Рубрика: Robotics

With COVID-19 in effect, China has seen the rise in the deployment of more and more robotics applications.

The impact of COVID-19 has highlighted the efforts of China in robotics proliferation. We all are aware of how the country has employed robots across the healthcare system to avoid any direct human contact and ease out the work for medical staff. But did you realize that it’s not an impromptu deployment rather the Chinese government has been strategizing over robotics from the past two decades?

China has been pumping more and more money into its robotics industry. According to Nature’s report, in 2006, China highlighted the importance of robotics in its 15-year plan for science and technology. In 2011, the central government fleshed out these ambitions in its 12th five-year plan, specifying that robots should be used to support society in a wide range of roles, from helping emergency services during natural disasters and firefighting to performing complex surgery and aiding in medical rehabilitation.

Moreover, experts believe that the rise of robot-centric technology happened in three charts. Between 1999 and 2019, the number of papers published by at least one Chinese author in the combined fields of biomedical engineering and robotics increased from 142 to 4,507 and spiked twice during that period, according to data from the Web of Science. One peak was in 2008, two years after a robotic system for minimally invasive operations called da Vinci was first deployed to hospitals in China. The second was in 2017, a year after the first Chinese-designed robot for minimally invasive spinal surgery was approved for sale.

In 2019, the number of da Vinci systems installed in Chinese hospitals that year leaped to 59, up from only 8 installations in 2018. This surge followed a 2018 government push to encourage research on robotics technology and its clinical application, according to Jian-Kun Hu, director of the department of gastrointestinal surgery at West China Hospital in Chengdu. The central government’s plan included an intention to purchase 154 new surgical robot systems by the end of 2020, and a breakdown of how the systems would be allocated nationwide

A Great Push to Medical Robotics During COVID-19

Intelligent robots in China have made a collective appearance amid the coronavirus epidemic with delivery, medical and disinfection purposes, contributing to prevention and control efforts. Experts say that though intelligent robot technology is still in an initial phase, the epidemic has offered a boost to the robot industry.

A food delivery robot with disinfection functions was installed in Zhongguancun Dongsheng Science and Technology Park in Beijing to help deliver food as production gradually resumes. Customers can receive food without direct contact with the robots.

The robot, Segway DeliveryBot S2, can deliver 300 orders per day at eight minutes per delivery. Multiple robots can work together on tasks dynamically optimized and assigned using cloud control to resolve resource conflicts and improve delivery efficiency, according to the company.

Hunan-based Xingshen Tech has developed tailored, unmanned delivery carts for the China Post Group Co which have been set up in multiple cities to conduct package delivery services, including Hubei’s Xiantao City.

One delivery cart can deliver nearly 100 packages per day, according to Xingshen Tech.

Alongside China’s epidemic prevention efforts and its gradually resuming production, the implementation of high-tech factors in the logistics industry will be accelerated.

In addition to delivery services, robots have also been used directly in the fight against the spread of the virus.

Shanghai-based Yogo Robot has rolled out a disinfection robot that can disinfect an area of 100 square meters in as short a time as three minutes, and one such robot can cover 30 floors in a building.

In outbreak epicenter Wuhan, a series of multitasking robots developed by Shenzhen-based Candela Tech were installed in the two newly built hospitals, Huoshenshan Hospital and Leishenshan Hospital, to deliver medical materials and disinfect.

When it comes to application scenarios, robots have epidemic prevention advantages as they can efficiently reduce direct contact among people. The need for contactless delivery and other services has been highlighted during this period.

The post How COVID-19 Catalysed Decades Long Robotics Ambition of China? appeared first on Analytics Insight.

A Comprehensive Guide on Robotics Career

Robotics is a refined application of science, rather technology that proposes to streamline and mechanize the procedures through programmed behaviors that are ensured through computed inputs to the CPU; henceforth ‘robots’ are a computerized concept!

