Top 10 Affordable Personal Robots to Buy in India this Year

Robots

Make your life easier with these top personal robots.

Many industries and businesses need robots and artificial intelligence to keep up with today’s technological advancements. Several other sectors, such as hospitality, healthcare, homes, and colleges, etc. now need artificial intelligence and robotics more than ever to address a variety of issues that have weighed them down. Robots can not only work with greater precision, reducing the amount of time and materials consumed, but they can also work faster (and for longer) than humans.

In this article, Analytics Insight presents you the top 10 affordable personal robots that you can buy in 2021 in India.

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Educational Robot

Multiple students choose to learn from robots because of their ability to teach the same thing over and over without being bored, which is a characteristic not found in humans. Furthermore, combining interactivity with a robot in the classroom makes learning more exciting and fascinating for students, which aids learning significantly.

For example – DJi RoboMaster S1 Intelligent Educational Robot (2nd Gen.)

  • Intelligent Educational Robot STEM Toy Robomaster S1
  • Comes with Programmable Modules, Scratch and Python Coding

Know more here.

Serving Robot

The Serving Robot’s main goal is to provide excellent service to the customer. It takes their orders and ensures that food and refreshments are delivered to them. It performs valuable tasks for people or replaces appliances. These robots are used for a variety of tasks, including washing, cooking, healthcare, and collaborating.

  • Usage: Hotels, Restaurant, Food Shop, hospital
  • Brand: Penguin engineering

Know more here.

Human Robot

A human robot is one whose body is designed to look like a human’s. The design could be for a variety of reasons, including communicating with human tools and environments, conducting experiments, and so on.

  • Usage: A perfect companion of a naughty child, which can perform a number of functions.
    The company is offering a wide range of Human Robots to fulfill the requirements of its clients. This product is made employing sophisticated input and the latest techniques.
  • Brand: Comp-point Systems Private Limited

Know more here.

Autonomous Delivery Robot

Autonomous Delivery Robots are electric-powered motorized devices that can deliver goods or products to consumers without the assistance of a human.

For example : Marvelmind v100

  • Usage: It is an autonomous delivery robot for smart warehousing and industry.
  • Brand: MarvelMind

Know more here.

Robotic Vacuum Cleaner

A robotic vacuum cleaner is an autonomous vacuum cleaner with a specific vacuum floor cleaning process, sensors, robotic drives, programmable controls, and cleaning patterns.

For example : iRobot Vacuum Cleaning Robot i7

  • Usage: Robotic Floor Cleaner
  • Brand: iRobot

Know more here.

Smart Home Robot

A smart robot is artificial intelligence (AI) device that can evolve from its surroundings and experiences in order to improve its capabilities. Smart robots can work closely with humans, learning from their actions and collaborating with them.

For example : Lynx – Amazon Alexa Enabled Smart Home Robot

  • Usage: Lynx combines the latest advancements in robotic technology with the ever-expanding skills of Amazon Alexa to bring you the smart home partner of the future.
  • Brand: UBTECH

Know more here.

Robotic Hand/Gripper

Depending on the requirements, a robotic hand may be built to execute any required work, such as welding, gripping, spinning, and so on. These hands can perform advanced movements that are similar to those of a human hand.

For example : RH-P12-RN-UR

  • Usage: Simplified design enables easy mounting on custom applications.
  • Brand: Robotics

Know more here.

Entertainment Robot

An entertainment robot is, as the name implies, a robot designed solely for the human’s subjective enjoyment rather than for practical purposes such as production or domestic tasks. It normally caters to the owner or his housemates, as well as visitors or customers.

For example : Spaceman Robot

  • Usage: The robot functions as a Bluetooth speaker to play music, read bedtime stories or nursery rhymes to kids, and audiobooks. It also has the ability to move and dance.
  • Brand: ECHEERS

Know more here.

Mobile Control Robot

A Mobile Control Robot is a multipurpose robotics package with a development board that can be used in a variety of other projects.

  • Usage: It is used in mobile-controlled projects, multiple DIY projects, school and college projects.

Know more here.

