The JECRC Robotics Club was started in 2004 and is one of the first robotics clubs in Rajasthan. It has developed educational robots and won prizes in various competitions. The club's objectives are to provide a platform for creativity and innovation, combine knowledge from different engineering fields into robotics, and develop low-cost robotic platforms. Current projects include Trinity, an accident detection system, and an intelligent notice board. Past projects include autonomous robots, a solar powered vehicle, and more. The club organizes workshops and competitions. It has won numerous prizes in competitions over the years. New members are recruited annually through an application and interview process.
Robot is a Reprogrammable, Multi-functional Manipulator designed to move materials, parts, tools or specialized devices through variable programmed motions for performing a variety of task
The document describes the team that participated in ABU ROBOCON 2013 from Alexandria University in Egypt. The 10-member team consisted mainly of third-year undergraduate students from electrical, electronics, mechanical, and mechanical engineering departments. They created two collaborating robots - a manual robot controlled by a human operator and an automated robot that used sensors and a PID controller - to complete the competition's theme of "The Green Planet". Their goal was to program the automated robot to navigate and complete tasks while the manual robot assisted with manipulators and tasks requiring more dexterity.
The document discusses robotics competitions that are important for engineering students. It describes several major robotics competitions including Robotics Olympiad, Robocon, Robotryst, Full Throttle, and Robowars. These competitions involve designing and building robots to complete tasks like racing, fighting, and solving engineering challenges. They provide opportunities for students to apply their engineering skills and gain experience that can help their careers in robotics.
This document describes India's largest robotics challenge called RoboTalkX-2015. The goal is to involve over 50,000 engineering students from 3495 colleges to develop 29 innovative robotics products, with one product per Indian state. Students submit proposals and the top 20 teams per state will compete at their state level event between September 20-October 10, 2015. The 58 top teams then showcase their products at the national competition in New Delhi on December 28, 2015. Funding of 60.15 lakhs is required to fund the state level competitions, provide stipends for the 58 top teams to develop their products, and cover other expenses like promotion and equipment. Sponsorship opportunities are available starting at 25 lakhs for
This document describes India's largest robotics challenge called RoboTalkX-2015. The goal is to involve over 50,000 engineering students from 3495 colleges to develop 29 innovative robotics products, with one product per Indian state. Students submit proposals and the top 20 teams per state will compete at their state level event between September 20-October 10, 2015. The 58 top teams then showcase their products at the national competition in New Delhi on December 28, 2015. Funding of 60.15 lakhs is required to fund the state level competitions, provide stipends for the 58 top teams to develop their products, and cover other expenses like promotion and equipment. Sponsorship opportunities are available starting from 25 lakhs for
The document summarizes the activities of the Indus Robotics Club at Indus University. It discusses the club's mission to win the International Asia-Pacific Robot Contest. It introduces the ROBOCON team and their faculty advisors. It describes various workshops and competitions organized by the club on topics like robot building, electronics, programming. It also discusses the club's community service event of cleaning using robots. In summary, the document outlines the goals, team, events, and achievements of the Indus Robotics Club.
IRJET- Design, Manufacturing and Analysis of Robotic Arm with SCARA Confi...IRJET Journal
1) The document describes the design, manufacturing, and analysis of a robotic arm with a SCARA configuration that has 4 degrees of freedom and is intended for pick and place operations.
2) The robotic arm is actuated by DC servo motors controlled by an Arduino microcontroller. It can pick up and place objects weighing up to 150g and measuring 20x20x50mm.
3) The arm's motion is controlled through an Android app via Bluetooth, making it user-friendly. It is aimed to be an affordable educational tool for engineering students.
Robot is a Reprogrammable, Multi-functional Manipulator designed to move materials, parts, tools or specialized devices through variable programmed motions for performing a variety of task
The document describes the team that participated in ABU ROBOCON 2013 from Alexandria University in Egypt. The 10-member team consisted mainly of third-year undergraduate students from electrical, electronics, mechanical, and mechanical engineering departments. They created two collaborating robots - a manual robot controlled by a human operator and an automated robot that used sensors and a PID controller - to complete the competition's theme of "The Green Planet". Their goal was to program the automated robot to navigate and complete tasks while the manual robot assisted with manipulators and tasks requiring more dexterity.
The document discusses robotics competitions that are important for engineering students. It describes several major robotics competitions including Robotics Olympiad, Robocon, Robotryst, Full Throttle, and Robowars. These competitions involve designing and building robots to complete tasks like racing, fighting, and solving engineering challenges. They provide opportunities for students to apply their engineering skills and gain experience that can help their careers in robotics.
