Indian Robotic Start-ups that Deserve Your Attention

robotic startups

These robotic startups are growing are India’s start-up power.

Robotic startups are seeing an increase in demand as the world is heading towards an automated future. Robots are machines that make human work easier and complete tasks by mimicking human abilities. There was once a time when robots were a futuristic concept that could only perform limited tasks, but now, bots are capable of handling various tasks like cleaning homes, fighting fires, and surgeries. India is leading the growing robotic startup ecosystem and Analytics Insight is putting a spotlight on these top robotic startups.

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1. Aegeus

Aegues is an Indian robotics company that develops solutions that protect and enables efficient use of energy in several industries. The company’s operations make electrical power safe, reliable, efficient, sustainable. Aegeus works in accordance with its end-users, right from the beginning of the design stage to understand their challenges and develop solutions accordingly. With an aim to protect the environment, Aegeus’s products have multiple utilities.

2. FlytBase

With the drone market growing in popularity in several businesses, FlytBase makes drone agnostic software solutions to automate and accelerate drone operations. It’s the first Drones Platform (IoD) in the world and enables easy deployment of intelligent drones that are connected via the cloud.

3. Robosoft Systems

Robosoft Systems is a research and development company that operates in the fields of IoT, smart manufacturing, robotics, and automation. The company was started with a mission to make it big in robotics. One of Robosoft System’s initial clients approached the company to design and manufacture a unique robot for HVAC inspection and cleaning for indoor air quality. Its robot, the DuctBot, was made for this specific job which became an instant success.

4. Omnipresent Robot Tech

Omnipresent Robot Tech is one of India’s leading robotics, Industrial UAV/drone, and video analytics startups. The company builds drones and robots for the purpose of industrial inspection, defense, and related software. Powered by computer vision, machine learning, and virtual reality, Omnipresent Robot Tech is having impressed clients with its visual analytics and insights.

5. Mad Street Den

Mad Street Den is a popular computer vision and artificial intelligence company that is building futuristic AI architecture. The company aims to build models of generalizable intelligence on a scale that can be used for meaningful applications across industries, globally.

6. I2U2 Robots

This Indian robotic company has created I2U2, a consumer robot for personal and family use. The developed bot is a robotic chassis that converts any smartphone or tablet (powered by the internet) into a smart telepresence robot with video-enabled navigational capabilities. A family member can log in remotely with a smartphone app and have a presence in the house with the robot.

7. Sastra Robotics

Sastra Robotics builds robotic solutions for automated functional testing of physical devices with human capabilities. The company’s creations are being used by OEMs and service providers to leverage test cycles and reduce time-to-market for their products. Sastra’s clientele includes some of the worlds’ biggest enterprises for its quality assurance.

8. Solabot

Solabot’s mission is to minimize the losses incurred on solar modules and maximize the output to increase solar power plants’ profit. With cutting-edge solutions to industry-related problems. The company has a competent quality assurance framework that ensures everyday cleaning robots or related services exceed user expectations.

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Robotic Gynecologic Surgery: Everything You Need To Know

Robotic Gynecologic Surgery

Robotic gynecologic surgery provides surgeons a greater range of motion and precision

Robotic surgeries in healthcare are not new, especially in the field of gynecology. In 2005, Food and Drug Administration (FDA) approved the use of robotic surgery for gynecological procedures. When both medication and non-invasive procedures fail to treat gynecological disorder symptoms, doctors recommend surgery. Robotic Gynecologic Surgery stays the acknowledged and best treatment for most gynecological conditions such as cervical cancer, excessive uterine bleeding, uterine fibroids, and more.

Before robotic surgery, surgeons sometimes used to held cameras in their hands, which means they could shake or gradually move. Now, the specialist can get a 3-D perspective on the activity site and the video is steady all through the process. Control has likewise improved with robotic technology. This allows surgeons to work normally and instinctively which can prompt better outcomes and speed up the process. It also helps to reduce the risk of blood loss and quicker recovery.

Robotic Gynecologic Surgery can likewise be utilized for oncology methods to eliminate cancer in the beginning phases. Accuracy is needed to guarantee that all cancer cells are eliminated. Theoretically, it is undeniably challenging to do with open or minimally invasive surgery. But now, with the help of improved 3-D video and more prominent control over the surgical developments, reliably disposing of all the cancer cells is possible.

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Robotic Gynecologic Surgeries

Most robotic gynecologic surgeries utilize the cutting edge da Vinci surgical system, which is intended to assist surgeons to perform surgeries with unparalleled accuracy and control, by making a couple of little cuts/incisions. Along with this, surgeons can have access to improved dexterity, enhanced visualization, etc. These credits allow specialists to perform more intricate surgeries than can be achieved by traditional laparoscopic surgery.

