{"course":{"productid":36965,"modality":1,"active":true,"language":"en","title":"AI+ Sustainability\u2122","productcode":"AISA","vendorcode":"AH","vendorname":"AI Certs","fullproductcode":"AH-AISA","courseware":{"has_ekit":false,"has_printkit":true,"language":""},"url":"https:\/\/portal.flane.ch\/course\/aicerts-aisa","objective":"<ul>\n<li>Grasp AI Technologies for Sustainability: Learn how to leverage AI to address critical environmental challenges in various sectors.<\/li><li>Apply AI in Sustainable Energy and Smart Cities: Develop the ability to implement AI solutions in energy management and urban sustainability.<\/li><li>Master Data Analysis and Resource Optimization: Equip yourself with skills to use AI for real-time data analysis and optimizing resource use.<\/li><li>Develop Predictive Modeling Skills: Gain proficiency in using AI for predictive modeling to anticipate and mitigate sustainability risks.<\/li><li>Contribute to Environmentally Sustainable Practices: Learn to apply datadriven AI solutions that drive positive environmental impact and support sustainability goals.<\/li><\/ul>","essentials":"<ul>\n<li>Basic Knowledge of Artificial Intelligence: Understanding core AI concepts, algorithms, and their practical applications for solving sustainability challenges across sectors.<\/li><li>Understanding of Sustainability Issues: Awareness of pressing environmental challenges, global sustainability initiatives, and solutions for reducing ecological impact.<\/li><li>Data Analytics Skills: Ability to analyze large datasets, interpret trends, and use insights to support sustainability decision-making processes.<\/li><li>Familiarity with Environmental Science: Knowledge of environmental principles, ecosystems, sustainability frameworks, and their role in shaping sustainable development practices.<\/li><li>Programming Skills: Proficiency in Python or similar languages, enabling you to apply AI techniques for sustainability-related problem-solving.<\/li><\/ul>","audience":"<ul>\n<li>Environmental Professionals: Ideal for individuals working in sustainability, seeking to integrate AI tools for better environmental solutions.<\/li><li>Data Scientists and Analysts: Perfect for those wanting to apply data analytics and AI in tackling global sustainability challenges.<\/li><li>AI Enthusiasts: Anyone passionate about artificial intelligence and looking to apply it for environmental impact reduction.<\/li><li>Policy Makers and Regulators: Suitable for those involved in creating policies, regulations, or frameworks related to sustainable development.<\/li><li>Industry Leaders and Innovators: Professionals in energy, waste management, and other sectors aiming to drive sustainability through AI solutions.<\/li><\/ul>","contents":"<ul>\n<li>Introduction to AI and Sustainability<\/li><li>AI Techniques for Sustainability Solutions<\/li><li>AI for Climate Change Mitigation<\/li><li>AI in Sustainable Energy Systems<\/li><li>AI for Sustainable Agriculture<\/li><li>AI in Waste Management and Circular Economy<\/li><li>AI for Biodiversity Conservation and Environmental Monitoring<\/li><li>AI for Water Resource Management<\/li><li>AI for Sustainable Cities and Smart Urban Development<\/li><li>Capstone Project: Designing an AI Solution for a Sustainability Challenge<\/li><\/ul>","outline":"<h5>Module 1: Introduction to AI and Sustainability<\/h5><p>AI&rsquo;s integration with sustainability practices is a game changer for addressing global environmental challenges. By using advanced technologies, you can enhance decision-making, optimize resources, and promote sustainability across various sectors. This module provides the essential knowledge to understand how AI can drive environmental innovation, helping you stay ahead in this rapidly evolving field. This module covers AI fundamentals and its intersection with sustainability. It introduces AI concepts, sustainability challenges, and explores AI applications for environmental solutions like energy optimization and waste management. You&rsquo;ll dive into case studies and hands-on exercises, such as visualizing global CO\u2082 emissions trends, to understand AI&rsquo;s role in driving sustainable change.<\/p>\n<h5>Module 2: AI Techniques for Sustainability Solutions<\/h5><p>AI techniques are revolutionizing sustainability by offering scalable, data-driven solutions to complex environmental challenges. By applying machine learning and other AI technologies, you can optimize resources, reduce emissions, and create efficient systems across industries. As sustainability becomes increasingly critical, understanding AI&#039;s role in driving these advancements is essential to make informed, effective decisions that contribute to a greener future.<\/p>\n<p>This module covers AI and machine learning techniques used to solve sustainability challenges. It introduces machine learning algorithms for environmental impact, including supervised and unsupervised learning for resource optimization. You&rsquo;ll explore reinforcement learning for sustainable systems, learn about Green AI models, and understand their environmental impacts. Additionally, hands-on exercises like building predictive models and applying clustering techniques will provide practical experience in optimizing energy consumption and managing resources effectively for sustainability.