This document describes India's largest robotics challenge called RoboTalkX-2015. The goal is to involve over 50,000 engineering students from 3495 colleges to develop 29 innovative robotics products, with one product per Indian state. Students submit proposals and the top 20 teams per state will compete at their state level event between September 20-October 10, 2015. The 58 top teams then showcase their products at the national competition in New Delhi on December 28, 2015. Funding of 60.15 lakhs is required to fund the state level competitions, provide stipends for the 58 top teams to develop their products, and cover other expenses like promotion and equipment. Sponsorship opportunities are available starting at 25 lakhs for
This document describes India's largest robotics challenge called RoboTalkX-2015. The goal is to involve over 50,000 engineering students from 3495 colleges to develop 29 innovative robotics products, with one product per Indian state. Students submit proposals and the top 20 teams per state will compete at their state level event between September 20-October 10, 2015. The 58 top teams then showcase their products at the national competition in New Delhi on December 28, 2015. Funding of 60.15 lakhs is required to fund the state level competitions, provide stipends for the 58 top teams to develop their products, and cover other expenses like promotion and equipment. Sponsorship opportunities are available starting from 25 lakhs for
The document summarizes the activities of the Indus Robotics Club at Indus University. It discusses the club's mission to win the International Asia-Pacific Robot Contest. It introduces the ROBOCON team and their faculty advisors. It describes various workshops and competitions organized by the club on topics like robot building, electronics, programming. It also discusses the club's community service event of cleaning using robots. In summary, the document outlines the goals, team, events, and achievements of the Indus Robotics Club.
IRJET- Design, Manufacturing and Analysis of Robotic Arm with SCARA Confi...IRJET Journal
1) The document describes the design, manufacturing, and analysis of a robotic arm with a SCARA configuration that has 4 degrees of freedom and is intended for pick and place operations.
2) The robotic arm is actuated by DC servo motors controlled by an Arduino microcontroller. It can pick up and place objects weighing up to 150g and measuring 20x20x50mm.
3) The arm's motion is controlled through an Android app via Bluetooth, making it user-friendly. It is aimed to be an affordable educational tool for engineering students.
A contest oriented project for learning intelligent mobile robotsEcwaytechnoz
The document describes a contest-oriented project for undergraduate students to learn about intelligent mobile robots. The project involves designing robots to compete in contests like Micro mouse races and line mazes. Students first learn basic skills like microcontroller development, sensor characteristics, and servomotor control. They then use these skills to design their own robots, which must pass examination. Blogs and a wiki site document student progress. While not all students win contests, feedback shows the project motivated learning skills to build and operate intelligent mobile robots.
A contest oriented project for learning intelligent mobile robotsEcwaytech
The document describes a contest-oriented project for undergraduate students to learn about building intelligent mobile robots. Students learn digital motion control, path planning, attitude correction, curvature detection and maze-solving algorithms. They begin by learning basic skills like microcontroller development, sensor characteristics and servomotor control. They then use these skills to design their own robots to compete in contests involving tasks like line mazes. Blogs and a wiki site help students record their progress and experiences. While not all students win contests, feedback shows the project motivated learning skills to build and operate intelligent mobile robots.
A contest oriented project for learning intelligent mobile robotsEcway2004
The document describes a contest-oriented project for undergraduate students to learn about intelligent mobile robots. The project involves designing robots to compete in contests like Micro mouse races and line mazes. Students first learn basic skills like microcontroller development, sensor characteristics, and servomotor control. They then use these skills to design their own robots, which must pass examination. Blogs and a wiki site document student progress. While not all students win contests, feedback shows the project motivated learning skills to build and operate intelligent mobile robots.
A contest oriented project for learning intelligent mobile robotsEcway Technologies
The document describes a contest-oriented project for undergraduate students to learn about intelligent mobile robots. The project involves designing robots to compete in contests like Micro mouse races and line mazes. Students first learn basic skills like microcontroller development, sensor characteristics, and servomotor control. They then use these skills to design their own robots, which must pass examination. Blogs and a wiki site document student progress. While not all students win contests, feedback shows the project motivated learning skills to build and operate intelligent mobile robots.
A contest oriented project for learning intelligent mobile robotsEcwaytechnoz
The document describes a contest-oriented project for undergraduate students to learn about intelligent mobile robots. The project involves designing robots to compete in contests like Micro mouse races and line mazes. It aims to teach students digital motion control, path planning, sensor use, and maze-solving algorithms. Students first learn basic microcontroller, sensor, and servomotor skills, then apply them to independently design competitive robots. While not all students win contests, feedback shows the hands-on learning motivated students to build and program intelligent mobile robots.