Robotic surgery is performed through small cuts of one to two centimeters that cause a negligible effect on the encompassing region. Patients are often allowed to return home after a very small short stay in the emergency clinic and numerous ladies report little or no huge torment after a procedure. The quicker recovery allows them to financially recover and back to their day-by-day activities sooner, frequently in merely days.

Here are 5 robotic gynecologic surgery procedures are used to treat common female pelvic conditions:

Robotic Hysterectomy Surgery

Robotic hysterectomy surgery eliminates all or part of a lady’s uterus. The fallopian tubes and ovaries are likewise eliminated sometimes. Hysterectomy might be suggested for conditions including uterine or cervical cancer growth, uterine fibroids, serious endometriosis, and more.

Endometriosis Resection

Endometriosis is a condition where the uterine coating is available in other pelvic organs, causing an agonizing monthly cycle and the formation of cysts, injuries, and bonds. Endometriosis resection eliminates the unusual tissue through little cuts to mitigate indications.

Robotic Myomectomy Surgery

Fibroids are a kind of tumor that develops inside the uterine wall and may cause indications like, pelvic torment, infertility, and excessive bleeding during the monthly cycle. In case they are dangerous, they might be taken out through a robotic myomectomy medical procedure.

Oophorectomy

Oophorectomy is performed to remove one or both ovaries is a typical therapy alternative for ladies with ovarian cancer, ovarian sores or other ovarian anomalies.

Pelvic Organ Prolapse Surgery

Pelvic organ prolapse happens when the normal tissue and tendons that hold the pelvic design setup start to fizzle. Pelvic organ prolapse surgery can reposition organs in the pelvic cavity.

In conclusion, advances in robotic technology such as the single-site platform and telesurgery, have the potential to revolutionize the field of minimally invasive surgery or robotic gynecologic surgery. The better proof is expected to decide the benefits and drawbacks of robotic surgery in the gynecologic medical procedure. Route of a medical procedure determination should think about the specialist’s ability and comfort level that takes into account the highest level of security and effectiveness. At last, the robotic gadget is an extra minimally invasive surgical tool that can promote the objective of limiting laparotomy in gynecology.

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Automation VS Robotics: Which is Good for Your Company?

Automation VS Robotics

Here is everything you need to know about Automation Vs Robotics

Is there a difference between robotics and automation? Many people are unsure whether automation is suitable for them. Should you invest in robotics or should you invest in automation are two questions that company owners commonly ask. But what is the difference between them? Are robotics and automation the same?

Automation is currently a popular issue in many sectors. It can refer to a variety of things outside of robotics. In this article, let’s discuss the differences between automation and robotics.

Which is Good for Your Company: Automation or Robotics?

First and foremost, if you work in a fast-growing firm, you’re undoubtedly thinking if automation or robotics is suitable for you and, if so, how you might use it. The short answer is that it relies entirely on your present business structure and requirements.

Take this into consideration to see if it’s the correct move for you:

Are there any jobs in your firm that are now performed by humans and are monotonous, repetitive, and reflect the same process logic?

Are these tasks physical or virtual?

Are there any duties in your company that stifle productivity?

What are Automation and Robotics?

The following definitions show the fundamental distinction between automation and robotics:

• Automation: Automation refers to the use of computer software, machinery, or other technology to do tasks that would ordinarily be performed by a human. There are various types of automation, varying from totally mechanical to wholly virtual, and from simple to complex.

• Robotics: Mechanical engineering, computer science, electrical engineering, and other engineering and science disciplines are all part of robotics. Robotics is the study of the design, building, operation, and use of bots, and also the computer systems that control them, provide sensory input, and analyze data. You program them to execute physical activities (such as lifting, machine maintenance, painting, and so on), and they complete them on their own.

What is Automation?

Many industries are debating whether or not to automate their various sections. In conferences and discussions, terms like Robotic Process Automation, Adaptive Automation, Business Process Automation, and Test Automation are all often used. Automation may be divided into two categories: Industrial Automation and Software Automation.

Software Automation

If you’ve read anything at all about automation on the internet, it’s almost certainly been about software automation. A computer program that is programmed to perform repetitive activities using the same reasoning that humans use when using computer applications.

GUI test automation, for example, is a method of testing computer applications. It entails capturing a person’s activities while engaging with a graphical user interface. These activities are then repeated to test the program independently after modifications to the core software have been implemented.

