Top 5 Humanoid Dancing Robots at CES 2017

Dancing robots

The land of robots has swiftly emerged from CES. There were so many robots in Las Vegas that it was difficult to avoid all of them. With each passing CES, robots become increasingly capable. Many of the dancing robots on display at CES 2017 shared a passion for dancing.

Everest 5 Robot by Abilix:

Everest 5 is one of the educational dancing robots that may be programmed by children aged 5 and up. With its completely articulated torso, dexterous hands, and articulated fingers, Everest is extremely expressive. Everest has several applications that help him train himself to do various activities, including a Tai Chi practice in which he stands on one foot. His body features a touch screen, cameras in his eyes, and speakers on both sides of his head. All of this, even though he is just 18 inches tall.

UBTech’s Alexa-Powered Lynx Robot:

Lynx from UBTech Robotics is another comparable dancing robot. It’s Amazon Alexa on steroids, with a 17-inch torso, head, arms, and legs. Lynx has Alexa built-in, allowing you to operate your smart home, play music, and organize your day just by speaking to the robot. Lynx may also identify your face and adjust its behavior accordingly.

Tanscorp UU Robot:

Tanscorp’s UU, a very expressive dancing robot intended to converse, dance, detect things, avoid obstacles, move on wheels, and create facial expressions, was my favorite humanoid robot at CES 2017. Voice and face recognition capabilities, a 3D smart scene map generating system, a clever deep learning engine, a robotic situational awareness system, and smart digital programming make UU extremely sophisticated.

Hoverboard Robot Dancer:

This is a human on a hoverboard dressed as a robot, not a robot. Kudos to him or her; riding a hoverboard is difficult enough, let alone ripping up the dance floor to open CES on a hoverboard.

iPal Robot from AvatarMind:

Finally, AvatarMind’s iPal social robot is on display at CES. iPal, who stands at 3.5 feet tall, can chat, dance, tell tales, and promote physical exercise. It can exchange videos and talk with pals using the tiny tablet on its breast.

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Top Ranked Humanoid Robotic Companies All Should Know About

Humanoid Robotics

10 humanoid robotic companies you may not be aware of

With technology, robotics has also been advancing day by day. And in the present day, humanoid robots are gaining a lot of prominences as they can interact naturally as humans. Many organizations are looking to use humanoid robots to boost their businesses and services. But do you know? There are also many humanoid robotic companies that are developing such robots across the globe. Let us tell you what those companies are, where they are, and what they are doing. Here are the top-ranked 10 humanoid robotic companies that all should know about.

Kindred Systems

Kindred Systems is an America-based company that was founded in 2014. Kindred is one of the humanoid robotic companies that build machines with human-like intelligence to solve real-world problems and also to improve working conditions. This company designs AI-powered, piece-picking robots for eCommerce order fulfillment. Kindred Systems solutions combine AI with advanced robotics to ensure optimum performance over a long period.

Ubtech

Ubtech is a China-based one of humanoid robotic company that was founded in 2008. The company has been successful in developing consumer humanoid robots, business robots. It also developed Jimu robots after breakthroughs made in digital servos which is the core part of humanoid robots.

Shadow Robot Company

Shadow is one of the top humanoid robotic companies that was founded in 1987 and is based in London. The company’s team develops cutting-edge robots components and systems that sell globally, with customers including NASA, ESA, Qualcomm, Carnegie-Mellon and many more universities.

Honda Motor Company

Honda Motor is a humanoid robotic company that is a public multinational conglomerate corporation. It was founded in 1948 and is based in Japan. It is known primarily for manufacturing automobiles, aircraft, motorcycles, and power equipment. This is also one of the humanoid robotic companies.

Google (Alphabet Inc)

Google is an American-based multinational technology company that is an expert in Internet related services and products relating to online advertising technologies, search cloud computing, software and hardware.

Samsung Electronics

Samsung is a South Korea-based company that is a global leader in enterprise mobility and information technology. It was founded in 1938. The company also is one of the humanoid robotic companies that manufacturers robots. Samsung provides enterprise products and services that help customers to realize the promise of digital businesses.

Canonical Group

Canonical Group is a UK-based company founded in 2004. The company is behind the Ubuntu operating systems and is also a leading provider of support services. Canonical is also a humanoid robotic company that uses robots in its support systems.

