Top 10 Agricultural Robots Revolutionizing Farming in 2021

Agricultural Robots

Agricultural robots are assisting thousands of food production companies to meet growing market demands.

The growth of the global population has put agricultural companies in a difficult position. The drastic rise in population requires doubling agricultural production to meet the coming demand. They have to produce more food to satiate the dietary needs of the billions of people in the world. Crippling labor shortages threaten the survival of farmers in many countries. This need has caused farmers and food manufacturers to turn to robots and autonomous machines for the coming future. With the help of robots and these machines, farmers can track weather changes, precipitation, pest infestations, and many more. In this article, we have listed the top agricultural robots that are changing the idea of farming in 2021.

Ecorobotix: This fully autonomous drone is powered by the sun and also has a lightweight GPS tracker. The robot uses its complex camera system to target and spray weeds. Its precise arms enable the use of 90% less herbicide, making it 30% cheaper than traditional treatments. The machine can cover three hectares of land per day. The robot’s upper part is covered with photovoltaic solar panels that provide a steady energy supply.

Energid Citrus Picking System: This robot is perfect for citrus fruits businesses. It is a robotic citrus harvesting system with costs that are comparable to that of human labor. The robot uses low-cost picking mechanisms organized into a grid. The gridded picking mechanisms are simple and efficient to use. The systems can pick a fruit every 2-3 seconds, making operations time-saving.

Rubion: A Belgium-based robotics company launched a fully autonomous strawberry picking robot called Rubion. The machine can navigate through greenhouses or agricultural tunnels and detect and pick up ripe strawberries. The fruit is picked without bruising, and then the system weighs the pieces and places them in the designated box. Rubion can also predict the next harvest by analyzing the crops and helping farmers to plan their operations efficiently.

  • A ROBOT CAN NOW DELIVER VACCINE WITHOUT A DOCTOR NOR NEEDLES
  • WATCH OUT FOR THE TOP 10 ROBOTICS PROJECT IDEAS FOR ENGINEERING GRADUATES
  • 10 DIFFERENT PROGRAMMING LANGUAGES TO USE IN ROBOTIC PROJECTS

SmartCore: SmartCore is an autonomous robot that navigates the fields and takes samples from specific locations. The machine is steered by obstacle-detection algorithms and GPS to take samples from specific locations. Once the sample is taken, SmartCoire transports it to the edge of the field for shipment to a lab. Another major benefit of using this robot is that it uses a self-cleaning hydraulic auger to ensure the samples are accurate and shows the ground composition.

Blue River LettuceBot 2: It is a precision thinning system extensively used by lettuce growers. With its imagining system, the LettuceBot 2 is a popular tool in the agricultural world that attaches itself to a tractor to thin out lettuce fields and prevent herbicide-resistant weeds. Additionally, due to its precision, the farmers can use 90% less herbicide on crops.

Fendt Xaver: It is a technology that enables farmers to deploy a swarm of small robots in a field, which are then directed to fulfill a particular task. The robotic system consists of several parts. It uses also satellite-based navigation to relay their exact position, helping operators to optimize plating operations. Fendt’s field robotic system is energy efficient due to its low weight and low-maintenance origin.

SwagBot: One of the key qualities of this robot is that it is operated by AI software that runs the machine instead of the previous remote-controlled system. It can not only identify and eradicate weeds but also of monitoring pastures and crops. SwagBot is specifically designed to fit the needs of smaller farms.

Mamut: Mamut is an AI-powered autonomous robot that maps and navigates the natural environment with a stereo camera, an AI system, lidar, and a compass. The device is equipped with inspection sensors and six 360-degree cameras, one of which is a multispectral imaging camera. Mamut moves through the farm to collect visual data and build maps to help farmers spot plant diseases, and also choose the optimum time to harvest.

PrecisionHawk: The PrecisionHawk UAV systems are accompanied by remote sensing technologies, and advanced data analytics to improve business operations and day-to-day decision-making. Its drones are capable of ariel photography and agricultural mapping that helps the farmers to fulfill their crop scouting needs.

FarmWise: FarmWise is an autonomous robot that uses AI-controlled mechanical parts to remove weeds. The machines rely on deep learning algorithms to spot their target and avoid harming plants. The machines can operate without the use of herbicides, helping farmers meet customer expectations.

The post Top 10 Agricultural Robots Revolutionizing Farming in 2021 appeared first on Analytics Insight.

How are Robotics Applications Gaining Popularity with Metaverse Technology?

