Рубрика: Robotics

There is no denying that 21st century inventors have come up with some remarkable new products and innovations that will not only make our lives easier but healthier, too.

Robots have long moved out of research labs to venture into new spheres. They are expected to continue the epic migration towards pharmacies, the automotive sector, and more. Countless robots are already contributing to higher quality products and shorter turnaround times in the manufacturing sector. Analytics Insight compiles the top 10 Robotic Innovations of 2020-

Saul Robot

Saul Robot is designed to help fight deadly diseases like the Ebola virus. The machine was deployed by the Air Force to eliminate the virus in rooms where quarantine procedures are conducted on aid workers. Developed by Xenex, Saul eradicates traces of Ebola using powerful pulses of highly energetic ultraviolet rays. It breaks down and weakens cell walls of the virus.

Collaborative Humanoids

Most humanoids are intrinsically human collaborators. For instance, Nextage from Kawada Robotics is a humanoid research platform for industrial cobots for Industry 4.0. Armar from Germany’s Karlsruhe Institute of Technology was developed to perform maintenance tasks alongside human workers in industrial settings.

Robotic Ambassador

Perhaps the most recognizable face of humanoids is that of Sophia, a social humanoid developed by Hong Kong based Hanson Robotics.
In 2020, the AI-powered four-year-old robot is going to continue her role as a robotic ambassador, helping to advance research into robotics and human-robot interactions. Taught by humans, Sophia can move, talk, show some emotions, draw, and sing.

Google’s worker robots

Google is planning to produce worker robots with personalities. The technology giant recently won a patent for the ambitious project. Engineers will enable the machines to download personalities from a cloud-based system. The robots have the capacity to store and display multiple personalities when interacting with humans.

Research Humanoid

Mechanical engineers at the Iranian University of Tehran have been working on Surena robots since 2010. Their latest model, Surena IV, is an adult-size humanoid that is reportedly capable of face and object detection, speech recognition and generation, and can walk with a speed of 0.7 kilometers per hour. It has 43 degrees-of-freedom and its dexterous hands can grip many different shapes.

Asus Zenbo

Asus Zenbo is a low-cost robot capable of rolling around autonomously and understands verbal commands. Asus developed the device to help individuals remember daily tasks, such as exercise and medication schedules as well as doctor’s appointments. Zenbo can also monitor the surroundings to detect any emergencies. It is capable of connecting to smart-home components like security cameras, lights, and door locks.

Delivery Robot

In January, it was announced that Ford became the first customer to incorporate Agility Robotics’ Digit into a factory setting. The headless humanoid has nimble limbs and is packed with sensors. It can navigate the stairs, various obstacles, and all kinds of terrains. It can balance on one foot, but usually it walks upright and is strong enough to pick up and stack boxes weighting up to 40 pounds. It can also fold itself for compact storage.

Paro

Paro is a therapeutic robot with the appearance of a baby harp seal. The fury device is intended to help lower stress levels and stimulate interaction between caregivers and patients. It has proven effective when it comes motivating and assisting patients relax. The psychological effects are drawn from the documented benefits of animal therapy. It comes with five different sensors, including posture, light, tactile, audition, and temperature sensors.

Digital Humanoids

Digital human beings look and act like humans but are entirely virtual. One example is Samsung Technology and Advanced Research (STAR) Labs’ Neons, AI-powered beings with unique personalities and looks. These artificial humans are not designed to answer any questions like Alexa or Siri, but are supposed to show emotions, learn from experiences, and have real conversations.

Pepper

Pepper is a talking humanoid robot that adapts its attitude based on how it perceives the mood of humans around it. The device detects emotional states like sadness, surprise, joy, and anger. It responds in a natural and appropriate fashion. Pepper uses multi-directional microphones to detect sounds.

The clever machine analyzes the lexical field to assess tone of voice. This allows it to accurately understand emotional context. For vision, Pepper employs a combination of 2HD and 3D cameras to recognize shape of objects. Its developers embedded up to 20 engines in the head, back, and arms to regulate movements.

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Is your job at risk of being replaced by robots and artificial intelligence (AI) in the next 10 years?

AI powered Robotics has firmly established its reigns in the workplace, and many businesses have benefited from this rapidly evolving technology. The tedious, repetitive tasks which includes data entry and scheduling have now been streamlined.

According to economic forecast company Oxford Economics (OE), by 2030, robots will displace 20 million manufacturing jobs worldwide. The 20 million number represents 8.5% of the global manufacturing workforce. Analytics Insights compiles a list of 10 jobs that are under constant threat in the next decade with the advent of Robotics:

Telemarketers and Receptionists

Telemarketers will be replaced by robots who would receive automated phone calls which are highly routine, repetitive, and predictable. Besides, receptionists are also expected to be replaced by robots. In fact, automated robots are already deployed in the hospitality industry to provide information, front desk services, storage services, as well as check-in and check-out services.