Robots are the future, they are now here. Robots are all over the place! Numerous individuals, much the same as you, are keen on seeking after a profession in robotics technology. Robotics engineers are liable for the design and creation of robots. While the job appears to be clear, the way to a profession in robotics is progressively troublesome. Not all schools offer degrees in robotics or robotic engineering, there are a couple of extra college majors that give students the best ways toward a career in robotics engineering.

Robotics includes far beyond simply “building robots”. To be a robotics engineer, you must have an entire scope of various skills and subject expertise.

Obviously, different jobs in robotics technology don’t include turning into a robotics engineer. You could be a robotics technician, a programmer, or even a robotics operator. Not all of the employment in robotics will expect you to get a college degree. Some are conceivable with the right core subjects at high school.

Subjects for High School Students

At the most fundamental level, there are 2 core subjects which you have to begin in robotics

Mathematics

This is an unquestionable requirement. You don’t need to be John Nash, the popular American mathematician, however, a decent knowledge of algebra and geometry are basic to all of the subjects which make up robotics

Physics (or another science)

It is critical to have a strong comprehension of science if you need to work in any part of engineering. Physics is especially helpful in light of the fact that it gives primary information in energy, electrical circuits, mechanics, material science, and other key subjects for robotics. However, all sciences are valuable as they instruct how to apply mathematics to real-world problems.

STEM

STEM represents the blend of ‘science, technology, engineering and maths’. There is a lot of hype of this abbreviation and even the essential schools across the world are effectively receiving the educational plans that are oriented towards teaching a spirit of innovation, hands-on experience, rational learning abilities, cause and effect relation, inquiry and reform and applicative aptitudes in the children at the inception stage itself.

It is fairly opposing that essential segment schools are discussing the STEM disciplines since children are still little at this phase to try and handle the basics of robotics. However, the significance lies in the educational plans and the architects have recognized basal ideas like lego building blocks, DC batteries and engines and such other less complex ingredients to build up the above mentioned characteristics in the kid in a reasonable way. The focus is accordingly to create robotics oriented thinking in the kid’s mind at the early stage.

Mechanical Engineering

Mechanical engineering is another part of the engineering that assists with an aspect of robotics technology. Mechanical engineering work to design and create, build and test mechanical sensors and devices. In the robotics field, mechanical engineers would be accountable for the physical make-up of a robot. Mechanical engineering courses like mechanics, materials engineering and manufacturing are fundamental to seeing how robotics functions.

Notwithstanding mechanics, materials engineering and manufacturing courses, numerous mechanical engineering courses offer specializations in mechatronics or robotics that enable students to concentrate on the physical design and actuation of a robot.

The individuals who win a partner’s degree may turn into an electro-mechanical technician. In this job, you can work, test and keep up automated and robotic equipment. There are numerous other related positions a person with their partner’s degree can fill, including that of a mechanical engineering technician, industrial engineering technician and mechanical drafter.

Design and Technology

An understudy needs to develop core aptitudes in design and applicative science (technology). While there may not be explicit courses in the primary line academics with respect to the design and technology, there are numerous robotics institutions that offer devoted educational programs to prepare the students toward this path. Through such modules, the student figures out how to condition the technologies according to the application demands of the tech situation. This ability is worked upon the STEM interests and aptitudes grew right off the bat in the youngster.

Computer Science

In spite of the fact that computer science isn’t in the engineering field, software engineering majors offer a comprehension of computing technology and the capacity to comprehend and consider complex issues in technology. Computing technology is an essential piece of robotics.

Computer scientists comprehend the robotic software platforms and are fundamental for exploring significant level programming. While mechanical and electrical engineers focus around the hardware parts of robotics, computer scientists chip away at the programming side. Computer scientists design what has been designated “the brain” of the robots. The brain directs how the robot will decipher the world, its movement and its activities.

Computer scientists manage the motion planning, computer vision and machine learning aspects of robot creation. A lot of computer science courses incorporate points like artificial intelligence and software design. Some even say a foundation in psychology can help with the software engineering part of robotics.