 Robotics Applications

Metaverse technology has created an open space for rendering robotics applications

Metaverse is a parallel universe of a virtual world with the recent grand entry of Meta CEO, Mark Zuckerberg. The metaverse technology offers an immersive experience where anyone can visit with a smart glass or virtual reality headsets in a virtual or computer-generated universe. This online 3D virtual environment consists of multiple robotics applications with different kinds of robots. Robotics in Metaverse has recently started gaining popularity for their smart functionalities. Let’s explore how these robotics applications are gaining popularity with Metaverse technology.

Robotics Applications with Metaverse Technology

Meta is focused on developing a thin and replaceable robotics skin that can allow robots to feel objects and environments in the tech-driven future with the Metaverse technology. This robot is a combination of rubbery plastic (less than three millimeters thick) and magnetic particles with the integration of artificial intelligence to help it feel through the sense of touch. The plastic in this robotics application deforms and modifies the magnetic field after the robotic skin touches any surface.

There is a first-ever metaverse robot system in China with the integration of cutting-edge technologies like digital twin, augmented reality, virtual reality, artificial intelligence, IoT, and many more. These technologies are focused on creating the Metaverse with multiple robotics applications. There is a major pillar of metaverse technology with different levels— holographic construction, holographic simulation, and the integration of virtual-real worlds. This metaverse robot system helps to connect and integrate virtual and real robots that are displayed synchronously.

A San Francisco-based platform known as “Unity” is focused on designing and training to metaverse through robotics applications and artificial intelligence. Hundreds of sensors and simulations can test software against immersive realistic and virtual worlds while teaching and training robots in a cost-effective manner.

Metaverse technology is growing at a rapid pace with a lot of immersive experiences, environments, and entities in a virtual world with the physical world. It is expected to be the future of the internet with interactive groups of the virtual world acting as the physical world and persistent in nature. NVIDIA Omniverse is present to create and connect two worlds within the metaverse with 3D assets and scene descriptions while Microsoft is working to build an enterprise metaverse. It is speculated that metaverse is suitable for training robots for efficient and effective robotics applications.

The post How are Robotics Applications Gaining Popularity with Metaverse Technology? appeared first on Analytics Insight.

Robotics and Automation in Federal Government

Robotics

Robotics and automation influence the federal system big time

Government agencies are undergoing transformations in order to become more effective and efficient. Many public sector organisations are hierarchical and they operate on command-and-control concepts and are also labour-intensive but, more often than not they do not adequately utilise digital technologies for managing routine activities, as they were designed for industrial-era operations.

High costs, unresponsive organisations and public unhappiness are the results of this. People believe that the government is bloated and inefficient, and that it does not serve the public good. They are concerned about the government’s ability to address emerging difficulties in public health, school, transportation, trade, and national defence.

What is Robotic Process Automation?

Robotic process automation consists of software or techniques that allow routine administrative chores to be automated. It creates rules for processing paperwork and uses a sequence of “if/then” decision making to complete tasks according to those rules. The technology can pay invoices, process claims, and execute financial transactions after certain requirements are met.

Travel reimbursements, data collecting, and claim processing have all been done with digital tools, as have administrative adherence and invoice processing. Chatbots that can answer typical questions, such as determining opening and closing hours, detailing how to exchange damaged things, or assisting with submitting complaints, are also included, freeing human workers from having to ask the same questions repetitively.

RPA tools have been used to save money and time in the past. KPMG collaborated with a technology firm to create a digital initiative that enhanced financial invoicing processing. Instead of manually handling hundreds of thousands of invoices, it created a programme that automatically filled in crucial information and corrected errors as needed. As a result, the company was able to save money and increase production by up to 70%.

Another example is PwC’s collaboration with Boston Scientific to automate portions of the company’s tax and finance activities. It was able to automate multiple different activities after analysing a number of frequent transactions and data-entry processes. PwC claims that this procedure cut overtime, increased productivity, and conserved around 3,900 person-hours annually. According to the company, this resulted in increased staff and customer satisfaction.

What is Intelligent Automation?

Intelligent automation (IA), also referred to as cognitive automation, is a kind of RPA that integrates AI, machine learning (ML), and natural language processing (NLP). This can include data analytics as well as more advanced types of analysis. IA is a dynamic system that is based on algorithms that can learn and modify as they gather experience. These technologies, rather than being mechanical or static, can comprehend data and make judgments that go beyond mere rule application.

Analysing agency hearing materials for subjects, processing complaint logs, and controlling customer satisfaction are all examples of IA. Data analytics may track agency efficiency, and IA technologies are a subset of solutions that represent a means to understand data in an increasingly complex and efficient manner. Because a lot of public data is unorganized, IA is well-suited to deciphering text or picture information that isn’t formatted consistently or isn’t well-organized.

Examples of Federal Government Usage

RPA tools are being implemented by a number of federal entities. More than two dozen government departments are actively using RPA, as per the General Services Administration’s 2020 RPA Framework. Purchases, automated payments, trip payments, and activity recording are just a few of their applications.