PSYGIG, Inc

PSYGIG is a SaaS platform that is used for understanding Mobility IoT like humanoid robots and connected cars. This is one of the humanoid robotic companies which can lower engineering costs by reducing the time spent to gather and process data. The company is based in Japan.

Intuitive Robots

Intuitive Robots is a France based company that creates custom applications dedicated to humanoid robots. It is also one of the humanoid robotic companies that design robots that are capable of interacting naturally with people.

Macco Robotics

Macco is a Spain-based humanoid robotic company that was founded in 2013. The company develops creative and user-friendly applications for humanoid robots targeting the leisure market. Macco develops robots for hotels, restaurants, and parks.

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Best Robotics Projects for School Kids to Explore

Robotics

Now, kids can also learn robotics, and here’s how.

Robotics is an interdisciplinary technology that involves various fields such as computer science, mechanical, electronics, and many more. Introducing robotics for kids at an early age will help them to gain a variety of skills like – problem-solving, creativity, communication, critical thinking, programming, etc. Apart from the above-mentioned skills robotics also teaches STEM for kids practically. The traditional way of learning through books will not work for robotics. Robotics promotes a practical way of learning using robotics kits. It requires a kit and innovative way of teaching methodology. This article suggests some of the best ways to introduce robotics for kids along with this it also explains the advantages of teaching robotics for kids. Robotics is an interdisciplinary field that mainly uses computer programming and mechanical concepts to construct, design, and operation of robots. The main aim of robotics is to help and assist humans by using intelligent robots or machines. From coding to science and engineering, robotics acts as a multidisciplinary tool that engages kids with multiple pieces of knowledge along with fun.

Online Robotics Classes

Online robotics classes for kids are the best choice to introduce robotics for kids if your child is busy with his/her school schedule. Since the classes are conducted online you will get the freedom to schedule the classes as per your requirement and your child can learn comfortably from home. Also, it frees some of your time. Most of the robotics classes come along with robotics kits for kids thus it engages the kid at its full potential. For instance, Skyfi Labs offers online robotics classes for kids in live 1-1 sessions. Where kids start by learning the basics of robotics then they start developing robotics projects from scratch. As part of this robotics program, kids will build robots such as Light following robots, radio-controlled robots, line-following robots, gesture-controlled robots, obstacle avoiding robots, and many more. They also learn to program the robots using scratch and Arduino programming language.

DIY Robotics Kit

If you are a parent who promotes “maker culture” then you can buy a DIY robotics kit for your kid and encourage him/her to learn and develop robotics projects. LEGO blocks, Elegoo, Robolink, Nintendo Labo, etc. are some STEM-focused kits that provide limitless possibilities for kids to bring their imagination to life. You can also consider buying a STEM drone kit for your kid that promotes both physical activities and learning at the same time.

Teaching through Online Platforms

Scratch, code.org, code combat, Tynker are some online platforms that teach robotics for kids through interactive animations and games. Using these online platforms your kid can build and simulate a robot without even any hardware components. Not only robotics kids can even learn to develop mobile applications, web applications, websites, etc. with the help of these platforms.

Robotics Clubs and Workshops

Nowadays most schools started inducting robotics clubs as part of their academics. You can enquire about this to your kid’s teacher and join him/her in robotics clubs along with their friends. Or maybe you can check any after-school robotics classes near your home and enroll your kid for a weekend program or summer camp.

Self-Teaching

With the help of YouTube, Instructible, and other DIY sites, you can teach robotics for your kid right from home itself. All you need is an internet connection and some time. This way you can also spend productive time with your kids and family. As you can see there are many ways to introduce robotics to kids. You can choose the best one that suits your kid’s interests and age. If you have any other suggestions, kindly put them in the comments section to help others.

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Robotic Milking: A Process that is Advancing the Dairy Farms

Robotic Milking

Robotic milking is a process that helps dairy farmers to advance their dairy farms with robotic.

Robotic milking is the process of milking dairy animals, particularly dairy cattle, without the need for human labor. Automatic milking is another name for this robotic milking procedure. The automatic milking system (AMS) was created in the late 20th century. Since the early 1990s, it has been commercially accessible. A sort of agricultural robot is at the heart of such systems that allow total automation of the milking process. Computers and specific herd management software are used in most systems. It was also used to keep track of the health of cows.

