Robotics Certification MOOC Training Course Guide.
Robotics Certification MOOC: FREE Online Courses & Training
A Robotics Certification MOOC (Massive Open Online Course) helps to grow your career. Here you can find out how to get your Robotics Certification.
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- 1 Robotics Certification MOOC: FREE Online Courses & Training
- 2 Robotics Certification Q&A
- 3 Portfolio of Digital Transformation Certifications™
- 4 What is Robotics and Why You Should Take Your Robotics Certification?
- 5 Robotics Technology
- 6 Robotics Certification & Career Demand
- 7 Certified Robotics Professional Salary
- 8 Certified Robotics Professional Job Description
- 9 Robotics Startups
- 10 Robotics Wiki
- 10.1 Active movement
- 10.2 Actuator
- 10.3 Formula
- 10.4 Autonomous
- 10.5 Brain-Computer Interface (BCI)
- 10.6 Compliance
- 10.7 Impedance control
- 10.8 Inertial Measurement Unit (IMU)
- 10.9 Kalman filter
- 10.10 Model Predictive Control (MPC)
- 10.11 Orthosis
- 10.12 Passive Movement
- 10.13 Sensor
- 10.14 Condition-estimation
- 10.15 Torque-controlled
- 10.16 Quadcopter/Quadrotor
Robotics Certification Q&A
Portfolio of Digital Transformation Certifications™
Welcome to the Portfolio of Digital Transformation Certifications™.
This Robotics certification training course guide is part of the Portfolio of Digital Transformation Certifications™ coached by Angel Berniz.
Following you can find all the Digital Transformation Certifications available:
- Digital Transformation Certification Training Course Guide
- Big Data Certification Certification Training Course Guide
- Internet of Things Certification Certification Training Course Guide
- Industry 4.0 Certification Certification Training Course Guide
- Agile Coach Certification Certification Training Course Guide
- Artificial Intelligence & Machine Learning Certification Certification Training Course Guide
- Robotics Certification Certification Training Course Guide
- Blockchain Certification Certification Training Course Guide
- Lean Startup Certification Certification Training Course Guide
- Design Thinking Certification Certification Training Course Guide
- Solutions Architect Certification Training Course Guide
- Microservices Certification Certification Training Course Guide
- Management 4.0 Certification Certification Training Course Guide
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What is Robotics and Why You Should Take Your Robotics Certification?
Robotics is really a branch of engineering which involves the conception, design, manufacture, and operation of robots. This discipline overlaps with electronics, information technology, artificial intelligence, mechatronics, nanotechnology and bioengineering.
A robotic is the programmable mechanical device that may perform tasks and communicate with its atmosphere, without the assistance of human interaction. Robotics may be the science behind the look, manufacturing and use of robots.
The term robot was created through the Czech playwright Karel Capek in 1921. He authored a play known as “Rossum’s Universal Robots” which was in regards to a slave type of manufactured human-like servants as well as their struggle for freedom. The Czech word robota loosely means “compulsive servitude.”
The term robotics was initially utilized by the famous science-fiction author, Isaac Asimov, in 1941. Within the story, Asimov recommended three concepts to steer the behaviour of robots and smart machines. Asimov’s Three Laws of Robotics, because they are known as, have survived to the current:
- Robots must never harm people.
- Robots are required to follow instructions from humans without violating rule 1.
- Robots must safeguard themselves without violating another rules.
One of the most innovative robotic companies are KUKA and ABB Robotics. Following you can learn about their robotics technology:
Robotics Certification & Career Demand
The Robotics certification & career demand is very high, with exponential increase (according to IT Jobs Watch):
Certified Robotics Professional Salary
The salary of certified Robotics professionals is high because there lack of professionals who own a robotics certification in this field:
Certified Robotics Professional Job Description
The following Certified Robotics Professional and Robotics Project Manager job description for an employment opportunity was published at ABB:
ABB are currently recruiting for a Project Manager to join the Robotics team in our Milton Keynes office.
Are you interested in a dynamic and challenging opportunity to work with a global leader of robotic solutions? Do you have an entrepreneurial personality and derive energy from challenging traditional automated systems? If so, this is for you …
ABB is searching for talented engineers and project managers with an automation background and interest in logistics systems, as part of the ABB Next Level Strategy. You will be part of a fast growing global team based physically in Milton Keynes, tasked with creating and delivering innovative robotic solutions to make ABB the global leader in the field of warehouse and logistics automation.
With your strong technical expertise, you will have direct involvement in development of future product portfolios and solutions. You strive to create new methods to improve productivity, efficiency and safety with robotic technology. You will work with customers to find winning automation solutions to improve their businesses.
Lead the execution of medium-size projects and ensure that all related activities are performed in accordance with ABB policy, contractual agreements, quality standards, health, safety & environment requirements, financial targets, as well Robotics Project Manager 1 Robotics Project Manager as schedule commitments.
Manage project-related documentation to ensure effective version control, customer document transmissions, according to contractual agreements and the effective status tracking for all project documents, claims information and lessons learned from the project.
Leads the project team allocated to the project, defining main guidelines, allocating project tasks, and motivating and monitoring internal and external resources to accomplish all tasks and milestones. Provides performance feedback regarding allocated resources working on projects.