Food and Drug Administration

Workers at the FDA’s Centre for Biologics Evaluation and Research found themselves increasingly working, setting up meetings and doing the same activities over and over again. They used RPAs to automate tasks such as prescription intake forms for pharmaceutical companies. Thousands of these forms were received each week by the centre, which required a considerable time to process. The firm now uses RPAs to create bots that gather data and input application materials. It also employs machine learning and natural language processing to do regulatory reviews and risk assessments. This saves time for workers and helps to focus on higher-level tasks other than paperwork.

Social Security Administration

The social security administration used to receive 20,000 returned supplemental security income payments annually, which needed an average of three minutes to process. Employees were able to decrease their processing time to 3 seconds per transaction after installing an RPA system.

Treasury Department

RPAs are being used by this department to improve financial monitoring systems. The agency uses “standardised solutions that improve financial integrity and operating excellence across government,” as per its officials. This allows it to increase its management resources while also reducing financial reporting and analytical errors.

Defense Logistics Agency

The agency is currently working on 111 automation projects in order to reap the benefits of RPA. Most of these include the automation of post-award agreements, such as requests for renewals or legal agreements. DLA is automating these operations so that humans do not have to manually react to each request for hundreds of hours. Its bots are particularly adept at “comparing data from numerous systems to check for discrepancies and errors,” as well as “updating sales orders and payments.”

Conclusion

The federal government, on the other hand, offers RPA and IA prospects. A number of agencies have already begun to use new RPA software, and they have reported favourable results. Each one exemplifies a method for increasing worker productivity and streamlining administrative processes. These programmes have been shown to save workers time and reduce data errors. As long as they don’t add biases, lack accountability, or fail to follow federal privacy and security policies, their adoption and implementation brings clear advantages to agency operations.

The post Robotics and Automation in Federal Government appeared first on Analytics Insight.

Top 10 Robotics Questions and Answers to Ace Your First Interview

Robotics

Robotics is becoming increasingly popular as a career choice among tech enthusiasts.

Robotics is a fast-growing industry. In the past decade, the industry has witnessed the innovations of several state-of-art technologies, tools, and applications that are currently deployed in defence, manufacturing, retail, and other industries. A large number of investments are recorded in the robotics domain because of the increase in demand. Surveys reveal that investments in the new car production capacities and modernization of industrial spaces are driving the demand for robots. There is also an increasing number of medical robot systems that are assisting doctors during surgeries and in other critical tasks. To create these futuristic machines, tech and robotic companies are hiring professionals who have the talent and skills to think beyond the ordinary. This rising demand for talented robotics professionals is also driving several young tech enthusiasts towards this field. So here, we have listed below 10 robotics questions and answers that can help the aspirants ace their first robotics interview.

What do you understand by robotics?

Robotics is a combined branch of engineering and science and deals with the study of the development, operation, and creation of intelligent robots. Also, robotics is a part of artificial intelligence. Robotics is generally used for the development of machines that can perform complex human tasks efficiently.

What is blue prism’s robotic automation?

In RPA, the blue prism is a set of tools that includes libraries and runtime environments. It primarily has two parts: one or more business objects that interact with the user interfaces and a process that contains the logic to drive the robot.

What do you understand by a humanoid robot?

In simple words, a humanoid robot is a robot that overall looks like a human being. These robots might have human-like features and facial expressions. There are mainly two types of humanoid robots. They are android humanoids that are built to resemble a male body and gynoids humanoids that are made to resemble a female body.

  • ROBOTICS AND AUTOMATION IN FEDERAL GOVERNMENT
  • HOW ARE ROBOTICS APPLICATIONS GAINING POPULARITY WITH METAVERSE TECHNOLOGY?
  • TOP 10 AGRICULTURAL ROBOTS REVOLUTIONIZING FARMING IN 2021

Why do we implement artificial intelligence in robots?

AI is a technology that can develop intelligent devices to work and react as human beings. AI technologies include speech recognition, learning, problem-solving, and planning. Implementing AI will make a robot intelligent, which can perform complex tasks like sensing the environment and reacting accordingly.

Mention a few sensors used in a robot.

There are many types of sensors used in a robot, like light sensors, photo-resistor sensors, sound sensors, temperature sensors, proximity sensors, infrared transceivers, ultrasonic sensors, acceleration sensors, and navigation sensors, to name a few.

What is robot locomotion?

Robot locomotion is a group of methods that a robotic machine uses to transport itself from one place to another. There are different types of robotic locomotion like walking, rolling, running, hopping, swimming, slithering, and hybrid.