Robot Dog

A robot dog responds to your orders, giving you the realistic feeling of owning a dog. You won’t have to bother with its meals or clutters because it’s a toy. This type of robot dog toy is great for kids, seniors, and people who are lonely because it engages and entertains them.

  • Usage: Multifunctional: voice recognition, various touch sensors, LED lights, rf sensors, and Bluetooth speakers.Except for entertainment, the smart robot can improve knowledge and activate a child’s imagination,intelligent development, interest, and other abilities.
  • Brand: Hong

Know more here.

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Pentagon is Attempting to Incorporate AI-controlled Robots into the US Military

AI

The Defense Advanced Research Projects Agency (DARPA) of the Pentagon has been testing completely autonomous artificial intelligence to handle drones bearing military weapons and licenses to combat enemy attacks. The US military requires human monitoring and supervision on all drone operations that use lethal force, so this is a significant deviation from normal procedure.

Last August, a drill involving numerous dozen AI-controlled drones and tank-like robots was held in Seattle. The AI-controlled drone swarm was expected to follow specific orders from a human operator, such as locating and destroying terrorist suspects, but they were free to choose their own form of action and strike without the need for human interference.

Rather than using actual weapons, the drones were equipped with radio identifiers that simulated weapons while detecting strikes and failures using telemetry and signal data. The drill purposefully used a huge number of robots to prevent human supervision. Simple goals (such as search and destroy enemies) were provided to the drones, with AI and algorithms deciding the form of action.

The objective of this exercise was to investigate the use of artificial intelligence (AI) in battle situations that are too complex and unpredictable for humans to manage. The Pentagon wants to see if it’s possible to limit humans to high-level choices while AI handles complicated, critical decisions about how to accomplish certain tasks in an effective way.

Experimentation by the Pentagon to automate this element of conventional combat could pay off handsomely by exploiting existing developments in electronic warfare. This would make combat much more effective and less dependent on human decision-making.

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PrecisionOS, an Award-Winning Simulation Company, Releases the First Fully Interactive Robotics Platform in VR

Robotics

PrecisionOS, the creators of the medical-grade virtual reality (VR) learning platform, has unveiled the official release of the world’s first fully interactive robotics platform in VR. PrecisionOS virtual reality surgery training, when combined with the Oculus Quest portable headset, provides a fast and economical way to prepare a complete surgical team in robotics.

According to a report, “Not only is traditional robotics training a complex and costly endeavor,” says PrecisionOS Founder, CEO and Orthopedic Surgeon Danny Goel, M.D, “but published research has demonstrated that onboarding and training times are a substantial barrier to robotics adoption with learning curves reaching up to 35 cases. This equates to months of onboarding, which depending on your volume of surgical cases, may have direct implications for patient care.”

PrecisionOS has replicated a responsive and immersive robotics experience, with the robot, arranging and adjustment using active cameras, actual software interfaces, and a virtual patient for the most in-depth and interactive robotic training environment accessible in virtual reality.

Furthermore, using PrecisionOS’s groundbreaking virtual reality medical simulation, all OR staff can be trained on robotics technology at the very same time, reducing on-the-job learning scenarios that could compromise care for patients.

The report also says, “In the event, if a surgeon is at another location, they can access and collaborate together in the same virtual operating room anywhere in the world via an Oculus Quest. “Providing access to high-quality education is our mandate at PrecisionOS,” stated Dr. Goel. “We are proud to address a significant need in the robotics industry while connecting educators to learners in a convenient and cost-effective way.”

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Opening Alert: Latest Robotics Internships to Look Out for in May 2021

Robotics Internships

Interested candidates can go through these openings of the latest robotics internships available in May 2021.

In this 21st century, robotic science has opened immense opportunities for aspirants to work in a thriving tech environment with hands-on professional training. Robotics and automation hold the power to transform the future scenario of the global market with efficient performances by smart and human-centric robots. The combination of advancements of AI technologies and computer science has started offering lucrative opportunities to enter into the robotics field. Robotics applications are being utilized in several industries such as manufacturing, agricultural, mining, nuclear power plants, IT services, aeronautics, and much more. If you are a robotics aspirant looking for internships in some hi-tech companies with brief responsibilities, Analytics Insight is here to help you out with a few current openings.