<\/p>\n<h5>Module 3: AI for Climate Change Mitigation<\/h5><p>AI is a powerful tool for combating climate change by enhancing mitigation strategies across industries. By applying machine learning and predictive analytics, you can optimize energy usage, reduce carbon footprints, and improve sustainability efforts. As the urgency to address climate change grows, the integration of AI into climate models and renewable energy systems becomes crucial for achieving a low-carbon future. This module will equip you with the knowledge to understand how AI can be used effectively in climate action.<\/p>\n<p>This module covers the role of AI in climate change mitigation, focusing on AI in climate modeling, renewable energy integration, and carbon footprint reduction. You will explore AI&#039;s applications in weather and climate forecasting, energy optimization, and emissions monitoring. The module also includes hands-on exercises, such as calculating carbon footprints and using AI for renewable energy forecasting, providing practical tools to drive sustainability initiatives.<\/p>\n<h5>Module 4: AI in Sustainable Energy Systems<\/h5><p>AI is transforming sustainable energy systems by optimizing energy production, distribution, and consumption. With the integration of AI, energy grids can become more adaptive, efficient, and resilient, paving the way for a low-carbon future. As industries shift to renewable energy sources, AI helps address challenges such as intermittency, storage, and grid stability. Understanding these AI applications will enable you to drive smarter, data-driven solutions in energy management and contribute to global sustainability efforts.<\/p>\n<p>This module explores AI&rsquo;s role in optimizing energy systems, integrating renewable energy sources, and enhancing energy storage. You&rsquo;ll learn about predictive maintenance, smart grids, and dynamic energy distribution. The module also covers real-time monitoring for renewable energy sources and AI-driven solutions for energy consumption forecasting. Practical exercises, including optimizing smart grid load balancing and AI-powered renewable energy integration, will help you apply these concepts to real-world scenarios.<\/p>\n<h5>Module 5: AI for Sustainable Agriculture<\/h5><p>AI is transforming agriculture by enhancing resource efficiency and optimizing farming practices. With AI, you can reduce waste, boost productivity, and foster sustainability by leveraging technologies that optimize water use, predict crop yields, and detect pests and diseases early. As the agriculture industry faces increasing pressure to meet global food demands while minimizing environmental impact, integrating AI offers farmers smarter solutions for more sustainable farming practices.<\/p>\n<p>This module covers AI applications in sustainable agriculture, including precision farming, resource optimization, and pest management. You will explore AI-driven solutions for efficient water use, soil health monitoring, and crop yield prediction. The\nmodule also covers AI technologies used in pest and disease detection, integrating drones and machine learning for proactive interventions. Hands-on exercises, such as predicting crop yields with machine learning, will provide practical insights into\napplying AI to improve farm management and sustainability.<\/p>\n<h5>Module 6: AI in Waste Management and Circular Economy<\/h5><p>AI is revolutionizing waste management and the circular economy by automating waste sorting, improving recycling efficiency, and enabling smarter resource recovery. As the world faces growing waste management challenges, AI technologies provide data-driven solutions to optimize recycling, minimize waste, and promote sustainable practices. By adopting AI, you can play a key role in reducing environmental impact and supporting the transition to a circular economy, where materials are reused and recycled, creating a more sustainable future.<\/p>\n<p>This module covers AI applications in waste management and circular economy. You will learn about AI-driven waste sorting systems, waste-to-energy solutions, and material recovery processes. Topics include machine learning in waste classification,\nautomated recycling systems, and how AI supports resource recovery in the circular economy. Hands-on exercises, such as building a waste sorting classifier, will provide you with practical insights into applying AI for sustainable waste management and\nresource optimization.<\/p>\n<h5>Module 7: AI for Biodiversity Conservation and Environmental Monitoring<\/h5><p>AI is revolutionizing biodiversity conservation and environmental monitoring by enabling more efficient and accurate decision-making. By analyzing large-scale data from satellites, sensors, and drones, AI helps detect environmental changes, predict\necological risks, and support proactive conservation efforts. As the need to address biodiversity loss and ecosystem degradation becomes increasingly urgent, AI provides the tools to make informed, data-driven decisions that drive effective environmental action.