What do you understand by a microcontroller? And is it important in robotics?

A microcontroller is a small programmable integrated chip that is used in embedded systems. It consists of a processor, memory with I/O peripherals. In robotics, a microcontroller is used as a brain for the robot. It gives instructions to the robots to perform all their tasks.

What is a servo-controlled robot?

A servo-controlled robot works on the servo mechanism. Servo motors are driven by signals rather than by straight power-line voltage. Servos are generally used in the steering systems of autonomous vehicles, which enables the robots to change their speed at any point in time.

How can we determine the degree of freedom in robotics?

The degree of freedom in robotics depicts the freedom of movement of the mechanical parts of the robot. It defines the modes by which the machine can move. The degree of freedom can be determined as the number of movable joints in the base, the arm, and the end effectors of the robot.

What is a pneumatic system in robotics?

A pneumatic system is used to drive a machine by using compressed gases. In robotics, servo motors and electric motors can be replaced by a pneumatic system. The system consists of a cylindrical piston that can move in up and down directions to create pressure.

The post Top 10 Robotics Questions and Answers to Ace Your First Interview appeared first on Analytics Insight.

Top Robotics Moments in 2021 to Remember Forever

Robotics

Robotics moments in 2021 that made immense contributions to the tech-driven market

Robots have shown some incredible developments in their smart functionalities and reflexes through the integration of robotics, NLP, and artificial intelligence. Robotics applications of 2021 are helping multiple industries to work efficiently with automation in different departments like supply chain, inventory management, customer services, warehouse assistance, and many more. There have been multiple robotics moments in 2021 that are impossible to forget for the immense contribution to the tech-driven market. Robots are thriving in the global market while transforming the future efficiently and effectively. Let’s explore some of the top robotics moments in 2021 to remember forever.

Top robotics moments in 2021

India’s Shalu

Shalu is the first female humanoid robot created in India by Dinesh Patel, a computer science teacher in Kendriya Vidyalaya, IIT Bombay in 2021. This robotics application has made India proud with its smart functionalities such as speaking 47 languages, educational features, face recognition, flexible hands, and many more. Robot Shalu has grabbed the eyes of the world as the first social and educational Indian humanoid robot that is developed from 100% discarded waste materials. This is one of the top robotics moments in 2021, especially for India.

River/Ocean robots

Multiple robotics companies were successful in developing robots that work underwater to fight ocean plastic, collect real-time data, protect fossils, maintain structures, and many more. This is one of the top robotics applications of 2021 to maintain and preserve underwater living beings or objects efficiently without harming any human employee while diving into more inner depth.

Moley robotic kitchen

The world was surprised to see a US$340,000 worth robotic kitchen to make and cook food from one of the top robotics companies known as Moley Robotics. This is one of the top robotics moments in 2021 that can provide a full cooking procedure while homeowners can relax after a hectic day. There are robotic arms that help the robot to utilize pots and other utensils for a delicious meal and also clean up the kitchen mess. The culinary experience is guaranteed to provide restaurant-level means with a 3D live recording.

Robot dog

One of the top robotics moments in 2021 was the launch of a robot dog known as Spot from Boston Dynamics. This agile mobile robot helps in automating sensing, inspection, and collecting real-time data frequently and safely. It can carry up to 14kg of equipment with 2.4 GHZ Wifi.

Dancing robots

Boston Dynamics released a groovy video of dancing robots that went viral to become one of the top robotics moments in 2021. Three robots, known as Atlas, Spot, and Handle, were grooving to 1962 hit “Do you love me?” by The Contours in a three-minute video. Two humanoid robots named Atlas, a yellow robot dog named Spot, and an ostrich-like mobile robot known as Handle showed humanistic dance steps that amazed the entire world.

Samsung Bot Handy

Samsung is one of the top electronics brands in the world with huge customer loyalty. This company has created one of the top robotics applications of 2021 with the launch of Samsung Bot Handy at CES 2021. This robot is known as a home-improving robot with smart functionalities such as loading a dishwasher, completing laundry, and many more. It is the moving extension of a smart kitchen in this tech-driven market where owners can enjoy their free time and let the Samsung Bot Handy do all the kitchen work.

The post Top Robotics Moments in 2021 to Remember Forever appeared first on Analytics Insight.

Top Key Trends in Robotics to Rule the Tech-Driven Future

Robotics The global tech-driven market is ready for top key trends in robotics

Humankind is heading towards a future where robots are a bit scary. Although it is hilarious to watch a robot fall, deep down in our hearts, we wonder what if the robot develops complexity and starts World War III. Robotics is a branch of engineering that involves the conception, design, manufacture, and operation of robots. The sector somehow overlaps with electronics, computer science, artificial intelligence, nanotechnology, mechatronics, and bioengineering. In a nutshell, robotics is a mixture of many concepts and ideologies.

