and communication technologies are responsible for 2% of global CO2 emissions and outlines Green Code Lab's mission to promote good programming practices to reduce social and environmental impacts through avoiding obsolescence, reducing consumption, and limiting exclusions. The Green Code Lab hosts challenges for students and professionals to eco-design web applications and organizes conferences to promote sustainable software practices.
European Green IT Webinar 2014 - Kaliterre (France)GreenLabCenter
KaliTerre is a French company founded in 2010 that provides eco-design training, consulting, and software called Greenspector to help companies detect resource-intensive patterns in source code. Greenspector analyzes code based on 250 eco-design rules, proposes practices to correct issues, and provides metrics on estimated resource savings. It is available both as a cloud-based SaaS and a plugin for the Eclipse IDE. Customers range from small startups to large enterprises seeking to extend hardware lifetime and reduce IT costs through more efficient software.
European Green IT Webinar 2014 - The Green Little Men (France)sGreenLabCenter
1) Smartphone batteries have limited capacity due to physical size constraints of the devices, yet power demands continue increasing with new features.
2) Potential solutions to improve battery life include developing higher capacity batteries like solid-state, carrying additional external batteries or power supplies, or harvesting energy from external sources like motion, solar, or wireless charging.
3) Another approach is optimizing software and settings to better manage power consumption and match it to users' needs through solutions like the GreeniScore app that monitors usage and provides tips to improve battery life.
European Green IT Webinar 2014 - Erasmus Mundus Master PERCCOMGreenLabCenter
The document describes the PERCCOM program, the first Erasmus Mundus Master's program in green information and communication technologies (ICT). The program includes four semesters across multiple European universities focused on eco-design, green networking, computing and services, and smart systems. It offers scholarships and results in three national master's degrees. The program aims to provide an international experience for students of various nationalities and connections to companies and organizations in the ICT field.
L'IA connaît une croissance rapide et son intégration dans le domaine éducatif soulève de nombreuses questions. Aujourd'hui, nous explorerons comment les étudiants utilisent l'IA, les perceptions des enseignants à ce sujet, et les mesures possibles pour encadrer ces usages.
Constat Actuel
L'IA est de plus en plus présente dans notre quotidien, y compris dans l'éducation. Certaines universités, comme Science Po en janvier 2023, ont interdit l'utilisation de l'IA, tandis que d'autres, comme l'Université de Prague, la considèrent comme du plagiat. Cette diversité de positions souligne la nécessité urgente d'une réponse institutionnelle pour encadrer ces usages et prévenir les risques de triche et de plagiat.
Enquête Nationale
Pour mieux comprendre ces dynamiques, une enquête nationale intitulée "L'IA dans l'enseignement" a été réalisée. Les auteurs de cette enquête sont Le Sphynx (sondage) et Compilatio (fraude académique). Elle a été diffusée dans les universités de Lyon et d'Aix-Marseille entre le 21 juin et le 15 août 2023, touchant 1242 enseignants et 4443 étudiants. Les questionnaires, conçus pour étudier les usages de l'IA et les représentations de ces usages, abordaient des thèmes comme les craintes, les opportunités et l'acceptabilité.
Résultats de l'Enquête
Les résultats montrent que 55 % des étudiants utilisent l'IA de manière occasionnelle ou fréquente, contre 34 % des enseignants. Cependant, 88 % des enseignants pensent que leurs étudiants utilisent l'IA, ce qui pourrait indiquer une surestimation des usages. Les usages identifiés incluent la recherche d'informations et la rédaction de textes, bien que ces réponses ne puissent pas être cumulées dans les choix proposés.
Analyse Critique
Une analyse plus approfondie révèle que les enseignants peinent à percevoir les bénéfices de l'IA pour l'apprentissage, contrairement aux étudiants. La question de savoir si l'IA améliore les notes sans développer les compétences reste débattue. Est-ce un dopage académique ou une opportunité pour un apprentissage plus efficace ?