The post What to Study for Robotics? appeared first on Analytics Insight.

Swarm robots and blockchain tokens, enhancing safety and security through collaboration

Swarm robots and blockchain technology are two cutting-edge innovations revolutionizing various industries. A new era of enhanced safety and efficiency is emerging by combining the power of swarm robotics and the security of blockchain tokens. This article will explore how integrating swarm robots and blockchain technology can improve safety and security in various applications.

Understanding Swarm Robots:

Swarm robots are a group of small, autonomous robots that work together collaboratively to accomplish tasks. Inspired by the behavior of social insects like ants and bees, swarm robots demonstrate collective intelligence and self-organization. They can perform complex tasks by communicating, coordinating, and sharing information. Swarm robots have diverse applications, including search and rescue operations, agriculture, logistics, etc.

The Role of Blockchain Tokens:

Blockchain tokens, like cryptocurrencies, provide a secure and decentralized way to record transactions and store information. Blockchain technology ensures transparency, immutability, and tamper-proof records, making it an ideal platform for securing data and digital assets. By utilizing blockchain tokens, swarm robots can enhance their security and integrity, enabling trust and seamless collaboration among the robots.

Improved Safety through Consensus Mechanisms:

Blockchain’s consensus mechanisms, such as proof of work (PoW) or proof of stake (PoS), can play a vital role in enhancing the safety of swarm robots. These mechanisms enable secure decision-making within the swarm, ensuring that actions are validated and agreed upon by most of the network. This consensus-based approach minimizes the risk of errors, unauthorized access, and malicious actions, ultimately improving the safety and reliability of swarm robot operations.

Enhanced Data Integrity and Traceability:

With blockchain technology, swarm robots can securely store and share data. The decentralized and immutable nature of blockchain ensures data integrity, preventing unauthorized alterations or manipulation of information. Additionally, blockchain’s transparent and traceable nature allows for easy auditing and verification of robot activities, ensuring compliance with safety protocols and regulations.

Decentralization and Resilience:

Combined with blockchain, swarm robots can benefit from the technology’s decentralized nature. Unlike a centralized system, where a single point of failure can disrupt operations, swarm robots connected through blockchain can distribute control and decision-making across the network. This decentralization enhances resilience, making the swarm more resistant to failures or attacks.

Conclusion:

Integrating swarm robots and blockchain technology holds immense potential to revolutionize safety and security in various industries. By leveraging blockchain’s security and transparency, swarm robots can collaborate seamlessly, ensuring trust, data integrity, and resilient operations. As these technologies continue to evolve, we can expect to see innovative applications and advancements in swarm robotics powered by the security and efficiency of blockchain tokens.

The post Swarm Robots and Blockchain Tokens: A Secure Combination appeared first on Analytics Insight.

Learn how medical robotics will see robust growth in the next 10 years

The medical robotics business was more sensitive to economic headwinds in 2022 than makers of less costly products due to larger capital expenditures. However, because underlying demand is still quite high, the robot industry will continue to develop until 2030. According to GlobalData, the surgical robot industry will be valued at US$8.6 billion in 2022 and will have increased at an 8% compound annual growth rate (CAGR) to US$15.8 billion by 2030.

GlobalData expects that every segment of the medical robots market will grow over the next decade, driven by high-volume operation requirements. To compensate for personnel shortages and increase service quality, healthcare organisations will increasingly invest in medical robots. Surgical robots enhance patient outcomes, decrease human error, and shorten hospital stays. The combination of cloud computing and artificial intelligence allows medical robots to cooperate and access massive quantities of data indefinitely. New surgical robot models, such as micro-robots to cure difficult-to-treat illnesses, will open up new surgical options.

M&A activity, patent filings, and employment patterns all indicate that the medical robotic business will rebound substantially following a downturn in 2022. For example, medical enterprises completed 60 robotics-related transactions in the previous six months, following the yearly number of medical robotics-related M&A transactions falling from 17 in 2019 to 13 in 2022, reflecting the negative macroeconomic climate.