The history of robotics is traced back to the 15th century. Humans have been aiming for a robot model for quite a long time now. Leonardo’s robot is seen as the first-ever robotic model constructed by a human. Travelling forward in time, today, we have robots on the moon and our nearby planet Mars. Besides, human-robot interaction and bonds are also significantly intensifying. Even though men see robots as a threat to their own kind, he still doesn’t want to give up on something that could drastically ease his job. Besides, humanoid robots that look like humans are also invading the tech space. For example, Sophia is the world’s first robot citizen and the first robot Innovation Ambassador for the United Nations Development Programme.

Top trends in robotics

By infusion technologies like artificial intelligence and computer vision, robots are developing peculiar talents that allow them to master difficult tasks

One of the major adopters of robotics is manufacturing factories. Many factories pioneer smart factory solutions by utilizing industrial robots through assembly lines that have dominated traditional industrial production for more than 100 years.

The eCommerce industry is heating up recently. Between January and June 2021, online shopping jumped more than 30% compared to previous years. Therefore, eCommerce retailers are seeking new ways like chatbots to offer a truly immersive shopping experience.

Robotics is being deployed at the supply chain to boost efficiencies in warehouses and distributions centres. Besides, the supply chain sector is also aiming to automate at least a portion of its logistics operations.

Collaborative robots, or cobots, work alongside humans and have slowly and steadily become a crucial component of the factory workforce

The post Top Key Trends in Robotics to Rule the Tech-Driven Future appeared first on Analytics Insight.

How is Robotics Helping India Get a Better Future?

Robotics

Robotics is helping India advance in all the ways possible

Robotics will eventually play a key role in India’s “Make in India” strategy, which aims to persuade global businesses to invest. India’s position as a true hub of robotics talent is due to this. At this time, the whole population and their daily life are centred on the internet. Everything from buying to schooling to vacation planning can be done with just a few clicks on smartphones and laptops. No one could have predicted digital life a decade ago, and the same can be said for robotics. Its true talent and power are poised to advance a wide range of field interests.

The Bigger Picture

A robot can help you, interact with you, and even take your place if necessary. Robotics can produce a personalised machine that can do anything when combined with machine learning, deep learning, computing, and the correct software application. Years ago, processing power and artificial intelligence couldn’t keep up with the speed of robots or the potential of robotics. However, new technology, an upgrade in India’s academic franchise, and robot training in Pune will allow robots to be what they were intended to be in the past.

Robots are present in every aspect of life, including your house, schools, colleges, malls, and manufacturing facilities. Robotic machines have taken over warehouse occupations that were formerly perilous and risky for workers. Warehouse automation is expected to increase at a CAGR of 10-12 percent in India, according to the government.

The Employment Scope in Robotics

Unemployment is a major concern for Indians, and robotics technology has the potential to reduce the number of jobs available. On the plus side, robotics will open up more golden chances for entrepreneurs in India, which already has a thriving start-up culture.

Robotics will not only revolutionise our lives, but it will also broaden the scope of progress, luxury, and necessity. It has quickly absorbed the top industries, including manufacturing, pharmaceuticals, packaging, FMCG, and inspection. Education, defence, and transportation are three of the most promising fields. Experts feel that robotics will inevitably become an integral component of our civilization.

Will Robots Replace Indians at Work?

The answer lies in our plans for robot use. Instead of focusing on robots that are likely to completely replace us at work, Indian officials should consider encouraging the usage of robots that help us make our professions more effective. The United Nations Conference on Trade and Development has also underlined the serious potential of robots replacing people. According to a 2016 report, although robots endanger up to two-thirds of jobs in underdeveloped countries, they will also create new job prospects. Let’s not forget about the externalities at play. In the not-too-distant future, robots will be able to lower manufacturing employment costs to the point where plants will be re-shored from their current low-labour-cost offshore sites.

In some application domains, nevertheless, we would want robots to completely replace us as quickly as possible. Manual scavenging is among them. A Sepoy Sewage Tank Robot was built by a team from IIT Madras, which employs high-velocity blades to cut through septic system sludge and an air compressor to suction it out. This Indian robot costs a quarter of what a comparable imported robot would. Bandicoot, a scavenging robot, was operated to clean the drains in Thiruvananthapuram a few years ago. In various sectors of the economy, we must examine the benefits and risks of robotics. India has been effective in identifying key sectors such as healthcare, agriculture, schooling, smart cities and facilities, and smart transportation where AI technology, including robotics, may benefit the country. Artificial intelligence has a huge economic potential, according to NITI Aayog, which estimates that by 2035, AI would add US$1 trillion to the Indian economy. While Indian politicians have been busy, so does the Indian robotics start-up sector.