The milking process is a set of activities dedicated to obtaining milk from an animal (rather than the broader field of dairy animal husbandry). Collection of animals before milking, routing of animals into the parlor, inspection, and cleaning of teats, attachment of milking equipment to teats, and often massaging the back of the udder to relieve any held back to milk, extraction of milk, removal of milking equipment, and routing of animals out of the parlor are some of the sub-tasks. Much of the milking process was automated in the twentieth century to reduce labor costs: many farmers use semi-automatic or automatic cow traffic control (powered gates, etc.), the milking machine (a basic form that was developed in the late nineteenth century) has completely automated milk extraction, and automatic cluster removal is available to remove milking equipment after milking. Cleaning and inspecting teats, as well as attaching milking equipment (milking cups) to teats, were the final manual labor duties in the milking process. Cleaning and attaching milking cups automatically are a difficult operation that necessitates precise teat position recognition and a dexterous mechanical manipulator.

Rather than being milked as part of a group at predetermined milking times, automatic milking allows the cow to choose her own milking time and interval. Because the cow can choose to be milked at any moment within 24 hours, robotic milking necessitates total automation of the milking process. A milking machine, a teat position sensor (typically a laser), a robotic arm for automated teat-cup application and removal, and a gate system for managing cow traffic make up the milking unit. The cows may be permanently kept in a barn and spend the majority of their time in the free-stall area resting or eating. Some robotic milking Systems manufacturers recommend utilizing a selection gate to let just those cows who have been milked to the outer pastures if cows are to be grazed as well.

An automatic milking system has a typical capacity of 50–70 cows per milking unit. A single milking unit handling 60 cows and milking each cow three times per day has a capacity of 7.5 cows per hour. Automatic milking systems usually achieve milking frequencies between 2 and 3 times per day, so a single milking unit handling 60 cows and milking each cow three times per day has a capacity of 7.5 cows per hour. Because a window of several minutes is available for each cow and high-speed operation is not necessary, this low capacity allows for a lower-cost design of the robotic arm and related control system. Since the early 1990s, robotic milking system devices have been commercially accessible and have shown to be rather successful in adopting the voluntary milking technique. The Netherlands has done a lot of research and development. The Netherlands and Denmark have the most automatic milking system-affected farms. In Canada, a mobile version of robotic milking that has been adapted to tie-stall configurations (stanchion barns) is employed. The automatic milking system walks along the center aisle of the barn, approaching cows from behind and milking them in their stalls.

Advantages of Robotic Milking:

Labor is no longer required:

The farmer is freed from the milking process and its accompanying strict schedule, and his time is better spent overseeing the animals, feeding them, and so forth.

Increasing frequency of milking:

Milking can be done up to three times per day, however most people only milk 2.5 times per day. Because less milk is stored on average, this may result in reduced tension on the udder and improved comfort for the cow. Milk output per cow increases with more frequent milking, however much of this increase is made up of water rather than solids.

Consistency of milking:

The milking method is the same for every cow and every visit, and it is unaffected by the fact that the cows are milked by various people. Because the four milking cups are removed separately, an empty quarter does not remain connected while the other three are completing, reducing the risk of harm.

Management of the herd:

The usage of computer control provides for more data collecting options. Such information helps the farmer to enhance herd management by analyzing patterns in the herd, such as the reaction of milk output to feedstuff changes. Individual cow histories may be checked, and alarms can be set to notify the farmer if any odd changes could indicate disease or injury. Information collecting adds value to the automatic milking system, but accurate interpretation and application of that data are heavily reliant on the user’s abilities or the accuracy of computer algorithms used to generate attendance reports.

Disadvantages of robotic milking:

Higher Price:

In 2019, the worldwide milking robots market was worth US$1562.6 million. The market will be worth US$3126.9 million by the end of 2027, with a CAGR of 10.3% from 2021 to 2027.

Increasing Electricity Cost:

To run the robots, electricity is much needed.

Complexity has increased:

While technical development necessitates increased equipment complexity, the additional complexity of the automatic milking system’s milking unit over conventional systems increases dependency on manufacturer maintenance services, potentially raising operational costs.

