Is the Gambling Market Ready for Robotics

Robotics Technology

The gambling market seems geared up for the robotic technology

The Tokyo Olympics in 2020 generated massive hype and it was a real shame it got canceled. One of the reasons why everyone was excited is the robots that were heavily advertised. Due to the number of futuristic sci-fi movies where machines are featured, it’s understandable that people are pretty hyped about the possibility of having artificial helpers. Today we are closer than ever to make those scenarios into reality, and we will focus on the gambling market. More precisely, we will discuss if casinos are ready to implement robotics and provide superior entertainment.

Robot Workers

The reason why we are so close to the setting presented in futuristic movies is that we already rely on robots for a lot of things. AI-driven machines are already used to aid production and packing, and these inventions are here to stay. Of course, there is still a long way to go when it comes to creating a human-like robot, but that can also look a bit scary to many, so it’s not too bad that these are not still a thing. Therefore, it’s perfectly normal for casinos that want to work 24/7 to get robot workers that can perform certain tasks.

Is This a Good Idea Though?

Truth be told, people don’t exactly go to a casino to see robots, they go to play games, and really enjoy the atmosphere these luxurious establishments can provide. However, if you were to visit a no-wagering casino in order to try out different games without any stakes, you will see something interesting. A lot of these sites offer games with live dealers, and in most cases, that dealer is an attractive female. In other words, players aren’t too eager to have a robot as a dealer, at least when online gambling is concerned.

It Can Become a New Trend

Even if we assume that one of the appeals is an attractive dealer this does not mean it is a bad idea or that it will flop. If we think about it robots are becoming a new trend and as far as land-based casinos go those are likely to be an attraction. Taking into consideration that robots are expensive and that it would definitely make a gambling institution more unique, this could be a killer move marketing-wise. So, for anyone who is working as a casino analyst and trying to figure out potential new trends, this would be a great topic for analysis. It’s safe to say that it would be a top-notch attraction until it catches on and becomes a common occurrence.

Advantages of Robot Dealers

From a business perspective casino owners are likely to consider this option because it’s cheaper than paying a salary to a live dealer. Also, a machine relies on cameras and this could allow them to monitor player behavior at greater efficiency and suppress cheating. Lastly, it could simply be a new attraction as stated. Unfortunately other than that, there aren’t any upsides to it.

Disadvantages

The obvious disadvantage is that players are not interacting with human beings, and machines are not receptive to human emotion and behavior. Also, a dealer can be more reactive and more charming than a robot which has a massive impact on an overall player experience. Meaning, it’s better to play with someone with whom you can make a connection, and who can provide words of encouragement when needed. An advanced robot might be able to do all of these things but the current technology can not create an authentic dealer replica.

Conclusion

To sum up, robots are awesome and intriguing, on top of that they can be quite useful for helping out with manual work. However, if we talk about machines who can replace the dealer they leave much to be desired. This is a profession and it takes a specific type of personality and skill to be good at it. This is why it’s too soon for robotics to enter the world of casinos.

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How is the Power Sector Keeping Up with Robotics Innovations in 2021?

Robotics innovations

Analytics Insight explores how the power sector is utilizing Robotics innovations in 2021

It is a well-known fact that the power sector is one of the most diversified sectors in the world. It is on the verge of a massive challenge or change in the nearby future. It all depends on how the power sector companies decide on the area of operations, protection of the environment, and many more other factors. The power sector needs to focus on environmental protection as well as updated cutting-edge technologies to modify traditional business policies. There are some international power sector trends that are going on amidst the COVID-19 pandemic such as a massive drop in electricity usage in industrial sectors, faster adoption of solar panels, flexibility for electricity security, and so on. These can only be achieved successfully when the power sector is keeping up with new Robotics innovations in the 21st century. Robotics has started helping the power sector to be more efficient and effective with its smart applications. Let’s explore how the power sector is utilizing Robotics innovations just like the other global sectors.

The power sector has started utilizing different kinds of robots and drones for efficient risk management, inspections of dangerous areas, covering time-consuming work for human employees, and maintaining operations as well as risky assets. Robotics is also used in transmission and distribution, wind, nuclear, solar, hydropower along fossil fuels. Robotics and Artificial Intelligence are providing sufficient assistance in the inspection of dangerous assets, automated maintenance as well as managing nuclear assets.

