Personnes, technologie et futur de la mobilité from Coursera

Bienvenue dans le cours Personnes, technologie et futur de la mobilité !Destiné aux débutants, ce cours permettra de découvrir certaines des principales innovations technologiques en cours de développement dans le secteur de la mobilité. Il demandera également aux étudiants de mettre en pratique divers concepts issus des sciences sociales afin de comprendre les répercussions sociales probables de ces technologies. Adapté aux étudiants de tous horizons, ce cours ne nécessite pas de formation préalable en ingénierie ni en sciences sociales.

Le contenu qu’il présente s’appuie sur un certain nombre d’entretiens et de conférences et a été créé par le biais d’un partenariat avec Siemens. Le cours comprend également une expérience vidéo interactive à 360° qui permet aux étudiants d’explorer les principaux systèmes équipant un véhicule autonome, de prendre place à bord d’une voiture autonome et d’en apprendre davantage sur les nouvelles technologies de détection qui pourraient voir le jour dans les villes intelligentes d’aujourd’hui et de demain.

Il invitera les étudiants à envisager une mobilité du futur plus sûre, plus propre et plus équitable. Nous examinerons les progrès technologiques récents ainsi que les implications socio-économiques et politiques pour deux grands secteurs technologiques en évolution en ce qui concerne la mobilité : l’électrification et l’automatisation.

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Syllabus

Semaine 1 : Introduction et contexte du cours

Au cours de la première semaine du cours, nous vous présenterons certains des concepts de base avec lesquels nous travaillerons tout au long du cours, tels que la mobilité, l’électrification et l’automatisation.

Semaine 2: Électrification—Technologies de base (1re partie)

Au cours de la deuxième semaine, nous aborderons l’électrification. Quel est l’état de l’art en matière de technologie des batteries et d’autres caractéristiques des véhicules en eux-mêmes ?

Semaine 3 : Électrification—Technologies de base (2e partie)

Au cours de cette 3e semaine, nous poursuivrons notre discussion sur l’électrification, en laissant les batteries derrière nous pour nous concentrer sur l’infrastructure électrique qui prendra en charge les véhicules électriques. Nous nous pencherons également sur les acteurs et les différents points de vue sur l’électrification.

Semaine 4 : Électrification—Répercussions

Quelles répercussions l’électrification aura-t-elle sur les vies humaines (environnement, économie, santé) du point de vue du développement durable et de l’équité ?

Semaine 5 : Automatisation des véhicules—Technologies de base

Qu’est-ce que l’automatisation et quel rôle joue-t-elle dans les secteurs de l’automobile et des transports ?

Semaine 6 : Automatisation—Répercussions

Quelles répercussions l’automatisation aura-t-elle sur les vies humaines (environnement, économie, santé) du point de vue de l’équité et de la sécurité ?

Good to know

Know what's good

, what to watch for

, and possible dealbreakers

Beginners wanting to learn the fundamentals of autonomous vehicles and their impact on society may find this course suitable

Engages with a variety of media like interviews, conferences, interactive videos, making learning interactive and appealing

No prior expertise in engineering or social sciences is required to enroll in this program, increasing accessibility

Content is grounded in real-world examples and industry collaborations, boosting its relevance

Focuses on electrification and automation, two significant technological advancements in the automotive sector

Siemens' collaboration in the course's development adds industry credibility

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Personnes, technologie et futur de la mobilité with these activities:

Review concepts of mobility

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Build a stronger foundation of mobility concepts to enhance understanding of the course materials.

Browse courses on Mobility

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Define mobility and its key aspects.
Identify different modes of transportation and their advantages and disadvantages.
Explain the role of technology in shaping mobility patterns.

Review electric vehicle (EV) basics

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By reviewing the fundamentals of electric vehicles and their operation, you will be better equipped to understand the material in this course.

Browse courses on Electric Vehicles

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Read an overview of electric vehicles
Watch a video explaining the basic components of an electric vehicle
Take a quiz to test your understanding

Discutez des avancées technologiques dans le domaine de la mobilité avec des pairs

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Échangez des connaissances et des idées avec vos pairs pour élargir votre compréhension des innovations de mobilité émergentes.

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Formez un groupe d'étude avec d'autres étudiants du cours
Préparez une présentation sur un sujet de mobilité qui vous intéresse
Présentez votre sujet au groupe et discutez des implications et des défis

Seven other activities

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Review Course Materials

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Compile notes, assignments, quizzes, and exams to review before the course.