Milk of a lower quality:

The quantity of anaerobic spores increases, the freezing point increases, and the incidence of milk quality failure nearly double with automatic milking, which accurately represents the quality of milk caused by automatic milking. Even though the automatic milking machine cleans the cow’s teat and tests the pre-squeezed milk, there is still a problem with contaminated milk not being transmitted, as well as the equipment itself being dirty and the milk not being handled correctly.

Contact between the farmer and the herd has reduced:

Automatic milking reduces the amount of time the farmer is in direct touch with the animal, increasing the risk of sickness being undiscovered for long periods, affecting both milk quality and cow welfare.

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Top 10 Robotic Innovations in 2021

Robotic Innovations

Here are the top 10 robotic innovations in 2021

The machines have long since left the confines of research labs to explore new realms. They are anticipated to continue their massive spread into pharmacies, the automobile industry, and other industries. Numerous robots are already helping to improve product quality and reduce turnaround times in the manufacturing industry.

These robots are proven to be effective at simple tasks and jobs. Robots are prone to fewer mistakes, need less maintenance, and are more cost-effective. As a consequence, they have greater retention rates. But, like with any machine, someone must run it and fix it if it malfunctions. This is where folks with a background in mechatronics may help. Let’s move on to the main topic of the latest innovations in Robotics in 2021.

Robotics in 2021

Robots can accomplish tough jobs thanks to artificial intelligence software combined with vision and other sensory technologies. Trash picking is one such activity that, in the past, could only be done by a human hand. New generations of robots are easy to set up and program, and they can communicate with one another. Robots are effortlessly integrated into automation and Industry 4.0 initiatives because of advancements in communication protocols.

The automotive sector was the first to use smart factory systems that included the use of industrial robots on assembly lines, which have dominated conventional vehicle production for more than a century. The networked interplay of robots and automated guided vehicles – or rather automated mobile robots – is the technology of the future.

Rising robot adoption in manufacturing industries that have just lately switched to automation, like textiles, food and beverage, wood products, and plastics, is aided by connection advances. Because producers may diversify more readily than ever before, the ongoing digital change will lead to totally new business models.

The pandemic crisis has highlighted the flaws in international supply networks. Manufacturers have the chance to consider the supply from a new perspective. Manufacturers have more flexibility when output is balanced by automation, which may not have been accessible in high-wage nations such as the majority of the European Union, Latin America, Japan, or Korea. Efficiency, adaptability, and security are all advantages of robotic automation.

Latest Robotics Innovations

Here are some of the most recent robotics advancements and why professional mechatronics engineering engineers are required to assist repair and maintain all of these amazing new robots.

Humanoid Robots

Humanoid robots are a type of professional robotic system that has been designed to replicate human movement and interaction. Research and space exploration are only a few of the uses for these robots, which also include personal support and caregiving, arts and entertainment, repair and construction, and healthcare. In 2023, its market is expected to be worth US$3.9 billion.

Multi-Tasking Robots

Modern robotic technology has permeated every sector, performing a wide range of human activities with accuracy. For example, Ross robotics has developed a new generation of flexible, durable, and cost-effective driverless vehicles capable of performing a wide range of activities. Its multi-purpose UGVs can take the place of people in locations where working is too dangerous.

Hadrian X

Hadrian X is a building robot that is in charge of all brick loading, chopping, routing, and installation. The robot, created by Fastbrick Robotics in Australia, employs FBR’s dynamic stabilization tech, which adjusts to ambient variables in real-time, allowing precision robots in large-scale outdoor tasks.

Ocean Robot

The ocean is a vital aspect of our existence, and we have no idea what lurks under its surface. The introduction of high-tech ocean robots, on the other hand, has made it feasible to explore the ocean depths. Eelume, a Norwegian firm has created the Eelume EELY500, a high-tech marine robot. It’s made for underwater inspection and repair in industrial environments.

Saul Robot

Saul Robot is a robot that shoots strong pulses of very energetic UV rays at the Ebola virus, melting it into worthless bits of genetic material. When effective therapies for this illness were in short supply, the Air Force utilized this robotic equipment to eradicate the infection in rooms where relief workers were quarantined.