Among the other forms of software automation are:

• Business Process Automation (BPA): It is the digitization of business operations facilitated by technology. It is carried out in order to accomplish digital transformation, enhance service quality, improve service quality, or keep expenses in check. It entails integrating applications, reorganizing human resources, and deploying software across the organization.

• Robotic Process Automation (RPA): RPA has little to do with real robots, despite its name. It relates to “software robots” or “bots,” which are pre-programmed scripts that use computer programs, in the same manner, a person would. They may not always accomplish jobs in the most efficient manner, but they are far easier to incorporate into current business processes and may be deployed in phases, yielding immediate results.

• Intelligent Process Automation (IPA): This is a branch of RPA that employs artificial intelligence (AI) to understand how humans execute jobs while using a computer program and, like humans, make judgments based on logic, sentiment, or previous occurrences. As a result, the “software robots” can act more smartly than RPA’s fairly rigid regulations.

The distinction between BPA and RPA is subtle. BPA is like taking out your whole human-operated manufacturing process and replacing it with a totally automated one, using a robotic manufacturing comparison. RPA is similar to attaching a collaborative robot to one of the manufacturing line’s workstations. Boston Dynamics, one of the most well-known manufacturers of sophisticated industrial robots, is shown here demonstrating their SpotMini robot.

Industrial Automation

When people speak about “automation and robotics,” they’re typically talking about industrial automation. Managing and controlling physical processes is at the heart of industrial automation. It entails automating activities inside an industrial process utilizing physical equipment and control systems. Amazon’s completely automated manufacturing is an extreme example:

Robots in Amazon’s warehouse: That’s how FBA shipping times may be so quick!

In industrial automation, there are several different types of machines. CNC machines, for instance, are widely used in the industrial industry. Only one sort of machine is a robot.

What is Robotics?

Robots, as previously said, are programmed devices capable of performing a sequence of tasks independently or semi-autonomously. Sensors and actuators allow them to interact with the physical environment. They are far more versatile than single-function devices because they can be reprogrammed. As a result, everything involving physical robots is referred to as robotics.

Participatory robots are programmed to perform tasks in the same way that humans do. Even though robots are usually immobile, they are nevertheless at risk of colliding with objects or humans that walk into their workplaces. If a possible impediment is detected, robots can utilize machine vision or motion detectors to halt what they’re doing. That’s why there’s a growing need for true collaborative robots (cobots) that can collaborate effectively with humans. They may now take orders from people, including ones that the robot’s initial programming did not foresee. Robots and humans will require a common vocabulary for this, which may increasingly be simple speech.

Conclusion

To make things a bit more complicated, some robots are “autonomous,” which means they can function without direct human supervision in real-time, but they aren’t utilized in automation. A miniature line-following bot, for example, can trace a line drawn on the ground automatically. It isn’t automation, though, because it isn’t carrying out a specified duty. Instead of delivering drugs throughout a hospital, the line-following bot would be considered automation.

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AI and Robotics: Next-Generation Religious Priests for Worshippers

AI and Robotics

Analytics Insight explains the next-generation religious priests through AI and Robotics

The combination of AI and Robotics is dominating multiple industries across the world with touchless interactions between human employees and machines. The advent of the pandemic has announced some safety protocols that should be maintained throughout the year. Temples are closed for almost a year to avoid mass gatherings. Even if it is opened, there are some restrictions to follow that are impossible for elder generations in society. Thus, major disruptive technologies like AI and Robotics have merged recently to provide an immersive experience to worshippers in this pandemic through AI as religious priests and robot priests. These cutting-edge technologies have penetrated into temples and priesthoods to continue the prayers of gods and goddesses worldwide. Let’s go through this article and learn more about how AI and Robotics are the next-generation religious priests in the nearby future.

AI religion is taking over the temples and priests to deliver sermons and interface with worshippers. Yes, Robotics in priests can be found in a 400-year old Buddhist temple in Kyoto, Japan who is known as Mindar. Japan is one of the contenders in the global AI race and has embraced the smart functionalities of AI and Robotics in different fields for efficiency. The country has launched a robot priest with multiple unique features such as the body is made of aluminum and silicone and looks like a Buddhist deity of mercy, Kannon. The total cost of this robot priest is US$1 million with an aim to enhance the religious affiliation in the country. The developers have planned to incorporate machine learning algorithms to collect feedback from daily worshippers on different spiritual as well as ethical concerns regarding its pre-programmed sermon on the Heart Sutra.