Challenges to Commercial Success

Indian robotics firms confront the same challenges that have historically plagued entrepreneurs in a variety of industries, both tech and non-tech. The vast quantity of paperwork involved in importing hardware devices into India is a major barrier.

Indian robotics development is further hampered by a scarcity of competent manpower in critical design and engineering fields. Other limitations include a small domestic industry for robotics in India and a limited investment base.

The Robotics Society of India, for example, is working hard to overcome these issues and increase the profile of Indian robotics enterprises among the country’s government, corporate, and financial leaders. The success of these efforts will be critical in deciding the Indian robotics sector’s long-term success.

Final Thoughts

India is a production and manufacturing powerhouse. Under the “Make in India” strategy, companies with innovative and automated technologies will assist meet global requirements and set a new international benchmark. As a result, robotics technology use is expected to skyrocket in the future years.

The post How is Robotics Helping India Get a Better Future? appeared first on Analytics Insight.

Top Industries Where Robotics Will Get Mainstream Adoption in 2022

Robotics

Mainstream adoption of robotics in 2022

With the ongoing advancement of robotics, the only way 2022 is going to be is through further implementation of robotics in several industries. Here are the top industries where robotics is likely to get mainstream adoption in 2022.

Health Care

Advances in robotics have the potential to change a wide variety of health care practices, such as surgery, rehabilitation, therapy, patient companionship, and everyday activities. Robotic instruments used in health care are not designed to take over the duties of health care professionals, but rather to make their work easier. The da Vinci Surgical System, for example, utilizes the hand movements of the operating surgeon to control tiny, precise instruments inside the patient’s body. This allows for minimally invasive procedures in surgeries such as cardiac, colorectal, gynecologic, head and neck, thoracic, and urologic. For patients who have suffered strokes or spinal cord injuries, or who are paralyzed, robotic devices such as exoskeletons have the ability to assist and guide them during rehabilitation. In addition, robotic lifting machines can help nurses lift patients who are elderly or immobile. Companion and therapeutic robots such as Paro can also comfort patients with mental health issues with a system of sensors, microphones, and cameras.

Agriculture

To help increase productivity while lowering overall costs, the agriculture industry has been actively working to adopt different forms of robotic technology. Farmers have already been using tractors and harvesters that are self-guided by GPS. Recently, there has been a rise in the experimental use of autonomous systems that automate operations like pruning, thinning, mowing, spraying, and weed removal. Sensor technology is also being utilized to manage pests and diseases that affect crops.

Food Preparation

One of the more extravagant advancements in robot technology will soon be available in the kitchen. Automated and intelligent robots — such as those invented by Moley Robotics — will be able to prepare and cook hundreds of meals in a home kitchen. This robotic chef will be controlled via a smartphone, and once the controller chooses a recipe and arranges pre-packaged containers of cut and prepared ingredients, the robot will be able to cook the predetermined meal quickly and efficiently. Moley Robotics is also developing a consumer-friendly version of a robot kitchen, which will include a built-in smart dishwasher and refrigerator.

Manufacturing

Robotics is being used in many aspects of manufacturing to help increase productivity and efficiency while lowering production costs. Similar to the health care industry, many robots in manufacturing collaborate with workers to perform repetitive, monotonous, or intricate tasks under the worker’s guidance and control. With these machines, precision is valued more than speed, as is the ability to be reprogrammed for specific tasks of different sizes and complexities. Robotic manufacturing technology is also becoming safer to operate. Cameras, sensors, and automatic shut-off capabilities enable robots to sense and stay clear of humans in the workplace.

Military

In the military and public safety sectors, robotic technology is being applied in many areas. One highly visible area involves unmanned drones. These machines can be used for surveillance and support operations on the battlefield. Military drones flying over areas of war and conflict, in hostage situations, and for natural and manmade disasters are able to assess danger levels and provide soldiers and first responders with real-time information. Drones are revolutionizing disaster response since they can access hazardous areas with greater speed and precision without placing human responders in harm’s way. Robotic devices are already establishing a wide presence in several commercial industries. As robotic technologies become more affordable, they will soon be available in various forms for consumers as well, with the ability to impact our lives in countless ways.

Finance Industry

Robotic Process Automation (RPA) is highly considered essential in the finance industry to provide the best possible user experience to its customers. According to Grand View Research, the global robotic process automation market size is expected to reach USD10.7 billion by 2027, expanding at a CAGR of 33.6% during the period 2020 to 2027. Major banks like Citibank, Bank of America are using robotics to provide superior service and security. For instance, Bank of America has introduced Erica, a chatbot which provides that provides financial guidance using predictive analytics and cognitive messaging.