Paro

Dr. Takanori Shibata created the therapeutic robot. Paro is controlled by artificial intelligence (AI) and alters its behavior in response to a variety of sensors for monitoring light, sound, temperature, and touch. This robot is designed to help caregivers and patients communicate more efficiently and reduce stress.

Pepper

Pepper is a semi-humanoid robot that adjusts its behavior based on the moods of the people around it. The robot, created by SoftBank Robotics, detects and responds to emotional states such as grief, surprise, excitement, and rage in a natural and appropriate manner. Pepper detects noises with multi-directional sensors.

Robotic Vacuum Cleaner

Robotic vacuum cleaners are floor-cleaning devices with sophisticated programming. They are easier to use since they are self-cleaning. Robotic vacuum cleaners may be stored beneath beds, tables, and closets, but a normal vacuum cleaner takes more room. For example, iRobot’s Roomba is the smartest and most efficient robot vacuum.

Asus Zenbo

The Asus Zenbo is a low-cost robot that can roll around on its own and accepts voice directions. It’s made to assist people to remember things like exercise and medication routines, as well as doctor’s visits. This robot can also monitor its surroundings and link to smart home elements such as surveillance cameras, lighting, and door locks to identify any emergencies.

Delivery Robot

In today’s congested industry, efficient last-mile courier services have become critical for businesses to stay competitive. Robotic courier services promise a slew of new options for service providers. For example, a delivery robot, Amazon’s scout, delivers products to clients by driving along the sidewalk and opening up when it approaches their front door.

Conclusion

There is no disputing that the twenty-first century has seen incredible achievements and advancements. From the advent and widespread use of smartphones to the extraordinary growth of AI, deep learning, robotics, and autonomous technology in recent years, astonishing new goods and technologies have been launched that have made our lives simpler and healthier. Robotics has moved from the realm of science fiction to the real world, performing complex jobs and altering the way we live. Robotics has advanced to the point that it can now be integrated into human life in a variety of ways.

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Robot Journalism: A New Way of Reporting Breaking News

Robot Journalism

Robot journalism, with the help of artificial intelligence, is boosting the field of journalism.

News stories are created by computer programs in automated journalism, also known as algorithmic journalism or robot journalism. Stories are generated automatically by computers rather than by human reporters thanks to artificial intelligence (AI) technologies. These programs analyze, organize, and present data in a form that is understandable to humans. Typically, an algorithm examines huge quantities of given data, chooses from a variety of pre-programmed article formats, organizes important points, and inserts information like names, places, amounts, rankings, statistics, and other numbers. The output may be tailored to a specific voice, tone, or style. Some data is converted into news reports written in human language in robot journalism. Natural language generation (NLG) methods are used to accomplish this. When structured data is available and the issue is repeated, robot journalism is the ideal fit. Collection of data, identification of noteworthy occurrences, prioritization of insights, production of the narrative, and ultimately publication of the news are the five steps of automated journalism.

Automated journalism is often viewed as a way to liberate journalists from regular reporting and give them more time to work on more difficult projects. It also provides for more efficiency and cost-cutting, easing some of the financial pressures that many news companies are under. Automated journalism, on the other hand, is seen as a threat to the authorship and quality of news, as well as to human journalists’ livelihoods.

Advantages of Robot Journalism:

Speed:

Automatization enables rapid publication of news stories – as source data becomes available, a story may be produced almost instantly. Robot journalists are designed to produce enormous amounts of data at a faster rate. According to the associated press, automation has boosted the number of profit reports received from consumers by more than tenfold. They can generate 150-to-300-word pieces in the time it takes journalists to analyze figures and compile content using automated insights software and data from other firms. Journalists will have more time for hard duties like investigative reporting and in-depth analysis of events if regular articles and activities are automated.

Cost

Because more material can be generated in less time, automated journalism is less expensive. It also saves news companies money on labor. Reduced human input implies lower wages, salaries, paid time off, vacations, and employment insurance costs. For news organizations with limited resources but a desire to retain the extent and quality of their coverage, automation is a cost-cutting option.

Free of errors

It is stated that automated journalism systems are less prone to faults since they do not commit blunders like misspellings or math errors. In other words, their accuracy is superior to that of human journalists – providing that the code is free of mistakes and the underlying data is accurate.