Backend Software Developer Intern at Apple

Apple Inc. is one of the reputed American multinational technology companies that specialize in consumer electronics, computer software, and other online services in the IT industry. Apple is popular for the successful combination of art and technology on a massive scale with end-to-end solutions.

Location: Suzhou, China

Responsibilities: The intern needs to apply skills, similar to web API development, to factory systems that assist the work of robots and humans alike. The intern should plan, develop and create new features by collaborating with prominent members of the team. The person is required to write application and review codes in Go and Modern SQL. The intern should optimize SQL queries by running a large volume of the database with Explain Analyse to create indexes and refactoring table structures. The intern also needs to deploy PostgreSQL Schema Migrations that can be executed with zero or minimal downtime. The person will look after the troubleshoots and mitigate the solution with applications, databases, networks, and proxies using Grafana, Prometheus, Kibana, WireShark, eBPFand many more available tools.

Qualifications: The candidate should have a Master’s degree with sufficient knowledge of Python, Rust, Java, or Node.js. The intern should have a clear understanding of computer science fundamentals such as algorithm design, networking, databases, distributed systems, automated testing, continuous integration, code review, and pair programming.

Apply here

Research Intern at Microsoft Autonomous Systems Research Group

Microsoft Corporation is one of the hi-tech companies in the world focused on developing, manufacturing, licensing, supporting, and selling various computer software, consumer electronics, and Microsoft Windows line of operating system in the global market. It successfully enables digital transformation in the era of intelligent clouds for the welfare of society.

Location: Remote (U.S./ Canada)

Responsibilities: The intern is required to work at the intersection of ML, Robotics, and Simulation with a core focus on deep neural networks and robotics applications. Sufficient research needs to be done on robot perceptions, safety as well as Sim2Real. The intern should focus on present findings and contribute to the lucrative life of the robotics community with mentors and other fellow interns in the 12-week internship

Qualifications: The candidate should have at least one or more years of practical experience in Deep ML or Robotics with the use of TensorFlow or Pytorch. The intern needs to agree to stay in either the U.S. or Canada for the internship period.

Apply here

Robotics Intern at Deloitte

Deloitte is the of the reputed multinational professional services network available in more than 150 countries, helping firms to innovate, transform and lead the global market. Deloitte drives progress by empowering firms to achieve more than their goals with integrity and appropriate actions.

Location: N/A

Responsibilities: The intern is expected to solve simple code challenges with several advanced technologies, ERPs, and databases. The intern should have a clear understanding of the design process of operational models, processes, and flowcharts by collecting and analyzing data and statistics available from the team. The intern should develop and implement AI algorithms with RPA tools to produce appropriate reports, charts, slide decks, and tables.

Qualifications: The candidate should have exceptional performance in computer science or IT, programming, decision-making theory, and analysis with a Bachelor’s degree. The candidate is required to demonstrate a sharp analytical mind and technical aptitude with a basic proficiency level in different programming languages.

Apply here

Management Trainee- RPA Support at Genpact

Genpact is a well-known global professional service firm to transforms any business into reality by driving digital-led innovations and intelligent operations. The company helps to solve complex problems with end-to-end operations and an AI-based platform, Genpact Cora.

Location: N/A

Responsibilities: The trainee will take part in RPA production bot maintenance, enhancement, and support activities for Robotics solutions. The trainee should provide timely RCA to the troubleshooting issues in the RA process as well as design those RA processes. The trainee needs to create and maintain RA solution documentation while supporting existing processes and implementing change whenever it is required. The trainee should create and document test procedures for the pre-UAT and roll-out phases while working with the version management system during the Robot code lifecycle. It is required for the trainee to meet the Incident SLAs and take regular transitions from RPA development, operations, and customer teams.

Qualifications: The candidate should have hands-on experience in developing and testing software on a Windows platform with RPA software, Blue Prism. One should be qualified to perform code reviews enforcing coding standards in the automation software products. The candidate must show several certificates in leading RPA products like UiPath, Automation Anywhere, Blue Prism, VP Scripts, and Macro experiences. The candidate should be familiar with service management tools such as JIRA and ServiceNow.