Mining industry

Applications of robotics in mining are broad and include robotic dozing, excavation, and haulage, robotic mapping and surveying, as well as robotic drilling and explosives handling. They are made with a desire on the part of miners to improve productivity, safety, and lower costs, but also out of a need to meet product demands by accessing orebodies situated in increasingly challenging conditions.

Retail and Supply Industries

Robotics has already transformed Distribution Center (DC) operations with their incredible speed and accuracy of order picking. Amazon has stated that its operating costs have come down by 20 percent.3 C&S Wholesale Grocery employs robots in its warehouses to pick orders, and Walmart uses drones in its warehouses to monitor out-of-stocks and accurate slotting. The new generation of robotics, automation tools, and technologies have the capabilities to support zero-defect logistic processes to achieve new highs in productivity. The Effi-BOT, for example, is a fully automated trolley deployed by DHL Supply solutions. From single- to multi-order picking, it creates a more efficient and interactive process to track complex inventory movements and handles pickers’ manual work in the warehouse. The use of robots in the logistics and supply chain enables retailers to achieve sizeable savings from stock-out shortages and losses, and shrinkage due to administrative errors. It also offers retailers the flexibility to move their sales personnel to functions that will drive higher sales.

The post Top Industries Where Robotics Will Get Mainstream Adoption in 2022 appeared first on Analytics Insight.

Top 10 Robotics Experts to Watch Out for in 2022

Robotics

Robotics experts are immensely contributing to robotics in Industry 4.0

Robotics is thriving in different kinds of industries in recent years, especially in Industry 4.0. The combination of cutting-edge technologies such as robotics, artificial intelligence, IoT, and many more have developed multiple robots for different purposes. The education and research in robotics are increasing at an increasing rate owing to several pioneers in robotics. Their expertise in robotics is largely contributing to the robotics domain for more improvements and advancements in robots. Let’s explore some of the top robotics experts to watch out for in 2022 for their in-depth knowledge of this domain.

  • TOP INDUSTRIES WHERE ROBOTICS WILL GET MAINSTREAM ADOPTION IN 2022
  • HOW IS ROBOTICS HELPING INDIA GET A BETTER FUTURE?
  • TOP KEY TRENDS IN ROBOTICS TO RULE THE TECH-DRIVEN FUTURE
  • TOP ROBOTICS MOMENTS IN 2021 TO REMEMBER FOREVER

Top 10 robotics experts to watch out for in 2022

Prof. Dieter Fox

Prof. Dieter Fox is one of the top ten robotics experts in the world who is currently a Senior Director of Robotics Research at NVIDIA. His specialization is in robotics with the combination of artificial intelligence, machine learning, and computer vision. He is known in this domain for his publications in over 200 technical papers as well as a co-author of Probabilistic Robotics. Prof. Fox is currently a Fellow of the IEEE and the AAAI and on partial leave from the University of Washington. He has received the RAS Pioneer Award in 2020 for his immense contributions to RGB-D perception, machine learning in robotics, as well as bridging the gap between academic and industrial robotics research.

Prof. John J. Leonard

Prof. John J. Leonard is a well-known robotics expert for his research on the problems of navigation and mapping for autonomous mobile robots. He is one of the pioneers in robotics who has formulated the problem of SLAM (Simultaneous Localization And Mapping) in the mobile robotics research community. These mobile robots can operate in underwater and terrestrial environments for Navy missions. He has received multiple awards for his recognition and contribution to mobile robots.

Steve Cousins

Steve Cousins is one of the robotics experts to watch out for in 2022 because of his role in Savioke. He is the Founder and CEO of this robotics company that creates autonomous robotic technology to help the service industry across the world. His contributions to the robotics domain are immense— he looked after the creation of the open-source software known as Robot Operating System (ROS) which is a standard tool among robotics researchers. He works in the Robots for Humanity project to advance the use of robots in Industry 4.0.

Prof. Masayuki Inaba

Prof. Masayuki Inaba is currently a professor of the Department of Creative Informatics and the Department of Mechano-Informatics of the graduate school of Information Science and Technology of Tokyo University. He is focused on key technologies of robotic systems and the research infrastructure to develop advanced robots. He is considered as one of the pioneers in robotics for his contributions to this domain.

Sachin Chitta

Sachin Chitta is the Director of Robotics Research at Autodesk to lead a team of robotics researchers in the field of robotics and artificial intelligence. He was the Founder and CEO at Kinema Systems that was focused on the world’s first deep-learning-based solutions for robotic depalletizing for logistics. He sold the company to Boston Dynamics, a pioneer company in robotics for its wide range of robotics. Sachin is one of the robotics experts to watch out for in 2022 through the services of Autodesk for multiple robots.