Acceptabilité et Éthique
L'enquête révèle que beaucoup d'étudiants jugent acceptable d'utiliser l'IA pour rédiger leurs devoirs, et même un quart des enseignants partagent cet avis. Cela pose des questions éthiques cruciales : copier-coller est-il tricher ? Utiliser l'IA sous supervision ou pour des traductions est-il acceptable ? La réponse n'est pas simple et nécessite un débat ouvert.
Propositions et Solutions
Pour encadrer ces usages, plusieurs solutions sont proposées. Plutôt que d'interdire l'IA, il est suggéré de fixer des règles pour une utilisation responsable. Des innovations pédagogiques peuvent également être explorées, comme la création de situations de concurrence professionnelle ou l'utilisation de détecteurs d'IA.
Conclusion
En conclusion, bien que l'étude présente des limites, elle souligne un besoin urgent de régulation. Une charte institutionnelle pourrait fournir un cadre pour une utilisation éthique.
MongoDB in a scale-up: how to get away from a monolithic hell — MongoDB Paris...Horgix
This is the slide deck of a talk by Alexis "Horgix" Chotard and Laurentiu Capatina presented at the MongoDB Paris User Group in June 2024 about the feedback on how PayFit move away from a monolithic hell of a self-hosted MongoDB cluster to managed alternatives. Pitch below.
March 15, 2023, 6:59 AM: a MongoDB cluster collapses. Tough luck, this cluster contains 95% of user data and is absolutely vital for even minimal operation of our application. To worsen matters, this cluster is 7 years behind on versions, is not scalable, and barely observable. Furthermore, even the data model would quickly raise eyebrows: applications communicating with each other by reading/writing in the same MongoDB documents, documents reaching the maximum limit of 16MiB with hundreds of levels of nesting, and so forth. The incident will last several days and result in the loss of many users. We've seen better scenarios.
Let's explore how PayFit found itself in this hellish situation and, more importantly, how we managed to overcome it!
On the agenda: technical stabilization, untangling data models, breaking apart a Single Point of Failure (SPOF) into several elements with a more restricted blast radius, transitioning to managed services, improving internal accesses, regaining control over risky operations, and ultimately, approaching a technical migration when it impacts all development teams.
Le Comptoir OCTO - Qu’apporte l’analyse de cycle de vie lors d’un audit d’éco...OCTO Technology
Par Nicolas Bordier (Consultant numérique responsable @OCTO Technology) et Alaric Rougnon-Glasson (Sustainable Tech Consultant @OCTO Technology)
Sur un exemple très concret d’audit d’éco-conception de l’outil de bilan carbone C’Bilan développé par ICDC (Caisse des dépôts et consignations) nous allons expliquer en quoi l’ACV (analyse de cycle de vie) a été déterminante pour identifier les pistes d’actions pour réduire jusqu'à 82% de l’empreinte environnementale du service.
Vidéo Youtube : https://www.youtube.com/watch?v=7R8oL2P_DkU
Compte-rendu :
Ouvrez la porte ou prenez un mur (Agile Tour Genève 2024)Laurent Speyser
(Conférence dessinée)
Vous êtes certainement à l’origine, ou impliqué, dans un changement au sein de votre organisation. Et peut être que cela ne se passe pas aussi bien qu’attendu…
Depuis plusieurs années, je fais régulièrement le constat de l’échec de l’adoption de l’Agilité, et plus globalement de grands changements, dans les organisations. Je vais tenter de vous expliquer pourquoi ils suscitent peu d'adhésion, peu d’engagement, et ils ne tiennent pas dans le temps.
Heureusement, il existe un autre chemin. Pour l'emprunter il s'agira de cultiver l'invitation, l'intelligence collective , la mécanique des jeux, les rites de passages, .... afin que l'agilité prenne racine.
Vous repartirez de cette conférence en ayant pris du recul sur le changement tel qu‘il est généralement opéré aujourd’hui, et en ayant découvert (ou redécouvert) le seul guide valable à suivre, à mon sens, pour un changement authentique, durable, et respectueux des individus! Et en bonus, 2 ou 3 trucs pratiques!