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This is not the only case where there is a robot priest in an AI-based country. Being a developing country, India also has launched a robot priest in 2017 to sermon the Hindu prayer rituals with a rotational light for the deity. Along with India, there is Germany, where it has launched a BlessU-2 robot in a Protestant church to provide blessings to more than 10,000 worshippers every day. Catholic saints have adopted a 17-inch tall robot priest known as Sanctified Theomorphic Operator or Santo that responds like a Catholic priest if anyone discloses any concern.

That being said, religious leaders and authorities have initiated to incorporate the capabilities of AI in temples, churches, and other religious places through the implementation of Robotics. A robot priest can transform the faith of worshippers with positive potentials. But, some cultures across the globe are being opened to these religious AI than the other cultures. Thus, religious leaders are seeking innovative ways to stay connected with the potentials of next-generation religious priests for worshippers. Leveraging disruptive technologies like AI and Robotics, religious leaders have embraced religious AI to channel ancient wisdom to future generations.

Robot priests have started giving the essence of multiple religions with modern Robotics technology that helps in flexibility of arms and ahead. People considered the human priests to be the ultimate performers in holiest ceremonies across different cultures. But mindsets are changing with this tech-driven world and fast-paced life. There are some places where robot priests are cheaper than human priests. So worshippers and prayer ceremonies hire these AI incorporated robot priests to complete the event with a holy spirit.

Thus, the main advantage of the combination of AI and Robotics is that it helps to connect and reach out to mass by spreading awareness and blessings online through digital marketing. It helps to captivate the mixed spirituality with AI and Robotics and finally become the next-generation religious priests for worshippers.

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Top 8 YouTube Channels to Gather Knowledge About Robotics

YouTube Channels

Check out the article for the top 8 YouTube channels for Robotics.

Robots have always been a fascinating piece of technology, programmable to move, make noise, light up, and follow instructions as directed. It is quite fun to learn about robotics. And it is more fun when it is free learning. And when it is about free learning, there is no better platform than YouTube. YouTube is playing a huge role as a platform for online learning.

YouTube was perceived as a medium of entertainment only but now it has become a huge source for informative educational content. There are so many channels that provide free tutorials to youngsters. YouTube is transforming the way we consume audio-visual material. YouTube has become a new television for the 21st century. Whether it is for free entertainment or free learning YouTube has become the only option.

This article provides you with a list of the top 8 YouTube channels to learn Robotics. Here we go.

Raspberry Pi Robotics Series

It is a great YouTube channel that helps in exploring robotics. It provides deeper knowledge in programming for robotics. If you don’t have any prior knowledge of programming, this is the best channel for you. You can get to learn the basic theories and logic behind programming and find out how you can use it to create a robot.

YouTube channel: https://www.youtube.com/channel/UCFIjVWFZ__KhtTXHDJ7vgng/featured

Botyard

This channel is mainly for those who already have basic knowledge of the fundamentals of electronics and want to design a robot. This channel has many parts and the 5th part of the robotics series is the best one for you if you want to build a robot. It is a pioneering series of demonstrations that will help you find out how to build a simple R2-D2 like a robot. You will get to know how to design a robot from multiple LEDs, flashlights, servos, etc.

YouTube channel: https://www.youtube.com/channel/UCKKvP9Mcbz8fdahSd_BuYkQ

Introduction to Robotics by Stanford

The YouTube channel provides a series of video lectures on robotics by a Professor of Stanford University. This channel provides a more conventional and conceptual approach to learn robotics. If you have an interest in learning advanced robots then this is the best channel for you. This channel will provide you with advanced theories like inverse and forward kinematics, dynamics, force and position control, trajectory generation, etc.

YouTube channel: https://www.youtube.com/watch?v=0yD3uBshJB0&list=PL64324A3B147B5578

Robotics with Raspberry Pi

With this YouTube channel, you can grasp the knowledge of how to design and program your robot with Raspberry Pi using comprehensive commands. Raspberry Pi is a small computer that can be curved down to different components. It can be organized to carry out different innovative things.

YouTube channel: https://www.youtube.com/channel/UCFIjVWFZ__KhtTXHDJ7vgng/featured

Programming with RobotC

This channel provides programming tutorials with which you can start programming your Robot with RobotC. The RobotC is a cross robotics programming language based on C Programming with an easy-to-use development environment.

YouTube channel: https://www.youtube.com/watch?v=06uJUMAAGys

The Vex Robotics

This channel provides the basics of Vex Robotics. Vex Robotics Programming is a robotic language. However, Vex, also used for robotic competitions in many robotics colleges. This channel is basically for Vex competition robots for Autonomous Control using RobotC. But there is a vex robotics programming guide video series where you can learn about programming your own Vex Robot.

