Vacancy Alert: Top Robotics Internships in India in 2021

Robotics Internships Analytics Insight has listed some of the top robotics internships in India in 2021

Robotics has opened a plethora of job opportunities in the field of science from eminent organizations with lucrative salary packages. It is one of the highly demanding professions in these recent years. Though there is a controversy that robots will take over human jobs but it is guaranteed that robotics is the future of the industries. RPA has transformed the work environment by boosting productivity and assisting human employees in factories or hazardous environments. RPA has created new professions such as robotics engineer, robotics technician, sales engineer, software developer, robotics operator and many more. Reputed companies require experienced professionals to work with RPA efficiently and effectively. Thus, ample robotics paid internships are available in the market worldwide to train the aspirants with hands-on training. Let’s look at some vacancies for the top robotics internships in India in 2021.

Robotics Internship at KaaShiv Infotech

Location: Chennai

KaaShiv Infotech is a ten-year-old company that is run by recognised experts from Microsoft, Google, Cisco and HCL technologies and received recognition from Google as the number one internship company in Chennai. This company has the utmost belief in people and technology. Thus, it provides specialised knowledge services to multiple industries with cutting-edge solutions.

Responsibilities: There is real-time project development and technology training by eminent professionals. The training is completely practical with separate machines and hardware and software tools for students. There are research and development projects with industrial exposures to enhance corporate skills as well as RPA skills. The students have to cover full documentation and report analysis within deadlines. The duration of the robotics internship is three hours per day of five days, 10 days, or one to six months.

Click here for registration

R&D Engineering & Internship at Barnstorm Agtech

Location: Pune

Barnstorm Agtech is a VC-funded Canadian startup that has the Research and Development area in Pune. The workplace is consists of 14,600 high-ceiling factory with a large and well-appointed modern bungalow head office including large outdoor canopied areas. It has the aim of building the most advanced “swarm farming” system of semi-autonomous tractor-like vehicles.

Responsibilities: The candidate is required for software 3D graphical visualisation, software Web-HTML5 dashboard, multiple database synchronisations, robotic swarm and computer vision system programming such as OpenCV and ROS. The candidate also is needed for Hybrid Electrical Vehicle powertrain physical design and control including battery management, spread spectrum data communication, sensor data acquisition and management, autonomous navigation, LiDAR and actuated mechanism such as robot arms, automated docking and heavy-lift loading.

Requirements: The interested candidate should be any graduate with any specialisation with sufficient knowledge of robotics, mechanical design, Python, LiDAR, HyperMesh, SQL, OpenCV, Linus, ROS, agriculture and 3D Modelling.

Click here to apply

Management Trainee- RPA Support at Genpact

Location: Bengaluru

Genpact is a global professional services firm to transform business ideas into reality with digital-led innovation and intelligent operations. Genpact Cora combines the expertise in end-to-end operations and AI-based platform.

Responsibilities: The interested intern should look after troubleshooting issues in the day-to-day running of RA processes, provide timely RCA and solutions if required, design RPA solutions with principles and conventions, create and maintain the documentation. The trainee also needs to support existing processes and changes as a part of the structured change control process, support monitoring of Bots in daily operations with the version management system during the robot code lifecycle. The candidate also has to take the transition from RPA development and manage robots’ end-users.

Requirements: The candidate is required to have a clear understanding of the RPA tool Blue Prism, the business process from workflow diagram with the hands-on configuration of automated processes in the Automation Software Products. The trainee also needs a certification in leading RPA products and practical experience of VB scripts and service management tools such as JIRA and ServiceNow.

Click here to apply

Robotics Software Intern at General Systems Pvt. Limited

Location: Gurgaon

General Systems Pvt. Limited is a Singapore-based startup focused on targeting the multibillion-dollar market of construction and mining with a global clientele.

Requirements: The candidate must have strong programming knowledge in C++, Python and Java with Linux or Kernels. There must be hands-on training in MATLAB, ROS, Rviz, Gazebo, Arduino, Raspberry PI and LabVIEW. There must be sufficient knowledge of actuators, steppers, servos, VFD, motor controllers and motion controllers.