Textile Industry Robots

Robots will take over sewing, and assembling of clothes in factory assembly lines that are characterised by high volume production. One of the largest global takeovers the job of seamstress, where many companies are spending significant sums to train robots to operate sewing machines.

Legal Assistants

Another white-collar job, is the legal profession, which is at the ultimate risk to be replaced by robots and AI. The infusion of AI and Robotics helps legal professionals to spend much less time on tedious manual processes, such as reviewing and creating contracts, as well as identifying and classifying key clauses and other information from thousands of legal documents. This will further help the legal industry increase efficiency and save clients’ money, but this move could also mean job cuts.

Janitors

The coronavirus pandemic has not only reinvented the current market, it is shaping the way it will look for many years to come. With everything from innovations in healthcare technology to social interaction protocols, the virus spared nothing in the public or commercial space.

The job at the janitors have now become a higher risk and using robots to handle the disinfection and cleaning of shared-environments and materials is not only a better option for the public health, but it is a perfect example what robots are made for dirty, dangerous, and dull work processes

Right now, self-driving disinfectant robots are being used in Chinese hospitals to combat the coronavirus while an MIT team, in collaboration with the Greater Boston Food Bank and Ava Robotics, developed a robotic system to disinfect surfaces using a UVC light that’s built into the base of a mobile robot.

Public Transport Drivers

Among many other jobs, taxi drivers are highly likely going to be replaced by robots. There are already self-driving cars, also known as driverless cars on the road and it is just a matter of time before fully autonomous vehicles take over public transportation. Through advanced technology, it is also expected to transform many other modes of transportation such as trucks, tractors, ships, trains, and construction equipment.

While millions of transportation workers will lose their jobs through this new technology, there will be a positive impact as well. Driverless cars will come with the possibility of less expensive and convenient transport and will also help the poor, elderly and disabled have access to get around with its own smart user-friendly service.

Logistics Robots

Arnold Kravitz, Chief Technology Officer at the Advanced Robotics for Manufacturing (ARM) in Pittsburgh, said heavy lifting performed by humans or teams using manual labour, mechanical and hydraulic lifts, pallet hand trucks, and forklifts will soon be done by robots. Besides they will also perform freight movement of boxes, crates, packages, and bulk items involves repetitive motion and subsequent lower back problems with a high frequency of injury.

Doctors

Believe or not, one of the highly skilled professions like doctors can even be replaced by robots. Using its algorithms, IBM’s Watson AI is transforming healthcare by recommending the same best cancer treatment as doctors. Although there are still many arguments between doctors and robots in the medical service, one thing we can be sure of is AI and machine learning algorithms help doctors with effective data collection and analysis. However, there’s no doubt that cutting edge technology will have a big impact on medical services such as robots carrying out surgery.

Chef

Robots are being introduced to many restaurants for their endless energy to perform different tasks such as learning recipes, cooking, and cleaning up the mess. With the help of this new technology, restaurants can save on high labour cost and at the same time, provide the best and efficient service to customers by lowering waiting time. However, considering the highly sophisticated and creative level of work required in the culinary industry, it still seems to be limited to replace robot chefs from the human chef.

Bartenders

AI is already finding its way into high-end bars. For instance, a robotic bar can be found aboard Royal Caribbean’s cruise ship Anthem of the Seas. Clients place orders on a tablet and the robotic arms can create any cocktail upon request.

Poker Dealers

Paradise Entertainment and Hanson Robotics have successfully launched robotic card dealers in Hong Kong and are currently marketing products in the United States. Named “Min,” Paradise Entertainment’s robot only has the ability to deal cards at the present time. Hanson Robotics’ product, on the other hand, is more interactive and has the ability to make facial expressions. The transition to robotic dealers is inevitable in the United States, where casino profits are down due to online gaming and increased supply of gaming opportunities driven by a growing number of states legalizing gambling.

The post Robots are Coming- Top 10 Jobs in Threat of a Robotics Takeover appeared first on Analytics Insight.

The evolution of new technologies, especially the persistent advancements of artificial intelligence, has changed the way we live and work. Today, we have surrounded by technology and even rely on its capability. Robotics, in this way, emerges as an effective solution, redefining our preferences and shaping the future of industrial settings. With lower prices of sensors and electronics, and a steady demand for efficiency, robots are impacting every walk of life and could be paving the way for a coming robot revolution. In fact, it is already here and set to transform the world in some ways. Think the adoption of autonomous cars, drone delivery and chatbots.

When it comes to modern day robots, we can see the rapid development of robotics systems, from quadrupedal machines to collaborative robots (Cobots) and humanoid androids, which are making their way into daily workflows. However, most people are now getting fear about robots will take their jobs. Undeniably, they will eliminate many jobs as they never get tired and work without taking any break, and also outperform humans. Even reports show that there will be millions of job losses around the world in the coming years owing to the rapid adoption of robots over human workers. Despite this, they will create more job opportunities across industries.