<\/p>\n<p>This module covers AI applications in environmental monitoring, wildlife tracking, and biodiversity conservation. You will explore AI in remote sensing for detecting deforestation and land use changes, tracking endangered species, and monitoring\necosystems&#039; health. The module includes practical case studies, such as using AI for deforestation detection, and hands-on exercises like detecting deforestation with satellite imagery using machine learning tools. This knowledge will equip you to apply AI in real-world conservation and environmental monitoring efforts.<\/p>\n<h5>Module 8: AI for Water Resource Management<\/h5><p>Efficient water management is critical in addressing water scarcity, climate change, and growing demand. AI-driven solutions allow for precise prediction of water consumption, optimizing irrigation, and ensuring safe water quality. By leveraging AI, you can enhance sustainability across agricultural, industrial, and urban water usage, helping mitigate the pressures on freshwater resources. Understanding how AI can be applied in water resource management ensures you stay ahead in creating\nsmarter, more efficient systems for the future.<\/p>\n<p>This module covers AI applications in water resource management, including water consumption prediction, smart irrigation systems, and water quality monitoring. You will explore machine learning techniques for predicting water demand, optimizing\nirrigation schedules, and detecting contaminants in water bodies. The module also includes hands-on exercises, such as using AI to optimize irrigation systems with realtime data, and case studies highlighting successful AI applications in water conservation. These insights will equip you to apply AI for sustainable water management.<\/p>\n<h5>Module 9: AI for Sustainable Cities and Smart Urban Development<\/h5><p>As urbanization accelerates, cities face numerous challenges, including resource management, pollution, and sustainability. AI plays a key role in transforming urban infrastructure, making cities more efficient, environmentally friendly, and livable. By\nutilizing AI, cities can optimize energy use, manage transportation, and reduce waste, supporting sustainable growth while improving the quality of life for citizens. Exploring how AI integrates into urban systems equips you with tools to drive smarter, more sustainable city development.<\/p>\n<p>This module explores AI&rsquo;s applications in creating sustainable cities, focusing on smart infrastructure, sustainable mobility, and resource optimization. You&rsquo;ll learn how AI optimizes energy-efficient buildings, improves traffic flow, and manages waste\nmore efficiently. Topics include AI-driven solutions for air quality monitoring, smart transportation systems, and real-time urban resource management. Through case studies and hands-on exercises, you will gain practical insights into how AI can help\nbuild smarter, greener, and more resilient urban environments.<\/p>\n<h5>Module 10: Capstone Project: Designing an AI Solution for a Sustainability Challenge<\/h5><p>This module addresses critical sustainability challenges, such as resource depletion and climate change, by leveraging AI. Understanding AI&#039;s potential in optimizing resource use, reducing waste, and supporting informed decision-making is essential for creating impactful solutions.<\/p>\n<p>The module covers the problem identification process, emphasizing the importance of defining a focused sustainability challenge. You&rsquo;ll learn how to collect relevant data, implement AI models for solutions, and assess their impact through practical hands-on exercises and case studies.<\/p>","summary":"<p>The AI+ Sustainability certification program empowers you to harness the power of artificial intelligence in advancing environmental sustainability. It explores the intersection of AI and sustainability across key sectors, such as energy efficiency, waste management, climate change modeling, and resource optimization. Through this certification, you&#039;ll gain hands-on experience with AI tools for data analysis, predictive modeling, and decision-making to address some of the most pressing global sustainability challenges.<\/p>\n<p>By completing this certification, you&#039;ll be equipped to drive innovative solutions that reduce environmental impact, optimize resource use, and contribute to the achievement of sustainable development goals. This will make you a valuable asset in\nindustries that are striving for a greener, more sustainable future, positioning you to make a significant difference in promoting sustainability on a global scale.<\/p>\n<p>This certification will cover:<\/p>\n<ul>\n<li>Introduction to AI and Sustainability<\/li><li>AI Techniques for Sustainability Solutions<\/li><li>AI for Climate Change Mitigation<\/li><li>AI in Sustainable Energy Systems<\/li><li>AI for Sustainable Agriculture<\/li><li>AI in Waste Management and Circular Economy<\/li><li>AI for Biodiversity Conservation and Environmental Monitoring<\/li><li>AI for Water Resource Management<\/li><li>AI for Sustainable Cities and Smart Urban Development<\/li><\/ul>","objective_plain":"- Grasp AI Technologies for Sustainability: Learn how to leverage AI to address critical environmental challenges in various sectors.