It is expected that Robotics will help in key installation, setup, and automated cleaning of offshore wind and solar panels with sailing robots and crawling robots in isolated as well as inaccessible areas. There are multiple Robotics companies focused on inventing robots for the power sector such as UCL Robotics, R4 Robotics, and so on. MIR Innovation is also designing robots for in-depth inspection of high-voltage power lines and energized transmission lines. The Falcon underwater vehicle is helping the hydropower sector as one of the recent Robotics applications. The power sector across the world is using robotic vehicles in evaluating the integrity of dam walls, water inlets, dam safety along the depth of sentiments. Advanced cameras with Artificial Intelligence algorithms are capturing 2D stable images through self-optimizing video enhancement and position location system. Robots can also protect human employees from the harmful exposure of radiation in nuclear power plants in a safe and cost-effective manner.

There are multiple Robotics vehicles that the global power sector has already started using for efficient service to respective countries:

Hitachi Nuclear developed a self-propelled and articulated robot known as the Surveyor to inspect a long length of pipe in a South Texas nuclear power plant

Toshiba decontamination crawler robot was used in the Fukushima nuclear power plant

TELEMAN 44, TELEMAN 48, and TELEMAN 50 are kinds of the Messina robot to transport bulky and heavy loads in hostile situations

MIT researchers developed a robot prototype to enhance the security of nuclear power plants

Mitsubishi developed a radiation-resistant robot known as MESITeR (Maintenance Equipment Integrated System of Telecontrol Robot) with sophisticated tools

Thus, it can be said that the implementation of Robotics in the power sector can provide assistance with large datasets in automating duties without any human intervention such as mapping, inspection, maintenance as well as repair assets or towers in highly-risky areas for human employees. Leveraging Artificial Intelligence and Robotics can have a critical impact on clean and cheap energy for future generations. The power sector can have the potential to have a promising future after keeping up with the Robotics innovations.

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The Robotics Revolution is Changing Business Landscape

Robotics

In the first half of the last century, industrial robots such as the hulking one-armed Goliaths dominated the robotics space. Even though they were highly disruptive and served many human purposes, industrial robots were not sexy. Opening the door to the second half of the 20th century, attractive humanoid robots made their debut. Today, more and more robots are cropping up in offices, hospitals, and schools, and especially in labour intense workplaces like warehouses, fulfilment centres, and small manufacturing centres. They are also jumping out of the confined spaces into roads and flying aboard.

In the modern world, robots are becoming more powerful and faster in computing, process command, and applications, which are powered by artificial intelligence and machine learning. When humans think about robotics, two extreme concepts pop up in their mind. One is plain machinery or humanoid automation that helps humankind in many ways in their daily routine. Unfortunately, the other one is quite a nightmarish prediction. People anticipate that if the upsurge in robotics and automation continues, then very soon, there will be an apocalypse where humans become slaves to machines. They also fear that robot domination in the workplace will occupy human jobs, causing a huge unemployment crisis. Science fiction movies often envision autonomous robots with the full capabilities of humans, such as navigation of complex environments, dexterous manipulation of physical objects, and learning from experience and instruction. The reality is that human perception and decision-making remains beyond the level of automation through computation and engineering. However, even though this could be possible in the far future, today, robotics is definitely helping humans. As intelligent machines begin their march on labour and become more sophisticated and specialized than first-generation cousins like Roomba or Siri, human-robot collaboration will unravel a new world of automation.

Starting from doing home chores and delivering medical supplies to befriending children and assisting the elderly, robots are taking up all the labour-intense jobs and making space for people to use their intellect. They are often commanded to perform jobs that are mostly boring, mostly dangerous, and sometimes, even dirty. Robots are designed to do tasks that are too complex for people. Many industries including retail, food, and healthcare, that were on the brink of collapsing with fewer human hands to help during the Covid-19 period, adopted robotics for a more resilient and automatic outcome. A report indicates that the robotics market will be valued at US$73 billion by 2025 and the current pandemic has accelerated robotics adoption greatly.

Even though robots are intelligent than humans because of their computational power and memory, researchers are the ones who blew life into the assembled metal. Since humans brought them to action, they also believe that they’ll be the end of the robots in case it gets uncontrollable. At a time when it is critical for humankind to adopt technology, many robotic companies are working on a variety of innovative products including autonomous vehicles, mobile robots, toy robots, and software feed robots with common sense and make them easier to use. The world is evolving at a faster pace where different robotic companies have achieved much more in the past two decades. Plenty of them have unleashed a new feat where their range of robots has already started working in diverse sectors.