Prof. Jun Ho-Oh

Prof. Jun Ho-Oh is known as a robotics expert in Korea for his in-depth knowledge of robotics and the functions of robots. He has successfully developed the first Korean humanoid robot known as Hubo and a series of these robots known as Albert Hubo, Hubo FX-1, Hubo II, and DRC-HUBO. He is the Samsung Chair Professor as well as a pioneer member of the National Academy of Engineering of Korea for his major breakthroughs in robotics.

Marc Raibert

Marc Raibert is one of the pioneers in robotics with his immense contribution to the robotics domain with Boston Dynamics. Marc is the Founder, former CEO, and currently the Chairman of Boston Dynamics. He was a professor of Electrical Engineering and Computer Science at MIT. The company is focused on developing some advanced robots for industrial uses like Atlas, Handle, Spot, and BigDog. His expertise in robotics is providing more advanced robots to the world for better productivity and is one of the robotics experts to watch out for in 2022.

Prof. Peter Corke

Prof. Peter Corke is a well-known robotics expert for his work on field robotics, online robot academy, and the robotics toolbox and machine vision toolbox for MATLAB. He is popular for being a robotics researcher a distinguished professor of robotic vision at the Queensland University of Technology. He has created an open-source software for teaching and research as well as authored the best-selling textbook known as Robotics Vision and Control. Peter is currently a Chief Scientist of Dorabot and the world is expecting some more contributions to the robotics domain.

Melonee Wise

Melonee Wise is the VP of Robotics Automation of Zebra Technologies and the former CEO of Fetch Robotics and Unbounded Robotics. Her expertise in robotics showed a lot of work in designing, building, and programming robotic hardware. She has developed algorithms, libraries, and hardware for autonomous boats, cars, and personal robot platforms. She calls herself the robotic ninja and is named the overall 2021 Supply Chain Woman of the Year. She is the driving force behind the development and deployment of reliable autonomous robots across the supply chain industry. Melonee has contributed a lot post-pandemic with robotic strategies and is one of the robotics experts to look forward to in 2022.

David Hanson

David Hanson is focused on developing robots with the world’s most human-like appearances. He is known for integrating figurative arts with robotics engineering and facial expression mechanisms of artificial intelligence. David is popular for authoring two books including humanizing robots with multiple patents. His expertise in robotics has made him one of the top robotics experts to look out for in 2022 with more advanced robots for multiple purposes.

The post Top 10 Robotics Experts to Watch Out for in 2022 appeared first on Analytics Insight.

Robot Boss: Are Humans Ready for the Robot Controlled Future

Robot BossIs it a time to embrace the technology and welcome robot boss into our work culture?

Numerous things have been written about the impact of automation, robotics, and artificial intelligence. Before the beginning of the Industrial Revolution, when Luddites demolished textile machinery to boycott new technology that affected traditional methods, there have been suspicions that humans will be replaced by machines. Technology is influencing the culture of your workplace. Powerful tools are giving leaders a deeper understanding of their organization’s culture and work dynamics. They also provide a way to get ahead of issues that could handicap success. Soon you will witness the rise of robot bosses where automation will rule the corporate world.

By 2030, more than 800 million workers all throughout the planet could be replaced by machines. The fear of rampaging robots is not just restricted to jobs. Leaders in emerging technology, such as Elon Musk, have suggested artificial intelligence (AI) is “a fundamental risk to the existence of civilization.”

But a new poll indicates that some employees have much friendlier impressions toward Artificial Intelligence. Oracle and Future Workplace found 82% of employees think a robot boss can become a leader. They will allow others to perform certain tasks – such as maintaining work schedules and providing unbiased information – better than any human.

A New Role: The Robot Boss

Types of equipment have appeared a long way from those early sticks and stones. Ahead of the way, they facilitated humanity to achieve tremendous feats, from feeding billions of people to space analysis. Smart tools like autonomous robots will allow humans to push the limits even further that will be needed to address the next set of challenges for humanity, like climate change.

Rather than replacing humans, modern robots can attain incredible feats working alongside people. For example, California-based IronOx (an advisor for InOrbit) just raised $53 million to scale the development of leafy greens like lettuce and basil in greenhouses, using robots to achieve in 1 acre the same yield that would require 30 acres with traditional techniques, while lessening water usage by 90 percent. While confronting the terrible drought in 1,200 years in the Western U.S., this is welcome news.

So, it won’t be a shock if at the next social gathering, when you ask someone what they do, they respond with “I’m a robot boss.”

The post Robot Boss: Are Humans Ready for the Robot Controlled Future appeared first on Analytics Insight.