The document announces the "YANTRA 2.1 EAST" robotics competition being organized by the Biratnagar Club of Robotics and Technology (BCRT) in association with CAN-Morang. The competition aims to familiarize students in the Purbanchal region with robotics and encourage STEM careers. It will include three main events: Yantra Racer involving autonomous line following robots, Yantra Akhada involving manual fighting robots, and Yantra School an open competition for lower secondary students. The event is scheduled for February 28, 2014 at Birendra Shabha Griha in Biratnagar and aims to serve as regional preparation for the national level Yant
IRJET - Six Wheel Drive Pick and Place Robot using ArduinoIRJET Journal
This document describes the design of a six wheel drive pick and place robot using Arduino. The robot consists of a six degree of freedom robotic arm mounted on a six wheeled drive chassis. The chassis allows for maneuverability on rough terrain. The arm is controlled by six servo motors to perform picking and placing tasks. An Android app is used to control the robot remotely by sending signals to the Arduino microcontroller via RF. The objectives are to increase the industrial and non-industrial applications of the robot by making it mobile and adding a storage area to perform tasks in bulk. The robot has potential applications in hazardous environments and for heavy lifting in industries. Future work may include adding autonomous capabilities and sensors.
This document is a mechanical engineering portfolio for Nirav Joshi. It summarizes his educational and professional experience in mechanical design and robotics. Over the past 1.5 years, he has worked as a Mechatronics Engineer designing robot components in Solidworks, coordinating vendors, and testing robots. He also has experience developing algorithms for autonomous robots using MATLAB from participating in national robotics competitions. His portfolio provides details on several robot design projects and competitions he has contributed to.
1. The project involves the design and fabrication of a laser operated robot for pipe inspection. It will have a three finger mechanism and use LDR sensors to detect cracks in pipes using laser light reflection.
2. The robot will be controlled using a microcontroller and transmit video footage and sensor data to a laptop or mobile device for monitoring. It aims to inspect pipes in a fast, cost effective and safer manner compared to manual inspection.
3. Expected outcomes include a functional prototype robot that can accurately inspect pipes for defects and conditions while remaining compliant with inspection regulations to reduce environmental impacts during operations.
Mudassar Ayub is seeking a career as a data analyst. He has a BSc in Mechatronics Engineering from UET Peshawar and is currently enrolled in an MS program in Robotics and Intelligent Machines at NUST. He has work experience as a lab engineer at NUST and as an execution engineer at Attock Refinery Limited. His areas of expertise include mechatronics systems design, sensors, microcontrollers, robotics and automation.
RAIOT- Robotics Automation & Internet of Things Lab ReportVishal Aditya
The document describes projects being conducted at the Robotics Automation & Internet of Things Lab (RAIOT Lab) at Amity University Rajasthan. The RAIOT Lab focuses on hands-on learning and research related to robotics and IoT. Current projects include developing a 17 DOF humanoid robot, soccer playing robot, remote controlled race car, combat robot for robot wars competitions, and gesture controlled robot. The lab is also working on automation projects like a hand gesture controlled game simulator and an EEG-based game simulator. The goal is to enhance gaming experiences using affordable technologies.
Zaid Sari is an electrical power engineer from Jordan with extensive experience in robotics, programming, and engineering. He has founded two technology companies, trained many robotics teams, and organized several engineering events. His technical skills include embedded systems, programming languages like Python and MATLAB, PCB design, 3D printing, and image processing.
Advanced manufacturing technology in roboticsPrakashpragu99
This document discusses advanced manufacturing technology in robotics. It begins with an introduction to manufacturing and then discusses the development of manufacturing technology. It covers the laws of robotics, types of robots including mobile, rolling, walking, stationary, autonomous and remote controlled robots. The document discusses the components, degrees of freedom, advantages and disadvantages of robots. It outlines applications of robots in exploration, medical science, and assembly. It concludes with the future prospects of robotics.
This thesis presents the design, analysis, and fabrication of a reconfigurable stair climbing robot. The robot uses a novel legged wheel design that allows each wheel to independently orient itself for improved mobility over uneven terrain. Dynamic simulation and finite element analysis were used to analyze step climbing and stresses. The robot was then fabricated and tested, demonstrating its ability to climb stairs of varying heights through independent control of its front and rear wheels.
IRJET- Smart Luggage Carrying Robot Using Raspberry PiIRJET Journal
This document describes a smart luggage carrying robot that uses a Raspberry Pi. The robot is designed to help customers at supermarkets and hypermarkets by allowing them to scan items as they shop to avoid long checkout lines. It uses a camera and Raspberry Pi to identify when a customer's membership card is inserted, allowing the cart to function as a smart cart for scanning items. The robot then follows the customer around the store as they shop. When done, it provides a total for their purchases to avoid waiting at the checkout. The document discusses the hardware and software used to create this smart luggage carrying robot.
This is my internship report in Drona Automation, where I received tremendous opportunity as an Intern Design Engineer.
Over the course of the internship, I had cultivated and developed my engineering skills like idea generation, problem-solving, design/model/analysis of sewage robots, working with 3D printers, additive manufacturing, etc.