Click here to apply

Internship in Mechanical, Robotics or Mechatronics Engineer at Om Siddh Vinayak Impex Pvt. Ltd

Location: Gujarat

Om Siddh Vinayak Impex Pvt. Ltd is a textile company focused on recycling society’s throw away and put those in the hands of the individual worldwide. It is the fastest-growing company in retail and deals with exports at consistent quality standards in Africa, Asia, Central and South America. The company has two separate warehouses in India to grade the used clothing from the US and Japan.

Responsibilities: The intern will work on automation projects in an actual industrial workplace dealing with mechanics, robotics and mechatronics.

Requirements: The intern should have sufficient knowledge of Raspberry Pi, Aruduini, ESP or other microcontrollers, image processing AI and programming languages such as Python.

Click here to apply

Robotics Training Internship at Incrediminds

Location: Gurgaon

Incrediminds is the tailor-made platform that provides one-to-one online robotics and coding classes for all age groups. It has experienced trainers who share their practical experiences with sufficient knowledge. The learning methodology is known as Learn-Assess-Apply Test that provides a full opportunity to learn while completing RPA projects. The company currently has 1,700 students in ten countries with 500 projects.

Responsibilities: The intern should create robotics projects, conduct automation classes for school students and manage documentation of these Robotics projects.

Requirements: The intern should have sufficient knowledge of Microsoft Office, Robotics, Arduino and programming languages such as Python, C++ or Java.

Click here to apply

The post Vacancy Alert: Top Robotics Internships in India in 2021 appeared first on Analytics Insight.

Latest Robotic Surgery Training Centres in India

Robotic Surgery

Analytics Insight has listed the most popular robotic surgery training center available in India.

The technique of surgical intervention on the human body is undergoing dramatic change. It took over 30 years for laparoscopic surgery to replace open abdominal operations. The world is on the threshold of a major transition from laparoscopic surgery to robotic surgery. Robotic surgery has proved inaccessible areas of the human body. The following are the top institutes in India that provide the best training on robotic surgery.

International Institute of Laparoscopic and Robotic Surgery (India)

This institution is famous for its real-world Laparoscopic surgery experience by allowing the trainee to get hands directly on whatever surgeons are learning and developing a sense of empowerment. After taking this laparoscopic course, Surgeons and gynecologists can perform laparoscopic surgery themself on their patients with confidence. The Laparoscopic surgery training for General Surgeons, Gynecologists, and Urologists at World Laparoscopy Hospital is and candidate this Laparoscopic surgery training course is aimed at imparting basics in addition to advanced theoretical and practical experience. The course’s emphasis is on daily practical Laparoscopic surgical problems encountered while operating on patients. At World Laparoscopy Hospital surgeons and gynecologists get the opportunity in this course to learn all Laparoscopic surgeries within the ultramodern Laparoscopic HD wet operating room, followed by live exposure of live Laparoscopic surgery in operation theatre with an expert consultant.

Narayana Health

Narayana Health headquartered in Bengaluru has launched the Institute of Robotic Surgery supported by Infosys Foundation at its flagship unit at Narayana Health City. Their Da Vinci Robotic Surgical System will be used primarily for prostate, kidney, gynecological, colorectal, and select head & neck cancer surgeries. Symbolically unveiling the plaque, signifying the launch of ‘Infosys Institute of Robotic Surgery’, Mrs. Marsha Murthy, chairperson of Infosys Foundation said, “The requirement to adopt and continually update treatment protocols that reduce errors is crucial for a country like India, which sees high patient volumes and a wide spectrum of complex diseases.”

Institute of Medical and Minimal Access Surgery Training

IMMAST provides training on minimal access surgery. It is known to ensure safe care with minimal trauma to the patient. In addition to minimizing incision & scarring, pain, duration of the hospital stay, medication required, minimal access surgery ensures an early return to work & family. At IMMAST, the team continues to challenge itself to create new content and training modalities that match pace with the fast-evolving technology and advancements in the field of surgery & medicine.

The post Latest Robotic Surgery Training Centres in India appeared first on Analytics Insight.

Robot Doctors to Provide Health Care Services Soon

Robots

MIT along with Brigham and Women’s Hospital research says, people are open to interacting with Robots

With the Covid-19 pandemic hitting hard and social distancing becoming a vital norm, this opens the door for using more robots to provide health care services to reduce in-person contact between the health care workers and the patients.