Robotics witnessed a US$196.6m drop in deal value from 2020 to 2022 but is predicted to recover in 2023. The combination of Globus Medical and NuVasive, as well as the purchase of Spectrum Plastics Group, increased the overall deal value for the year to more than US$5.5 billion.

Minimally invasive surgery, Imaging systems, and Orthopaedics are the three key sectors driving robotics M&A activity in the medical business. Notably, top device firms such as DePuy Synthes, a Johnson & Johnson company, and GE HealthCare are constantly investing in new technologies and devices to expand their robotics portfolios.

According to GlobalData’s Patent Analytics database, robotic-related patent activity in the medical industry increased steadily, rising from 469 new awards in 2016 to 638 in 2022. In 2023, the number of patents continues to rise, increasing by 55% in May compared to April. The leading assignee by number of applications is Intuitive Surgical, a leader in medical robot helpers for less invasive surgical procedures.

Except for CMR Surgical, which is situated in the United Kingdom, the top five robotic patent holders are US-based device businesses. In terms of robotic patent awards in medical devices, the United States leads the pack, followed by China and Japan. The United States also leads in terms of applications, implying higher levels of innovation.

The post How Medical Robotics Will See Robust Growth in The Next 10 Years appeared first on Analytics Insight.

By using robotics, Industry 4.0 transforms manufacturing operations

Industry 4.0 refers to the increasing automation of traditional industries that makes use of important technical breakthroughs such as the IoT, the Internet of Systems, and cyber-physical systems to make factories smarter. Robotics has been essential in advancing Industry 4.0, resulting in increased productivity and efficiency in manufacturing operations.

There are various ways robots is improving Industry 4.0:

Improved Productivity: Productivity has increased dramatically as a result of the use of robots into various manufacturing processes. Robots can do repetitive jobs with greater speed and precision, resulting in shorter manufacturing times.

Reducing workplace injuries: By automating manufacturing processes, robots have eliminated the need for human workers to perform unsafe or hazardous activities, resulting in a reduction in the number of workplace accidents.

Higher quality products: Robotics systems can execute constant quality checks during the manufacturing process, guaranteeing that the products are consistently of the same quality.

Operations optimization: With the integration of robotics, businesses have a greater understanding of their industrial processes. Managers may monitor real-time production performance, use operational data analytics to make educated decisions, and optimize processes.

Cost savings: By decreasing the need for human engagement, automation and robotics help organizations reduce overheads, thus saving money.

The post How Robotics Is Enhancing Industry 4.0 appeared first on Analytics Insight.

Robotic technology allows remote medical treatment in high-risk situations

In the face of emergencies and hazardous situations, timely medical care can make the difference between life and death. However, providing immediate assistance in high-risk environments, such as disaster-stricken areas or infectious disease outbreaks, has always posed a significant challenge. Thanks to advancements in robotics technology, healthcare professionals can now remotely deliver critical medical care in risky emergencies, minimizing human exposure to danger and ensuring prompt and efficient support to those in need.

Researchers have created a game-changing technology for remote medical treatments in high-risk situations. The uncrewed ground vehicle (UGV) used by the medical telexistence (MediTel) technology is robotics-controlled and has VR capabilities. This unique system enables medical personnel to assess and treat seriously injured persons in dangerous settings, therefore offering a safe method for remote triage.

This game-changing robotics tech was created at the University of Sheffield in Sheffield, UK. The researchers successfully developed a fully integrated medical teleexistence system over the course of nine months. The UGV is outfitted with two robotic arms that can remotely manipulate medical devices. The vehicle can complete a key preliminary assessment on a patient in 20 minutes, including monitoring vital signs, palpating the abdomen, and delivering pain treatment through an auto-injector. Data is transmitted back in real-time to the remote operator for analysis.