YouTube channel: https://www.youtube.com/watch?v=_7W2PTAE8tM

Universal Robotics

This channel provides stories on how collaborative robots or cobots are reducing the automation barrier. Through this channel, you can learn how UR cobots can help your business.

YouTube channel: https://www.youtube.com/user/UniversalRobotsVideo/videos

Robotic Trends

This channel provides a guide about how to improve daily life with robotics and AI technology. Through this channel, you can get through news and resources in consumer robotics and also about the latest products related to robotics.

YouTube channel: https://www.youtube.com/channel/UCVxD-pxmTHQDa4lNA8Vagig/videos

Also read:

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Can AI Robots Operate as an Alternative to the Cabin Crews?

Robots

Will cabin crews be replaced by AI robots?

Artificial Intelligence can alter all the systems that require human intervention. From healthcare services, drug development to shipping and logistics, AI has played an important role in automating almost everything resulting in minimum human intervention. You must be aware of AI robots that are working as assistants in offices, robots that are serving people in restaurants, and also cooking for their masters.

Nowadays, onboard passenger service is often based on AI automated tools. This is because of constant technology development and digital transformation. Passengers can acquire information, make a meal order, and can experience many other automated onboard services.

89% of the Aviation industry is planning to improve customer service and bring rapid development in customer service automation with AI-based virtual agents and chatbots by 2022. The industry is continuously investing in AI-powered tools and automated technologies for customer service. Customer service whether in an airport or airline is a highly essential function.

Automated customer service commonly includes tools like chatbots and voice bots. Chatbots simplify the customer’s experience while looking for relevant information and answer either on an airline’s website or tablets at airports. Chatbots usually assist in solving problems like flight cancellation, changing the flight, etc. When AI-based chatbots cannot handle the customer’s needs, then a real customer service expert mediates in the conversation.

Voice bots mostly assist pilots and cabin crews. By using natural language processing and machine learning, voice bots understand a person’s speech and response accordingly. Automated tools help during complex tasks, whether it is a mechanical issue for a pilot or connection loss for a cabin crew. Also, voice bots enhance customer service on board while speeding up communication processes.

Now it’s time for AI robots as cabin crew or precisely cabin crews.

Cabin crews are trained to assist every passenger to make their travel comfortable and easy. How will robots carry over the work of cabin crews?

A robot can complete the tasks of cabin crews easily by moving in the aisle to deliver food items to passengers. When the robotic system will be deployed in the airplane, it will simplify the whole process of taking orders and requests from the passengers and providing them with the required items. Robots can also adapt to navigation in the airplane.

The Boeing company invented the “airplane passenger service robot”. The passenger service robots can navigate by using sensors that are incorporated into its body. For instance, the robot can detect a passenger standing in the way. After detecting it issues audio-visual warnings. If the passenger does not give way, then the robot will retract its wheels and rest on the floor to let the passenger step over itself. The top of the Passenger Service Robots may include steps that enable the passengers to easily cross over the robot.

AI robots can transform the structure of the present passenger service by getting work done more efficiently and reducing the need for cabin crews. But will that be enough?

The human cabin crew can interpret the emotions of the passenger and understand their needs. Just from a single experience humans understand everything, but in the case of robots it takes time to train them, robots don’t learn from one experience, robots need to learn from various experiences, interactions, and training.

The ultimate goal is to serve the passenger, so why not robots and humans work together to reach the demands and needs of the passenger?

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Want a Robotics Career? Choose the Right Degree

robotic career

23Do you dream of a career in robotics engineering? If so, it’s essential to begin preparing as early as possible, preferably while still in high school. However, if you’re a working adult who has not yet attended college, you’re still in the chase because you can start a four-year degree with robotics at the forefront of your mind. The 2020s are turning out to be something of a golden age for anyone with skills in the field. Salaries are high, companies are having a hard time finding qualified candidates, and the future looks very bright all around.

If you want your life’s work to focus on designing, testing, or building robots, then now is the time to get busy putting the pieces of your career puzzle in place. Robotics engineers do many things, some of which include reviewing various calculations, debugging computer programs, calibrating bots, reviewing machine designs, and performing a wide range of robotic testing services. If you’re ready to get started, obtaining a suitable education is the first step.

Get the Right Education

If you’re still in high school, take as many advanced mathematics courses as possible. This will save you from having to learn things like calculus from scratch after college begins. If you are a working person getting ready to attend college for the first time, consider taking learning the basics of calculus via a few online tutorials. For robotics engineers who work in the field or in research, having a four-year degree, particularly in either electrical or mechanical engineering, is the crucial first step on the path to a career.