Giovanni Traverso, an MIT assistant professor of mechanical engineering, a gastroenterologist at Brigham and Women’s Hospital, and also the senior author of the study said, that they were actively working on robots that can help provide health care services to maximize the safety, of both the patients and the health care workforce.

Traverso and his colleagues after the Covid-19 began last year, worked towards reducing interaction between the patients and the health care workers. In this process, they collaborated with Boston Dynamics in creating mobile robots that can interact with patients who waited in the emergency department.

But the question here is, how patients are going to respond to the robots? This question was raised by the researchers of MIT along with Brigham and Women’s Hospital. The researchers conducted a nationwide large-scale online survey of about 1000 people working with a market research company called YouGov. The questions were about the acceptability of robots in healthcare for performing tasks like nasal swabs, inserting a catheter, and turning a patient over in bed.

Traverso says how different solutions an engineer thinks of, but at times people may not be willing to accept them. So, in this research he and his team wanted to understand if people are receptive to something like mobile robots are not.

The results stated on an average that, the respondents were open to having robots not only to assist them but also to perform minor procedures such as taking a nasal swab. The patients felt that interacting with robots-turned doctors was quite similar to in-person interaction. This is because of the video screen mounted on a robot which gave them the real experience of talking to an in-person.

After getting satisfactory results the researchers tested one of their robots in the emergency department at Brigham and Women’s Hospital when Covid-19 cases were increasing in Massachusetts day by day. While 51 patients were approached in the waiting room, 41 agreed to participate in the study. These patients were questioned about their symptoms via video connection, using an iPad handled by a dog-like robot that was developed by Boston Dynamics. The results are quite positive, more than 90% of the respondents were satisfied with the robotic systems in providing health care services.

These robots were furnished with sensors that allowed them to measure vital signs like the temperature, breathing rate, pulse rate, and blood oxygen saturation levels. The robots also had an iPad that permitted video communication with a health care provider. With the help of these robots, the risk of health care workers being exposed to Covis-19 can be reduced to a great extent. It can also reduce the usage of PPE kits that are required for every interaction.

Peter Chai, an assistant professor of emergency medicine at Brigham and Women’s Hospital said, “For the purposes of gathering quick triage information, the patients found the experience to be similar to what they would have experienced talking to a person”.

The results of the study suggest that, it would be advantageous to develop robots that can help in performing procedures that require a lot of human effort in the present day. Proning is a technique used to boost blood oxygen levels making breathing easier among the Covid patients, this needs many people to turn the patient onto their stomach. This process could be made easier with the help of robots. Administering Covid tests is another task that needs more health care workers, this can also be taken over by robots for making the task easier.

“Surprisingly, people were pretty accepting of the idea of having a robot do a nasal swab, which suggests that potential engineering efforts could go into thinking about building some of these systems,” says Chai.

The team of MIT is on the task of developing sensors that can obtain sign data from patients remotely, and working on integrating these systems into smaller robots that could handle varieties of environments such as hospitals or ambulances.

The post Robot Doctors to Provide Health Care Services Soon appeared first on Analytics Insight.

How to Invest in Robotics and Artificial Intelligence

Robotics

Learn more about the Market Conditions and Invest in Robotics and Artificial Intelligence

We frequently put robotics and artificial intelligence together, but they are two separate fields. The robotics and artificial intelligence industries are some of the largest markets in the tech space today. Almost every industry in the world is adopting these technologies to boost growth and increase customer engagement.

The Robotics Market Overview

According to reports, the global robotics market is expected to grow up to US$158.21 billion, between the period 2018 to 2025, at a CAGR of 19.11%. This growth is connected to the increasing adoption of artificial intelligence and robotics technology. Between 2020 to 2025, the market will grow at a CAGR of 25.38%.

During the pandemic, the demand for robotics technology has increased drastically. The medical field is deploying surgical robots to fight against Covid-19. Robots are helping healthcare professionals and patients by delivering food and medications, measuring the vitals, and aiding social distancing.

The automation industry is also using robotics technology to drive growth and transformation. Other industries like food, defense, manufacturing, retail, and others are also deploying robotics.