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Suction Cups in Robotics: Introducing Wall-Climbing Robots

Robotics

Analytics Insight explains how suction cups in Robotics have introduced wall-climbing robots

Robotics is one of the major disruptive technologies helping multiple industries and organizations to boost productivity efficiently and effectively with moving, gripping, cleaning, and lifting objects. The world has already seen the development of multiple types of robots ranging from big industrial ones to micro-robots for assistance in the manufacturing, automotive as well as healthcare sectors. Recently, scientists and Robotics engineers have discovered that suction cups can be used in Robotics and their mission was also successful. Let’s explore how suction cups in Robotics introduced wall-climbing robots into the world.

It has been observed that multiple robots are assisting human employees in some horizontal areas such as a body, object, water, floor, etc. But there are vertical failures when the robots are climbing high walls of tanks, dams, or boilers. Researchers have infused magnets into the robots for climbing walls made of certain metals. But the robots fail to climb walls that are made of stainless steel, aluminum, glass, and so on. Yet, multiple industries use these materials to build tanks and boilers with high vertical walls. Thus, human employees tend to risk their lives for manually cleaning these walls regularly.

That being said, researchers and scientists have introduced suction cups in Robotics for building wall-climbing robots to protect these human employees from a hazardous environment and occupational injuries. These modern robots can adhere to a surface through the functionalities of suction cups. Implementing suction cups in Robotics is helping robots to reach impossible places efficiently and effectively. Suction cups do not require a vacuum pump or reducing weights and power consumption of robots for specific purposes. Multiple companies are filing for patents in implementing suction cups in robots— an actuator can depress the suction cups in a direction of a vertical surface where the outside of the cup is made of a friction coefficient low material that enables the cup to slide. Industries can utilize these wall-climbing robots to detect small stress cracks in the boilers or tanks.

A New Zealand-based Robotics company known as Invert Robotics is developing wall-climbing robots with the help of US$8.8 million financings from an agtech firm Finistere and Yamaha Motor Ventures & Laboratory Silicon Valley. Some researchers and scientists at Zhejiang University, China have developed wall-climbing robots to stand on any kind of surface through a vacuum suction unit. Gecko Robotics is utilizing robots to inspect and detect any thickness, cracks, or other degradations inside tanks, boilers, pipes, and so on with magnetic adhesion. Simon Fraser University in British Columbia utilizes Van der Waals forces for robots to climb walls efficiently with a dry adhesive and a silicon-like polymer that enable adhesion without any chemical or energy.

Researchers Xin Li and Kaige Shi from Zhejiang University have utilized water and centrifugal forces to overcome the surface restrictions with a rotating ring of water. It usually fails to be on the surface due to the flow of air from the atmosphere into a vacuum zone. They have built confined seals to slightly deform and close the gaps between the sealing ring and the texture of the surface. This creates smaller gaps for the flow resistance and gaps in the seals become bigger. The suction cups are dependent on a rotating stream of water to maintain a seal over different surfaces. This will prevent vacuum leakages remove pressure differences in the vacuum zone. The scientists have named this method the Zero Pressure Difference or ZPD. These researchers have tested the new suction cups in robots through three machines— spider-man style robot, a wall-climbing robot with ZPD as well as a robotic arm. A whole lot of water was pushed out of these machines when the cups were moving. Each time wall-climbing robots move forward on a wall sufficient water creates a constant flowing seal for suction cups to stick to.

Yes, introducing wall-climbing robots through the implementation of suction cups has revolutionized the way industries clean their boilers, tanks, pipes, and high-walled objects. It has helped Robotics to gain a new perspective on the functionalities of robots.

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India’s top 10 Cheapest Humanoid Robots are Competing in AI Race

Humanoid Robots

India’s top 10 cheapest Humanoid Robots are competing with each other in AI race

For a long time, Humanoid Robots have been gaining popularity in India. Even though India is still catching up to other countries in terms of artificial intelligence and robotics, Indian companies and the government are working hard to incorporate new-age technology. Humanoid Robots are often built for a specific purpose like healthcare, education, and Humanoid Robots based on applications.

According to IFR data, robot sales in India grew by 27% to a record high of 2,627 units, nearly identical to Thailand. According to another poll, India is ranked third in the world for robotic automation implementation. Let’s have a look at a few notable Humanoid Robots built and constructed in India.

1. Manav: The A-SET Training and Research Institute in Delhi has built Manav, India’s first 3D Humanoid Robot. This two-kilogram, two-foot humanoid was created primarily for scientific purposes. It features integrated visual and sound processing capabilities that allow it to walk, talk, and dance in response to human directions. Manav can also do push-ups, headstands, and football.