Apply here

These are just a handful of internship openings available in reputed companies in May 2021. If you are interested to know more, you can avail such the latest robotics internships from different professional sites or the official pages of respective companies. All the best for your future endeavors!

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Introducing MOBLOT, a New Model of Theoretical Swarm Robotics

Robotics

Theoretical methods are commonly used in swarm robotics research to abstractly explain robotic systems. The OBLOT method, which describes robots as simple systems, all identical, without memory, and unable to interact with one another, is a common theoretical model in robotics research.

MOBLOT, an extension of the OBLOT model that can be implemented to a broader variety of swarm robotics systems, was recently developed by researchers at the University of L’Aquila and the University of Perugia in Italy. The ways in which atoms naturally organize themselves to shape matter inspired this new model, which was presented at the 20th International Conference on Autonomous Agents and Multiagent Systems (AAMAS 2021).

According to the report, “MOBLOT is a new model in the context of theoretical swarm robotics,” Alfredo Navarra, one of the researchers who carried out the study, told TechXplore. “The acronym stands for Molecular OBLivious robOTs since the inspiration comes from nature: Like atoms combining themselves to form molecules, in MOBLOT, simple (and very weak) robots can move to form more complex computational units (which are also called molecules in the model), having extended and different capabilities with respect to robots.”

Molecular robots, once shaped, can assemble themselves into any form based on specific compositional properties, producing a robotic “matter.” If other inputs or stimuli are introduced after a given shape has been formed, the molecules may automatically rearrange (i.e., self-reconfigure) their positions to alter the shape.

The MOBLOT model, in comparison to the OBLOT model and other swarm robotics methods, can be used in a wider variety of situations where the symmetry of a robot swarm formation is broken. The model essentially formalizes the actions of very simple robots that can accumulate to form more complicated robotic structures (the “molecules”), which can then aggregate to form different kinds of final compounds (the “matter”).

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These Indian Edtech Companies are Shaping the Future of AI & Robotics

EdTech

Indian edtech startups and NITI Aayog are encouraging children to become entrepreneurs.

India’s edtech companies have unleashed their full potential in 2020. NITI Aayog, which concerns itself with developing a state-of-the-art resource center to promote research and innovation for the Indian government, initiated a program to enlighten young minds with entrepreneurship in 2016. Known as The Atal Mission Innovation (AIM), it aims at encouraging children to have a problem-solving mindset in school that can result in entrepreneurship in the future.

While the COVID-19 pandemic, since 2020, has hampered the Indian education system by shifting it from on-premises to online, AIM could not be enforced to its maximum in schools. Despite the challenges, the need for practical learning has to be maintained for future adults.

As edtech companies have taken a lead by digitizing education for the modern era, they have taken the stance to set up Atal Tinkering Labs in schools along with other services necessary for the budding ‘kidpreneurs’. With the availability of these services, students can experience 21st-century technologies like IoT, 3D printing, AI, and Robotics.

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EdTech Companies Leveraging AI and Robotics

With the AIM initiative in mind, these companies are leading the idea of inculcating learning using disruptive technologies.

1. STEMROBO Technologies

Founded in 2015, this is a Noida-based edtech company that focuses on leveraging technology in education. To attract young minds towards fields like STEAM, robotics, IoT, and artificial intelligence, the company provides Custom Designed Patented DIY Kits, STEM-based Toys Innovative Pedagogy, World-Class Content, and Methodologies through a team of 200+ innovation engineers.

As mentioned by NITI Aayog, STEMROBO Technologies are the ATL equipment vendors for more than 1200 Atal Tinkering Labs in schools like Kendriya Vidyalaya, DPS, DAV Public School, Bharatiya Vidhya Mandir, and Apeejay School.