This document describes a vision assisted pick and place robotic arm guided by image processing concepts for object sorting. It discusses introducing a robotic arm that can pick objects from one location and place them in another using machine vision. The document covers concepts like image acquisition, processing, object identification, and control signal transfer. It provides details on how a webcam captures images that are converted to grayscale and binary before edge detection and other processing to find object boundaries and centroids. This allows generating control signals to guide the robotic arm via a controller. Applications are in automated industries like assembly and potential enhancements are also discussed.
This document describes a vision assisted pick and place robotic arm guided by image processing concepts for object sorting. It discusses introducing a robotic arm that can pick objects from one location and place them in another using machine vision. The document covers key concepts like image acquisition, processing, object identification, and control signal transfer. It provides details on how a webcam captures images that are converted to grayscale and binary before edge detection and other processing to find object boundaries and centroids. Control signals are sent via an interface to guide the robotic arm based on image analysis. Potential applications and advantages like consistency and hazardous task handling are also summarized.
ThinnkWare is a venture that deals in education through robotics and embedded systems. It trains students in robotics and manufactures robot kits. The RoboShiksha program uses MechanzO robotics kits to facilitate experiential learning in science and technology for students aged 8-14 over 24 hours across 6 days. Students learn concepts like gears, motors, and aerodynamics through building robots. The program aims to develop skills like problem solving, teamwork, and exploring STEM areas through a fun hands-on approach to learning.
A contest oriented project for learning intelligent mobile robotsEcwaytechnoz
The document describes a contest-oriented project for undergraduate students to learn about intelligent mobile robots. The project involves designing robots to compete in contests like Micro mouse races and line mazes. Students first learn basic skills like microcontroller development, sensor characteristics, and servomotor control. They then use these skills to design their own robots, which must pass examination. Blogs and a wiki site document student progress. While not all students win contests, feedback shows the project motivated learning skills to build and operate intelligent mobile robots.
A contest oriented project for learning intelligent mobile robotsEcwaytech
The document describes a contest-oriented project for undergraduate students to learn about building intelligent mobile robots. Students learn digital motion control, path planning, attitude correction, curvature detection and maze-solving algorithms. They begin by learning basic skills like microcontroller development, sensor characteristics and servomotor control. They then use these skills to design their own robots to compete in contests involving tasks like line mazes. Blogs and a wiki site help students record their progress and experiences. While not all students win contests, feedback shows the project motivated learning skills to build and operate intelligent mobile robots.
A contest oriented project for learning intelligent mobile robotsEcway2004
The document describes a contest-oriented project for undergraduate students to learn about intelligent mobile robots. The project involves designing robots to compete in contests like Micro mouse races and line mazes. Students first learn basic skills like microcontroller development, sensor characteristics, and servomotor control. They then use these skills to design their own robots, which must pass examination. Blogs and a wiki site document student progress. While not all students win contests, feedback shows the project motivated learning skills to build and operate intelligent mobile robots.
A contest oriented project for learning intelligent mobile robotsEcway Technologies
The document describes a contest-oriented project for undergraduate students to learn about intelligent mobile robots. The project involves designing robots to compete in contests like Micro mouse races and line mazes. Students first learn basic skills like microcontroller development, sensor characteristics, and servomotor control. They then use these skills to design their own robots, which must pass examination. Blogs and a wiki site document student progress. While not all students win contests, feedback shows the project motivated learning skills to build and operate intelligent mobile robots.
A contest oriented project for learning intelligent mobile robotsEcwaytechnoz
The document describes a contest-oriented project for undergraduate students to learn about intelligent mobile robots. The project involves designing robots to compete in contests like Micro mouse races and line mazes. It aims to teach students digital motion control, path planning, sensor use, and maze-solving algorithms. Students first learn basic microcontroller, sensor, and servomotor skills, then apply them to independently design competitive robots. While not all students win contests, feedback shows the hands-on learning motivated students to build and program intelligent mobile robots.
The document announces the "YANTRA 2.1 EAST" robotics competition being organized by the Biratnagar Club of Robotics and Technology (BCRT) in association with CAN-Morang. The competition aims to familiarize students in the Purbanchal region with robotics and encourage STEM careers. It will include three main events: Yantra Racer involving autonomous line following robots, Yantra Akhada involving manual fighting robots, and Yantra School an open competition for lower secondary students. The event is scheduled for February 28, 2014 at Birendra Shabha Griha in Biratnagar and aims to serve as regional preparation for the national level Yant
IRJET - Six Wheel Drive Pick and Place Robot using ArduinoIRJET Journal
This document describes the design of a six wheel drive pick and place robot using Arduino. The robot consists of a six degree of freedom robotic arm mounted on a six wheeled drive chassis. The chassis allows for maneuverability on rough terrain. The arm is controlled by six servo motors to perform picking and placing tasks. An Android app is used to control the robot remotely by sending signals to the Arduino microcontroller via RF. The objectives are to increase the industrial and non-industrial applications of the robot by making it mobile and adding a storage area to perform tasks in bulk. The robot has potential applications in hazardous environments and for heavy lifting in industries. Future work may include adding autonomous capabilities and sensors.