Robots Coming to a Workplace Near You

An increasingly sophisticated cohort of robots is proving capable of performing a wide array of tasks, from helping the elderly to cleaning home and office floors, and flipping burgers to performing complex surgery. Moreover, tasks in a predictable environment, such as a fast-food restaurant or a factory assembly line, and basic data processing like tracking payroll accounting, could also easily be automated with the help of robots and software available now.

They are even managing software developers, supervising their clicks and scrolls, and curtailing their pay if they work too slowly. Modern robots are also capable of listening to call center workers, recommending them what and how to respond to customers, and keeping them continually, extremely busy. The use of robots can exponentially benefit health facilities, which require more precision and efficiency. They could impact a large area of healthcare practices, including surgery, rehabilitation, therapy, and mental health. They are also able to transport supplies and medications seamlessly.

The food manufacturing industry also seeks automation as its tasks are mostly physical and repetitive. Robots in this sector are commonly used in the provisioning, feed placement, cutting, packaging or casing of food, pick-and-place products into containers, and sorting. They can also perform in areas of order picking and delivery to customers’ doorsteps, as well as automatically fill specific orders.

Robots typically are equipped with intelligent vision systems allowing the very specific placement of products on a belt to be done with incredible precision. The rising cost of raw materials and new minimum wage requirements are enabling restaurants to turn to robots in order to make tasks more uniform and efficient.

In other industries including agriculture, where robots are significantly redefining a new age of farming. They are able to augment production yields for agriculturists in various ways. Robotics applications in agriculture can automate slow, repetitive, tedious and dull tasks for farmers, powering them to focus more on improving overall production yields.

Thus, such kind of tasks that are previously done by humans are more susceptible to automation. Meanwhile, there are some industries such as education and healthcare that still require deep human expertise and interpersonal skills.

Finding Place in a Robotic World

Obviously, robots and AI perform tasks better than humans do. But they still are incompetent of experiencing certain qualitative human traits. They can never be as creative as humans are. Robots can only perform tasks they are programmed to do without experiencing fatigue, with little or no mistakes. In order to make a career robot-proof, there is a need to think less about picking a safe job and more about constantly updating your skills throughout the career.

Sustaining and understanding how machines function and how to interact with them, a person should require to have the technical ability. In the near future, machines will step into roles once absorbed by humans as robotics become ever more capable. In this scenario, some employees will find themselves at risk, while others will work with machines. Those who plan to enter the workforce that can be adaptable and automated with robots need to have skills and continue educating themselves by modern degrees with traditional advanced courses.

The World Economic Forum suggests many white-collar jobs, including accounting, will be at risk from future automation, while the OECD cites low-skilled jobs will be most vulnerable and there will still be a strong correlation between education and income. Therefore, as technology landscape and skills become outmoded faster than ever, professionals must keep themselves up-to-date with the latest skills and knowledge to remain competitive.

The post Robots Set to Transform the World but will not Take Over Human Jobs appeared first on Analytics Insight.

Robots and robotics, the two ambiguous terms, have gained more traction after the onset of the COVID-19 crisis. From automating the industry chains to monitoring the public crowd, the resourcefulness in the pandemic is undeniable. Before that, robots have already worked in environments or job lines that are deemed hostile or beyond the basic scope of humans. In short, they have always been there in our hard times and have enabled us to move towards a digitally enhanced future.

During this global health emergency, robots have helped us either by carrying health samples, distributing ration, test kits, sanitizing public spaces, conducting surveillance, and many more lifesaving acts. Denmark-based Blue Ocean Robotics has developed an autonomous mobile robot that can enter a room and disinfect it with UV-C light, without exposing medical co-workers to the potentially harmful radiations. ABB’s dual-arm mobile YuMi robot can move its way around people using attached sensors. Its functions include deploying medicines, bed linens to patients, etc.

The adoption of robotics in the pharmaceuticals and drug discovery is expected to grow from US$2.05 billion in 2019 to US$4.87 billion in 2023, growing at a CAGR of 18.9 percent. Now, robots are ready to help the healthcare industry by assisting in drug discovery too. Although robotics and robots in pharmaceuticals is not a new topic, the coronavirus pandemic has pushed for the mainstream usage of the same in this industry.

Berkeley University is using robotics to leverage its pop-up testing lab. An automated liquid-handling robot analyzes swabs from patients and to diagnose them for COVID-19. Andrew+ a pipetting robot, from Andrew Alliance S.A., a Geneva, Switzerland-based company, can help to carry out repetitive manual experiments and tasks. All these robots have been helpful to humankind to fight against COVID-19 while allowing them to maintain social distancing. In July, Insilico Medicine, a biotechnology company developing an end-to-end drug discovery pipeline utilizing next-generation artificial intelligence, had announced a partnership with Arctoris, the world’s first fully automated drug discovery platform. The objective of this partnership is to discover, synthesize, and profile a set of inhibitors for COVID-19 treatment.