2. RoboaKart

RoboKart’s mission is to explore, experiment, and learn robotics the right way to develop STEM in India. Apart from providing components to set up labs in public schools, RoboKart has also tried to take this initiative to government schools in rural areas. In an attempt to further promote this inquisitiveness, the startup will launch a new module to enable users to learn without physically attending the training programs, along with online courses for kids.

3. Whizrobo

Based out of Ludhiana, Whizrobo provides products and training materials for artificial intelligence and robotics to the K-12 segment. To create awareness about STEM education, the startups provide online courses, Robotic Kits, Online Workshops to motivate young minds to innovate. Whizrobo is an authorized channel partner for Punjab with AVM infotech India Pvt Ltd and is a listed vendor for NITI Aayog’s initiative.

4. Avishkaar

Since its inception in 2009, the company manufactures and sells robotic kits. With its main focus on robotics, the startup also develops an in-school robotic curriculum for children and installs robotic and science labs in schools. True to its name, Avishkaar aims to create an ecosystem with interactive learning experiences that encourage innovation in STEAM fields.

5. Comp Point

With a mission to cultivate students as neoteric innovators and future prodigies, Comp Point has set up Atal Tinkering Lab in 35 schools. The startup provides the right training to faculties, mentorship to students to create tech-based projects, and flexible layout designs that can be customized according to the school’s requirements. Apart from the lab infrastructure, Comp Point also hosts competitions, exhibitions, and workshops to create interest among STEM fields.

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Robotic Augmentation Is Cool, But It Might Affect Your Brain

Robotic Augmentation

Via robotic augmentation, would you get an extra thumb and trade your psychological well-being?

The modern advancements in the robotic industry can result in robotic augmentation. But that’s not new information, right? The catch is, it might have a psychological toll on people. According to the latest research done by University College London, robotic augmentation can affect human brains. In a study published in the journal Science Robotics, the research team elaborated on how they fitted an extra robotic thumb on 36 participants, to observe how they adapt and use.

“In recent years, the interest in augmentation technology has been growing rapidly. But we are still lacking answers to some very fundamental questions, such as: Can the human brain support an extra body part?”, says Paulina Keiliba, the study’s first author and a fellow researcher.

The popular opinion that stands is the fact that just because robotic augmentation is possible, it doesn’t mean humans should go for it. The psychological toll should be analyzed before making such a drastic move. The results of this study found out that robotic augmentation affects how our brain perceives our body.

There’s another reason for this study. Right now, having a robotic body part might sound cool and something people can show off, but in the future, robotic augmentation can become necessary for labor-intensive jobs. Keiliba urges future research teams to take a deeper look at this notion. There’s a big question in point here: if laborers have to wear an extra arm for their work, will they be able to re-adapt to their natural body movements afterward?

In the experiment, participants got used to their new thumbs easily and showed improved productivity. But according to Keiliba, this improvement comes with worry. “Using an extra robotic thumb is not neutral to the brain. For people to use the augmentative technology effectively, they need to change the way they use their natural fingers, they need to create new movement synergies, and by doing that, they update the way their body is represented in the brain”, she explained.

After the experiment, the research team scanned the participant’s brains to see any changes. They noticed a significant “shrinkage” in how participants mentally represented their own hands, which is not the case with people who lose a hand.

While the study doesn’t discuss implications caused by robotic augmentation with bigger body parts, in the future, it will be necessary to consider these psychological changes, especially its effect on children and adolescents.

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How Welding Is Transformed by Collaborative Robots?

Robots

Collaborative robots enhance welding quality and efficiency

When completed, all are projected to produce billions of pounds for the UK economy. The typical bystander, however, frequently fails to recognize the different abilities and components necessary to make these sorts of undertakings a reality.

Welders are used in all of these projects to join and fuse the metals that are essential to their structure and design. And, because welding occupations are so important to communities all around the world, demand for welders is only expected to rise over the coming decade. According to one market research estimate, the industry is expected to reach a global market size of around US$29.66 billion by 2028.

The world would fall apart if welders did not exist. However, the future of the industry’s employees is questionable. According to the Capital City Institution Group, London’s largest FE institution, the number of welders in the UK has dropped by a quarter in five years. Similar scarcity is felt over the planet. According to the American Welding Society, 336,000 more welding experts will be needed in the United States by 2026.