This document is a mechanical engineering portfolio for Nirav Joshi. It summarizes his educational and professional experience in mechanical design and robotics. Over the past 1.5 years, he has worked as a Mechatronics Engineer designing robot components in Solidworks, coordinating vendors, and testing robots. He also has experience developing algorithms for autonomous robots using MATLAB from participating in national robotics competitions. His portfolio provides details on several robot design projects and competitions he has contributed to.
1. The project involves the design and fabrication of a laser operated robot for pipe inspection. It will have a three finger mechanism and use LDR sensors to detect cracks in pipes using laser light reflection.
2. The robot will be controlled using a microcontroller and transmit video footage and sensor data to a laptop or mobile device for monitoring. It aims to inspect pipes in a fast, cost effective and safer manner compared to manual inspection.
3. Expected outcomes include a functional prototype robot that can accurately inspect pipes for defects and conditions while remaining compliant with inspection regulations to reduce environmental impacts during operations.
Mudassar Ayub is seeking a career as a data analyst. He has a BSc in Mechatronics Engineering from UET Peshawar and is currently enrolled in an MS program in Robotics and Intelligent Machines at NUST. He has work experience as a lab engineer at NUST and as an execution engineer at Attock Refinery Limited. His areas of expertise include mechatronics systems design, sensors, microcontrollers, robotics and automation.
RAIOT- Robotics Automation & Internet of Things Lab ReportVishal Aditya
The document describes projects being conducted at the Robotics Automation & Internet of Things Lab (RAIOT Lab) at Amity University Rajasthan. The RAIOT Lab focuses on hands-on learning and research related to robotics and IoT. Current projects include developing a 17 DOF humanoid robot, soccer playing robot, remote controlled race car, combat robot for robot wars competitions, and gesture controlled robot. The lab is also working on automation projects like a hand gesture controlled game simulator and an EEG-based game simulator. The goal is to enhance gaming experiences using affordable technologies.
Zaid Sari is an electrical power engineer from Jordan with extensive experience in robotics, programming, and engineering. He has founded two technology companies, trained many robotics teams, and organized several engineering events. His technical skills include embedded systems, programming languages like Python and MATLAB, PCB design, 3D printing, and image processing.
Advanced manufacturing technology in roboticsPrakashpragu99
This document discusses advanced manufacturing technology in robotics. It begins with an introduction to manufacturing and then discusses the development of manufacturing technology. It covers the laws of robotics, types of robots including mobile, rolling, walking, stationary, autonomous and remote controlled robots. The document discusses the components, degrees of freedom, advantages and disadvantages of robots. It outlines applications of robots in exploration, medical science, and assembly. It concludes with the future prospects of robotics.
This thesis presents the design, analysis, and fabrication of a reconfigurable stair climbing robot. The robot uses a novel legged wheel design that allows each wheel to independently orient itself for improved mobility over uneven terrain. Dynamic simulation and finite element analysis were used to analyze step climbing and stresses. The robot was then fabricated and tested, demonstrating its ability to climb stairs of varying heights through independent control of its front and rear wheels.
IRJET- Smart Luggage Carrying Robot Using Raspberry PiIRJET Journal
This document describes a smart luggage carrying robot that uses a Raspberry Pi. The robot is designed to help customers at supermarkets and hypermarkets by allowing them to scan items as they shop to avoid long checkout lines. It uses a camera and Raspberry Pi to identify when a customer's membership card is inserted, allowing the cart to function as a smart cart for scanning items. The robot then follows the customer around the store as they shop. When done, it provides a total for their purchases to avoid waiting at the checkout. The document discusses the hardware and software used to create this smart luggage carrying robot.
This is my internship report in Drona Automation, where I received tremendous opportunity as an Intern Design Engineer.
Over the course of the internship, I had cultivated and developed my engineering skills like idea generation, problem-solving, design/model/analysis of sewage robots, working with 3D printers, additive manufacturing, etc.
This document describes a vision assisted pick and place robotic arm guided by image processing concepts for object sorting. It discusses introducing a robotic arm that can pick objects from one location and place them in another using machine vision. The document covers concepts like image acquisition, processing, object identification, and control signal transfer. It provides details on how a webcam captures images that are converted to grayscale and binary before edge detection and other processing to find object boundaries and centroids. This allows generating control signals to guide the robotic arm via a controller. Applications are in automated industries like assembly and potential enhancements are also discussed.