The process of discovering any new drug that can cure a disease is like finding a needle in a haystack. Further, it is an incredibly expensive, arduous, and time-consuming solution. The conventional pipeline for discovering new drugs can take between five and ten years from the concept stage to being released to the market, costing billions in the process. The pharmaceutical industry is increasingly making use of robotics to automate specific processes into drug development. This includes drug screening, anti-counterfeiting, and manufacturing tasks. Along with Artificial Intelligence and machine learning, it can help ramp up the speed of drug discovery.

Besides, most of the tests performed in laboratories regarding research and development of drugs typically require conducting rote tasks like moving fluids and transferring them into test tubes. Swiss multinational pharmaceutical company Novartis notes that earlier running samples by hand had a potential output of around 30-40 per day, where after upgrading to automated robotic systems, the output has increased to hundreds of thousands per day. Today, processes such as nuclear magnetic resonance (NMR), mass spectrometry, high-throughput screening (HTS), cell culturing, and high-performance liquid chromatography (HPLC) can be carried out by robotic arms. Meanwhile, for liquid dispensing, Sygnature uses the Labcyte Echo acoustic dispensers to prepare assay test plates using nano-liter volumes of compound solutions. In this way, robots make an ideal choice for such jobs since they are easy to automate and provide a high level of accuracy and consistency.

The biggest advantage of harnessing this technology is that robotics minimizes the risk of human contamination. Due to their ability to accommodate a wide range of products that require constant modifications, robots are used as integrators and tool changers in configured reactions. Moreover, they are employed (e.g., barcode scanning bots) to identify counterfeit drugs and medication. Apart from that, with the introduction of robots in laboratory automation system sizes can be reduced as guarding is eliminated.

So, one can observe how robotics and robots have impacted the drug discovery, development process in the healthcare industry. These technical applications of modern disruptive technologies have greatly enhanced the ability to explore and identify new drug candidates. And, COVID-19 gave the pharmaceutical sector the much-needed push. Soon scientists, hunched over Petri dishes, trying to extract new compounds with possible medical uses, and conducting research and analysis by hand will become a memory of previous decades. A new era is awaited to bring a monumental change.

The post How Robots And Robotics are Powering the Drug Discovery Processes? appeared first on Analytics Insight.

Key trends in robotics technologies that promise to reshape the world we know

Robotics is astonishingly transforming today’s industrial columns. This technology brought a momentous shift when companies shift towards it to maximize their productivity and minimize the burden on its human workers and employees. Beholding the industrial trends, this sector, too, is going to witness promising trends that may revolutionize the way the world operates today. In the previous decade, this industry has created millions of additional jobs led by consumer electronics and the electric vehicle industry alone. It is predicted that by 2020, the robotics industry will be worth of value US$100 billion, nearly surpassing the tourism industry. While robotics have successfully transformed manufacturing industries in recent decades, the next years will see it move beyond the assembly line areas. There is increasingly widespread adoption of robots across food production, retail, healthcare, and distribution operations, and it may be even closer to day to day applications. Let’s have an overview of these next-gen trends.

1. Robots-As-A-Service (RaaS): With companies racing towards digital transformation and striving for innovation, the RaaS business models will gain massive traction. These robotics models enable companies to complete repetitive and complex in a shorter time through virtual agents. This allows enterprises to save operational expenses and reduce upfront investments in highly productive and demanding business activities. Besides, RaaS also offer rental and leasing services, thus augmenting the global robotics rental market and cutting costs in permanent deployment solutions.

2. Machine Learning in Robotics: For robotic systems, machine vision plays a pivotal role; without this, robots would be blind and unable to present themselves at work. Robots embedded with cameras can handle complicated tasks and make sure that the desired activity is performed as required, while machine vision algorithms take care of the image analysis. The vision guidance systems can assist robots to perceive objects and sense the environment and navigate accordingly without stumbling on obstacles. And this feature will be more common in every robotic application now. Thus, operations connected with packaging, transportation, assembling, quality control can be performed by robots more efficiently now.

3. Cloud Robotics: With every technology being integrated with others, robots are no exception. Thanks to cloud robotics, robots in converged infrastructure and shared services environment shall benefit from the powerful computational and storage abilities of the modern data centers. Even the RaaS models can integrate cloud-based management and analytics services with physical robots. Owing to cloud connectivity, it will be easier to monitor, manage, and maintain the robots remotely. E.g., the French robotic firm Gostai offers the GostaiNet, a cloud-based robotic infrastructure allowing robots to record videos and synthesize voice for face detection and speech recognition tasks.