Field testing has shown that the UGV can correctly identify and triage injuries. The manner that medical triage is carried out in life-threatening situations may be completely altered by this advancement in teleexistence technology. Future aims include improving the technology and developing an integrated medical emergency platform that can be swiftly deployed to humanitarian crises to provide life-saving care.

According to David King, the project’s leader and Head of Digital Design at the Advanced Manufacturing Research Centre (AMRC), the MediTel project demonstrates game-changing technology that can save lives and enable remote evaluation and treatment of victims in high-risk areas. This finding has important ramifications, particularly for humanitarian crises.

The University of Sheffield’s robotics-based remote medical treatment study marks a significant leap in the sector. This technology has the potential to transform medical care in high-risk areas, increasing patient outcomes and, ultimately, saving lives.

The post Robotics Tech Enables Remote Medical Care in Risky Emergencies appeared first on Analytics Insight.

European robotics industry soars with record-breaking investments

Robotics is one of the world’s most dynamic and innovative sectors, with applications ranging from manufacturing and logistics to health care and agriculture. Europe is a major player in the global robotics market, with a strong tradition of research and development, a diverse industrial base, and a growing demand for robotic solutions. This article will examine how the European robotics industry is taking off, reaching new heights of investment, sales, and adoption.

Investment: A Surge of Funding for Robotics Startups

One of the indicators of the vitality and potential of the robotics industry in Europe is the amount of investment that flows into robotics startups. According to The Robot Report, robotics investments for January 2023 totaled US$521 million due to 55 investments. This was a significant increase from the previous month when robotics investments reached US$1.14 billion due to 65 investments. Some of the notable deals in January 2023 included:

Exotec, a French company that develops autonomous mobile robots for warehouse automation, raised US$90 million in a Series C round led by 83North.

Memic Innovative Surgery, an Israeli company that develops robotic-assisted surgical platforms, raised US$96 million in a Series D round led by Peregrine Ventures and Ceros.

UiPath, a Romanian company that develops robotic process automation software, raised US$750 million in a Series F round led by Alkeon Capital and Coatue.

These deals reflect investors’ growing interest and confidence in the robotics industry, especially in warehouse automation, surgical robotics, and software robotics. They also demonstrate the diversity and maturity of the European robotics ecosystem, which boasts startups from various countries and domains.

Sales: A Rebound after the Pandemic

Another indicator of the health and growth of the European robotics industry is the number of industrial robots sold and installed in the region. According to the International Federation of Robotics (IFR), European industrial robots are rising: The European Union’s (EU) 27 member states installed almost 72,000 units in 2022 – up 6% year-on-year. These are preliminary results presented by the IFR in June 2023.

The increase in robot installations in 2022 was a recovery from the decline in 2021 when the COVID-19 pandemic disrupted the global supply chains and demand for industrial robots. The IFR expects robot sales to continue to grow in 2023 and beyond, driven by factors such as digital transformation, automation of SMEs, reshoring of production, and innovation in robot technology.

The top five adopting countries within the EU are Germany, Italy, France, Spain, and Poland. They account for about 70% of all industrial robots in the EU in 2022. Germany is by far the largest robot market in Europe, with about 26,000 units installed in 2022. This was a share of 37% of total EU installations. Germany’s leading industrial robots customers are the automotive, metal, plastic, and chemical products industries.

Adoption: A Shift to Professional Services Robots

A third indicator of the evolution and transformation of the European robotics industry is the type and application of robots adopted by various sectors and users. While industrial robots have traditionally dominated the robotics market, professional services robots are expected to take over in the next decade. Professional services robots perform tasks outside manufacturing environments, such as medical, agricultural, cleaning, construction, or underwater activities.

According to BCG, professional services robots will have sales that may be more than double those of conventional and logistics robots by 2030. The global robotics market is expected to climb from about US$25 billion in 2023 to between US$160 billion and US$260 billion by 2030, with market share for professional services robots hitting up to US$170 billion and industrial and logistics robot sales topping off at about US$80 billion.