This document describes a vision assisted pick and place robotic arm guided by image processing concepts for object sorting. It discusses introducing a robotic arm that can pick objects from one location and place them in another using machine vision. The document covers key concepts like image acquisition, processing, object identification, and control signal transfer. It provides details on how a webcam captures images that are converted to grayscale and binary before edge detection and other processing to find object boundaries and centroids. Control signals are sent via an interface to guide the robotic arm based on image analysis. Potential applications and advantages like consistency and hazardous task handling are also summarized.
ThinnkWare is a venture that deals in education through robotics and embedded systems. It trains students in robotics and manufactures robot kits. The RoboShiksha program uses MechanzO robotics kits to facilitate experiential learning in science and technology for students aged 8-14 over 24 hours across 6 days. Students learn concepts like gears, motors, and aerodynamics through building robots. The program aims to develop skills like problem solving, teamwork, and exploring STEM areas through a fun hands-on approach to learning.
The document discusses the benefits of exercise for mental health. Regular physical activity can help reduce anxiety and depression and improve mood and cognitive function. Exercise causes chemical changes in the brain that may help protect against mental illness and improve symptoms for those who already suffer from conditions like depression and anxiety.
The document discusses the benefits of exercise for mental health. Regular physical activity can help reduce anxiety and depression and improve mood and cognitive function. Exercise causes chemical changes in the brain that may help protect against mental illness and improve symptoms for those who already suffer from conditions like anxiety and depression.
The document discusses the benefits of exercise for mental health. Regular physical activity can help reduce anxiety and depression and improve mood and cognitive function. Exercise causes chemical changes in the brain that may help protect against mental illness and improve symptoms.
The document discusses the benefits of exercise for mental health. Regular physical activity can help reduce anxiety and depression and improve mood and cognitive functioning. Exercise boosts blood flow and levels of serotonin and endorphins which elevate mood and may help prevent the onset of depression.
Climate Impact of Software Testing at Nordic Testing DaysKari Kakkonen
My slides at Nordic Testing Days 6.6.2024
Climate impact / sustainability of software testing discussed on the talk. ICT and testing must carry their part of global responsibility to help with the climat warming. We can minimize the carbon footprint but we can also have a carbon handprint, a positive impact on the climate. Quality characteristics can be added with sustainability, and then measured continuously. Test environments can be used less, and in smaller scale and on demand. Test techniques can be used in optimizing or minimizing number of tests. Test automation can be used to speed up testing.
AI-Powered Food Delivery Transforming App Development in Saudi Arabia.pdfTechgropse Pvt.Ltd.
In this blog post, we'll delve into the intersection of AI and app development in Saudi Arabia, focusing on the food delivery sector. We'll explore how AI is revolutionizing the way Saudi consumers order food, how restaurants manage their operations, and how delivery partners navigate the bustling streets of cities like Riyadh, Jeddah, and Dammam. Through real-world case studies, we'll showcase how leading Saudi food delivery apps are leveraging AI to redefine convenience, personalization, and efficiency.
Have you ever been confused by the myriad of choices offered by AWS for hosting a website or an API?
Lambda, Elastic Beanstalk, Lightsail, Amplify, S3 (and more!) can each host websites + APIs. But which one should we choose?
Which one is cheapest? Which one is fastest? Which one will scale to meet our needs?
Join me in this session as we dive into each AWS hosting service to determine which one is best for your scenario and explain why!
Ivanti’s Patch Tuesday breakdown goes beyond patching your applications and brings you the intelligence and guidance needed to prioritize where to focus your attention first. Catch early analysis on our Ivanti blog, then join industry expert Chris Goettl for the Patch Tuesday Webinar Event. There we’ll do a deep dive into each of the bulletins and give guidance on the risks associated with the newly-identified vulnerabilities.
AI 101: An Introduction to the Basics and Impact of Artificial IntelligenceIndexBug
Imagine a world where machines not only perform tasks but also learn, adapt, and make decisions. This is the promise of Artificial Intelligence (AI), a technology that's not just enhancing our lives but revolutionizing entire industries.
Building Production Ready Search Pipelines with Spark and MilvusZilliz
Spark is the widely used ETL tool for processing, indexing and ingesting data to serving stack for search. Milvus is the production-ready open-source vector database. In this talk we will show how to use Spark to process unstructured data to extract vector representations, and push the vectors to Milvus vector database for search serving.
HCL Notes and Domino License Cost Reduction in the World of DLAUpanagenda
Webinar Recording: https://www.panagenda.com/webinars/hcl-notes-and-domino-license-cost-reduction-in-the-world-of-dlau/
The introduction of DLAU and the CCB & CCX licensing model caused quite a stir in the HCL community. As a Notes and Domino customer, you may have faced challenges with unexpected user counts and license costs. You probably have questions on how this new licensing approach works and how to benefit from it. Most importantly, you likely have budget constraints and want to save money where possible. Don’t worry, we can help with all of this!