Best Robotics Stocks to Invest in-

  • Oceaneering International. Inc: Oceaneering, is engineering and applied technology service provider to different industries like oil and gas, aerospace, marine, defense, entertainment, logistics, science, and renewable energy sources. The company aims to provide unmatched services to its customers to develop, regardless of the market conditions.
  • Brooks Automation, Inc: Brooks Automation, is a provider of automation, vacuum, and instrumentation solutions for semiconductor manufacturing, life sciences, and other industries. Recently, the company announced that it will split into two independent companies, one of which will focus completely on the life sciences industry and the other will focus on the high innovation automation technology.
  • FLIR Systems: FLIR manufactures, develops, distributes, and markets technologies, that enhance perception and awareness. The company provides advanced systems and components, that are used for thermal imaging, situational awareness, and security applications, including navigation, recreation, research, and development.

The Market Overview of Artificial Intelligence-

According to the reports, the global AI market is expected to grow from US$58.3 billion in 2021 to US$309.6 billion by 2026. Among the many factors that will drive the growth in the artificial intelligence market, the Covid-19 pandemic is the chief reason.

The pandemic has encouraged new applications and technological advancements in the market. Industries like healthcare, food, and manufacturing are increasingly adopting AI technologies to promote efficiency in business operations. Big tech companies like Microsoft, IBM, and Google are deploying AI to facilitate drug development, remote communication between patients and healthcare providers, and other services. AI-powered machines are also helping educators to track students’ performances, bridging the gaps in teaching techniques, and automating laborious administrative tasks.

Best AI Stocks to Invest in-

  • Tata Elxsi: Over the past decade, Tata Elxsi, has been facilitating tech-based advancements. Starting from self-driving cars to video analytics solutions, the company provides groundbreaking technologies powered by artificial intelligence and analytics.
  • Bosch: The Bosch Center for Artificial Intelligence (BCAI), works towards producing innovative AI technologies and implementing them in their own products to have a real-world impact.
  • Happiest Minds: Happiest Minds, is helping organizations to provide enhanced customer services, combined with augmented intelligence and natural language processing, image analytics, video analytics, and other services. The company aims to create next-generation smart systems that can think, learn and create with an intelligence equivalent to humans.

The post How to Invest in Robotics and Artificial Intelligence appeared first on Analytics Insight.

Google Made a Come Back in The World of Robotics

Google

In 2013, Google started a pioneering and ostentatious effort to manufacture robots. With time, its target has become self-effacing but with time the technology is also subtly more advanced. Since 2013, the internet company has depleted tens of millions of dollars in buying six robotics start-ups in Japan and in the United States. The project consisted of two teams that are majoring in machines that moved and looked like humans. Andy Rubin, the Vice President of engineering who was behind the effort of creating such projects named it Replicant in a nod to Google’s great ambition. Also, the name was used in a science-fiction movie called ‘Blade Runner’.

However, with the passing time over the next few years, Google sold off the companies that have been acquired by it or shut them down. The Japanese conglomerate SoftBank bought the best-known project named Boston Dynamics from Google.

In recent years, with the advancement of modern technology, Google accumulated and reassessed its target on the mechanics of complex robots. For the last few years, Google has been remodeling its program focusing on robots that are much more manageable and simpler than human-shaped machines.

Vincent Vanhoucke, who previously helped Google in building Google Brain that researches artificial intelligence is now leading the new robotics at Google. This new effort is called robotics at Google. It includes many of the engineers and researchers who worked under Mr. Rubin. Its new model will be able to learn skills independently using machine learning without human intervention, like traversing in a warehouse that is filled with unexpected objects. The machines may not impressive or attractive as the earlier humanoid robots but this more advanced technology incorporated inside them gives them more perspective in the real world.

In the warehouse and on factory floors, Robots are already in use but they can only operate certain specific tasks only like turning screws or picking up objects. Taking the help of machine learning Google wants the machines with which it is working to learn on their own.

The post Google Made a Come Back in The World of Robotics appeared first on Analytics Insight.

Robotics, the Space Race and the Digital Twin Link

Digital Twin

Technology is advancing at an exponential rate. The use of robotics is now firmly entrenched in virtually every industry – from manufacturing to those tasked with moving from our planet to otherworldly locations. This, combined with aspects such as augmented reality (AR), virtual reality (VR) and accurate digital simulation is commonplace today. And it certainly extends beyond the boundaries of our planet.

One such example is that of the digital twin of one of Australia’s largest radio telescopes.