Disadvantages of Robot Journalism:

Authorship

There is sometimes misunderstanding over who should be attributed as the author in an automated article. Research on algorithmic authorship found that some participants assigned credit to the programmer, while others saw the news organization as the author, stressing the collaborative aspect of the work. There is no way for a reader to tell if an article was written by a robot or a person, which presents concerns of transparency, however, similar issues exist when human authors assign authorship to each other.

Quality and Trustworthiness

Concerns regarding the perceived trustworthiness of automated news are comparable to general concerns about news credibility. Beyond human review, there are now a plethora of algorithmic approaches for identifying machine-written articles. While some articles may still include flaws that are evident to a person, these automated identifiers may sometimes outperform human-written articles.

Employment

One of the main concerns about robot journalism is the loss of jobs for journalists when publications use artificial intelligence (AI).

At least in sectors that rely significantly on data, such as sports and finance, robot journalism is becoming the standard. Its influence may now be noticed when human journalists are given more time to examine different news perspectives and topics rather than conducting repetitious labor. Additionally, news companies can produce more information and reach a larger audience.

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India To Campaign Using Humanoid Robot Ahead of Assembly Polls 2022

Humanoid Robot

These humanoid robots can aid in tackling poll campaigns in the Covid-19 situation

Ahead of assembly elections in 2022 in five states of India, we may witness humanoid robots campaigning on behalf of political leaders. Isn’t that interesting to know about? This step is significant as mass gatherings in India can turn out harmful amid Covid-19 waves.

A new humanoid robot called ‘DOOT’ was developed by One stand India Pvt Ltd for this very purpose. This humanoid robot can communicate and deliver the impression of a human being with excellent voice recognition, gestures and face recognition. One stand India earlier also rented drones in Bihar for sanitizing during the first Covid wave.

These robots are likely to be seen campaigning for the Assembly elections next year and according to the company, they are in talks with the respective political parties to deploy these robot campaigners for the state election next year.

The five states that are yet to go for the poll in 2022 are Uttar Pradesh, Uttarakhand, Punjab, Himachal Pradesh, Goa, and Gujarat. In Tamil Nadu, a newly-formed political outfit called India Makkal Munnetra Katchi (IMMK) introduced a humanoid robot for campaigning for the first time. The robot is called ‘Doozy’, it is a four-feet which is the party’s symbol too.

The new humanoid robot ‘Doot’ is ready to serve political parties by reaching out to a limited group of people with their messages in the middle of the pandemic. Doot has a large wheelbase having an all-wheel-drive gearbox that enables it to move flexibly and easily even on hard and rough surfaces. This humanoid robot is going to address the public on behalf of the politician through artificial intelligence (AI)-enabled voice recognition.

Doot is equipped with a custom-made servo motor, which facilitates the full upper body, enabling it to bend and raise with ease. This is the only humanoid robot that can twist around 140 degrees of freedom in the country. It also has HD cameras which are located on the head of the robot allowing it to look and record the attendees of the event. The humanoids are built on an aluminum frame with industrial-grade components. These kinds of robot campaigners will save a lot of time and also can go to multiple places at the same time. The other interesting feature is that the robots can also shake hands and wave at people.

The humanoids are developed by a Mumbai-based innovator, Santosh Haulawale partnering with One stand India. The innovator also created robots for treating Covid-19 patients and assisting healthcare workers. These new innovations can help avoid close gathering by controlling the Covid-19 situation during the India assembly elections in 2022.

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Top Industrial Robotics Companies in the World for You to Know

Industrial Robotics Companies

Analytics Insight provides a list of top industrial robotics companies in the world

Robotics is thriving in the global market because companies have identified the particular need of multiple industries— assistants. Industrial robots are helping factories and organizations in multiple different ways like welding, product inspection, automation, and many more to boost productivity at a low cost and yield higher returns. Thus, there is an emergence of several industrial robotics companies to provide sufficient supply to the high demand in the tech-driven market. The blend of robotics and artificial intelligence is generating smart functionalities into these industrial robots. Let’s explore some of the top industrial robotics companies in the world.

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Top industrial robotics companies in the world for you to know

ABB Ltd.