The Art of Welding

Welding is a technical and creative art form that requires a trained human eye and outstanding physical dexterity for the most complicated metal welds. It takes years to perfect and achieve enough expertise to earn the trust and esteem of corporations and fellow specialists. Welding is an art form because of the creativity and passion that it entails.

The operation itself can be risky and time-consuming if a task involves long basic welds or hundreds of similar welds.

Due to some of these issues, fewer young people are entering the welding industry and obtaining the necessary abilities, resulting in a skills deficit. As the welding workforce ages, it becomes more difficult to

fulfil increased demand in a variety of sectors.

This scarcity may potentially jeopardize the completion of important infrastructure projects, such as installing new pipelines for district heating or constructing wind turbines.

But what if welders could find better equipment to improve their working conditions and workload? This is where collaborative robots, also known as cobots, come in.

What’s Next in The Growth of Welding?

Automated welding has been around for several decades, although it was previously limited to specialized applications. Huge robots, for example, were developed in the 1980s to assist in the welding of ship interiors.

When it first became available for welding, industrial automation was initially only practical for large enterprises working in high-volume, low-mix conditions. Automation is now frequently employed by welders. According to the International Federation of Robotics, welding applications will account for about one-fifth of all new robot installations in 2021, with the majority of applications in the automobile industry.

However, with so much intricacy necessary on the job, totally replacing humans with automated welding robots is not the solution to the skills deficit. To assist in enhancing welder productivity and overcome the skills deficit, the industry needs a collaborative strategy in which welders operate alongside smaller, cost-effective robots known as cobots.

One of Universal Robots’ UK partners, Olympus Technologies Ltd, assists manufacturing organizations in deploying robotics. With new collaborative welding robots entering service every month, it has aided firms such as Storth Machinery, an agricultural management company, in developing and building simple robotic welding systems that can be swiftly incorporated into current workflows.

After all, welding involves more than just fulfilling production demands: great output requires creativity and problem-solving abilities.

Unleashing The Potential of Collaborative Welding

Even with readily available technology, cobot welding has just grown increasingly common in the last five years.

Delayed acceptance is owing in part to a lack of understanding and in part to the highly skilled nature of welding. It may be more difficult to discern the role of automation in a trade like welding than in other production tasks like lifting, packaging, and dispensing. In actuality, a cobot is a tool, much like a painter and his brush. Rather than taking over the aesthetic aspect of the position, it completes monotonous chores.

With a growing need for high-mix, low-volume metalwork and a scarcity of qualified personnel, manufacturers should priorities collaborative welding as a means of developing their industry. With readily available technology, the trade will be well-positioned to address future difficulties front on.

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Cloud Robotics: Presentation of a Unique Perspective

cloud robotics

A Glimpse into the Concept of Cloud Robotics

Cloud robotics, the term, was coined by James Kuffner in 2010. The concept of “cloud robots”, as the name suggests, stands for a merger of robotics and cloud computing. This merger aims at enabling “extending and shared brain” in robots. The idea is to equip robots to use the extended brain, establishing a common database to gather and organize information about the existing immediate environment, and robotic skills and behavior.

Understanding the RoboEarth Project in Brief

It is crucial to understand the RoboEarth project as it marks the inception of cloud robotics. The RoboEarth project was an EU-project (2010-2014), which aimed at creating an “internet for robots” so that the robots can rollick in a shared, common knowledge base and an extended brain.

A New Perspective on Cloud Robotics by Rapyuta

Rapyuta is a robotics solution development platform that holds a long decade of experience in cloud robotics. It functions to build solutions with cloud robotics to stretch the dimensions of cloud robotics and make it broader.

The picture of cloud robotics goes beyond just the brain. A brain, may it be of a human, an animal, or a machine, needs a body. The proper synchronization of a brain and a body will allow the composition of sensors to understand the environment.

In this context, it is important to understand the “people and processes over technology” approach. The ultimate goal of merging cloud computing and robotics is to make robots easily accessible to people. The technological needs keep varying for different people. Here enters the “looking beyond the robot brain” approach to enhance more flexibility in customizing cloud robots that suit the needs and expectations of people.