Planning and scheduling
Defines, jointly with line manager, all project plan documents, including scope and financial plans, schedule and risk management plans.
Project execution and control
Ensures that the project follows execution best practices and ABB policies. Effectively monitors and controls project progress and efficient resource utilization. Monitors and controls project financials, overseeing project invoicing status, cost, expenses and cash flow. Identifies, qualifies, quantifies and manages project risks, and ensures that all opportunities are identified and pursued. Captures, analyses and shares lessons learned throughout the project. Ensures that the project is formally closed out, as contractually agreed. Drives the formal acceptance of the project, contract close-out and its acknowledgement by the customer.
Contract, claims and procurement management
Ensures that the project consistently applies contract and claims management, in accordance with ABB policies and contractual agreements. Coordinates with Supply Chain Management, and successfully procures required services, Desirable: materials and equipment for the project from external and Engineering background internal suppliers. Support Supply Chain Management in supplier negotiations, claims and project changes.
Acts as key contact for the customer and an escalation point for project issues. Builds and maintains strong relationships with internal and external stakeholders and effectively communicates with all stakeholders.
Health, safety and environment (HSE)
The ABB Group of companies Ensures the project follows and complies with company health, safety, and environmental policies.
Proposal and document management: Manages project proposals and related documentation to
ensure proper version control in the document management system. Ensures project documentation is compliant with company policy, including format, receipt, registration, number, filing, recovery and the issue of documents.
Challenges you will face
- Deliver all project related contractual commitments in full, on time, within budget every time.
- Adhere to ensure compliance of all ABB policies, quality standards and HSE requirements.
- Motivate and inspire the project team.
- Main point of contact for customers during project execution
- Manages project team of ABB and sub-contractor personnel
- Liaises with Sales for project takeover and Service organization for project handover
- Reports to PG Manager
- Experienced project manager with 5 – 10 years of track record of leading complex technical/engineering projects ideally within Automation / Robotics. A Robotics Certification is also required.
- Strong facilitator, negotiator and motivator
- Self-reliant and able to make decisions under pressure
- Excellent verbal and written communication skills
- Presentable and able to interface with customers at all levels
- Creative thinker and problem solver
- Safe and ethical leadership attitude
- Engineering background
- Recognised PM certification
- Good knowledge of PM & planning tools
Robotics universe is very wide, with a lot of specialization of the companies competing in this market so that they shine in one specific area. The Robotics universe is the following:
Robotics market is very dynamic. In the last years, Google has purchased around 10 robotic companies:
A movement that is generated with a person putting on a robotic (e.g. exoskeleton) that is generated through the user, not through the robot.
A kind of motor that creates movement inside a robot.
Basically a mathematical formula which is used inside a computer programme to dictate the way a robot behaves.
In a position to function without direct human input.
Brain-Computer Interface (BCI)
A means to enable a robotic to understand its driver wants without one getting to maneuver but by calculating brain activity. This can be accomplished by surgically implanting something within the central nervous system (invasive: e.g. to permit a prosthetic arm to become controlled through the brain) or by putting electrodes onto the skin to get signals (non-invasive: e.g. putting on a cap to manage a video game).
A compliant robot is in some way “soft” and for that reason able to passively adjusting to exterior disturbances (e.g. an unforeseen obstacle during locomotion) and also to securely communicate with humans.
A means of robots and humans getting together with one another but taking position, velocity and acceleration into consideration – inside the NCCR impedance control is especially helpful when building robots for physiotherapists as which means that someone constitutes a movement with no robot stopping them however, if the patient stumbles the robot will catch them because the velocity increases dramatically prompting action in the robot.
Inertial Measurement Unit (IMU)
A tool composed of accelerometers and gyroscopes generally accustomed to measure accelerations and angular rate (quantity of spin) on the robot.
An formula employed for navigation and route planning in robots. Kalman filters vary from other ways of control because they update with time.
Model Predictive Control (MPC)
A kind of model (mathematical equation) that is representative of conduct of the robot inside a system with lots of obstacles which can be shifting position. MPCs predict alterations in conduct or perhaps a robot when an unpredicted input (e.g. someone crossing the road of the robot) occurs.
A tool worn outdoors your body (e.g. exoskeleton) to assist anyone to move once they have forfeit or reduced mobility e.g. after spinal-cord injuries or stroke. Orthoses are frequently utilized in therapy to assist patients to rebuild muscle function.
A movement from the wearable robot (e.g. exoskeleton) that is generated through the robot, not by the pack leader putting on it.
Prosthesis: Worn by somebody by having an amputation to exchange the appearance and/or purpose of the missing limb.
A sensor is definitely an electro-mechanical device that translates stimuli towards the robot right into a significant information the robot can process. For instance a camera may be the artificial same as eye. Many sensors are produce poor images, so a robotic may be unable to see what is before it, just an overview of something which it is aware of this must avoid when moving.
The way a robot knows what sort of atmosphere it’s in at a moment, e.g. if your robot is walking an uneven surface, it has to estimate where it ought to put its feet to avoid it from falling over.
Basically an approach to achieving a preferred pressure/torque by manipulating the movements of the actuator.
A flying robot that utilizes four teams of propellors to lift its self off the floor, similar to a helicopter.
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