We’ll show you how to fix common misconfigurations that cause higher-than-expected user counts, and how to identify accounts which you can deactivate to save money. There are also frequent patterns that can cause unnecessary cost, like using a person document instead of a mail-in for shared mailboxes. We’ll provide examples and solutions for those as well. And naturally we’ll explain the new licensing model.
Join HCL Ambassador Marc Thomas in this webinar with a special guest appearance from Franz Walder. It will give you the tools and know-how to stay on top of what is going on with Domino licensing. You will be able lower your cost through an optimized configuration and keep it low going forward.
These topics will be covered
- Reducing license cost by finding and fixing misconfigurations and superfluous accounts
- How do CCB and CCX licenses really work?
- Understanding the DLAU tool and how to best utilize it
- Tips for common problem areas, like team mailboxes, functional/test users, etc
- Practical examples and best practices to implement right away
Taking AI to the Next Level in Manufacturing.pdfssuserfac0301
Read Taking AI to the Next Level in Manufacturing to gain insights on AI adoption in the manufacturing industry, such as:
1. How quickly AI is being implemented in manufacturing.
2. Which barriers stand in the way of AI adoption.
3. How data quality and governance form the backbone of AI.
4. Organizational processes and structures that may inhibit effective AI adoption.
6. Ideas and approaches to help build your organization's AI strategy.
Unlocking Productivity: Leveraging the Potential of Copilot in Microsoft 365, a presentation by Christoforos Vlachos, Senior Solutions Manager – Modern Workplace, Uni Systems
Full-RAG: A modern architecture for hyper-personalizationZilliz
Mike Del Balso, CEO & Co-Founder at Tecton, presents "Full RAG," a novel approach to AI recommendation systems, aiming to push beyond the limitations of traditional models through a deep integration of contextual insights and real-time data, leveraging the Retrieval-Augmented Generation architecture. This talk will outline Full RAG's potential to significantly enhance personalization, address engineering challenges such as data management and model training, and introduce data enrichment with reranking as a key solution. Attendees will gain crucial insights into the importance of hyperpersonalization in AI, the capabilities of Full RAG for advanced personalization, and strategies for managing complex data integrations for deploying cutting-edge AI solutions.
“An Outlook of the Ongoing and Future Relationship between Blockchain Technologies and Process-aware Information Systems.” Invited talk at the joint workshop on Blockchain for Information Systems (BC4IS) and Blockchain for Trusted Data Sharing (B4TDS), co-located with with the 36th International Conference on Advanced Information Systems Engineering (CAiSE), 3 June 2024, Limassol, Cyprus.
2. about us:
• Started in the year 2004.
• One of the first colleges in Rajasthan to have such a facility.
• Developed a number of educational robots.
• Won a number of prizes in various IIT’s and the ABU ROBOTICS
CONTEST.
• Intend to go forward with work in different areas of Robotics and
Automation.
• Among the elite group of Teams in ROBOCON which associates us
with various premier institutes in India .
2
3. objectives:
• To provide a platform for students to showcase
their creativity and innovation.
• To club together the knowledge from various
branches of Engineering into the field of robotics.
• To develop cost effective robotic platforms for
educational purposes.
• To popularize the field of robotics in the young
engineering community.
3
4. Ongoing Projects:
Students enrolled with the Jecrc Robotics Club are involved in
various projects throughout the year. these projects range from
making small scale hobby robots to complicated and much larger
Robotic Platforms.
Projects currently being undertaken by various members of the
Robotics Club are as Follows:
1. Trinity; funded by D.S.T., Rajasthan.
2. Accident Detection system; partially funded by Department of
Science & Technology,Rajasthan.
3. Two Axis Flatbed Plotter.
4. Intelligent Notice Board.
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5. Trinity
The objective of this project is
to design a control system to
interact with a robotic platform
wirelessly using voice remote
and visual communication
technique.
Voice and remote based control
has completed and visual
communication is to be
implemented.
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6. two axis flatbed
plotter
The objective of this project is to
create a flatbed plotter that is able to
plot continuous vector graphics.
The project is in the first prototype
stage and is being tested for design of
mechanical structure and control of
stepper motors
Initial control system built using Philips
P89v51rd2 and L293D.
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7. Intelligent Notice Board
The objective of this project is to design
and implement an interactive notice board
for use in college campus.
The project is in the initial circuit design
stage and is to be implemented using
larger LCD screen.
Initial control system built using
Atmega-16, Max-232 and a 16*2 LCD.
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8. Past Projects:
• S.A.W.C.S. ; Semiautonomous wireless control system using
transceiver CC2500 Modules.
• Solar Roller; unidirectional solar roller based on miller engine.
• Advanced Line Follower Using Industrial Photoelectric Sensors.
• Obstacle Avoidance Robot Using Industrial Photoelectric Sensors.
• Atmega 16/Atmega32 Development board.