\n- Apply AI in Sustainable Energy and Smart Cities: Develop the ability to implement AI solutions in energy management and urban sustainability.\n- Master Data Analysis and Resource Optimization: Equip yourself with skills to use AI for real-time data analysis and optimizing resource use.\n- Develop Predictive Modeling Skills: Gain proficiency in using AI for predictive modeling to anticipate and mitigate sustainability risks.\n- Contribute to Environmentally Sustainable Practices: Learn to apply datadriven AI solutions that drive positive environmental impact and support sustainability goals.","essentials_plain":"- Basic Knowledge of Artificial Intelligence: Understanding core AI concepts, algorithms, and their practical applications for solving sustainability challenges across sectors.\n- Understanding of Sustainability Issues: Awareness of pressing environmental challenges, global sustainability initiatives, and solutions for reducing ecological impact.\n- Data Analytics Skills: Ability to analyze large datasets, interpret trends, and use insights to support sustainability decision-making processes.\n- Familiarity with Environmental Science: Knowledge of environmental principles, ecosystems, sustainability frameworks, and their role in shaping sustainable development practices.\n- Programming Skills: Proficiency in Python or similar languages, enabling you to apply AI techniques for sustainability-related problem-solving.","audience_plain":"- Environmental Professionals: Ideal for individuals working in sustainability, seeking to integrate AI tools for better environmental solutions.\n- Data Scientists and Analysts: Perfect for those wanting to apply data analytics and AI in tackling global sustainability challenges.\n- AI Enthusiasts: Anyone passionate about artificial intelligence and looking to apply it for environmental impact reduction.\n- Policy Makers and Regulators: Suitable for those involved in creating policies, regulations, or frameworks related to sustainable development.\n- Industry Leaders and Innovators: Professionals in energy, waste management, and other sectors aiming to drive sustainability through AI solutions.","contents_plain":"- Introduction to AI and Sustainability\n- AI Techniques for Sustainability Solutions\n- AI for Climate Change Mitigation\n- AI in Sustainable Energy Systems\n- AI for Sustainable Agriculture\n- AI in Waste Management and Circular Economy\n- AI for Biodiversity Conservation and Environmental Monitoring\n- AI for Water Resource Management\n- AI for Sustainable Cities and Smart Urban Development\n- Capstone Project: Designing an AI Solution for a Sustainability Challenge","outline_plain":"Module 1: Introduction to AI and Sustainability\n\nAI\u2019s integration with sustainability practices is a game changer for addressing global environmental challenges. By using advanced technologies, you can enhance decision-making, optimize resources, and promote sustainability across various sectors. This module provides the essential knowledge to understand how AI can drive environmental innovation, helping you stay ahead in this rapidly evolving field. This module covers AI fundamentals and its intersection with sustainability. It introduces AI concepts, sustainability challenges, and explores AI applications for environmental solutions like energy optimization and waste management. You\u2019ll dive into case studies and hands-on exercises, such as visualizing global CO\u2082 emissions trends, to understand AI\u2019s role in driving sustainable change.\n\nModule 2: AI Techniques for Sustainability Solutions\n\nAI techniques are revolutionizing sustainability by offering scalable, data-driven solutions to complex environmental challenges. By applying machine learning and other AI technologies, you can optimize resources, reduce emissions, and create efficient systems across industries. As sustainability becomes increasingly critical, understanding AI's role in driving these advancements is essential to make informed, effective decisions that contribute to a greener future.\n\nThis module covers AI and machine learning techniques used to solve sustainability challenges. It introduces machine learning algorithms for environmental impact, including supervised and unsupervised learning for resource optimization. You\u2019ll explore reinforcement learning for sustainable systems, learn about Green AI models, and understand their environmental impacts. Additionally, hands-on exercises like building predictive models and applying clustering techniques will provide practical experience in optimizing energy consumption and managing resources effectively for sustainability.\n\nModule 3: AI for Climate Change Mitigation\n\nAI is a powerful tool for combating climate change by enhancing mitigation strategies across industries. By applying machine learning and predictive analytics, you can optimize energy usage, reduce carbon footprints, and improve sustainability efforts. As the urgency to address climate change grows, the integration of AI into climate models and renewable energy systems becomes crucial for achieving a low-carbon future. This module will equip you with the knowledge to understand how AI can be used effectively in climate action.