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Bring together assignments, notes, quizzes and relevant practice tests or resource materials related to this course.
Put everything in an organized folder or binder.
Review the compiled materials regularly (e.g., weekly or by topic) in preparation for the course.

Explore electric vehicle (EV) technology

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Enhance understanding of EV technology and its implications for the future of mobility.

Browse courses on Electrification

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Find online tutorials on EV technology.
Follow the tutorials to learn about EV components, charging systems, and performance.
Summarize key concepts and advancements in EV technology.

Découvrez les implications sociales et environnementales des innovations de mobilité

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Examinez de plus près les impacts potentiels des technologies de mobilité émergentes sur la société et l'environnement.

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Consultez des articles de recherche et des rapports sur les implications sociales et environnementales des véhicules électriques et autonomes
Participez à des forums en ligne ou à des groupes de discussion pour échanger des idées avec d'autres personnes
Assistez à des conférences ou à des webinaires organisés par des experts du secteur de la mobilité

Discuss the ethical implications of autonomous vehicles

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Engage with peers to critically examine the ethical considerations surrounding autonomous vehicles.

Browse courses on Autonomous Vehicles

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Join or form a study group or discussion forum.
Prepare for discussions by reading articles and watching videos on the topic.
Actively participate in discussions, sharing your thoughts and perspectives.

Design a sustainable mobility solution

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Apply course concepts to develop creative and sustainable solutions for future mobility challenges.

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Identify a specific mobility challenge or opportunity in your community.
Research and analyze existing solutions and best practices.
Design a comprehensive mobility solution that addresses the identified challenge.
Create a presentation or prototype to showcase your solution.

Contribute to an open-source automated driving project

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Gain hands-on experience in autonomous vehicle technology through open-source collaboration.

Browse courses on Autonomous Vehicles

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Find an open-source autonomous driving project that aligns with your interests.
Familiarize yourself with the project's codebase and documentation.
Contribute to the project by fixing bugs, adding features, or improving documentation.
Engage with the project community to learn and share knowledge.

Développez un prototype d'une application de mobilité axée sur l'accessibilité

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Appliquez vos connaissances en mobilité et en design inclusif pour créer une solution qui améliore la mobilité des personnes handicapées.

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Recherche les besoins et les défis de mobilité des personnes handicapées
Brainstormez et concevez une application de mobilité qui répond à ces besoins
Créez un prototype de votre application à l'aide d'outils de conception
Testez votre prototype avec des utilisateurs handicapés et recueillez leurs commentaires

Career center

Learners who complete Personnes, technologie et futur de la mobilité will develop knowledge and skills that may be useful to these careers:

Automotive Engineer

Automotive Engineers are responsible for designing, developing, testing, and manufacturing vehicles and their components. They use their knowledge of engineering principles to create vehicles that are safe, efficient, and meet consumer needs. This course can help Automotive Engineers stay up-to-date on the latest technologies in the automotive industry, such as electrification and automation. It can also help them understand the social and economic implications of these technologies, which can be important for developing vehicles that are both sustainable and meet the needs of society.

See salaries and explore the career path for Automotive Engineer

Transportation Planner

Transportation Planners develop and implement plans to improve the transportation system in a particular area. They work with engineers, architects, and other professionals to design and build new roads, bridges, and other infrastructure. They also work with businesses and community groups to develop policies and programs to reduce traffic congestion and improve air quality. This course can help Transportation Planners understand the latest technologies in the transportation industry, such as electrification and automation. It can also help them understand the social and economic implications of these technologies, which can be important for developing transportation plans that are both sustainable and meet the needs of society.

See salaries and explore the career path for Transportation Planner

Urban Planner

Urban Planners develop and implement plans for the physical development of cities and towns. They work with architects, engineers, and other professionals to design and build new buildings, parks, and other infrastructure. They also work with businesses and community groups to develop policies and programs to improve the quality of life in urban areas. This course can help Urban Planners understand the latest technologies in the urban planning field, such as electrification and automation. It can also help them understand the social and economic implications of these technologies, which can be important for developing urban plans that are both sustainable and meet the needs of society.

See salaries and explore the career path for Urban Planner

Public Policy Analyst

Public Policy Analysts develop and evaluate public policies. They work with elected officials, government agencies, and other organizations to develop policies that address social, economic, and environmental issues. This course can help Public Policy Analysts understand the latest technologies in the public policy field, such as electrification and automation. It can also help them understand the social and economic implications of these technologies, which can be important for developing policies that are both sustainable and meet the needs of society.