ABB Robotics is known as a pioneer in robotics focused on manufacturing industrial robots and machine automation in 53 countries. It has shipped over 50,000 industrial robot solutions across the world. The industrial robotics company serves a wide range of industries including aluminum, automotive, cement, data centers, marine and ports, metals, building and infrastructure, and many more. It also offers a digital solution to reduce maintenance costs as well as increase employee safety in mining operations.

Mitsubishi Electric

Mitsubishi Electric is one of the top industrial robotics companies in the world that offers regionally specific products. Mitsubishi MELFA is one of the popular industrial robots that is fit for cell manufacturing with a high speed as well as a high precision performance with intelligent technology of artificial intelligence. These industrial robots are perfect for a wide range of applications for high-volume production of foodstuffs and pharmaceuticals that demand fast operation. Industrial robotics can help to withstand environmental conditions without any external worry about the installation environment. There are different types of industrial robots such as vertical type robots, horizontal type robots, ceiling-mounted horizontal type robots, environment-resistant specified robots, as well as micro-working robots.

Apex Automation and Robotics

Apex Automation and Robotics have specialization in the design and manufacture of custom-built automation machines and industrial robots across the world. It is popular for utilizing the most suitable technology for each application. It focuses on the complexity of movements with a variety of functions with speed and accuracy. The company is involved with industrial robotics projects such as high sped robotic pickers, robotics packing, and many more.

Fanuc Corporation

Fanuc Corporation is a well-known industrial robotics company that manufactures industrial robots to improve performance as well as revenue. It offers over 100 industrial robots models with more than 40 years of helping the manufacturing industry. These industrial robots are very easy to operate and provide flexibility that can hold payload up to 2,300kg and maximum reaches up to 4.7m. It is popular for offering the widest series range of industrial robots in the world.

Yaskawa Motoman

Yaskawa Motoman is focused on delivering high-quality industrial robotics for welding, cutting, picking, and assembly, and handling. These industrial robots are known for high-payload, high-speed, extended-reach, and unique 15-axis dual-arm robots. This company offers tailored solutions for manufacturing needs with cutting-edge controllers, vision systems, and other top-notch components.

Kawasaki

Kawasaki is well-known in the world for being the leading supplier of industrial robots and robotic automation systems with the implementation of artificial intelligence. The aim is to develop high-quality and top-notch industrial robots while providing artificial intelligence and engineering. It has over 50 years of experience in robotics with different types of robots such as payload robots, painting robots, clean robots, place robots, palletizing robots, pharmaceutical robots, and many more.

Nachi

Nachi is one of the top industrial robotics companies in the world that has its focused expertise with automation. The robotics company offers industrial robots in services such as handling, palletizing, spot welding, heavy-duty, cleanroom, controller, and many more. It has provided solutions in industrial robotics for a wide range of applications to the automotive industry as well as other industries. The payload capacity ranges from 2kg to 700kg with a reach capability of up to 13 feet.

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The Robotics Market is Expected to Reach US$75.3 Billion in Revenue by 2026

Robotics Market

Robotics with its higher success rate has redefined the landscape of technology across the globe. Robotics brings together advanced computer technology providing the world with high-class automation. According to Analytics Insight, the global robotics market is predicted to witness a remarkable increase from US$42.2 billion in 2021 to US$75.3 billion in 2026, registering a CAGR of 12.3%.

Covid-19 pandemic has resulted in the utilization of more robot technologies. The industrial sectors of key countries like India, Japan, China, Singapore, and Indonesia are provided with incentives by the government to survive and manage the challenges faced because of the pandemic. As a result, the industries are better supplied with the financial resources that are required for the incorporation of robots in the industrial setup. There is an increasing demand for collaborative robots across all industries and this is expected to encourage the engagement of automation in industries. These robots are aimed toward both small and medium-sized enterprises (SMEs) and large enterprises. These robots are also being adopted for both new and existing implementations and hence have a wide-scale acquisition owing to their adaptability. These factors have been significant in driving the growth of the industrial robotics market.

