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NANJIAH LINGAMMAL POLYTECHNIC COLLEGE - METTUPALAYAM TOPIC: ADVANCED TECHNOLOGY IN ENGINEERING FIELD HARISH VARDHAN V K., RANJITH N., III - YEAR COMPUTER ENGINEERING. PRESENTED BY: [Approved by AICTE,New Delhi and Recognized by Govt Of Tamilnadu] Sirumugai Road, Chikkadasam Palayam, Mettupalayam, Coimbatore - 641 301, Tamil Nadu. DEPARTMENT OF COMPUTER ENGINEERING
➢ Old methods = slow, error-prone, limited by human capacity ➢ The world demands: WHY ENGINEERING NEEDS ADVANCED TECHNOLOGY ➢ Faster solutions ➢ Safer structures ➢ Greener energy ➢ Smarter machines ➢ Engineering + Technology = Future-ready systems
➢ AI makes decisions, learns patterns, and improves over time ➢ In Engineering: AI - THE ENGINEER’S SMARTEST TOOL ➢ AI in structural analysis (detect faults before collapse) ➢ AI in electrical grids (balance supply-demand instantly) ➢ AI in design (auto-generates blueprints) ➢ Real Use: IBM Watson predicts system failures in aerospace
ROBOTICS - PRECISION WITHOUT LIMITS ➢ Robots don’t get tired, distracted, or injured ➢ Used in: ➢ Tunnel boring (Civil) ➢ Chip assembly (ECE) ➢ Precision surgery (Bio-Medical Engg) ➢ Real Use: Da Vinci Robot performing heart surgery
IOT - ENGINEERING THAT LISTENS AND RESPOND ➢ IoT = Machines that communicate ➢ Real-time data = real-time decisions ➢ In Engineering: ➢ Smart roads, smart buildings ➢ Real-time alerts in factories ➢ Automatic adjustments in devices ➢ Real Use: Smart water grids in Singapore reducing waste
DIGITAL TWINS - SIMULATE THE FUTURE ➢Digital twins help in predictive maintenance, real-time performance tracking, and early fault detection ➢Digital Twin = Real-time simulation model ➢ Used in: ➢ Jet engines ➢ Smart cities ➢ Industrial robots ➢ Real Use: Rolls-Royce engine health monitored by digital twin
3D PRINTING - ENGINEERING WITHOUT FACTORIES ➢ Build complex parts in hours, not weeks ➢ Saves cost, reduces waste, speeds prototyping ➢ Applications: ➢ Customized implants (Bio) ➢ Lightweight aerospace parts ➢ Entire houses in 24 hours ➢ Real Use: Dubai’s 3D-printed office building
ENGINEERING FOR A SUSTAINABLE PLANET ➢ Advanced tech also saves the environment ➢ Smart innovations: ➢ Solar-powered highways ➢ Self-healing materials ➢ AI-optimized energy grids ➢ Real Use: Tesla’s factories powered entirely by renewable energy
CONCLUSION - THE FUTURE IS IN OUR HANDS ➢ Every engineer must evolve: ➢ Think smart ➢ Use tech ➢ Solve problems globally ➢ Continuous learning is the foundation of innovation. ➢ Great solutions are built when engineers, designers, and technologists work together. 🔑 “Tomorrow belongs to engineers who use technology to build solutions, not just structures.”
THANK YOU…!!!

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Advanced Technology in Engineering Field.pptx

  • 1.
    NANJIAH LINGAMMAL POLYTECHNIC COLLEGE- METTUPALAYAM TOPIC: ADVANCED TECHNOLOGY IN ENGINEERING FIELD HARISH VARDHAN V K., RANJITH N., III - YEAR COMPUTER ENGINEERING. PRESENTED BY: [Approved by AICTE,New Delhi and Recognized by Govt Of Tamilnadu] Sirumugai Road, Chikkadasam Palayam, Mettupalayam, Coimbatore - 641 301, Tamil Nadu. DEPARTMENT OF COMPUTER ENGINEERING
  • 2.
    ➢ Old methods= slow, error-prone, limited by human capacity ➢ The world demands: WHY ENGINEERING NEEDS ADVANCED TECHNOLOGY ➢ Faster solutions ➢ Safer structures ➢ Greener energy ➢ Smarter machines ➢ Engineering + Technology = Future-ready systems
  • 3.
    ➢ AI makesdecisions, learns patterns, and improves over time ➢ In Engineering: AI - THE ENGINEER’S SMARTEST TOOL ➢ AI in structural analysis (detect faults before collapse) ➢ AI in electrical grids (balance supply-demand instantly) ➢ AI in design (auto-generates blueprints) ➢ Real Use: IBM Watson predicts system failures in aerospace
  • 4.
    ROBOTICS - PRECISIONWITHOUT LIMITS ➢ Robots don’t get tired, distracted, or injured ➢ Used in: ➢ Tunnel boring (Civil) ➢ Chip assembly (ECE) ➢ Precision surgery (Bio-Medical Engg) ➢ Real Use: Da Vinci Robot performing heart surgery
  • 5.
    IOT - ENGINEERINGTHAT LISTENS AND RESPOND ➢ IoT = Machines that communicate ➢ Real-time data = real-time decisions ➢ In Engineering: ➢ Smart roads, smart buildings ➢ Real-time alerts in factories ➢ Automatic adjustments in devices ➢ Real Use: Smart water grids in Singapore reducing waste
  • 6.
    DIGITAL TWINS -SIMULATE THE FUTURE ➢Digital twins help in predictive maintenance, real-time performance tracking, and early fault detection ➢Digital Twin = Real-time simulation model ➢ Used in: ➢ Jet engines ➢ Smart cities ➢ Industrial robots ➢ Real Use: Rolls-Royce engine health monitored by digital twin
  • 7.
    3D PRINTING -ENGINEERING WITHOUT FACTORIES ➢ Build complex parts in hours, not weeks ➢ Saves cost, reduces waste, speeds prototyping ➢ Applications: ➢ Customized implants (Bio) ➢ Lightweight aerospace parts ➢ Entire houses in 24 hours ➢ Real Use: Dubai’s 3D-printed office building
  • 8.
    ENGINEERING FOR ASUSTAINABLE PLANET ➢ Advanced tech also saves the environment ➢ Smart innovations: ➢ Solar-powered highways ➢ Self-healing materials ➢ AI-optimized energy grids ➢ Real Use: Tesla’s factories powered entirely by renewable energy
  • 9.
    CONCLUSION - THEFUTURE IS IN OUR HANDS ➢ Every engineer must evolve: ➢ Think smart ➢ Use tech ➢ Solve problems globally ➢ Continuous learning is the foundation of innovation. ➢ Great solutions are built when engineers, designers, and technologists work together. 🔑 “Tomorrow belongs to engineers who use technology to build solutions, not just structures.”
  • 10.