The shift to professional services robots is driven by changing consumer preferences and social trends that accelerate the need for advanced robotics solutions. For example, the consumer-driven demand for quicker deliveries of customized products will lead to expanding robot capacity in manufacturing individualization and logistics applications. Meanwhile, aging demographics will increase the need for mobile services robots to assist in personal hygiene, exercise, meal delivery, and other jobs. Increasingly emphasizing recycling and other sustainability measures will require robots to handle complex disassembly and sorting tasks.

The robotics industry in Europe is taking off, reaching record levels of investment, sales, and adoption. The region has a vibrant and diverse robotics ecosystem, with startups, established companies, research institutions, and users collaborating and innovating in various domains and applications. The future of robotics in Europe is bright as the sector continues to evolve and transform to meet the needs and challenges of the 21st century.

The post Robotics Boom in Europe: Record Investments appeared first on Analytics Insight.

Robotics in the time of COVID-19 is performing hand in hand, preventing the spread of the contagious virus.

The advent of robotics technology has influenced and continues influencing every aspect of work and life. In the time of crisis induced by COVID-19, the technology is already delivering improved capability, making it an effective resource in combating the pandemic. Prior to the crisis, robots primarily designed to augment human tasks. Ironically, that capability can be seen today as they help boast humans’ ability in the response to the contagious virus. This also gives a wakeup call to the robotics community that are increasingly developing robots to check human body temperature, and disinfect public places such as airports, hotels, and obviously, hospitals.

Even they are used for delivering foods, medicine and essential things. Robots can also be useful in assisting people to manage such a crisis effectively as they can lower human-to-human contact and provide a front-line tool. During the Ebola outbreak in 2015, the White House Office of Science and Technology Policy and the National Science Foundation organized workshops. They identified three broad areas where robotics can make a difference – clinical care such as telemedicine and decontamination; logistics include delivery and handling of contaminated waste; and reconnaissance e.g., monitoring compliance with voluntary quarantines.

These applications are still being explored in the COVID-19 pandemic, with introducing a new area, continuity of work and maintenance of socioeconomic functions. The pandemic has certainly disrupted worldwide economic activities, as well as open the areas of new technological development. In the field of clinical care, for instance, from research, disease prevention and diagnosis to screening, patient care and disease management are among areas of opportunities.

For example, Open Source Medical Supplies (OSMS) is a company that performs research and disseminates open-source plans for medical supplies. The company provides a curated open-source design library and guidance to support local groups in effectively organizing fabrication and distribution efforts to meet the local demand of COVID-19 supplies. Formed in March 2020, OSMS has brought together a global network of more than 70,000 makers, fabricators, community organizers, and medical professionals working together to meet the unprecedented challenges of medical supply causing by the outbreak of COVID-19.

Robotics can be an effective tool in diagnosis and screening. It has the ability to perform temperature measurement in public areas and ports of entry, limiting the spread of the virus. While screening systems usually use automated camera systems to screen multiple people simultaneously in large areas, embedding these thermal sensors and vision algorithms onto autonomously operated mobile robots can boost the efficiency and coverage of screening.

From macro- to micro-scale robots, these new generations of robotic systems could help navigate high-risk areas by continually screening and sterilizing high-touch surfaces. These robots can free up medical staff in healthcare centers to stay away from patients with infectious diseases by connecting them from far away with their patients, verbally and visually.

Moreover, the outbreak of COVID-19 has given the pace to the development of robotic systems that can be rapidly deployed with remote access without the need of traveling to areas that are under high-risk of the contagious virus.

The post How Robotics Mobilization can Help Manage Infectious Diseases? appeared first on Analytics Insight.

Advances in the field of robotics which is a mix of computer science, mechanical and electronics engineering, and science have implied that machines or related types of automation currently do the work of humans in a wide range of settings, for example, medicine, where robots perform medical procedures previously done by the surgeon’s hand. Robots have made it simpler and less expensive for employers to complete work. The drawback, in any case, is that some sensibly well-paying jobs that gave white-collar class work to people have become the area of machines.