As China has been the largest market for industrial robots at least for the past 5 years and as covid-19 originated in China itself, it impacted the industrial robotics market negatively in 2019 and 2020 as well. The top players in the industrial robotics market are headquartered in Japan and observed a major decline in their 2019 revenue. The COVID-19 pandemic led to global supply chain disruption and slow installation of industrial robots in various key industries, such as automotive; electrical and electronics; and metals and machinery. However, the situation in Q2 2021 would witness an increase over 2020 and is expected to reach normalcy by the end of 2022.

Despite the pandemic, there is an increase in demand for robotics which has led to a large number of investments in the robotics domain. The automotive industry is considered to be one of the most critical investors for industrial robots across the globe. For example, in 2020, BMW AG signed an agreement with KUKA to supply around 5,000 robots deployed in new production lines and factories across the globe. Also, in Aug 2020, Shanghai SK Automation Technology Co., which provides intelligent equipment for the automotive manufacturers, declared an initial public stock offering on the STAR market and raised RMB 733.14 million.

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Made in India: Top Indian Robots Recognized in the Global Tech Market

Top Indian Robots

Analytics Insight features top Indian robots in the global tech market with ‘made in India’ tag

Robotics is thriving in the Indian domestic market and has started getting recognized in the global tech market in recent years. Educational institutions and robotics companies have started competitions and workshops for students and working professionals to put emphasis on Indian robots. Robots in India have a blend of major cutting-edge technologies like AI, robotics, and IoT to generate smart functionalities. One of the popular Indian robots, Shalu, has more functionalities than Sophia in the global tech market. Glocalization has made it possible for robots made in India to get promoted in the foreign markets and yield higher revenue for the country.

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Top Indian robots recognized in the global tech market

Shalu

Shalu is considered to be the first female Indian robot created by Dinesh Patel from UP. Shalu can speak in 47 languages to have an immense presence in the global tech market. Robotics in India is indeed spreading wide opportunities to create robots that can be claimed as ‘made in India’. Multiple smart functionalities of this Indian robot are attracting the eyes of foreign countries because it is made of 100% waste material such as plastic, cardboard, wood, and other wastes. The Made in India robot is dedicated to all girls and women of India towards the Government of India ‘Beti Bachao Beti Padhao’ mission. Shalu utilizes AI and facial recognition technology to identify people and remember their identities. It can also provide correct answers to all kinds of educational questions while having flexible arms for a proper handshake.

Manav

Manav is known as the first 3D humanoid Indian robot from the A-SET Training and Research Institute in Delhi. This robot in India is created to be an assistant in research with integrated vision and sound processing capability with the incorporation of AI and robotics. It can respond to human commands to walk, talk, or dance. It is well-known for playing football or doing push-ups with an open-source code to react as a human child.

Mitra

A Bengaluru-based robotics start-up known as Invento Robotics created this ‘made in India’ robot known as Mitra. This Indian robot is of five-foot height and has been initiated at the Global Entrepreneurship Summit (GES) by Prime Minister, Narendra Modi as well as Ivanka Trump. Robotics and AI have designed this robot to welcome customers with contextual assistance, face recognition technology, autonomous navigation, and speech recognition through a touchscreen on its chest. One of the smart functionalities of Mitra is that it can understand multiple languages efficiently and effectively.

Kempa

Kempa is a well-known robot in India, especially in the Kempegowda International Airport, Bengaluru. This airport has incorporated Kempa, a robotic assistant, to greet passengers in English and Kannada. It is created by Sirena Technologies, a Bengaluru-based AI start-up to meet the needs of passengers in this airport. It provides minute details of flight timings, check-in details, and much other information for passengers.

Sandy

Sandy is another ‘made in India’ robot and is popularly known as the world’s first AI-powered human-sized humanoid Indian robot. This robot has a blend of AI and robotics with a cosmic network of sensory circuits to mimic human expressions. It also consists of self-learning capability owing to NLP as well as boosted by Android. It is built to help multiple industries such as hospitality, banking, and healthcare.

AcYut

AcYut is the Indian robot built by students from the BITS Pilani that has won several awards in multiple annual robotics competitions. It is famous in the global tech market as the ‘made in India’ robot because it has won the bronze medal in the 2009 RoboGames— the world’s biggest open robot competition with participants from 28 countries. It is known as the only Indian robot to participate in these robotics competitions with a Sanskrit meaning ‘the one who never fails’.

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