Many many congratulations🎉both 🥳👏 We wish you all the Best👍💯 Grow More May this start up of yours brings lots of success🏆💪 joy😊 #Engineering #STEM #TechTrends #Innovation #ProfessionalDevelopment #IndustryNews #EngineeringLife #Design #Tech #FutureOfEngineering #RenewableEnergy #Automation #CivilEngineering #Manufacturing #Robotics #ElectricalEngineering #MechanicalEngineering #Sustainability #Construction #SoftwareEngineering #DataScience #ArtificialIntelligence #Coding #ChemicalEngineering #AerospaceEngineering #ProjectManagement #CareerAdvice #Ingenious #EngineeringStudents #WomenInEngineering
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Celebrating the masterminds behind our modern world! Happy Engineers' Day! #EngineersDay #Engineer #Innovation #Technology #Engineering #MechanicalEngineering #ElectricalEngineering #CivilEngineering #Robotics #Automation #IndustrialEngineering #SoftwareEngineering #ComputerScience #IT #Tech #Science #Future #Progress #Development #Design #Build #amtech
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Celebrating the masterminds behind our modern world! Happy Engineers' Day! Happy Engineers' Day! #EngineersDay #Engineer #Innovation #Technology #STEM #Engineering #MechanicalEngineering #ElectricalEngineering #CivilEngineering #Robotics #Automation #IndustrialEngineering #SoftwareEngineering #ComputerScience #IT #Tech #Science #Future #Progress #Development #Design #Build
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Let's celebrate the engineers who make our world a better place. Happy Engineers' Day! #EngineersDay #Engineer #Innovation #Technology #STEM #Engineering #MechanicalEngineering #ElectricalEngineering #CivilEngineering #Robotics #Automation #IndustrialEngineering #SoftwareEngineering #ComputerScience #IT #Tech #Science #Future #Progress #Development #Design #Build
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Construction Manager | BIM, Construction & Infrastructure Sector Strategy | Certified Construction Project Management | Procurement, Tendering & Cost Estimation |
Modern engineering is not just about technical skills, it's also about creativity, innovation, and collaboration. As engineers, we need to embrace new ideas and approaches to solve complex problems. Let's break free from traditional thinking and explore new possibilities! #modernengineering #innovation #creativity #engineeringindustry #futuretech #digitalengineering #sustainability #collaborativedesign #emergingtech #industrialdesign #mechatronics #smartmanufacturing #civilengineering #electricalengineering #mechanicalengineering #softwareengineering #biotechengineering #environmentalengineering #aerospaceengineering #robotics
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Robotics is the interdisciplinary study and practice of the design, construction, operation, and use of robots.[1] Within mechanical engineering, robotics is the design and construction of the physical structures of robots, while in computer science, robotics focuses on robotic automation algorithms. Other disciplines contributing to robotics include electrical, control, software, information, electronic, telecommunication, computer, mechatronic, materials and biomedical engineering. The goal of most robotics is to design machines that can help and assist humans. Many robots are built to do jobs that are hazardous to people, such as finding survivors in unstable ruins, and exploring space, mines and shipwrecks. Others replace people in jobs that are boring, repetitive, or unpleasant, such as cleaning, monitoring, transporting, and assembling. Today, robotics is a rapidly growing field, as technological advances continue; researching, designing, and building new robots serve various practical purposes. #snsinstitutions #snsdesignthinkers #snsdesignthinking #snsct #designthinking #designthinkers #mechanicalengineering #robotics
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Robotics researcher || 3+ patents published || IMO Gold Medalist || ROS || Python ||Neuroscience || Computer vision
🚀 Day 69 of 100: Precision Engineering - Striving for Accuracy in Sensor Fabrication! 🌐🎯 Hello LinkedIn community! 👋 Today marks the 69th day of my enriching 100-day journey into the realm of sensor fabrication, as I continue to hone my skills as a future robotics engineer. 💡🤖 In today's reflection, I'm delving into the importance of precision engineering in sensor fabrication. Accuracy is paramount in ensuring that sensors deliver reliable and precise measurements, which are critical for the functionality and performance of robotic systems. 🔍🛠️ Precision engineering encompasses meticulous design, tight tolerances, and rigorous quality control measures to achieve consistent and accurate sensor output. From micro-scale components to complex sensor arrays, attention to detail is key in achieving optimal performance. 🌟💼 I extend my heartfelt gratitude to the mentors, colleagues, and the broader robotics community for their ongoing support and expertise. Your insights and guidance have been instrumental in shaping my understanding of precision engineering principles in sensor fabrication. 🙏🤝 If you have experiences, tips, or insights to share about achieving precision in sensor fabrication or robotics engineering, I invite you to join the conversation! Let's collaborate to unlock new strategies and techniques for enhancing accuracy in our work. 💬🌐 Looking ahead, I'm committed to upholding the highest standards of precision engineering, striving for accuracy, and driving innovation in sensor fabrication to propel advancements in robotics engineering! 🚀🔧 #100DaysOfLearning #RoboticsEngineering #SensorFabrication #PrecisionEngineering #Innovation #LinkedInLearning