The present workforce faces various challenges that employees even 10 years back didn’t need to consider, fighting with virtual colleagues (bots, automation, artificial intelligence), the beginning of a near 24-hour work cycle, greater levels of demands (both internal and external) thanks to social media.

Fortunately, there are alternative perspectives on how robotics will affect our businesses. The overwhelming conclusion of industry specialists is that automation doesn’t spell the end of gainful employment for humans, but instead, the improvement of employment opportunities.

There is clear proof that points towards robotic automation much of the time being a supplement for human work, instead of an immediate substitute. As progressively mundane tasks are automated, human effort turns out to be increasingly significant as it is centered around more significant level tasks, creativity, know-how and thinking,” says David Whitaker, Managing Economist at Cebr. “Robots are about efficiency, they don’t do creativity well overall and they don’t do things that include failure, which is at the core of any design process.”

The standard case of a work supplanting technology is robots in car manufacturing plants. Assembly lines, once consisting of a progression of stations where five or six laborers were liable for introducing or connecting a particular vehicle part to a frame before it went to the next station, frequently now include a progression of robotic appendages in place of humans.

Today, this technology has to a great extent replaced direct human effort in building a vehicle. History is packed with instances of these work uprooting technologies. New innovations, for example, the computer this piece was written on, have to a great extent dispensed with a few occupations that were once normal in the twentieth century, for example, the typing pool.

If advances in artificial intelligence (AI) and automation are intensely weighted towards these kinds of technologies, as some anticipate, the potential for generous dislodging of laborers and further disintegration of the labor share is very high. However, this is far from unavoidable. The advancement of technologies that encourage new tasks, for which people are more qualified, might potentially lead to improved future for laborers.

While the widespread introduction of computers into workplaces positively dislodged a large number of secretaries and typists, the new assignments in related enterprises implied new occupations, including computer technicians, software developers, and IT consultants.

Today you have a remarkable opportunity to be increasingly productive, engaged and satisfied than at any time in history. Rather than gazing at your PC screen blankly, you can play a determinedly dynamic role in the business.

In case you’re a company leader, you face a chance to not just train your employees to oversee through the difficulties, yet additionally, inspire them. Rather than generic platitudes and occasional mandated morale boosters, you can be imaginative and free in your thinking. You can offer true leadership by setting a model and easing the anxiety of what the future may hold.

Beyond AI, redesigning and repositioning the workforce implies considering other technologies that will influence your employees. Consider making new working structures and working models that will improve any outcomes you see from automation, for instance. This will require executing new procedures and models through cautious, strategic and thoughtful change planning.

Remember that change isn’t just about technology. It’s about individuals. That is the reason to have leadership and coaching programs completely critical to setting up a workforce of the future. Solid leadership establishes the pace for the future, helps build trust and eventually leads to creating a corps of competent, engaged workers. When you’ve built up solid leadership and coaching programs, you’ll have to build up a clear strategy to support another culture of leadership with continuous engagement and digital campaigns. This is your chance to move from the normal to the extraordinary.

The long-run implication of technological advances for the labor market is, now, obscure. The fate and despair that regularly goes with analysis about the future of work is presumably quite untimely. Technology displaces jobs. However, it additionally makes new jobs and frequently in unpredictable ways. Humans are underrated. The dreaded adverse effect of AI and robots on the working environment is likely enormously exaggerated. Many of the most possibly transformative advances will, in any case, require a human touch.

The post Robots Changing the Way We Work Today appeared first on Analytics Insight.

Robotics carves out a niche space for itself in the growth of the Country. It has surfaced as India’s most promising and fastest-growing technologies. Offering customised industrial solutions to monotonous or difficult tasks. Robotics is bringing a new dimension to business transformation, and recognising its contribution to Industry 4.0, Analytics Insights brings the Top 10 Robotics Companies and their Salaries for July 2020.