2. Robocop- World’s first police officer robot: Artificial intelligence and machine learning start-up H-Bots Robotics, located in Hyderabad, has created a police robot, Robocop, to assist with law enforcement and traffic control. Cameras and a variety of sensors, including ultrasonic, proximity, and temperature sensors, are included in the life-size robot. The robot is meant to defend and secure offices, malls, airports, signal stations, and other public locations.

3. Mitra: Mitra is a five-foot Humanoid Robot capable of intelligent human interaction. It was created by Invento Robotics, a Bengaluru-based robotics Mitra is a fiberglass robot that uses contextual aid, autonomous navigation, facial recognition, and voice to greet consumers. It also includes a touchscreen on its chest that may be used to engage in situations when speaking isn’t possible. It can run for eight hours on a single battery. It can also communicate in a variety of languages.

4. KEMPA: Sirena Technologies, a Bengali-based start-up, designed KEMPA to fulfill the demands of the Kempegowda International Airport. In English and Kannada, this tiny bot helper may respond to passenger inquiries. KEMPA is set up to offer flight and check-in information, as well as other flight-related information.

5. RADA: Vistara, a joint venture between Tata Sons and Singapore Airlines, developed RADA, a one-of-a-kind robot. It was created to automate routine processes and improve the client experience before boarding its aircraft. RADA is now operational at Delhi’s Indira Gandhi International Airport Terminal 3. RADA is a four-wheeled robot that can spin 360 degrees and includes three built-in cognitive cameras.

6. INDRO: Indro, India’s tallest Humanoid Robot, was built by researcher Santosh Vasudeo Hulawale. It’s a self-contained robot built in a home with widely accessible materials such as aluminum, wood, cardboard, and plastics. The autonomous Humanoid Robot is not entirely self-contained and may be controlled both automatically and manually. It has 31 engines and can mimic human behavior. It can also lift things weighing up to 2 kilos with its hands.

7. IRA: IRA 2.0 is an interactive robotic assistant developed by HDFC Bank to improve the user experience for branch visitors. It may engage with customers, answer bank-related questions and frequently asked questions (FAQs), and lead them through the branch using voice-based navigation. The GPS-enabled indoor humanoid features a voice recognition module that can be trained to comprehend what customers say and can move around the branch using ultrasonic sensors, as well as a facial detection system for customer recognition.

8. DRDO’s Daksh: This robot, which is built in India, is primarily meant to identify and retrieve IEDs. The robot was developed by the Defense Research and Development Organization (DRDO) and was integrated into the Indian Army in 2011. Daksh can detect a dangerous object with its X-ray vision and disperse it with a water jet. Daksh is capable of scaling stairwells and navigating cross-country terrains, as well as dragging a suspect car away from a congested location. It can also operate from a distance of 2.5 kilometers and, thanks to its high-caliber shotgun, handle vehicle bombs.

9. Prithvi: Prithvi, a robot created by a group of Delhi adolescents, is designed to safeguard healthcare personnel by limiting their interaction with COVID-19 patients. The robot may be connected to a smart tablet to enable video conferencing between physicians and patients. The team also intends to add a temperature gun to the robot to reduce patient interaction even further.

10. RoboDiCaprio: Rajeev Karwal’s Milagrow HumanTech has launched four new Humanoid Robots. RoboDiCaprio is one of them. RoboDiCaprio, a guest relations robot, can help with business advice, greetings, bookings, advertising, and patrols. The humanoid claims to be able to recognize faces with 98 percent accuracy and scan a distance of 25 meters with a 2 mm precision.

In comparison to South Korea, Japan, the United States, and China, India’s Robotics sector is still minor. Many of the essential ingredients for developing a Robotics sector are already in place in India, including established businesses, university research, government backing and an increasingly enterprising business environment.

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Facebook Droidlet: One-Stop Destination for Robotics with NLP

Facebook Droidlet

Facebook has recently launched an artificial intelligence open-sourced Droidlet— one-stop destination for developing robots with robotics, NLP, and computer vision. This platform is created to expand the functionalities of robots because much work is pending to achieve full potential through the implementations of robotics, artificial intelligence, and NLP. It is an open-source project designed to quickly prototype artificial intelligence and machine learning algorithms in a seamless process.