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🚀 REP-3 (Rudra Engineering Project - 3) - Line Following Robot🚀 Date of Project - February, 2024 💡 Overview: I’ve developed a line-following robot utilizing a 5-array IR sensor system. This project is a part of my continuous exploration into robotics and autonomous systems. The robot is designed to navigate along a path by detecting and following lines, showcasing real-time response to its environment. 📚 Learning Outcomes: Enhanced understanding of sensor integration and signal processing. Practical application of control systems and embedded programming. Experience with hardware-software interfacing and robotic algorithms. 🔗 How It Works: The IR sensors continuously monitor the surface for line presence, and the onboard processor interprets the data to adjust the robot's movement. This interplay of sensors and controls is what keeps REP-3 on track! 🚛 Applications: Automated Guided Vehicles (AGVs): Enhancing efficiency in industrial settings by autonomously transporting materials. Smart Warehouses: Streamlining operations with robots that can follow predetermined paths for inventory management. Educational Tools: Providing a hands-on learning experience in robotics and coding for students. I will also implement PID system in my next line following car You can visit the project presentation : https://lnkd.in/gaxu-6HK Don't forget to watch the video!
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Mechatronics Engineering Student | Passionate about Robotics and Automation Exploring Innovative Solutions in Smart Systems and AI Dedicated to Bridging Mechanical, Electrical, and Digital Technologies.
Here’s a follow-up LinkedIn post to continue sharing your project journey: 🔧 Project Update: Progress on My Automated Robotic Arm! 🤖 I’m excited to share an update on my ongoing project—a robotic arm designed for precision tasks in manufacturing. Over the past few weeks, I’ve made significant progress in both the design and initial prototyping stages. Here’s what I’ve accomplished so far: Design: Completed the CAD model for the robotic arm, focusing on optimizing the range of motion and load capacity. Control System: Started working on the control algorithms, aiming for high precision and smooth operation. Integration: Began integrating sensors for real-time feedback to enhance accuracy. The journey hasn’t been without challenges, but each obstacle is a learning opportunity. I’m currently refining the control system and preparing for the first round of testing. It’s fascinating to see how different engineering disciplines come together in this project! I’m looking forward to sharing more updates as I move forward, especially as the prototype takes shape and the testing begins. 💡 #Engineering #Mechatronics #Robotics #Automation #StudentProjects
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I'm happy to share that I've finally finished creating a hexapod robot, which was an exceptional project offering multifaceted learning opportunities. The mechanical design phase involved meticulous planning for stability and range of motion, while electronics integration required understanding circuitry and control systems for effective leg synchronization. Programming demanded proficiency in languages like C++ or Python to develop algorithms for gait generation and obstacle avoidance. Troubleshooting electronic issues and optimizing performance honed problem-solving skills. This project provided a comprehensive understanding of robotics principles, spanning mechanical engineering, electronics, and programming. It offered hands-on experience in designing and building a functional robot. The knowledge gained from this endeavor laid a strong foundation for future robotics projects. Overall, creating a octopod robot was a rewarding journey that expanded skills and deepened understanding in the field of robotics. #ControlSystems #MachineLearning #RoboticsEngineering #Innovation #ResearchHighlight #AI #NeuralNetworks
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#snsinstitutions #snsdesignthinking #designthinkers Robotics is the interdisciplinary study and practice of the design, construction, operation, and use of robots.[1] The Shadow robot hand system Within mechanical engineering, robotics is the design and construction of the physical structures of robots, while in computer science, robotics focuses on robotic automation algorithms. Other disciplines contributing to robotics include electrical, control, software, information, electronic, telecommunication, computer, mechatronic, materials and biomedical engineering. The goal of most robotics is to design machines that can help and assist humans. Many robots are built to do jobs that are hazardous to people, such as finding survivors in unstable ruins, and exploring space, mines and shipwrecks. Others replace people in jobs that are boring, repetitive, or unpleasant, such as cleaning, monitoring, transporting, and assembling. Today, robotics is a rapidly growing field, as technological advances continue; researching, designing, and building new robots serve various practical purposes.
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