• Motor Motion Control Circuitry Using Mosfets.
• Atmega8 Development Board.
• Advance Combat Robot.
• Interaction Between Autonomous And Manual Robots For Robocon 2009.
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9. • RoboLib; library management system using a manually Controlled Robot.
• Autonomous Metal Detector.
• Stair Climber Robot.
• Autonomous & Manual Robots For ABU Robocon 2005,06,07,08 & 09.
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10. Workshops & Lecture
Organized :
• Invited Prof. Ron Lumia,Mechanical Engineering Dept.,University of New
Mexico for an Interactive session on MEMS Technology and its application in
biological instruments.
• Senior Members of Robotics club conduct lectures and open houses for
students.
• Workshops on Autonomous robot Building are conducted Periodically.
• Robotic competitions are organized by the JECRC Robotics Club during the
inter college Techno-cultural festival, “Rennaissance”
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11. Titles Earned:
• 2010 :
• 1st position in Robowars at LNMIIT,jaipur.
• 2nd position in Autonomous FlagPicker at LNMIIT, Jaipur.
• 2nd Position in Robot Olympic at MNIT,Jaipur.
• 1st position in Robo soccer at MNIT,jaipur
• 2009 :
• Participated in ROBOCON, Pune 2009
• 1st and 2nd in Robo Sumo in GIT,Jaipur
• 2nd in Path follower in GIT,Jaipur
• 1st in Robowars in Electronica, MNIT,Jaipur
• 1st and 2nd in Robowars in KITE(Kautilya),Jaipur
• 1st in Robo Soccer in KITE(Kautilya),Jaipur
• 1st and 2nd in Robo Sumo in SKIT, Jaipur
• 2nd in Hurdle Racing in SKIT, Jaipur
• 2nd in Show Your Robo (Auto. Robot) in Arya(AIET), Jaipur
• 3rd in Robo Combat in Arya(AIET), Jaipur.
• 2nd in Robo wars in Engg. College Bikaner, Bikaner.
• 2nd to 6th position in Neuron, held at MNIT, Jaipur.
• 2nd in Nautical miles, held at MNIT, Jaipur.
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12. • 2008
• 1st prize among 114 in ROBOWARS at TRYST’08, IIT-D
• 1st and 3rd prize at BITS, PILANI APOGEE’08
• 1st and 2nd in Robo Sumo and 3rd in Robo Race at PRAVAAH’08 at SKIT
• Entered 2nd Round of ROBOCON, Pune 2008
• 1st and 2nd prize at Engg. College Bikaner in Sakshama’08
• 6th among 100 teams in Nexus-08, Techfest in MNIT, Jaipur
• 2nd in Air-Ferry at NSIT,Delhi
• 2nd in Nirman at NSIT,Delhi
• 2007
• ROBOCON : 7th Position Out of 25 Teams.
• JUNKYARD WARS – 3rd Prize at MNIT National Technical Conest
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13. • 2006 :
• ROBOCON -
• 3rd rank among 23 participating teams
• Best Autonomous Machine Award
• Best Audience Support Award
• IIT ROORKE
• Grand Technical Championship Awards
• All the top three titles in ROBOSAPIENS
• National Technical Contest IIT GUWAHATI
• 1st prize among 123 teams in ROBOSOCCER
• 3rd prize among 20 teams in PATHFINDER
• 1st and 2nd prize in JUNKYARD WARZ at MNIT,Jaipur.
• 2005 :
• ROBOCON – 6th rank among 16 participating teams
• 2004 :
• ROBOCON – 9th rank among 13 participating teams
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14. Recruitment process:
Each year in the month of January a recruitment process is carried out to
induct new members to the robotics club.
The Recruitment process comprises of the following stages:-
1. Issue of notice for availability of application forms
2. Collection and assessment of applications by the faculty head and student
coordinators .
3. Issue of notice to call the shortlisted students for a personal interview.
4.The applicants are interviewed by a number of faculty members from
different branches.
5.The shortlisted students after P.I. go through a rigorous assessment
phase and the deserving students are absorbed in the core-group.
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15. Alumni
Name Currently Working at
Mr. Mohit Jain Honeywell
Mr. Subhash Tri India.
Mr. Sankalp jain Infosys
Mr. Ritukar Vijay Hitech Robotic Systemz
Mr. Saurav Vaya Vaya Technologies
Mr. Atul Dhawan Satyam
Mr. Danish Bhatia Satyam
Ms. Priyanka agarwal Mphasis
Ms. Deepika Chavrani Pursuing M.S.
Mr. Naveen Chaudhary Precision Steel Design
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25. Faculty Advisor contact info:
Professor Abhijeet Sarkar
Head of Department,
Electronics & Communication
Jaipur Engineering College & Research centre
sri ram ki nangal,via vatika
tonk road,Jaipur-303905
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