CSIRO’s Australian Square Kilometre Array Pathfinder (ASKAP)

Located in WA’s Murchison Radio-astronomy Observatory, CSIRO Data61 has collaborated with CSIRO Astronomy and Space Science (CASS), CSIRO’s Information Management and Technology (IM&T) and UNSW’s Expanded Perception and Interaction Centre (EPICentre), to create what is effectively a telescopic viewing platform that allows us to travel into the future.

This isn’t something that’s only available to scientists and tech-geeks. It’s available to every single one of us via an app on your smartphone combined with a head-mounted display or virtual reality system. This has been made possible through innovative, cutting-edge use of AR, VR, simulation, computer graphics and the application of mass data analysis and collaboration that makes up the model known as a digital twin.

Digital Twin: an explanation

In its simplest terms, a digital twin is a virtual replication of a physical object or system. In the case of the ASKAP digital twin, this allows the user to simulate looking through the telescope – either now or into the future. It’s possible to set the time for a point years into the future and the digital twin will use the data to predict exactly what the sky will look like at that time. The telescope is used to study particular celestial objects and galaxies. To view, this allows an accurate prediction of how they will appear at the future point that you select.

Team Leader of the project and Epicentre’s director, Dr Tomasz Bednarz, says that while currently, “the project is a demonstrator of digital twin capabilities, such as replaying pre-recorded historical data, we’re planning to extend it for full telemonitoring in real-time.” This would mean that other aspects will impact the viewing, such as weather conditions, temperature, humidity, wind speed, radio signals etc.

Digital Twin Technology Encompasses all Industries

While such technology might at first appear to be space-specific, nothing could be further from the truth. The use of digital twins has far-reaching repercussions in every field. The ability to create a virtual simulation of any object or process that encompasses a whole life cycle is massive. Add in the fact that it’s possible to run infinite scenarios, just to see what-if, which will allow organisations to make decisions based on real-time information. This is truly futuristic tech becoming reality – and is set to become a true game-changer.

Maintenance tasks can be predicted, waste can be identified and reduced, productivity can be understood and improved… The benefits are tremendous.

While mainstream digital twin technology is still in its infancy, there’s no denying the advantages this will bring. The concept is dynamic, feeding on constant and relevant data to evolve and improve. A digital twin can be set up for a single object and morph into mirroring a more complex system as the need arises.

With the ASKAP telescope an extreme example of how this technology works, it’s an exciting advancement that’s predicted to become widespread over the coming years.

Every sector not only needs to take advantage of the latest proven technology but must be aware of what’s up and coming. Partnering with equipment providers who embrace the cutting edge is what gives an organisation the much-needed advantage in an ever-competitive marketplace.

Perth-based Nexxis are just such a supplier. Not only does their expert team have a finger on the pulse of evolving technology, they also understand the need for dynamic equipment solutions. An organisation’s needs constantly change and with it their equipment requirements. Nexxis understand this and their unique flexible model is what makes their service wholly different.

Find out more and what this innovative model could mean for your company at www.nexxis.com

The post Robotics, the Space Race and the Digital Twin Link appeared first on Analytics Insight.

Cloud Robotics: The Way to Lighter, Cheaper and Smarter Robots

Cloud robotics

Cloud Robotics will make robots a lot lighter, cheaper, and smarter than the conventional ones.

Every time we come across an unknown concept or an image or a word, we quickly search for it on google and instantly get loads of answers on that matter. If robots could do the same, things will be so much easier. For conventional robots, every task like moving a foot, grasping an object, recognizing a face, requires a significant amount of processing and preprogrammed information. So, installing any new programming in them, for new knowledge takes a lot of time and effort. This is why several research groups are exploring the idea of robots that rely on cloud-computing infrastructure to access vast amounts of processing power and data. This approach, which some are calling “cloud robotics,” would allow robots to offload compute-intensive tasks like image processing and voice recognition and even download new skills instantly.

The Concept of Cloud Robotics

The idea of cloud robotics is to attach the robot to an external cloud. So, if the robot sees an unknown object, it can instantly send the image to the cloud and receive information and instructions in no time. The term “cloud robotics” is coined by James Juddher, a professor at Carnegie Mellon currently working at Google. He described the possibilities of cloud robotics at the IEEE International Conference on Humanoid Robots, in Nashville, Tenn., this past December. According to him, embracing the cloud could make robots “lighter, cheaper, and smarter,” He is confident that cloud robotics could offload CPU-heavy tasks to remote servers, relying on smaller and less power-hungry onboard computers. Even more promising, the robots could turn to cloud-based services to expand their capabilities.