Droidlet is created for building embodied agents with smart functionalities such as recognizing, reacting, or navigating the barriers and paths in front of robots. It helps in simplifying and integrating different kinds of AI and machine learning algorithms. Developers can use Droidlet to test out multiple computer vision algorithms with robots replacing one natural language with another through NLP. This platform helps developers and researchers to build agents for completing complicated tasks with real-life problems. Droidlet is also a developed set of modules and nodes that include primitives for visual perception and language building. These available components— heuristic as well as learned— will provide programming experience to build robots through the integration of Robotics.

Facebook Droidlet consists of a memory system to act as a store of real-time data from different modules, a complete set of perceptual modules to process real-time data from the real-life environment, a set of lower-level tasks to affect changes in the environment of robots, and a controller to execute orders with the memory system. It also offers battery-included systems to help in perceiving the environment through pre-trained object detection as well as pose estimation models. Droidlet is also known for supporting researchers to develop embodied agents without friction in integrating Artificial Intelligence and machine learning models.

It is anticipated that Facebook Droidlet will help researchers and developers to collaborate and build more intelligent robots faster than the usual time limit. Here, they can utilize the same intelligent agent with different robotics hardware by swapping out tasks and perceptual models according to physical architecture, data annotation, and sensor requirements. It also consists of an interactive dashboard, debugging tools, and data visualization tools to be an operational interface for developing agents without any human error.

Droidlet is becoming popular due to its seamless connection with artificial intelligence and robotics. Researchers can develop robots by using sensors and can update machine learning algorithms, as per the current situation. Let’s hope for Facebook Droidlet to work successfully in the nearby future so that developers can build more smart robots, adapted to the real-life ambiance.

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Top Online Masters in Robotics Programs for Robotic Enthusiasts

Online Masters in Robotics

Online Masters in Robotics to be in demand soon

Robotics is one of the fast-growing areas of technology that is opening doors to a wide range of industries such as security, automation, healthcare, consumer products, customized manufacturing, and interactive entertainment. According to the latest research of the U.S. The Bureau of Labor Statistics, Robotics Engineering is expected to grow 4% by 2028. The area of Robotics is likely to be in demand due to the emergence of new technologies. Since the future is of robots the demand and interest among robotics enthusiasts is also growing day by day. Here are the top online masters in robotics programs for robotic lovers.

Also, read

  • TOP ONLINE MASTERS COURSES FOR ARTIFICIAL INTELLIGENCE IN 2021
  • TOP ROBOTICS UNIVERSITY PROGRAMS IN 2021
  • TOP 10 WOMEN IN THE ROBOTICS INDUSTRY

Georgia Institute of Technology

Course: Master of Science in Computer Science, Specialization in Computational Perception and Robotics.

Fee: US $14,064

George Institute of Technology is based in Atlanta, Georgia. It deals with subjects such as Computability, Algorithms, Complexity, Artificial Intelligence, Machine Learning, Computer vision, Autonomous Robotics, Human-Robot Interaction, Robot Intelligence Planning, and many more. The college has a graduation rate of about 90%.

Worcester Polytechnic Institute

Course: Online Robotics Engineering Master’s Degree

Fee: US $ 28,188

The Worcester Polytechnic Institute is based in Worcester, Massachusetts. The institute offers online masters in robotics for students with strong backgrounds in engineering or computer science disciplines. It consists of 10courses with 30 credit hours. The structure of course includes foundations of robotics, engineering projects, capstone projects dealing with topics like robot dynamics, motion planning, artificial intelligence for autonomous vehicles, sensor fusion, deep reinforcement learning, and capstone project experiences. The graduation rate of the institute is about 89%.

Stevens Institute of Technology

Course: Robotics Master’s program

Fee: US $ 36,680

Stevens Institute of technology is located in Hoboken, New Jersey. The program covers wide relevant topics including physical and mathematical modeling, analysis, and design principles that are required to understand the geometry, kinematics, and dynamics of robotic systems. It also covers sensors, algorithms, computing, and energy resources that are needed to deal with real-life situations. The institute has a graduation rate of nearly 85%.

Columbia University

Course: Master’s Degree-Vision, Graphics, Interaction, and Robotics

Fee: US $ 47,600

Columbia University is located in New York. It is a fully online course that is intended for students who aspire to get into the robotic field. The course includes subjects like computer graphics, animation, user interface design, computer vision, robotics, visual interfaces to computers, machine learning, and biometrics. The university has a graduation rate of about 95%.