However, this approach, in no way, tends to dispute the benefits of connecting cloud computing and robots. The belief is still deep-rooted in the extended and shared brain.

The Complexities that Prevent Cloud Robotics from being Mainstream

Rapyuta cites the possible existing problems that prevent cloud robotics and robotics on a whole from entering into the mainstream.

Technical Complexities

Robotics often intimidates the ones who are not well equipped with the technical know-how. They tend to circumvent the adoption of complications of robotics.

Design Rigidity

A much-needed fact check is that robots are designed for a very specific purpose. This often makes robots inflexible to the environment.

Limitation in Access

Most robotics solutions provide only on-site physical access in an operational and scaling challenge.

What Cloud Robotics Should be?

In the modern age, when robots are gradually rising in dominance, cloud robotics companies and laboratories aim to enhance the elasticity in cloud robotics that can meet the convenience of the end-users. The primary aim is to make robots ubiquitous to the extent that people can access them using internet browsers as well.

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Is this the Age of Killer Robots? Everything You Need To Know!

Killer-Robots

AI-driven autonomous robots are an existential threat to everyone.

The evolution of technology is attractive. AI is transforming our lives in every aspect and is becoming an integral part of industrial sectors like healthcare, manufacturing, education, politics, and others. AI is also extensively used in the defense sector to amplify the security of a country. But the aftermath of deploying autonomous ‘Killer Robots’ in the military has been not yet anticipated.

Killer Robots are automized weapon systems that can select and attack their targets without any human controls. These types of weapon systems use lethal force without any direct command from the human operator. This AI technology is implemented in different weapon systems like warships, fighter jets, and tanks.

Weaponized AI technologies form a massive part of the defense strategies of China, Russia, the US, and Isreal. The security strategies employed by these countries already involve weaponized AI and are further developing autonomous robots; capable of making potential decisions about life and death without any human intervention.

Threats Posed by Killer Robots

Over the past few years, the United Nations delegation has been debating about banning Killer Robots, formally known as the lethal autonomous weapons system (LAWS). These weapon systems carry a significant threat to civilian safety and well-being. It is speculated that fully autonomous weapon systems would not be capable of meeting the international humanitarian laws and standards, including the rules for proportional assessment, distinguishing between combatants and civilians, and intercepting military needs. Currently, these systems are employed to destroy enemy targets, efficiently, and save more of their soldiers. But no clear guidelines are mentioning as to which of these AI systems can be used in action and which cannot. Therefore, it will keep posing a fundamental threat to the right to life and human dignity.

In March 2020, a Kargu-2 quadcopter drone targeted withdrawing soldiers and convoys led by the Libyan National Army’s Khalifa Haftar; during a civil dispute with Libya’s government forces. Reports say that this weapon system fell into the category of the ‘lethal autonomous weapons system or LAWS’.

The Kargu-2 quadcopter was produced by STM, a Turkish military technology company. It was built for asymmetric warfare and performed under two operating modes- manual and autonomous. It could also be linked together with other quadcopters to create a swarm of kamikaze attacks on the enemies.

These AI-driven robots are weapons of mass destruction and terror. If by chance, these systems are hacked by cybercriminals, terrorists, or other rogue states, there would be no stopping to using these technologies to suppress the civilians and attack them, even lead to conventional warfare and genocide.

Life and Death with AI

The international humanitarian laws apply to actual battlefield strategies and decisions, unlike pre-programmed machines. With advancing technologies and the implementation of AI and machine learning in defense protocols, international humanitarian laws are also changing to keep up with the laws and regulations of warfare.

No machine has the capability to take an autonomous decision about the life and death of humans. Machines, capable of making decisions about ending one’s life violate human dignity by reducing humans as mere objects.

Several human rights organizations and non-governmental companies have petitioned for a global ban on these autonomous Killer Robots. Without strict guidelines, current military innovations will lead to an unwanted transformation in defense technologies, leading to arms race and robot wars, jeopardizing the lives of millions.

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