4. Cobots: It is a portmanteau for collaborative robots. This subset of robotics illustrates the idea that autonomous machines will supplement rather than completely replace human labor. They shall be providing timely assistance whenever we shall need it. Various SMEs like the automotive sector, rubber and plastic industry, food and beverage sector are leveraging the benefits such as lower costs and convenience in programming and integration offered by cobots. Now we also have cobots with impressive payload capacity and mileage. E.g., Comau’s huge Aura with a payload capacity of 110kg payload and FANUC’s large CR-35iA with a 35kg payload capacity. Meanwhile, MiR500 cobots that travel as much as 30 miles per day. Some cobots can be customized as per the industrial needs too.

5. Delivery Robots: This has been one of the hottest trends this year. Hospitals are using these robots to transport blood and other test samples, while Starlink and DoorDash are already running door to door delivering food to people maintaining the social distancing due to COVID-19. Apart from that, some robots are used to work in large indoor spaces like Segway’s Loomo robot, which carries out the delivery of internal mail in workplace settings such as office blocks and shop floors. This trend also means that there will be a proliferation of drones in the future for similar delivery purposes.

The post Top Robotics Trends and Predictions to Watch in 2020 appeared first on Analytics Insight.

Technology is redefining the way humans interact with machines, and digital disruption is evitable. How is the academia preparing the young minds for the future?

Technology is indispensable, a critical factor for innovation, could adding robotics to the school curriculum add to the making young minds more ready for the gen next technology? There is considerable anecdotal evidence that students show a well interpreted enthusiasm involving robot programming.

To learn robotics, the internet offers plenty of resources both for the parents and teachers, for instance, robot kits such as Lego Mindstorms and Vex Robotics, offer simple programmable robots like Sphero balls, and lesson plans. Besides sophisticated, engaging robots such as the NAO robot are also available for the young minds.

Robotics in School Academia

Robotics as a subject is gaining momentum across schools worldwide. Robotics as a study field inculcates teamwork incorporating a range of skills, and subsequently promoting learning environment for people encompassing different talents. Robotics promotes a strong sense of teamwork, useful for students who struggle to learn in traditional classroom settings.

Robotics provides a launching pad for students to explore different learning pathways. Robotics lets students to develop an interest in coding and 3D printing, whereby students can build their own robotics learning pathways, offering an open platform where students can experiment and learn.

Robotics curriculum is instrumental in creating future leaders of tomorrow, by sharpening their communication and coding skills. Through the team work exercise, of putting the robot walk and work students learn to communicate as a team, coming together as an assortment of leaders, developing their personal strengths which would be essential throughout their lives.

Robots and Robotic Technologies Students Must Know

NAO Robot

The NAO humanoid robot is the ideal platform for teaching STEM concepts to students at all levels. NAO humanoid provides hands-on experience connecting theory with practice to help students discover a range of applications. NAO humanoid robot is designed to meet the instructional goals in education. NAO is widely used in global education market enabling new ways for pedagogy in classrooms.

3D Printers

3D printers have rapidly caught the attention of students and academia. 3D printing technology brings STEAM to life with 3D printed objects, engaging the entire classroom and sparking curiosity. Students can learn to build professional 3D design skills that simulate real-world engineering problems through advanced design thinking.

Pepper Robot

Robotics is the fastest growing and most advanced technology used in education and research today. Pepper is versatile and high-performing robot designed to meet the expectations of both teachers and researchers. Pepper offers an advanced platform for the in-depth study that includes cognitive computing, autonomous navigation and human-machine interaction etc.

Misty Robot

Misty robot lets the young minds bring coding and STEM to life. Misty is the autonomous roaming robot that students can program to move around for human interactions. Misty Robot allows students develop prototypes with the hardware and extend the robot’s functionality.

Summing up, it is generally agreed, that robots are a motivating tool for students to pursue STEM studies, and a pedagogical tool for STEM. In particular, they strengthen scientific and technological culture in academia. Additionally, they facilitate the knowledge transfer through trans-disciplinary activity-based projects. In today’s technological world, it is more important than ever to develop a strong technological pedagogy among students with the most in demand prebiotics education. Teaching robotics lessons to students can increase their ability to be future leaders, be innovative thinkers, develop teamworking skills and more productive members of society.

The post How Important is Adding Robotics as a Subject of Study in Schools? appeared first on Analytics Insight.

Robotics engineering is a field of engineering which focuses on building machines that repeat human activities. A robotics engineer makes these applications or self-sufficient machines (otherwise known as robots) for businesses such as mining, production, automotive, services and that’s just the beginning.

Frequently, the objective is to program machines to do redundant, risky, or undesirable jobs. A robotics engineer designs models, assemble and tests machines, and maintains the software that monitors them. They likewise research to find the most cost-efficient and most secure procedure to manufacture their robotic systems.

Robotic engineers are in charge of planning, testing, and building robots that are profitable and safe to work just as practical to buy and maintain. Robotics research engineers plan robotic systems and research strategies to make them practical.

Robotic engineers who work for robot manufacturers are now and again called robotics test engineers or automation framework engineers. These engineers apply the automated system to a specific use on a production assembly line. They additionally create a coordinated environment among humans and machinery.

