Robolab Technologies Pvt. Ltd. | RoboLab Technologies blogs
ROBOLAB ROBOLAB “A perfect platform to explore, learn and build robots” -Advanced state of the art technical research facility within campus -Hands on practical experience along with required theory -Consolidation of concepts -Industry- institute Interaction -Standard guidelines and essentials -Superior quality and Advanced robot study platforms -Training by Industry Experts And last but not the least -Affordable excellence with Quick Return on Investment Robolab is your very own, on campus, centre of Excellence in Robotics and Industrial Automation, tailor made for you. Equipped with all the advanced technologies used in industries, the Robolab offers training courses consistent with the latest curricula and the industry requirements. Thus, functioning as the perfect platform for its users (students as well as teachers) to explore, learn, build and share their ideas. We believe in providing innovative and interactive training by industry experts and deliver the same while establishing the Robolab. This empowers the trainees to manage the Robolab in future. Our planned ROI model ensures the educational as well as financial returns. Having Robolab has its own perks! We have some standard Robolab offerings and we also customize as per the needs of the institute. About Company Robolab Technologies Pvt. Ltd is a venture by graduates from the prestigious College of Engineering, Pune (COEP) in association with the BHAU Institute of Innovation, Entrepreneurship and Leadership (BIEL), the Incubation centre of the College of Engineering Pune[COEP]. Robotics labs for schools in india,Robotics labs for Diploma Colleges in india,Robotics labs for engineering Colleges in india,Robotics labs for colleges in india,a College Of Engineering, Bhau Institute, ,automation and robotics,robotics and automation,automation robotics,robotics automation,robotics & automation,automation robots,automation robotics,automation in robotics,robots and automation,automation and robots,robots in automation,robotics in automation,home robots,home robotics,robots for the home,robots for home,in home robots,learning robotics,lab robotics,learning robots,lab robots,working of robots,college robotics,robotics info,work robots,working of robotics,working in robotics,robots that work,robots learning,training robots,robotics subject,robotics working,lab automation,automation lab,roboti cs,robolab technologies,college from home,mobile education india,robotics workshops training,members of faculty,india private limited,,labs in college,the lab training,email id of students,robotics labs india,,robotics lab manual,robotics lab for schools,robotics lab equipment,robotics lab mit,robotics lab setup proposal,robotics lab iit,robotics lab iisc,robotics lab research academy The team Provides services for Robotics Automation laboratories and establishment, trainer kits, laboratory trainer kits, education trainer kits, training equipments, microprocessor embedded trainers, conduct workshops on trending technologies, Industrial Projects. 1.Robotics and Automation Laboratories Establishment 2.Conduct Workshop on Trending technologies 3.Industrial Automation 4.Technical Guidance
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Oobleck Non-Newtonian liquid experiment

Ingredients • 2 Cups Cornstarch • 1 Cup Water • Food coloring (optional)   Instructions • Step One – Pour 2 cups cornstarch into a bowl • Step Two – Add 1 cup of water and stir to combine • Step Three – If adding food coloring to your Oobleck do it at the mixing stage   What is the consistency you are looking for? If you’ve never made Oobleck before one of the hardest things to figure out is just what you are looking for in terms of consistency. I use this as my guideline: When mixed you should…

Can You Walk on Water? (Non-Newtonian Fluid Pool)

15 boxes of Cornstarch and were walking on Oobleck! Mix one box at a time in a separate bowl and then poured into the tub.   What is happening? You’ve essentially made homemade quicksand or a large tub of oobleck. Corn starch in water displays interesting properties. Under some conditions, it behaves as a liquid, while under other conditions, it acts as a solid. If you punch the mixture, it will be like hitting a wall, yet you can sink your feet or body into it like water. If you squeeze it, it feels firm, yet when you release the…

Facing the Unknown, with Robots | Shai Revzen | TEDxUofM

Is there anyway we can prepare to face the unknown? Can we develop robots that are fluid in function?   Shai Revzen is an Assistant Professor of Electrical Engineering, Ecologyand Evolutionary Biology, and Robotics at the University of Michigan. He’s been a video game programmer, an experimental biologist, and Chief Architect in a Silicon Valley tech company. He has co-founded a biomedical start-up, authored several patents, and published academically in robotics, biology, and applied mathematics.  

Prof. Edwin Olson

Prof. Olson’s research includes finding ways for robots to sense and understand their environment while coping with uncertainty and ambiguity. The perception problem is central to a variety of practical applications, from indoor robots that can lead tours or deliver mail to autonomous cars that can navigate urban environments. His work includes both fundamental algorithm research (optimization, state estimation, classification) and system building.  

Prof. Jessy Grizzle

Prof. Grizzle talks about his latest project, the robot MABEL, and hints at MABEL’s successor, ATRIAS. MABEL is the fastest running bipedal robot, thanks to unbeatable algorithms developed by his group. Prof. Grizzle specializes in feedback control.  

How close are we to having robot companions?

