Artificial-Intelligence-in-Electronics (K).pptx
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Apr 20, 2024
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artifical intyelligence
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Artificial Intelligence in Electronics Artificial intelligence (AI) is the ability of machines to learn and perform tasks that typically require human intelligence. Electronics are devices that use electrical circuits to perform specific functions. Combining AI with electronics has revolutionized the way we interact with technology. KAVYA P M A Sec CSE(CY)
What is AI? 1 Analyze data 📊 AI algorithms can analyze large amounts of data to identify patterns and make predictions. 2 Learn from experience 🧠 AI systems can learn from experience and improve their performance over time. 3 Interact with their environment 🌎 AI systems can interact with their environment through sensors and actuators.
What is Electronics? Devices that use electricity 🔌 Electronics are devices that use electrical circuits to perform specific functions, such as computing or communication. Components that form circuits 🔍 Electronics are made up of components such as resistors, capacitors, and transistors that form circuits with specific properties. Phones, computers, and more 📱 Electronics are found in a wide range of devices, from smartphones and computers to home appliances and cars.
Why combine AI and Electronics? 1 Improved Performance 🔝 AI can enhance the performance of electronic devices by optimizing their operation and reducing power consumption. 2 Increased Automation 🤖 AI can automate tasks that are currently performed by humans, such as monitoring and control. 3 New Applications 🚀 AI can enable new applications in areas such as autonomous driving and robotics.
Applications of AI in Electronics Speech Recognition 🗣️ AI can enable devices to recognize and respond to speech commands, such as virtual assistants like Siri and Alexa. Image and Video Analysis 🖼️ AI can analyze images and videos to identify objects and recognize patterns, such as face recognition in smartphones. Predictive Maintenance 🛠️ AI can predict when equipment is likely to fail, enabling preventive maintenance and reducing downtime. Energy Management 💡 AI can optimize the energy consumption of buildings and homes, reducing costs and carbon footprint.
Current State of AI in Electronics Industry Applications Status Automotive Autonomous Driving Advanced Consumer Electronics Virtual Assistants Mainstream Industrial Automation Predictive Maintenance Emerging Healthcare Medical Imaging Experimental
Future Prospects of AI in Electronics Robotics 🤖 AI will enable robots to perform complex tasks in manufacturing, healthcare, and other fields. Quantum Computing 🚀 AI and quantum computing will enable breakthroughs in areas such as drug discovery and financial modeling. Smart Cities 🏙️ AI will optimize the management of infrastructure such as transportation and energy, making cities more livable and sustainable.
Conclusion: The Impact of AI on Electronics Disruptive 🌪️ AI has the potential to disrupt industries and create new opportunities for innovation and growth. Transformative 🤩 AI will transform the way we interact with technology, enabling new applications and improving our quality of life. Challenging 🤔 AI also poses challenges such as ethics, privacy, and the need for new skills and education.
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