The normal yearly pay for robotics engineers in the United States is $100,000. The average hourly-based compensation rate is $30.

Pursuing a career in robotics engineering requires a strong academic background. Strong proficiency in the field of science is required to receive acknowledgment into a decent robotic engineering qualification program. There are as of now no devoted robotics undergraduate degree programs.

Rather, aspiring undergrads should consider mechanical or electronic engineering, picking a degree program with coursework and syllabus in robotics and related fields of study. It is beneficial but not essential to seek an MS in Robotics, but postgraduate degrees permit the student to study a subject in more detail, building up their profession or academic specialty.

As robotics technology becomes increasingly sophisticated and requiring more expertise, MS robotic degrees could be fundamental later on. Marketable skill sets to search for in a robotics engineer qualification program incorporate utilizing expert software, for example, CADD (computer-aided drafting and design). Like engineers in other fields, robotic engineers must have the ability to function well as team members. They must be able to share their ideas successfully.

A robotic engineer carries a variety of skills and responsibilities. Depending upon which division they work and which part of the process, an ideal working day of a Robotics Engineer can incorporate the following duties and responsibilities.

• Use CADD software to make outlines and models for automated systems
• Structure the machines and assembling systems that will construct the robots
• Fabricate and test the robotic system’s parts or the system all in all
• Construct the model and analyze its functions while searching for flaws and fixing defects
• Lead research to decide the parameters of a robotic application
• Develop robotic systems from beginning to end
• Design cost-saving and efficient procedures to manufacture the machines
• Perform coordination tests and quality control

This is a rapidly changing field, with innovations in computing constantly opening up new opportunities for robotic applications. Robotic engineers must have the same undivided attention to detail required from all engineers, yet the general curiosity of the field puts an extra premium on creativity.

A robotics engineer must possess a variety of skills that are necessary to achieve success in this field. A robotics engineer must have a complete understanding of mechanics, electrics, hardware, and programming. That is a huge range of abilities to have and hence a managerial position in this field is the favored decision of several people.

A robotic engineer in the course of his life has to do programming at various phases of his/her career. From low-level control systems to complex intellectual systems, a robotic engineer should be able to programme for any given requirement.

As technology is changing quickly in the current situation, some numerous developments and events are introduced to the robotics industry. Henceforth, it is significant for a robotics engineer to study and effectively grow new skills all through the profession.

A robotics engineer must be able to develop designs that are practical and work. In this manner, a robotics engineer must excel in technology design. Further, he/she must offer solutions for existing and emerging issues. The robotics domain includes a blend of several innovations. Therefore, it is critical to be proficient in technology design and develop powerful solutions.

It’s almost guaranteed that quite a while from now, robots will be utilized in a vast range of new activities. The engineers who best forecast needs which can be effectively filled by robots, and who can work effectively in groups to create them will be incredibly successful in the field. The employment scope for robotic engineers is quite excellent.

The post An Overview of a Career as a Robotics Engineer appeared first on Analytics Insight.

The lack of skilled labour and business continuity objectives drives the Cobot market for Covid-19 Pandemic.

The Covid-19 pandemic has bought a revolutionary change in how enterprises are working by keeping social distancing in mind to ensure business continuity is assured during the ongoing coronavirus era. This has paved the way for the new kind of co-workers, characterised by robotic technology and powered by Artificial Intelligence.

The year 2020 is different of sorts. Enterprises the world over did never anticipate Coronavirus to hit their functionaries so bad. To mitigate the global supply chain risks, trade pundits expect that manufacturers will insource automation to keep the supply cycle moving. As manufacturers around the world try to figure out how the business will look going forward, intelligent automation and cobot technology both have been creating quite a stir in the enterprise circles.

The crux being, businesses which are quick to adapt and are resilient enough to understand the new demands and adapt their processes while protecting worker interests—will survive and thrive in the current crisis.

The Business Shift towards Cobots

Many C-Suite leaders across the world eco that the ongoing crisis has accelerated the need for intelligent and flexible automation. With Coronavirus in the vicinity, enterprises are seeing an uptick in the interest for collaborative robots’- credit to the social distancing requirements, and the need for rapid production line changeovers. This brings to an interesting new beginning for the collaborative workforce, backed by AI.

Called as Cobots, they are robots who are working alongside humans to share repetitive and rule-based work in the assembly lines and the industrial warehouses. Though this change is watched with caution, cobots still suffer from an awareness challenge and need time to be programmed to suit the specific needs of the enterprise.