Will advances in artificial intelligence bring us closer to having robots in our homes? A Michigan Engineering expert weighs in on the goals and outlook for research in making robots that think like humans.   The idea of artificial intelligence is rooted in creating a mind that has the same flexibilities and capabilities of a human mind — or even more. Although research has been advanced in a variety of areas of human intelligence, such as voice and face recognition, the next question will be how to integrate the separate aspects into a fully capable brain, says U-M professor Satinder…

Meet the MAEBots

Prof. Edwin Olson’s APRIL Lab introduces the MAEBots: a small, smart, and low-cost platform for multi autonomous robotics research that has been open sourced for researchers everywhere.  

Bipedal Robot MABEL Walks Over Randomly Varying Ground

Bipedal Robot MABEL Walks over Randomly Varying Ground: Experiment No. 1 Challenge: Traverse an irregular surface without prior knowledge of ground profile. Comments: We used a single feedback control, with a virtual compliant term in the stance knee. Switching control is not employed here. This was our initial attempt over random ground. The robot fell at the end of the experiment. We understand why it fell and will be back with more results soon.  

Preliminary Outdoor Walking with Underactuated Bipedal Robot MARLO

Testing done on Saturday November 23, 2013 at 8 AM in front of the EECS Building on the University of Michigan North Campus. The temperature was -2 C (about 29 F). MARLO is an underactuated 3D bipedal robot with passive prosthetic feet. Its feedback control is designed using virtual constraints. In previous experiments, MARLO was attached to a boom. but with improved control, the robot can now walk without any external support. A mobile gantry supports a safety cable to catch the robot when it falls, avoiding expensive and time-consuming repairs. The robot is one of 3 ATRIAS-series robots designed…

MARLO: Dynamic 3D walking based on HZD gait design and BMI constraint selection

BTN LiveBiG was filming MARLO the day we began testing a new method for controller design.   The controller is based on virtual constraints and hybrid zero dynamics (HZD). Here we are testing a new method for designing virtual constraints based on bilinear matrix inequality (BMI) optimization.   MARLO is a 3D robot designed to study principles of dynamic walking. Unlike most other 3D walking robots, MARLO does not have large feet with powered ankles. This forces the robot to balance dynamically, but may lead to more natural and more energetically efficient walking.   MARLO is one of three ATRIAS…

From running roaches to robots

U-M engineers are analyzing the reflexes of cockroaches to aid in developing steadier robots. Professor Shai Revzen is recording the reaction of running cockroaches being shoved sideways, discovering that their body kicks in before their dawdling nervous system can tell it what to do. These new insights on how biological systems stabilize could one day help engineers design steadier robots and improve doctors’ understanding of human gait abnormalities.  

Designing robots that assemble and adapt

What happens when you send a rolling robot out for a mission, and it turns out they need legs instead? That happens more often than you might think, and to combat that Michigan Engineers are working on creating “self-assembling” robots that can build themselves into any form required.   U-M Assistant Professor Shai Revzen and his team at the Biologically Inspired Robotics and Dynamical Systems (BIRDS) Lab are working on a variety of innovative solutions to create mechanical and robotic tools for challenging situations. In addition to self-assembling technologies, the team hopes to identify, model and reproduce the strategies animals…

Jessy Grizzle | Bipedal Walking Robots

Distinguished University Professorship 2015 Lecture Series presented by Elmer G. Gilbert; Distinguished University Professor of Engineering, Jerry W. and Carol L. Levin; Professor of Engineering and the College of Engineering at the University of Michigan   The fields of control and robotics are working hand-in-hand to development bipedal machines that can realize walking motions with the stability and agility of a human being. Dynamic models for bipeds are hybrid nonlinear systems, meaning they contain both continuous and discrete elements, with switching events that are spatially driven by changes in ground contact. This talk will show how nonlinear control methods are…

Smart Carts

A fleet of autonomous “Smart Carts” – high-tech, 3D printed, low-speed electric vehicles – could one day zip around the University of Michigan North Campus, taking students, professors and staff to class, labs and offices while also serving as one of the first test beds for on-demand autonomous transit.   In an early step toward that goal, U-M researchers received a custom, 3D-printed vehicle from technology company Local Motors. Over the next year, Edwin Olson, an associate professor of Electrical Engineering and Computer Science who leads the project and his team of U-M researchers will develop autonomy capabilities and build…

How to Build a BigANT Leg

Shai Revzen’s lab builds robots inspired by nature that are easy to construct and get walking. Check out how to build your own BigANT!   Rapidly Prototyping Robots with Plate and Reinforced Flexure (PARF) Mechanisms, for IEEE Robotics and Automation Magazine  

Rosie learns Tower of Hanoi

Rosie, an interactive task learning robot built on the Soar cognitive architecture, learns the rules of a foam block Tower of Hanoi through situated interactive instruction and then solves the puzzle.  

Smartcart project gets underway at Mcity

A fleet of autonomous “Smart Carts” – high-tech, 3D printed, low-speed electric vehicles – could one day zip around the University of Michigan North Campus, taking students, professors and staff to class, labs and offices while also serving as one of the first test beds for on-demand autonomous transit.   In an early step toward that goal, U-M researchers received a custom, 3D-printed vehicle from technology company Local Motors. Over the next year, Edwin Olson, an associate professor of Electrical Engineering and Computer Science who leads the project and his team of U-M researchers will develop autonomy capabilities and build…

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