The Origin of Cloud Robotics

The idea of connecting a robot to an external computer is not new. Back in the 1990s, Masayuki Inaba at the University of Tokyo explored the concept of a “remote brain,” as he called it, physically separating sensors and motors from high-level “reasoning” software.

Now cloud robotics seeks to push that idea to the next level, exploiting the cheap computing power and ubiquitous Net connectivity available today. Kuffner, who currently works on Google’s self-driving car project, realized that running computing tasks on the cloud is often much more effective than trying to do it locally.

Kuffner explained the Google service known as Google Goggles. If someone snaps a picture of a painting at a museum or a public landmark and Google sends the information about it. Similarly, it can be used in robotics too. A robot would send images of what it is seeing to the cloud, receiving in return detailed information about the environment and objects in it. Using the cloud, the robot could also improve capabilities such as speech recognition, language translation, path planning, and 3D mapping.

The post Cloud Robotics: The Way to Lighter, Cheaper and Smarter Robots appeared first on Analytics Insight.

Latest Funding Received by the Robotics Industry in June 2021

Robotics

Funding in the Robotics industry is growing day by day. More enterprises are coming forward and adapting themselves with the use of robotics. This is attracting more investors to fund the robotic companies. The following are some of the latest findings done in this month of June.

Botrista Technology Inc.

Botrista Technology Inc, the maker of the Botrista DrinkBot, has announced that it has raised $10 million in a Series A funding led by Purestone Capital and La Kaffa International, with participation from Sony Innovation Fund, Middleby Corp., and PIDC. The funding brings Botrista’s total amount of capital raised to $16 million. The new funding will be used to further ramp up deployment operations to roll out the DrinkBot nationally. Botrista said it provides beverage solutions to deliver a variety of craft beverages, including infused teas and latte flavored lemonades, iced coffees, and more – without a full bar. The DrinkBot is described as an automated craft drink solution that enables anyone to make a complex beverage.

CMR Surgical

UK-based robotics company CMR Surgical this morning announced a $600 million Series D. This latest round, led by SoftBank’s Vision Fund 2 and co-led by Ally Bridge Group, joins an existing $384.8 million already raised by the Cambridge firm. It values the company at $3 billion. CMR’s flagship product is Versius. The robotic system is designed to perform minimally invasive keyhole surgery, primarily focused on serious conditions like bowel disease or bowel cancer. The platform has been used globally and has thus far been involved in 1,000 surgeries, according to CMR’s numbers.

Realtime Robotics

Realtime Robotics, the leader in autonomous motion planning for industrial robots, has announced that it has completed its $31.4 million Series A round. New strategic investors including HAHN Automation and SAIC Capital Management, as well as new institutional investors Soundproof Ventures and Heroic Ventures, join existing investors SPARX Asset Management, Omron Ventures, Toyota AI Ventures, Scrum Ventures, and Duke Angels in concluding this round.

ElectroNeek

ElectroNe, a leading robotic process automation (RPA) platform for managed service providers (MSPs) and IT teams, has announced that it raised $20 million in a Series A funding round led by Baring Vostok the ith participation of AICPA and existing investors – YellowRockVCs.vc, Dragon Capital, I2BF, Angelsdeck, Gokul Rajaram and others. Following the new funding influx, ElectroNeek’s valuation now exceeds $100 million. ElectroNeek offers a comprehensive suite of software solutions to help companies of all sizes automate repetitive tasks, which simplifies IT processes and reduces costs. ElectroNeek has democratized complex RPA technology making it accessible and affordable to all businesses. It has done so by using a unique approach to the deployment and scalability of RPA workflows.

Scythe Robotics

Scythe Robotics (Scythe), the creator of commercial-grade autonomous robotic solutions for the landscaping industry, announced its first offering: an all-electric, fully autonomous mower, designed completely in-house. Scythe also announced its $13.8M in Series A funding led by Inspired Capital with participation from existing investors True Ventures, Zigg Capital, and Lemnos, bringing the company’s total funding to $18.6M. The new investment will be used to grow the company’s existing operations in Texas, Florida, and Colorado, expand with new customers, and accelerate ate development of further products for use by commercial landscape contractors.