Finance Your Degree

College is neither cheap nor free. Getting an engineering degree typically takes four years and means plenty of studying, testing, and lab projects. The first question, however, is how to pay for all of it. For those who wish to focus on school work and deal with the money question as soon as possible, the wise path is to take out an education loan from a private lender. It’s the most efficient way to pay for your next level of education, after high school, toward a rewarding career. Not only do private institutions offer competitive rates, but you’ll have the chance to shop around and compare terms. That way, you can use the loan proceeds to cover all the associated expenses and spend your time studying for a diploma.

Get an Internship Position

While you’re still in school or shortly after, network with guidance counselors and anyone else who can help you find an internship in the industry. Even if you have to work an unrelated nine-to-five job for a few months while earning nothing as an intern, the experience will open many doors and give you those first real-world, on-the-job skills. The majority of degree candidates are able to find internships during the summer between junior and senior years.

Get a Job in the Industry

Hire a resume writer, practice interview skills, and begin applying for entry-level jobs in the robotics field. Remember that robotics positions can also be found within companies that specialize in other areas of tech. For example, some of the tops AI research firms and jobs likely also have departments with openings in your specific area of interest so do not be deterred by a company’s supposed main focus. When you do land a position, devote yourself to it entirely. Managers tend to watch new hires closely and promote from within. Diligence and hard work during the first year on the job will pay huge dividends.

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Top 10 Green Robots in the Market Everyone Should Know

Green Robots

Know why there is a need for green robots and how everyone can use them to save the environment

Innovation is advancing enormously in the field of robotics. Robots currently deal with various assignments in various sectors, from lifting a box to defusing a bomb. Soon they might accept jobs in a wide range of ventures. As robotic technology have a bigger influence across the world, it becomes important to think about its impact on the environment. In that case, the best option people have is Green robots, which are used to help preserve the environment by fighting wildfires, managing waste, and cleaning water bodies.

Here are the top 10 green robots everyone should keep an eye on:

TubeBot

Holes in water pipes cause a lot of drinkable water to be squandered. Nonstop work is difficult to follow and would cost a lot of money in labor. The TubeBot is a green robot utilized in Berlin and is fit for identifying any break in the pipeline. It is fit for producing power utilizing water pressure and is customized to examine the entire pipeline with the outcomes being sent back remotely. It can identify the area of any breaks so they can be effectively fixed.

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Benthic Rover

Scientists at the Monterrey Bay Aquarium Research Institute utilize the Benthic Rover to review the seabed to gather information on ecological conditions. By taking photos and estimating conditions, for example, oxygen levels, this robot will empower researchers to see what ocean warming is affecting environments. It is also one of the best green robots in the world.

Solar Based Robot SeaSwarm Technology

Specialists at MIT’s Senseable City Lab introduced a model dependent on SeaSwarm innovation. The expense of the task is around $200 million. A solar-based controlled transport line around 16 feet long is produced using an oil slurping wire network. The material can disengage and absorb its load in oil multiple times. A few gadgets are made to facilitate utilizing remote innovation like GPS.

Methanol Fuel Cell Powered Weeding Robot

This robot is pointed toward making the weeding system simple and harmless to the ecosystem. It runs on a methanol power device and navigation is dealt with a GPS. The robot utilizes computerized picture acknowledgment to separate the plant and the weed. It likewise incorporates a rotating instrument that is utilized for cutting weeds. Energy is utilized proficiently and weeds are cut with precision.

Tree Planting Robot

The tree plantation is still done physically. This ‘tree planting’ robot is an eco-accommodating, four-legged machine furnished with a planting head and arm and can plant seedlings. It is furnished with a defensive hindrance made with biodegradable plastic and shields the seedlings from bugs. The driving force of the robot is steam-based and is energized with forest wastes. The seedlings are stacked in the planting head by a rotating cartridge. The seedlings are planted in a particular pattern. The robot is effective and adaptable.

Robot Hunters (EcoBot II and EcoBot III)

The group behind SlugBot has continued to the production of all-new robot hunters, including self-controlled, fly-eating EcoBot II, which draws in its prey by discharging a scent similar to that of human waste. The group additionally is dealing with EcoBot III and has explored making a tiny fish chomping, self-controlled robot to live in the sea.

