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Learn Autonomous Programming with Python : Utilize Python’s capabilities in artificial intelligence, machine learning, deep learning and robotic process automation
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Food Engineering Automation with Robotics and AI
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Artificial Intelligence and Learning Futures : Critical Narratives of Technology and Imagination in Higher Education
Artificial Intelligence and Learning Futures: Critical Narratives of Technology and Imagination in Higher Education explores the implications of artificial intelligence’s adoption in higher education and the challenges to building sustainable instead of dystopic schooling.As AI becomes integral to both pedagogy and profitability in today’s colleges and universities, a critical discourse on these systems and algorithms is urgently needed to push back against their potential to enable surveillance, control, and oppression.This book examines the development, risks, and opportunities inherent to AI in education and curriculum design, the problematic ideological assumptions of intelligence and technology, and the evidence base and ethical imagination required to responsibly implement these learning technologies in a way that ensures quality and sustainability.Leaders, administrators, and faculty as well as technologists and designers will find these provocative and accessible ideas profoundly applicable to their research, decision-making, and concerns.
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Design Thinking and Innovation in Learning
Acknowledging that empowering today’s learner to find innovative and enriching experiences brings about a deeper desire within them to learn and develop skills, this book showcases a combination of innovative educational practices and creative pedagogy techniques to demonstrate how educators can kick-start learning success.Serving up chapters that cross cultural boundaries and present numerous possibilities to assist in constructing new ventures in the classroom, the authors demonstrate how innovation in education and educational policies create new pathways and partnerships for educators.With each author offering a unique perspective on innovative teaching and learning, they chronicle their successes and failures, present new possibilities for enacting practical change in the classroom, and document how the impact of change is experienced and modified as successful techniques are implemented.Collectively, the chapters shine a light on the power of exposure to diverse opportunities, access to multiple techniques, and cross-cultural functionality in providing expansive value to the learner.Appealing to researchers interested in digital storytelling, blended learning, academic integrity, design thinking methods and educational collaboration, this edited collection emphasises the role of innovative educational design in framing and developing global leaders and mobilizing significant change.
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Which programming language is used for robotics and artificial intelligence?
Python is commonly used for robotics and artificial intelligence due to its simplicity, readability, and extensive libraries for machine learning and robotics. It is also known for its flexibility and ease of integration with hardware, making it a popular choice for developing robotics and AI applications. Additionally, Python's strong community support and active development make it a suitable language for these rapidly evolving fields.
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Is machine learning already artificial intelligence?
Machine learning is a subset of artificial intelligence. It involves training a machine to learn from data and make predictions or decisions without being explicitly programmed to do so. Artificial intelligence, on the other hand, encompasses a broader range of technologies and applications that enable machines to perform tasks that typically require human intelligence, such as understanding natural language, recognizing patterns, and solving problems. While machine learning is an important component of artificial intelligence, AI also includes other techniques such as natural language processing, computer vision, and robotics.
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What is the study program Design Engineering?
Design Engineering is a study program that combines principles of engineering and design to create innovative solutions for real-world problems. It focuses on developing the skills and knowledge necessary to design and engineer products, systems, and processes that are both functional and aesthetically pleasing. Students in this program learn about various design methodologies, materials, manufacturing processes, and engineering principles to create products that meet the needs of users and society. The program also emphasizes the use of advanced technologies, such as computer-aided design and simulation, to bring designs to life. Overall, Design Engineering prepares students to be versatile professionals who can bridge the gap between design and engineering to create impactful and sustainable solutions.
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How can one best start learning design?
One of the best ways to start learning design is by taking online courses or enrolling in a design program at a college or university. It's also helpful to practice regularly and seek feedback from experienced designers. Additionally, studying the work of established designers and staying updated on design trends can provide valuable insights. Finally, getting hands-on experience through internships or freelance projects can help to apply and refine newly acquired skills.
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Technology Ethics : Responsible Innovation and Design Strategies
Technologies cannot simply be understood as neutral tools or instruments; they embody the values of their creators and may unconsciously reinforce existing inequalities and biases. Technology Ethics shows how responsible innovation can be achieved.Demonstrating how design and philosophy converge, the book delves into the intricate narratives that shape our understanding of technology – from instrumentalist views to social constructivism.Yet, at its core, it champions interactionalism as the most promising and responsible narrative.Through compelling examples and actionable tools this book unravels the nuances of these philosophical positions, and is tailored to foster responsible innovation and thoughtful design.As our everyday lives further intertwine with technology, understanding and implementing these design principles becomes not just beneficial, but essential. This concise and accessible introduction is essential reading for students and scholars of philosophy of technology, engineering ethics, science and technology studies, and human–machine communication, as well as policymakers.