\n\nThis module covers the role of AI in climate change mitigation, focusing on AI in climate modeling, renewable energy integration, and carbon footprint reduction. You will explore AI's applications in weather and climate forecasting, energy optimization, and emissions monitoring. The module also includes hands-on exercises, such as calculating carbon footprints and using AI for renewable energy forecasting, providing practical tools to drive sustainability initiatives.\n\nModule 4: AI in Sustainable Energy Systems\n\nAI is transforming sustainable energy systems by optimizing energy production, distribution, and consumption. With the integration of AI, energy grids can become more adaptive, efficient, and resilient, paving the way for a low-carbon future. As industries shift to renewable energy sources, AI helps address challenges such as intermittency, storage, and grid stability. Understanding these AI applications will enable you to drive smarter, data-driven solutions in energy management and contribute to global sustainability efforts.\n\nThis module explores AI\u2019s role in optimizing energy systems, integrating renewable energy sources, and enhancing energy storage. You\u2019ll learn about predictive maintenance, smart grids, and dynamic energy distribution. The module also covers real-time monitoring for renewable energy sources and AI-driven solutions for energy consumption forecasting. Practical exercises, including optimizing smart grid load balancing and AI-powered renewable energy integration, will help you apply these concepts to real-world scenarios.\n\nModule 5: AI for Sustainable Agriculture\n\nAI is transforming agriculture by enhancing resource efficiency and optimizing farming practices. With AI, you can reduce waste, boost productivity, and foster sustainability by leveraging technologies that optimize water use, predict crop yields, and detect pests and diseases early. As the agriculture industry faces increasing pressure to meet global food demands while minimizing environmental impact, integrating AI offers farmers smarter solutions for more sustainable farming practices.\n\nThis module covers AI applications in sustainable agriculture, including precision farming, resource optimization, and pest management. You will explore AI-driven solutions for efficient water use, soil health monitoring, and crop yield prediction. The\nmodule also covers AI technologies used in pest and disease detection, integrating drones and machine learning for proactive interventions. Hands-on exercises, such as predicting crop yields with machine learning, will provide practical insights into\napplying AI to improve farm management and sustainability.\n\nModule 6: AI in Waste Management and Circular Economy\n\nAI is revolutionizing waste management and the circular economy by automating waste sorting, improving recycling efficiency, and enabling smarter resource recovery. As the world faces growing waste management challenges, AI technologies provide data-driven solutions to optimize recycling, minimize waste, and promote sustainable practices. By adopting AI, you can play a key role in reducing environmental impact and supporting the transition to a circular economy, where materials are reused and recycled, creating a more sustainable future.\n\nThis module covers AI applications in waste management and circular economy. You will learn about AI-driven waste sorting systems, waste-to-energy solutions, and material recovery processes. Topics include machine learning in waste classification,\nautomated recycling systems, and how AI supports resource recovery in the circular economy. Hands-on exercises, such as building a waste sorting classifier, will provide you with practical insights into applying AI for sustainable waste management and\nresource optimization.\n\nModule 7: AI for Biodiversity Conservation and Environmental Monitoring\n\nAI is revolutionizing biodiversity conservation and environmental monitoring by enabling more efficient and accurate decision-making. By analyzing large-scale data from satellites, sensors, and drones, AI helps detect environmental changes, predict\necological risks, and support proactive conservation efforts. As the need to address biodiversity loss and ecosystem degradation becomes increasingly urgent, AI provides the tools to make informed, data-driven decisions that drive effective environmental action.\n\nThis module covers AI applications in environmental monitoring, wildlife tracking, and biodiversity conservation. You will explore AI in remote sensing for detecting deforestation and land use changes, tracking endangered species, and monitoring\necosystems' health. The module includes practical case studies, such as using AI for deforestation detection, and hands-on exercises like detecting deforestation with satellite imagery using machine learning tools. This knowledge will equip you to apply AI in real-world conservation and environmental monitoring efforts.