Sewage Pig

Created by Thermo-System, Sewage Pig is the wheeled robot truck through human waste, utilizing tackled solar energy to assist with drying an expected 60 million tons of sewage a year in Germany alone. As the robots truck through the muck, they additionally turn it, circulating air through the covetous microorganisms. The electric moles continue to work expenses and fossil fuel byproducts low for sewage treatment plants.

Sawfish Underwater Lumberjack

Triton Logging’s Sawfish the 3,175-kilogram controller submarine plunges down, joins airbags to the tree trunk, and afterward gets to sawing. Triton as of now collects Douglas fir, Western white pine, stop post pine, and hemlock all year in British Columbia. In addition to the fact that this is a green robot, it’s effectively rounding up the mixture.

Roboctopus

Roboctopus is an underwater robot that can dance through complicated environments without disrupting or damaging the surroundings. While there is nothing inherently green about biomimicry, the Roboctopus would allow scientists to better hunt for signs of climate change in narrow ocean floor cracks and amid fragile coral.

Robot Ships That Battle Global Warming

The thought behind this geoengineering plan is that by mirroring a simple 3 percent more solar radiation, one could counter a lot of the dangerous atmospheric deviation welcomed on by expanded carbon dioxide creation. To get that additional reflectivity, you could shoot giant mirrors into space, paint more rooftops white or make more cloud cover, which fills in as a natural solar radiation reflector.

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Top Seven NASA Robots Which are Interesting to Know About

Robots

These NASA robots replaced humans in completing dangerous tasks

Robots have been helpful in numerous ways, similarly, they have also been playing a major role in the National Aeronautics and Space Administration (NASA). The institute has designed several robots and devices to help, augment and substitute in place of astronauts to perform difficult tasks such as repairing in dangerous environments filled with radiations or micrometeorite risks. Let us see what are the interesting things about the top NASA robots.

Robonaut

Robonaut is a project designed by DARPA and NASA in the 1970s for creating a humanoid robot that can function as humans. The Robonaut project aimed to build a robot that is capable of exceeding the efficiency of the astronaut. At present, there are four diverse robonaut and others have also been developing. These types of robonaut allow studying different stages of mobilities. But the interesting part is that all four robots use various locomotion methods. As the robonaut was created to mic humans, not all human range of motion and sensitivity has been replicated. The robot’s hand can only move until the fourteen-degree angle and uses touch sensors on the tips of its fingers. The robonauts R1 and R2 are still working and R2 was the first humanoid robot in space.

RASSOR

Regolith Advanced Surface Systems Operations Robot also known as ‘RASSOR’. It is one of the lunar robots which will autonomously excavate soil when it is near completion, using its small tank on either side mounted on arms that helps the robot to climb and surpass the obstacles. Razor’s drums are positioned vertically and are 2.5ft tall weighing 100 pounds. This robot is unique in its way because NASA has not designed this as soft and fragile but it has created it to be more robust and hardy. When looking at the excavating drums they are designed to remove soil into a hopper that can hold 40 pounds of material. RASSOR drives to the processing plant to chemically break the lunar soil to convert it into rocket fuel, and water. This way the launching cost could be saved by 90%. NASA has already started to design RASSOR 2 which will be closer to the prototype of RASSOR 1.

Spidernaut

Spidernaut is an arachnid motivated ‘Extra Vehicular Robot’ created by NASA for maintenance, construction, and repairing the projects in space missions which can be unsafe for humans to do. The interesting part about Spidernaut is that its legs can move in three different points and has one rotary joint in its hip and two more joints that are linearly actuated. Each leg of the Spidernaut weighs about 40 pounds and is capable of supporting 100 pounds, exerting upwards of 250 pounds of force. This robot can climb across surfaces including the solar panels and exterior of spacecraft without damaging them a bit too. Spidernaut is powered by a 72V/3600 Watt-hour lithium-ion battery and depends on Power Conditioning and Distribution Module which converts the 72V main bus to all the voltages that are needed for devices on the board. In its new developments and research, NASA has begun to experiment with a web-like cable deployment system that allows the robot to climb and hang above the structures.

ATHLETE

All Terrain Hex-Legged Extra-Terrestrial Explorer is also called ATHLETE. It is a six-limbed robotic lunar rover test-bed that is developed by the Jet Propulsion Laboratory at California Institute of Technology. This robot is designed as a testbed for several systems that can be used for several systems of lunar or Martian exploration. This six-legged NASA robot has six degrees of freedom having independently operated joints. The first-gen ATHLETE robot was developed in 2005 and is still operational even today. The second-gen ATHLETE was built in 2009 where the robot was redesigned and implemented with 3 limbed robots known as Tri-ATHLETs. This advancement helps in cargo handling, loading, and unloading. The second-gen robots are 4m and have a capacity of 450 kg.