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Technology Ethics : Responsible Innovation and Design Strategies
Technologies cannot simply be understood as neutral tools or instruments; they embody the values of their creators and may unconsciously reinforce existing inequalities and biases. Technology Ethics shows how responsible innovation can be achieved.Demonstrating how design and philosophy converge, the book delves into the intricate narratives that shape our understanding of technology – from instrumentalist views to social constructivism.Yet, at its core, it champions interactionalism as the most promising and responsible narrative.Through compelling examples and actionable tools this book unravels the nuances of these philosophical positions, and is tailored to foster responsible innovation and thoughtful design.As our everyday lives further intertwine with technology, understanding and implementing these design principles becomes not just beneficial, but essential. This concise and accessible introduction is essential reading for students and scholars of philosophy of technology, engineering ethics, science and technology studies, and human–machine communication, as well as policymakers.
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Advances in Robotics and Artificial Intelligence
The reality of autonomous machines with artificial intelligence is becoming more real every day.The ability of machines to think and learn fascinates everyone, but now even the most reluctant readers have a chance to engage in learning about the history and future of robotics.This book covers everything from the 18th century French automatons to Ada Lovelace and Alan Turing, from self-driving cars and smart homes to assembly and military robots.Each spread is complimented with vivid artwork that further illuminates the accessible, exciting text.
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Artificial Intelligence And Innovation Management
Artificial Intelligence and Innovation Management contributes to the ongoing debate among innovation scholars and practitioners focusing on the potential impact of Artificial Intelligence (AI) on the ways companies and organizations do business, operate and innovate.It considers AI as a source of innovation both in terms of innovation within the field of AI itself (AI innovation) and in terms of how it enables or disrupts innovation in other fields (AI-driven innovation).The book's content is driven by several important conclusions:It is therefore both necessary and timely to explore the different aspects of the relationship between AI and IM.The contributors to this book include both scholars and practitioners from multiple countries and different types of institutions.They were selected based on their ability to provide a relevant distinctive perspective on the relationship between AI and IM; the degree of their professional engagement with the field; their ability to contribute to the thematic and contextual diversity of the contributions; and their ability to provide actionable insights for both innovation scholars and practitioners.Helena Blackbright (Mälardalen University, Sweden) and Stoyan Tanev (Carleton University, Canada) are chairing the Special Interest Group on AI and IM at the International Society for Professional Innovation Management (https://www.ispim-innovation.com/).
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What is the difference between design and engineering?
Design is the process of creating a plan or drawing for a product, system, or structure, focusing on the aesthetics, functionality, and user experience. It involves conceptualizing and visualizing the end product, often using tools like sketches, prototypes, and computer-aided design software. Engineering, on the other hand, is the application of scientific and mathematical principles to develop and build the product or system. It involves the technical aspects of bringing the design to life, such as analyzing requirements, selecting materials, and creating detailed specifications. In summary, design focuses on the look and feel of the product, while engineering focuses on the technical implementation and functionality.
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Is the construction of these components learned more in engineering design or in fixture design?
The construction of these components is typically learned more in engineering design rather than fixture design. Engineering design focuses on the overall functionality, performance, and structural integrity of the components, while fixture design is more concerned with the specific tools and equipment needed for manufacturing and assembly processes. Engineers are trained to understand the principles of material properties, manufacturing processes, and design considerations that are essential for creating effective components.
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How to design education suitable for children?
Designing education suitable for children involves creating a curriculum that is engaging, interactive, and tailored to their developmental needs. It should incorporate a variety of teaching methods, such as hands-on activities, visual aids, and group discussions, to accommodate different learning styles. Additionally, the learning environment should be safe, supportive, and inclusive, allowing children to explore and express themselves freely. It's also important to regularly assess and adjust the curriculum to meet the evolving needs and interests of the children. Overall, a child-centered approach that prioritizes their holistic development and individual growth is key to designing education suitable for children.
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How can one design religious education well?
Designing religious education well involves creating a curriculum that is inclusive, respectful, and engaging for students of all backgrounds. It is important to provide a balanced and comprehensive understanding of different religious traditions, while also promoting critical thinking and open dialogue. Incorporating experiential learning, such as field trips to places of worship and guest speakers from diverse religious communities, can also enhance the educational experience. Additionally, creating a safe and supportive learning environment where students feel comfortable exploring their own beliefs and asking questions is essential for effective religious education.
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