University of Southern California

Course: MS in Computer Science- Intelligent Robotics

Fee: US $ 46,272

The University of Southern California is located in Los Angeles, California. In this course, students get to learn the fundamentals of robotics, machine learning, and directed research. It also equips students with subjects like artificial intelligence, computer vision, coordinated mobile robotics, and wireless networking. The university has a graduation rate of about 92%.

Brandeis University

Course: Master of Science in Robotic Software Engineering

Fee: US $ 51,940

Brandeis University is located in Waltham, Massachusetts. The course can develop and hone advanced skills in robotic software engineering technologies. It provides hands-on experience with innovative robotics projects. Students can complete their course within 18months. It is a 30 credit program with a lot of practical learning. The graduation rate is about 87%.

Colorado State University

Course: Masters in Artificial Intelligence and Robotics

Fee: US $ 9,000

Colorado State University is located in Colorado. It is a 15 hours credit program consisting of subjects like artificial intelligence, computer vision, machine learning, robotic theory and fundamentals of information retrieval, and web searching.

Drexel University

Course: MS in Robotics and Autonomy

Fee: US $ 35,181

Drexel University is located in Philadelphia, Pennsylvania. The course educates professionals who want to lead and conduct research, development, and design in robotic systems and technologies. It consists of a 45-credit program. It is built on four foundational concepts in robotics that are cognition, control, and action. The university has a graduation rate of 69%.

Sofia University

Course: Master of Science in Computer Science

Fee: US $ 8,268

Sofia University is located in Palo Alto, California. The program provides a firm foundation in core computer science principles cutting-edge computer science specializations. It also provides a work-integrated learning-based internship program for a practical basis. It focuses on innovative, transpersonal, and transformative learning in the classroom and at the workplace to ensure that students are well equipped to face real-life challenges.

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Top 10 Start-up Companies Developing Robotic Prosthetic Arms

Robotic Prosthetic Arms

Here are top start-ups manufacturing robotic prosthetic arms and exoskeletons

The robotic prosthetic arms are a kind of robotic device that is capable of restoring the normal functions of the body part that is damaged either through trauma, disease, or by conditions at birth. Prosthetics are generally controlled by neural activity in the brain to restore motor function to where it feels natural.

The robotic prosthetic arms are of various types for diverse goals in mind. But these goals depend on the site of the amputation as well as the need of the patient. A prosthetic arm works with an array of electrodes that picks up small electrical signals from the brain when the patient thinks about moving their arm and gives direction to the robotic arm to move or adjust accordingly.

According to the latest research, the robotics market is likely to reach US$ 42.29 billion in terms of robot machines and US $ 138.03 billion in terms of robot systems by 2026 respectively. With these predictions, the demand for robotics and robotic prosthetic arms developing companies is gaining momentum. Here are the top 10 start-up companies developing robotic prosthetic arms.

Sarcos Robotics

Sarcos Robotics is the world’s pioneer in the design, development, and deployment of highly mobile robots that can combine human intelligence with robotic strength. It is headquartered in the USA. It is a robotics company that develops wearable and teleoperated industrial robotics that is capable of improving the safety and productivity of its users. The company enables the workforce of the future with agile robotic systems that can prevent injuries, save lives and also create new possibilities. The funding of the company is about the US $96.1 million.

Ekso Bionics

Ekso Bionics is a pioneer company in the field of robotic exoskeletons, ranging from wearable robots to augment human strength, endurance, and mobility. It is headed in the USA. The company develops wearable exoskeletons for civilian, military, and medical uses. It has funding of about US $70.8 million.

ReWalk Robotics

ReWalk Robotics is a medical device company that creates and designs powered solutions that provide gait training and mobility for lower limb disabilities. It is headquartered in the USA. The system is powered by a backpack battery and is controlled by a simple wrist-mounted remote that detects and enhances the user’s movements. The funding of the company is nearly up to the US $ 57.4 million.

Synchron

Synchron is a brain-computer interface platform company that is leading the field of implantable neural interface technology, heading the development of endovascular minimally invasive neuroprostheses to treat paralysis. The company is located in Australia. The company manufactures a medical device that can deliver the brain with a catheter to record neuron signals to control an advanced prosthetic. It has funding of about US $ 50 million.

Xilloc Medical

Xilloc Medical is a company headquartered in the Netherlands. It designs and manufactures patient-specific medical devices, anatomical models, and surgical guides for bone reconstruction. The unique to the company is delivering its perfect fix, unique fixation, and suture system. The company aims to provide patient-specific implants to rebuild parts of the human skeleton.