Dextre

Dextre is a two-armed robot, a tele manipulator that is part of the Mobile Servicing System on the International Space Station (ISS). The activities such as spacewalks are replaced by these Dextre robots. It was launched into space in 2008.

SPHERES

Synchronized Position Hold, Engage, Reorient, Experimental Satellites are otherwise called Spheres. These are still in the experimental phase at NASA which is about the size of a bowling ball. Each Sphere is self-contained having its own power, computers, propulsions, and navigation equipment. These spheres are used inside the space station to test how well the spheres can follow a set of detailed flight instructions. The results from the sphere testing will be applied to satellite servicing, vehicle assembly, and future spacecraft that can be designed to fly in a formation.

Curiosity rover

Curiosity is the Mars rover which is a mobile laboratory launched in 2011. The rover landed on Mars on August 6, 2012. This is considered to be the largest rover of NASA that has been placed on Mars. It is twice as long and five times heavy as its processors. This robot has been designed taking design elements from the previous generation of Mars rovers such as rocker-bogie suspension, six-wheel drive, and cameras mounted to the mast of the rover helping the mission’s team direct the rover. Unique to Curiosity is that it has an inboard laboratory to test the soil and rocks on Mars. NASA made this capable of rolling through its obstacles up to 65 centimeters high and traversing up to 200 meters per day on Martian terrain.

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Shape-Shifting Robots: The Latest Robotic Development

Robots

This exciting robotic advancement is a futuristic step forward.

There is an exciting development happening in the robotic industry – shape-shifting robots. Imagine yourself walking on a neatly leveled road and then walking in a pool. You will have to change the way you walk depending on the surface. In the same situation, a typical robot will also have the ability to change the way it walks. But a shape-shifting robot will be able to make changes beyond that. It can alter the shape of its body to be equally fast in the pool.

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How is that possible?

In an industrial setup, workers depend on robots to carry on difficult and dangerous tasks, like inspecting nuclear reactors, space exploration, and heavy-duty manufacturing. To finish these tasks, a static robotic exoskeleton will limit its capability. A shape-shifting robot, on the other hand, will be able to adjust in unexpected environments. It can learn the best body shape for various environments and change itself to become an integrated part of it.

Of course, most typical robots can change directions and speeds, but with the added ability to morph its body, the robot can overcome obstacles and continue to perform tasks despite the terrain and environment. Similar to deep neural networks, neuroscience and biology serve as an inspiration to engineers who are working on shape-shifting robots. Biological creatures like Octopuses can alter their body structure, stiffness, and behavior to accommodate a variety of environmental demands. Through this complex anatomy, Octopuses can squeeze through spaces that are much smaller than their bodies and navigate away from the predators.

Additionally, biological bodies possess highly regenerative characteristics and the ability to repair themselves. Salamanders, Octopuses, and Starfishes are known for their ability to grow back a damaged limb. This intelligent modification system serves as an important proof of principle and design inspiration for AI and robotic scientists.

Shape-Shifting Robotic Developments

1. DyRet

DyRET is a shape-shifting quadruped designed to test the concept. Each of DyRET’s four legs has two telescopic sections that allow it to change the length of its thigh or shin bones. With built-in motors, the length of its legs can automatically change when the robot is working. DyRET also has sensors that make it aware of the surface it is walking on. A 3D camera points at the ground between its four legs to estimate how rough the ground is.

2. Shapeshifter

Shapeshifter is NASA’s new robot which can morph into multiple configurations, designed to explore Saturn’s moon Titan. Currently, NASA is testing a 3D-printed prototype of this robot and it can split into two halves with propellers that can float through the air like drones. The actual robot will be a mothercraft that will carry 12 mini-robots to the surface of Titan. Those mini-robots will work together to move the mothercraft to different locations. They will also be able to function individually. For example, the mini-robots will fly in different directions separately or a group and later link up together to explore further.

3. Origami Robot

MIT’s Distributed Robotics Laboratory at the Computer Science and Artificial Intelligence Laboratory lead a team that developed the first iteration of an origami-inspired robotic design. According to the official paper published in the journal PNAS, it is said that this mini robot “constitutes elements that interact and rearrange intelligently” to achieve its goal. The tiny robot works using a sheet of glass fiber and hydrocarbon materials. For it to bend, the sheet uses elastic, plastic creases that divide the sheet into 16, 4-inch squares. Using algorithms, the robot takes the form of origami objects like a tiny boat or a plane.

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