\n\nModule 8: AI for Water Resource Management\n\nEfficient water management is critical in addressing water scarcity, climate change, and growing demand. AI-driven solutions allow for precise prediction of water consumption, optimizing irrigation, and ensuring safe water quality. By leveraging AI, you can enhance sustainability across agricultural, industrial, and urban water usage, helping mitigate the pressures on freshwater resources. Understanding how AI can be applied in water resource management ensures you stay ahead in creating\nsmarter, more efficient systems for the future.\n\nThis module covers AI applications in water resource management, including water consumption prediction, smart irrigation systems, and water quality monitoring. You will explore machine learning techniques for predicting water demand, optimizing\nirrigation schedules, and detecting contaminants in water bodies. The module also includes hands-on exercises, such as using AI to optimize irrigation systems with realtime data, and case studies highlighting successful AI applications in water conservation. These insights will equip you to apply AI for sustainable water management.\n\nModule 9: AI for Sustainable Cities and Smart Urban Development\n\nAs urbanization accelerates, cities face numerous challenges, including resource management, pollution, and sustainability. AI plays a key role in transforming urban infrastructure, making cities more efficient, environmentally friendly, and livable. By\nutilizing AI, cities can optimize energy use, manage transportation, and reduce waste, supporting sustainable growth while improving the quality of life for citizens. Exploring how AI integrates into urban systems equips you with tools to drive smarter, more sustainable city development.\n\nThis module explores AI\u2019s applications in creating sustainable cities, focusing on smart infrastructure, sustainable mobility, and resource optimization. You\u2019ll learn how AI optimizes energy-efficient buildings, improves traffic flow, and manages waste\nmore efficiently. Topics include AI-driven solutions for air quality monitoring, smart transportation systems, and real-time urban resource management. Through case studies and hands-on exercises, you will gain practical insights into how AI can help\nbuild smarter, greener, and more resilient urban environments.\n\nModule 10: Capstone Project: Designing an AI Solution for a Sustainability Challenge\n\nThis module addresses critical sustainability challenges, such as resource depletion and climate change, by leveraging AI. Understanding AI's potential in optimizing resource use, reducing waste, and supporting informed decision-making is essential for creating impactful solutions.\n\nThe module covers the problem identification process, emphasizing the importance of defining a focused sustainability challenge. You\u2019ll learn how to collect relevant data, implement AI models for solutions, and assess their impact through practical hands-on exercises and case studies.","summary_plain":"The AI+ Sustainability certification program empowers you to harness the power of artificial intelligence in advancing environmental sustainability. It explores the intersection of AI and sustainability across key sectors, such as energy efficiency, waste management, climate change modeling, and resource optimization. Through this certification, you'll gain hands-on experience with AI tools for data analysis, predictive modeling, and decision-making to address some of the most pressing global sustainability challenges.\n\nBy completing this certification, you'll be equipped to drive innovative solutions that reduce environmental impact, optimize resource use, and contribute to the achievement of sustainable development goals. This will make you a valuable asset in\nindustries that are striving for a greener, more sustainable future, positioning you to make a significant difference in promoting sustainability on a global scale.\n\nThis certification will cover:\n\n\n- Introduction to AI and Sustainability\n- AI Techniques for Sustainability Solutions\n- AI for Climate Change Mitigation\n- AI in Sustainable Energy Systems\n- AI for Sustainable Agriculture\n- AI in Waste Management and Circular Economy\n- AI for Biodiversity Conservation and Environmental Monitoring\n- AI for Water Resource Management\n- AI for Sustainable Cities and Smart Urban Development","version":"1.0","duration":{"unit":"d","value":1,"formatted":"1 day"},"pricelist":{"List Price":{"DE":{"country":"DE","currency":"EUR","taxrate":19,"price":995},"CH":{"country":"CH","currency":"CHF","taxrate":8.1,"price":995},"SE":{"country":"SE","currency":"EUR","taxrate":25,"price":995},"SI":{"country":"SI","currency":"EUR","taxrate":20,"price":995},"AT":{"country":"AT","currency":"EUR","taxrate":20,"price":995}}},"lastchanged":"2026-04-01T15:53:11+02:00","parenturl":"https:\/\/portal.flane.ch\/swisscom\/en\/json-courses","nexturl_course_schedule":"https:\/\/portal.flane.ch\/swisscom\/en\/json-course-schedule\/36965","source_lang":"en","source":"https:\/\/portal.flane.ch\/swisscom\/en\/json-course\/aicerts-aisa"}}