1. GreyOrange

GreyOrange, founded in 2011 and headquartered in Singapore with offices in India, Hong Kong, UAE, Germany, and Japan, designs, manufactures and deploys advanced robotics systems for automation with combined expertise in robotics, hardware, and software engineering to solve operational inefficiencies in warehouse operations at companies with in-house logistics functions and third-party logistics vendors. With in-house Mechanical, Electrical, Embedded, UI/UX, Software department and quality assurance teams.

GreyOrange houses over 35% of employees work in the state-of-the-art Research and Development center in Gurgaon, with a client list that includes, Flipkart, PepperFry, Jabong, Myntra, Aramex, DTDC, Delhivery, among others.

GreyOrange – Average Base Salary Range in (INR)
Senior Software Engineer	15,00,000-16,00,000
Software Developer	9,50,000-10,50,000
Software Engineer	11,10,000-11,50,000
Mechanical Design Engineer	11,10,000-11,50,000
Firmware Engineer	8,50,000-9,50,000
Senior Manager	28,00,000-28,50,000
Software Engineer, Backend	9,00,000-9,50,000

2. KUKA Robotics (India)

KUKA Robotics (India) incorporated in India in May 2006, is under the parentage of the KUKA Robot Group. KUKA India’s key clientele includes automobile, engineering and non-engineering companies

KUKA Robotics (India)’s domestic operations headquarters are located in Gurgaon along with a state-of-the-art service and training centre in Pune. It is one of the world’s leading suppliers of industrial robots with core competencies in the development, production and sale of industrial robots, controllers and software.

KUKA Robotics (India) – Average Base Salary Range in (INR)
Sales Manager	17,00,000-19,50,000
Senior Engineer	6,00,000-7,50,000
Customer Service Engineer	2,50,000-3,50,000
Assistant Sales Manger	2,50,000-3,50,000
Trainee	1,25,000-1,75,000

3. PARI

PARI is amongst the largest global automation companies with over 970+ employees and 8 facilities worldwide. A complete solution provider, PARI’s salary estimates range from conceptualizing, designing, manufacturing, implementing and supporting advanced factory automation systems. It provides its customers with custom solutions they need to enhance their productivity and achieve their manufacturing goals.

PARI – Average Base Salary Range in (INR)
Mechanical Design Engineer	3,50,000-4,50,000
Design Engineer	3,50,000-4,50,000

4. FANUC INDIA

Founded in 1992 with its headquarters in Bangalore, FANUC corporation offers state-of-the-art CNC Packages with digital servo technology that are highly reliable with user-friendly operator and maintenance interfaces. The robotics company deals with software, controls, and vision products that aid in the development of robotic systems. FANUC corporation enjoys a leadership position in the Indian machine-tools industry and offers tailored robotic solutions to meet an enterprise’s automation needs.

FANUC INDIA – Average Base Salary Range in (INR)
Assistant Manager -Service	13,00,000-14,50,000
Applications Development Engineer	5,00,000-5,50,000
Software Engineer	4,00,000-5,00,000
Senior Software Engineer	8,00,000-9,00,000
Applications Engineer	5,50,000-6,50,000
Manager	16,00,000-18,00,000

5. Systemantics

Systemantics was founded in 1995 by Dr. Jagannath Raju, and is headquartered out of Bangalore, India. The company has accomplished several innovations in robotics and industrial automation such as underwater robots and walking machines and Its current focus remains on the manufacture of high-quality industrial robots with design innovations that facilitate affordable solutions and a faster ROI.

Systemantics develops robots as products with its first offering being a 6 DOF hybrid robot, which is under Beta testing, is aimed to target machine tending application in the modern enterprise.

Systemantics – Average Base Salary Range in (INR)
Project Engineer	9,00,000-10,10,000
Project Engineer, Embedded Systems	3,00,000-3,50,000
Commercial Producer	9,00,000-10,50,000

The post Top Robotics Companies and Salaries in India In July 2020 appeared first on Analytics Insight.