The post Latest Funding Received by the Robotics Industry in June 2021 appeared first on Analytics Insight.

Latest Innovations in Robotics Set to Transform Industry 4.0

Robotics

Analytics Insight gives a glimpse on the latest innovations in Robotics set to transform Industry 4.0

According to a report, Top Robotics Market with COVID-19 Impact Analysis, the market size of Robotics is expected to reach US$176.8 billion in 2025 with a CAGR of 18.2%. Robotics has opened a plethora of job opportunities as well as set to transform Industry 4.0 with its efficient and effective assistant to the existing employees. Latest innovations in Robotics have attracted huge interest from children, adults as well as reputed organizations for entertainment as well as professional purposes. The dreams of having different types of robots as highly flexible companions are finally coming true. The Robotics future is here in the 21st century! Educational institutes have started offering mechatronics to drive students towards Robotics to innovate new models or robots in the nearby future. Let’s take a glance at some of the latest innovations in Robotics set to transform Industry 4.0 efficiently.

  • LATEST FUNDING RECEIVED BY THE ROBOTICS INDUSTRY IN JUNE 2021
  • CLOUD ROBOTICS: THE WAY TO LIGHTER, CHEAPER AND SMARTER ROBOTS
  • ROBOTICS, THE SPACE RACE, AND THE DIGITAL TWIN LINK
  • GOOGLE MADE A COME BACK IN THE WORLD OF ROBOTICS
  • HOW TO INVEST IN ROBOTICS AND ARTIFICIAL INTELLIGENCE

Latest innovations in Robotics set to transform Industry 4.0

Energy-efficient Robots

The world is experiencing global warming in these recent years due to the large carbon footprint present in the atmosphere. New energy-efficient robots are thriving in Industry 4.0 to reduce energy consumption for a smaller carbon footprint. These smart and energy-efficient robots assist in the cost-efficient production of renewable energy equipment.

AROUND-B Robot

The AROUND-B robot is designed by Kim Seungwoo and Kyumin Ha that helps to enhance the customer experience in bookstores. The robot is known for following a user and offering a comfortable place to keep books instead of carrying those around the store. Then AROUND-B will carry the books to the cashier for seamless transaction efficiency.

Bossa Nova Robot

The Bossa Nova robot is created to help retail stores in tracking inventory as well as maintaining product displays on shelves. It has the ability to scan the shelves with its hi-tech sensor through 2D as well as 3D depth-detecting cameras. It also uses RFID (Radio Frequency Identification) tags and barcodes for efficient inventory management and supply chain management in manual restocking duties.

Zenbo Robot

Zenbo robot is innovated to help people remember to complete daily tasks each day, especially for elderly people. It can also monitor the surroundings to detect any emergency case by connecting to smart devices such as CCTVs, door locks, and many more. Asus created this Zenbo robot to understand verbal commands from its user.

Delivery Droid Robot

The outbreak of the coronavirus pandemic has instigated Cristina Borras to create a home-delivery robot for contactless deliveries of parcels in Australia. This robot is known as a delivery droid and has been successfully tested by the Australia Post with over 100 packages after sunset. The implementation of modern technology can help to avoid obstacles on its way on pavements.

Amazon Scout Robot

The pandemic has also motivated Amazon to produce delivery robots for efficient delivery services within a promised date. Scout robot is an electric cooler-sized rover to help in promoting contactless delivery during the pandemic. Amazon has successfully trialed the Scout robot in different US localities for a year. Six smart robots are operating in daylight working hours from Monday to Friday, only for Amazon Prime Members.

Digit Robot

Ford and the Agility Robotics team is set to launch Digit Robot as a delivery robot that can come in to get the package from autonomous self-driving cars to the doorstep of recipients. It consists of a humanoid aesthetic along with a bipedal design to carry parcels up to 40 pounds.

RoBeetle Robot

RoBeetle is a tiny robot, created by Nestor Perez-Arancibia, Xiufeng Yang, and Longlong Chang, that can be powered by methanol. This efficient beetle-like robot weighs just 88 milligrams with four legs— two fixed rear ones and two flexible front legs. Those two front legs are attached to the transmission to receive commands for movements. It can walk efficiently for a long time with an unexpected fuel source.