Mobius Bionics

Mobius Bionics is a medical device company aimed at bringing advanced prosthetic technologies into the market. It has designed a LUKE arm for upper-limb amputees. The company is fuelled by years of research-driven product development, bringing helpful products catering to the needs of the people and the market. The company is headquartered in the USA.

Marsi Bionics

Marsi Bionics develops and sells self-adaptive gait exoskeletons and robotic orthoses for clinical rehabilitation and mobility assistance. It is recognized as a high-impact SME developing innovative therapies to cater to the healthcare sector. The company is headquartered in Spain. Marsi Bionics works towards the goal of providing the ability to walk for the people bound on wheelchairs.

Cyberdyne

Cyberdyne Inc is a firm that is established to materialize the idea to use Robot Suit HAL in a way that benefits mankind in the areas of medicine, caregiving, welfare, and many more. The company is headquartered in Japan.

SuitX

SuitX is a VC, funded by industry and a government company that brings advanced accessible exoskeletons to industrial and medical markets. It is headquartered in the USA.

Open Bionics

Open Bionics is a company headquartered in the UK, developing affordable and open-source 3D printed bionic hands for amputees.

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A Career in Robotics: Scope, Qualifications, Best Institutes, Jobs

Career in Robotics

A career in Robotics: Scope, Qualifications, Best Institutes, Required Skills, Top Recruiters

Robotics is a field of engineering concerned with the design and manufacture of robots. Robots are pre-programmed machines that can do activities independently or semi-autonomously for the company’s benefit. It entails the design, construction, and programming of psychological robots to solve issues in various operational and industrial sectors. Robotics is a multidisciplinary technical field of artificial intelligence with several chances to work for some of the finest companies in India and internationally. The future of robotics engineering offers enormous potential for its growing experts, from production units to experimental robotics for the medical, military, and automotive industries.

How to Pursue a Career in Robotics?

• Path 1:

Stream: Clear the Science with Mathematics stream in Class XII.

Graduation: Study Robotics/Mechatronics Engineering at the B. Tech/B. E level.

Post-Graduation: Obtain a master’s degree in a particular field of robotics.

After Postgraduation: In the field of specialty, a Ph.D. is required.

• Path 2:

Stream: Clear the Science with Mathematics stream in Class XII.

Graduation: Obtain a B. Tech/B. E in Electronics, Mechanical, Electrical, Computer Science and Engineering, Instrumentation & Control Engineering, or Electrical and Electronics Engineering.

Post-Graduation: Obtain a master’s degree in robotics, Mechatronics, or another specialized subject.

After Postgraduation: In the field of specialty, a Ph.D. is required.

Best Institutes for Pursuing Any Degree in Robotics:

In India:

1. College: Indian Institute of Technology

Location: Kanpur, Delhi, Kharagpur, Bombay, Guwahati, and many more places

Website: http://www.iitd.ac.in/

2. College: National Institute of Technology

Location: Durgapur, Silchar, Rourkela, Kolkata, Agartala, and many more places

Website: http://www.nitc.ac.in/

3. College: Birla Institute of Technology

Location: Pilani, Mesra

Website: http://www.bits-pilani.ac.in/

4. College: Vellore Institute of Technology

Location: Chennai

Website: http://www.vit.ac.in/

5. College: Indian Institute of Information Technology, Allahabad

Location: Allahabad

Website: https://www.iiita.ac.in/academics/programmes/

In the World:

6. University: Massachusetts Institute of Technology

Location: Massachusetts, US

Website: http://web.mit.edu/

7. University: Carnegie Mellon University

Location: Pittsburgh, Pennsylvania

Website: http://ri.cmu.edu/education/academic-programs/

8. University: University of Pennsylvania

Location: Pennsylvania

Website: http://www.seas.upenn.edu/prospective-students/graduate/programs/masters/robotics.php

9. University: University College London

Location: London

Website: https://www.ucl.ac.uk/prospective-students/graduate/taught/degrees/robotics-computation-msc

10. University: University of Colorado – Boulder

Location: Colorado, United States

Website: http://www.colorado.edu/mechanical/research/focus-areas/robotics-and-systems-design

Eligibility Criteria:

Most colleges need a least 50 percent aggregate in Class XII, with some requiring a minimum of 60 percent. Some colleges and universities have an age limit as well.

Before providing admission to candidates, certain schools and universities may administer a common entrance test at both the undergraduate (UG) and graduate (PG) levels. IIT JEE, SRMJEEE (PG), GATE, TANCET, BITSAT, and other entrance exams are examples.