Cobots in the Industry-Use Cases

• DCL Logistics, a third-party logistics company headquartered in Fremont, Calif., saw a 30% increase in orders in 60 days as online business exploded. Their usual approach to meet the increase in demand would have been to hire more temporary workers. In this case, they could not as it could have increased the risk of coronavirus exposure. As an effective solution, DCL quickly deployed an additional UR10e-based fulfilment cell, this resulted in a staggering 500% increase in productivity with the ROI for each robot being three months.
• In Dallas, a small contract machine shop had to start thinking about turning away orders because of the reduced capacity, caused by the temporary labour shortage owing to lockdown and social distancing norms. As aa solution, all Axis Machining deployed eight UR10 cobots for machine tending tasks.
• Vineland, n Ala.-based HomTex decided to add the production of disposable facemasks to its usual line-up of home textiles. Reshoring PPE manufacturing to the U.S. was an important part of the company’s decision. To achieve this objective, the company added 15 lines to its site in Cullman, Ala., with the capacity to make 350 million marks per year, RCM Industries, a contract manufacturer of machined die-cast parts with four production plants in the Chicago area, had a COVID outbreak in one plant that forced a temporary shutdown and required social distancing in manufacturing. startup.

The future of collaborative robots is bright. They have been deployed in several ways to help companies react to the pandemic. In the times to come, technology would play a dynamic role where the C-suite across enterprises would have to come together to rise to the challenge for a new world after the Covid-19 pandemic.

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The interest in automation is increasingly bolstering the demand of robotics professionals.

Robotics technology has become a key driving force for a whole new generation of autonomous systems and devices. It has the potential to transform every aspect of life and business, enable an enhanced level of service delivery and improve efficiency. From diverse industry verticals to personal use at home, robotics is set to become an effective technology revolutionizing the way we live and work. At the same time, it is driving a heightened demand for the skilled professionals.

Credit to its nature to assist humans in every condition such as manufacturing, precision agriculture, and disaster recovery, among others, organizations are actively looking for robotics professionals for their business innovation and growth, which is leading to a rise of jobs in this field. According to salary estimations from Glassdoor, the average salary of a Robotics professional in India is INR 16,82,582.

Analytics Insights enlists some of the top companies offering robotics jobs with the highest paydays in India in August 2020.

ABB

ABB, a global technology leader in industrial digitalization, is committed to solving some of the biggest challenges of businesses. The company offers digital solutions for industries and helps in transformation and creative solutions for products and services. By connecting software to its electrification, robotics, automation and motion portfolio, ABB pushes the boundaries of technology to drive performance to new levels.

Job Title – Robotics Engineer

Salary Range (per year) – INR 20,81,441 – INR 22,62,386

PayPal Inc.

PayPal is the leading online payments service provider and is committed to democratizing financial services. The company is also empowering people and businesses to join and thrive in the global economy. Available in over 200 markets worldwide, the PayPal platform, including Braintree, Venmo and Xoom, enables consumers and merchants to receive money in more than 100 currencies.

Job Title – Software Engineer 2

Salary Range (per year) – INR 1,269,000 – INR 2,000,000

Tata Consultancy Services

Tata Consultancy Services (TCS) is a leading provider of IT services, business solutions and outsourcing services to businesses globally. The company’s offerings include business process outsourcing, data center management, IT and strategic consulting, new product development and engineering, and systems integration.

Job Title – RPA Developer

Salary Range (per year) – INR 4,00,000 – INR 5,38,691

FlytBase

FlytBase is a provider of drone agnostic software solutions to automate and scale drone operations. It is the world’s first Internet of Drones Platform (IoD), which allows easy deployment of intelligent drone fleets, connected with cloud-based business applications.

Job Title – Robotics Software Engineer

Salary Range (per year) – INR 4,84,277 – INR 5,28,364

Keybulid Technologies

Keybulid Technologies is a leading software services company that focuses on helping its clients to make an impact on business and drive value through IT investments. The company offers Application Development, Mobile apps, On-demand IT, User experience, Payroll Management, Data analytics, and Custom Software Development Services.

Job Title – Robotics Engineer

Salary Range (per year) – INR 4,62,000 – INR 4,98,581

Symphony Ventures

Symphony, a SYKES company, is a professional services firm passionate about creating value for the world’s leading organizations by designing, delivering and managing truly modern business processes. The company is a global leader in enterprise digital transformation, transforming client’s businesses through the use of Robotic Process Automation (RPA), Artificial Intelligence (AI), and Robotic Business Process Outsourcing (R-BPO).

Job Title – Robotic Process Automation (RPA) Developer

Salary Range (per year) – INR 3,52,274 – INR 3,81,383

The post Top Robotics Jobs with Highest Salaries in India in August 2020 appeared first on Analytics Insight.

Artificial Intelligence is growing at a faster pace. Despite the unprecedented situation of coronavirus, 2020 till date has witnessed sustained momentum. Funding has increased by 51% to $8.4B from the previous quarter. With this faster pace, it is also attracting a series of funding and financial investments. Let’s go through some of the important investments in artificial intelligence and robotics companies in July 2020.