Care Robots

The demand for care robots is booming in Japan to take care of elderly or disabled patients with their daily routine— alarm for medication, emotional support, interactive sessions, and many more. These care robots also assist nurses and doctors in medical duties on an hourly basis.

The post Latest Innovations in Robotics Set to Transform Industry 4.0 appeared first on Analytics Insight.

How to Choose the Best Forex Robot

Forex Robot

Modern Forex trading continues to develop and calls for advanced technological solutions. This is why traders often use Forex trade robots to improve work and achieve better results. Being a Forex trader requires a lot of training, skill, time, and even luck. Even professional and experienced traders prefer to incorporate trading robots to have additional assistance. If you are looking to choose the most fitting Forex Trading robot for you, consider the information and tips covered in this article.

Advantages and Disadvantages of Forex Robots

Before deciding to buy and use a Forex robot, you should consider if you will actually benefit from using such a program. While these trading robots are proving to be extremely beneficial for many traders, it is crucial to use context when thinking about buying one because it might not be as advantageous for you. Consider these pros and cons if you want to find the best Forex robot:

Pros

Endless trading. no human can trade all day and night long because it is physically impossible. Traders have a usual working day, which is the same as for every other job. But trading robots can operate without stopping to eat, rest, or spend time with family and friends.

Eliminating human factors. A computer program does not have human emotions and only works in the way it was programmed. People can often be at a disadvantage with their emotions getting in the way of a trade. Whether it is fear or greediness, any hesitation can cost you a profitable trade. Forex robots only do their job without getting distracted by feelings.

Working on complex tasks. Multitasking is possible, but every person has his/her limits. It is often impossible to keep in mind all different criteria and conditions for ongoing trades. A trading robot can keep track of everything you need and even monitor multiple currency pairs at the same time.

Effective backtesting. When testing new trading strategies against the already existing data, these robots can be irreplaceable. Manual backtesting is a very time-consuming and complex procedure, which is better performed by a computer program.

Easier for beginners. Of course, Forex trading is not possible without any prior knowledge. However, a Forex robot can help you at the beginning if you are only starting to trade on this market. While the program is running, you can spend more time on research and get acquainted with trading more in-depth.

Cons

High-quality Internet. It is essential to have a good and stable Internet connection for the trading robot to work continuously. A decent computer is also needed for everything to run smoothly. Any random halts and delays in the work of the program can lead to mistakes in trading.

Just a computer. Even the most advanced technology cannot replace a human being with one’s own thoughts and imagination. While Forex trading robots are helpful for eliminating emotions from the process of conducting trades, a human factor is still important in many cases. Only real people can take risks and imagine the future of the market and possible trades.

Not hacker-proof. Just like any other piece of technology, Forex robots can be hacked or affected by viruses. Because the Internet connection is required for its operation, a trading robot becomes vulnerable to hacker attacks all day and night long.

Certain limitations. Not all brokers conduct trades with robots, which might limit your options and prevent you from completing some beneficial trades.

After taking into consideration all the pros and cons of using a Forex robot, you should be able to have a better understanding of what you need in your specific case. If you decide to use a trading program, after all, it is important to choose the right one.

Choosing the Best Forex Trading Option

The current market is oversaturated with different Forex trading software, which makes the task of finding a good one more difficult. Unfortunately, many trading robots are a scam, which allows their developers to sell poor-quality programs and run away with the money. This is why you should examine each Forex robot option carefully before buying. Here are some of the criteria you should keep in mind when searching for Forex software:

Thorough testing. A high-quality robot should be tested for a long time on historical data to provide effective assistance in modern trading.

Statistics. All reliable trading programs are recorded on statistics websites so everyone can see their performance. You can evaluate the efficiency of each separate Forex robot and make a decision.

Ratings. Many websites offer complete ratings of different robots based on certain criteria. This makes evaluating each program much easier.

Overall, you can use transparent data on each trading robot to see if it is suitable for you. User reviews left online are also helpful thanks to their insight.

The Forex robot with the best user reviews on Trustpilot is 1000pip Climber, so this would be a good place to start if you are looking to get your first Forex robot. An added advantage of this robot is the 1 to 1 support provided by the coder of the robot. Many of the reviews of this robot mentioned that the additional support made a huge difference to their trading results.

The post How to Choose the Best Forex Robot appeared first on Analytics Insight.