Academic Programs in Robotics Engineering:

Candidates must choose one of the following specializations as their primary topic at the masters and doctorate levels: micro-robotics, digital electronics, and microprocessors, bio-cybernetics, automation, signal processing, robot manipulators, computer integrated manufacturing systems, robot motion planning, Artificial Intelligence, air traffic management systems, computational geometry.

Robotic Engineer Job Descriptions:

After graduation, a Robotic Engineer can pursue one of the following career paths. Robotics test engineers, analysts, robot design engineers, robotics system engineers, senior robotics specialists, robotics technicians, robotics programmers, aerospace robotics engineers, quality assurance technicians, and other positions are available to them.

Description of the Job:

They plan and develop tools, engines, and create/programmed machines and robots as part of their engineering duties.

Develop, coordinate, or supervise all elements of product design manufacturing or operation.

They do significant research into various mechanical and robotic technologies to keep their robot up to date with new developments of artificial intelligence.

They alter the movements of robots and automated devices that are controlled by computers.

Create, test, and assess robot designs.

After construction, install and test robots for faults.

Top Recruiters and Placements:

Robotics is a challenging subject of engineering that may also be beneficial in terms of career opportunities. A Robotics Engineer with a degree from a prestigious university may expect a beginning placement pay of Rs 12-15 LPA. For Robotics Engineers, the typical median placement compensation is Rs 5-6 LPA. Robotic Engineers have a wide range of applications, including space exploration, entertainment, banking, medicine, and healthcare, among others. The following are some of the top Robotic Engineer recruiters: TATA, DRDO, BARC, DiFACTO Robotics and Automation, BHEL, NASA, Tech Mahindra Ltd, Kuka Robotics, ISRO, etc.

In India, robotics is an inter-disciplinary engineering field with several chances to work for some of the finest companies in the country and abroad. The future of robotics engineering offers enormous potential for its growing experts, from production units to experimental robotics for the medical, military, and automotive industries.

The post A Career in Robotics: Scope, Qualifications, Best Institutes, Jobs appeared first on Analytics Insight.

Top Robotics Funding in the Last Three Months

Robotics Funding

Even before we could realize it, robotics has become an important part of our lives. It is very difficult to name an industry that functions without robotics playing its part. Healthcare, banking, hospitality, you name it and you are bound to find robotics. The wide range of applications that this technology caters to is the reason why it receives heavy global funding. Here is the list of top robotics funding in the last three months. Have a look!

Skydio

Skydio is a company known for manufacturing intelligent drone devices with AI technology forming the base. With over a decade of R&D expertise in drone technology and computer vision, this company has surely achieved laurels. Out of the many remarkable innovations, Skydio’s flagship products include Skydio 2 and Skydio X2. The former is an unmanned aerial device optimized for video and controllable via an app whereas the latter is a controller that features a rugged airframe and situational awareness, asset inspection and security patrol for unparalleled navigation and logistics. In addition to this, yet another area where this company deserves a mention is – launching a suite of software for commercial and enterprise customers, its first departure from the consumer drone market where it had been focused prior. As far as the funding is concerned, Skydio has raised $170 million in a Series D funding round led by Andreessen Horowitz’s Growth Fund.

inVia Robotics

This tech-rich firm is known for providing next-generation robotics warehouse automation solutions for e-commerce distribution centers and supply chains. inVia Robotics has raised a total of $59M in funding over 4 rounds with their latest funding raised on Jul 28, 2021, from a Series C round. inVia Robotics is backed by a total of 7 investors with Embark Ventures and Point72 Ventures being the most recent investors.

DoNotPay

DoNotPay is an online robot lawyer that allows anyone to automatically claim asylum in the U.S, U.K, and Canada for free – hence the name. Located in Midvale, Utah, United States, this startup has raised a total of $27.7M in funding over 4 rounds. The latest funding was raised on Aug 1, 2021, from a Series B round and the company is funded by a total of 18 investors. Andreessen Horowitz and Felicis Ventures turn out to be the most recent investors.

CMR Surgical

CMR surgical had already raised $384.8 million in the past and the recent $600 million Series D funding was huge news to grab everyone’s attention. This recent funding was led by SoftBank’s Vision Fund 2 and co-led by Ally Bridge Group. CMR surgical caters to performing minimally invasive keyhole surgery primarily focused on serious conditions like bowel disease or bowel cancer. Yet another point that is totally worth a mention is that this platform has been widely accepted across the globe – to the extent that it has played a significant role in over a thousand surgeries.

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