See salaries and explore the career path for Public Policy Analyst

Environmental Scientist

Environmental Scientists study the environment and its interactions with humans. They work with government agencies, businesses, and other organizations to develop policies and programs to protect the environment. This course can help Environmental Scientists understand the latest technologies in the environmental field, such as electrification and automation. It can also help them understand the social and economic implications of these technologies, which can be important for developing policies and programs that are both sustainable and meet the needs of society.

See salaries and explore the career path for Environmental Scientist

Sustainability Consultant

Sustainability Consultants help businesses and organizations reduce their environmental impact. They work with clients to develop and implement sustainability strategies, such as reducing energy consumption, waste production, and greenhouse gas emissions. This course can help Sustainability Consultants understand the latest technologies in the sustainability field, such as electrification and automation. It can also help them understand the social and economic implications of these technologies, which can be important for developing sustainability strategies that are both effective and meet the needs of clients.

See salaries and explore the career path for Sustainability Consultant

Energy Analyst

Energy Analysts study the energy industry and make recommendations on how to improve energy efficiency and reduce costs. They work with businesses, governments, and other organizations to develop and implement energy policies and programs. This course can help Energy Analysts understand the latest technologies in the energy field, such as electrification and automation. It can also help them understand the social and economic implications of these technologies, which can be important for developing energy policies and programs that are both effective and meet the needs of society.

See salaries and explore the career path for Energy Analyst

Transportation Engineer

Transportation Engineers design and build transportation systems, such as roads, bridges, and railways. They work with architects, engineers, and other professionals to develop and implement plans for new transportation infrastructure. This course can help Transportation Engineers understand the latest technologies in the transportation field, such as electrification and automation. It can also help them understand the social and economic implications of these technologies, which can be important for developing transportation systems that are both efficient and meet the needs of society.

See salaries and explore the career path for Transportation Engineer

Civil Engineer

Civil Engineers design and build infrastructure, such as buildings, bridges, and roads. They work with architects, engineers, and other professionals to develop and implement plans for new infrastructure projects. This course can help Civil Engineers understand the latest technologies in the civil engineering field, such as electrification and automation. It can also help them understand the social and economic implications of these technologies, which can be important for developing infrastructure projects that are both sustainable and meet the needs of society.

See salaries and explore the career path for Civil Engineer

Mechanical Engineer

Mechanical Engineers design and build machines and other mechanical devices. They work with engineers, architects, and other professionals to develop and implement plans for new mechanical systems. This course can help Mechanical Engineers understand the latest technologies in the mechanical engineering field, such as electrification and automation. It can also help them understand the social and economic implications of these technologies, which can be important for developing mechanical systems that are both efficient and meet the needs of society.

See salaries and explore the career path for Mechanical Engineer

Electrical Engineer

Electrical Engineers design and build electrical systems, such as power plants, transmission lines, and electrical devices. They work with engineers, architects, and other professionals to develop and implement plans for new electrical systems. This course can help Electrical Engineers understand the latest technologies in the electrical engineering field, such as electrification and automation. It can also help them understand the social and economic implications of these technologies, which can be important for developing electrical systems that are both efficient and meet the needs of society.

See salaries and explore the career path for Electrical Engineer

Industrial Engineer

Industrial Engineers design and improve production systems and processes. They work with engineers, architects, and other professionals to develop and implement plans for new industrial systems. This course may help Industrial Engineers understand the latest technologies in the industrial engineering field, such as electrification and automation. It may also help them understand the social and economic implications of these technologies, which can be important for developing industrial systems that are both efficient and meet the needs of society.

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Software Engineer

Software Engineers design, develop, and maintain software applications. They work with engineers, architects, and other professionals to develop and implement plans for new software systems. This course may help Software Engineers understand the latest technologies in the software engineering field, such as electrification and automation. It may also help them understand the social and economic implications of these technologies, which can be important for developing software systems that are both efficient and meet the needs of society.

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Data Scientist

Data Scientists collect, analyze, and interpret data to solve business problems. They work with engineers, architects, and other professionals to develop and implement plans for new data systems. This course may help Data Scientists understand the latest technologies in the data science field, such as electrification and automation. It may also help them understand the social and economic implications of these technologies, which can be important for developing data systems that are both efficient and meet the needs of society.

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Product Manager

Product Managers develop and manage products. They work with engineers, architects, and other professionals to develop and implement plans for new products and services. This course may help Product Managers understand the latest technologies in the product management field, such as electrification and automation. It may also help them understand the social and economic implications of these technologies, which can be important for developing products and services that are both efficient and meet the needs of society.

See salaries and explore the career path for Product Manager

Personnes, technologie et futur de la mobilité

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