BotsAndUs

Amount Funded: $6 million

Transaction Name: Seed Round

Lead Investors: Kindred Capital and Capnamic Ventures

BotsAnduS creates robots that work with people in shopping centers, retail stores, office buildings, airports etc. They aim at digitising the full customer journey by automating the collection of onsite data and providing 24/7 customer service.

BotsAnduS has reported that it has raised a $6m seed funding, which was co-driven by Kindred Capital and Capnamic Ventures, along with angel investors participating in the round.

UiPath

Amount Funded: $225 million

Transaction Name: Seed E Funding

Lead Investors: Alkeon Capital Management

UiPath, a leading RPA company has brought $225 million up in Seed E funding. The round was driven by Alkeon Capital Management. Other investors participating in the round are Accel, Coatue, Dragoneer, IVP, Madrona Venture Group, Sequoia Capital, Tencent, Tiger Global, Wellington. The funding will be utilized for developing automation solutions in order to mitigate the risks posed on productivity and supply of human workers.

Skydio

Amount Funded: $100 million

Transaction Name: Series C Funding

Lead Investors: Next47

Skydio is a leader in autonomous flight technology and a U.S. drone manufacturer. Skydio raised $100 million in Series C funding. The round was driven by Next47 along with Levitate Capital, NTT DOCOMO Ventures, and existing investors including Andreessen Horowitz, IVP, and Playground participating in the round. The organization will utilize the funding to grow its operations in public sector markets and accelerate product development.

Dexterity

Amount Funded: $56.2 million

Transaction Name: Series A Funding

Lead Investors: Lightspeed Venture Partners

The Bay Area-based robotics startup , has raised $56.2 million up in Series A funding led by Kleiner Perkins, Lightspeed Venture Partners, Obvious Ventures, Pacific West Bank, B37 Ventures, Presidio (Sumitomo) Ventures, Blackhorn Ventures, Liquid 2 Ventures and Stanford StartX.

Dexterity offers robots for warehousing, logistics and supply chain operations. It has already seen a boost from the push for essential services during the COVID-19 pandemic.

Abacus.AI

Amount Funded: $13m

Transaction Name: Series A Funding

Lead Investors: Index Ventures

Abacus.AI, a San Francisco, CA-based AI research and AI cloud services company, has as of late brought $13m up in Series A funding driven by Index Ventures, with participation from Eric Schmidt, Ram Shriram, Decibel Ventures, Jerry Yang, Mariam Naficy, Erica Shultz, Neha Narkhede, Xuezhao Lan, and Jeannette Furstenberg.

The company will use the funding to grow its research team and scale its operations.

Deep Longevity

Amount Funded: –

Transaction Name: Series A

Lead Investors: ETP Ventures

Deep Longevity, a biotechnology company transforming longevity R&D through AI-discovered biomarkers of aging, has raised Series A funding of an undisclosed amount. The round was led by ETP Ventures and different prominent investors like BOLD Capital Partners, Longevity Vision Fund, Oculus, Formic Ventures, and LongeVCalso participated.

Caption Health

Amount Funded:

Transaction Name: Seed funding

Lead Investors: Y Combinator

The company raised an undisclosed amount of Seed funding. Nana is building the Guild for the eventual future of work. A distributed workforce of tradespeople, starting with the $4B Appliance Repair industry. Nana is an on-demand home maintenance marketplace. A marketplace meets modern trade school, showing new aptitudes and associating the 10M+ Americans who will be affected via automation to more compelling jobs in the home services space.

Nana is a place for consumers to complete things, and AI and a learning management system for skilled professionals.

Nextbillion.ai

Amount Funded: $53m

Transaction Name: Series B

Lead Investors: DCVC

Caption Health, the Calif.-based medical artificial intelligence (AI) company, has raised a $53m Series B funding driven by existing investor DCVC. Other investors which participated in the round are Atlantic Bridge, Edwards Lifesciences, along with existing investor Khosla Ventures. . The company plans to scale up its operations and develop its AI technology platform.

Nucleai

Amount Funded: $6.5m

Transaction Name: Series A

Lead Investors: Debiopharm

Computational biology startup Nucleai raised $6.5m Series A funding led by Debiopharm – a Swiss biopharmaceutical company. Previous investors Vertex Ventures and Grove Ventures also participated in the round.

Nucleai offers an AI-powered precision oncology platform that offers biomarker discovery and treatment decisions for cancer treatments. It combines machine learning and computer vision to model the characteristics of both the tumour and the patient’s immune system.

Logically

Amount Funded: £2.5m

Transaction Name: Seed Funding

Lead Investors: NPIF and XTX Ventures

Logicaly, a UK-based dtech startup declared that it has raised £2.5m seed funding from NPIF and XTX Ventures. The company aims to use the funding to continue developing its product in time for the US election.

The startup deploys AI to detect fake and news and misinformation as well as provide fact-checking service to combat fake news.

The post Top Artificial Intelligence and Robotics Investments in July 2020 appeared first on Analytics Insight.