Рубрика: Robotics

Tesla Robots must have to be multi-tasking to impress the investors.

All this time, Tesla keeps boasting about its special humanoid robot and how it will bring a revolution in the robotics industry. Though Elon Musk alone is enough to play his own trumpet, even his confident promotions are not working this time to impress the investors. So, what must be the solution?

More than scientific advancements, investors are in fact yearning to see if this robot can serve some general purpose in the workplace, factories, or even at home. Nancy Cooke, a professor in human systems engineering at Arizona State University, said to succeed, Tesla will need to show robots doing multiple, unscripted actions. Such proof could provide a boost to Tesla stock, which is down 25% from its 2021 peak.

Despite current skepticism, the robot business eventually may be worth more than Tesla’s car revenue, according to Musk, who is now touting a vision for the company that goes well beyond making self-driving electric vehicles. Musk’s Tesla Bot aims to gradually remove “boring” responsibilities from the hands of mere mortals who are gutsy enough to welcome a robot into the family.

Humanoid robots have been in development for decades by Honda Motor and Hyundai Motor’s Boston Dynamics unit. Like self-driving cars, robots have trouble with unpredictable situations. “Self-driving cars weren’t really proved to be as easy as anyone thought. And it’s the same way with humanoid robots to some extent,” the lead of NASA’s Dexterous Robotics Team, Shaun Azimi, told Reuters.

Musk’s robots may be able to demonstrate basic capabilities at the event, but it would be hard for them to impress public expectations of robots that are as capable as humans, experts say. Tesla did not respond to Reuters’ request for comments, but Musk in the past proved skeptics wrong, jump-starting the electric car market and building a rocket company, SpaceX, although some product launches were behind schedule.

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Researchers have engineered a system for creating remote-controlled cyborg robot cockroaches

Researchers from the Japanese RIKEN research institute have engineered a system for creating remote-controlled cyborg robot cockroaches, equipped with a tiny wireless control module that is powered by a rechargeable battery attached to aid in search and rescue operations and environmental monitoring missions. Its leg-moving components and battery are fitted into a ‘backpack’ on the thorax of a cockroach. Scientists have been trying to design cyborg insects part insects, part machines to help inspect hazardous areas and monitor the environment. Researchers have brought this a step closer to reality, after engineering a system for creating cyborg bugs with much greater power output.

Remote-controlled cyborg cockroaches:

The cyborg cockroaches, which are part insect and part machine, are intended to enter hazardous areas, monitor the environment, or undertake search and rescue missions without needing to be recharged. The system, which is basically a cockroach backpack wired into the creature’s nervous system, has a power output about 50 times higher than previous devices.

The researchers charged the battery with pseudo-sunlight for 30 minutes and directed the insects to turn left and right using the wireless remote control. The insect was also able to right itself 80 percent of the time after being flipped onto its back, despite the presence of the control system. It is built with an ultrathin and flexible solar cell that doesn’t hinder the roach’s movement.

The segmented nature of a cockroach’s abdomen, for instance, provides it with the ability to contort itself or flip itself over should it get into a hairy situation. The solar-powered module was attached to the top of the insect’s thorax, perfectly fitting the Madagascar cockroach’s curved surface. The research subjects are Madagascar cockroaches – which are known for their ability to make a hissing noise to raise the alarm, assert dominance, and attract mates.

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Elon’s Tesla is ready to expand from fleets of electric cars and logistics to humanoid robots

Thousands of humanoid robots are going to be deployed at the Tesla factory and the number of robots will expand to millions across the globe. The Texas-based company has said that it is looking to deploy thousands of robots, called Tesla Bot or Optimus. Initially, Optimus will perform boring or dangerous jobs, including moving parts around its factories. Tesla will unveil a prototype from its project Optimus, an allusion to the powerful and benevolent leader of the Autobots in the Transformer series. The robot business eventually may be worth more than Tesla’s car revenue.

Tesla is arguably the world’s biggest robotics company because our cars are like semi-sentient robots on wheels. Tesla faces skepticism that it can show technological advances that would justify the expense of general-purpose robots in factories, homes, and elsewhere. Thousands of humanoid robots are going to be deployed at the Tesla factory and the number of robots will expand to millions across the globe. Humanoid robots have human characteristics, and these resemble humans in, both, behavior and appearance. Tesla’s humanoid robot, Optimus, will be initially used in manufacturing and logistics for boring and repetitive work. The concept was unveiled by the company during its inaugural AI day and is prepared for release.

Tesla’s Humanoid robots:

Humanoid robots have advantages like carrying loads, greater efficiency, high accuracy, and accomplishing work in less time. Musk’s robots may be able to demonstrate basic capabilities at the event, but it would be hard for them to impress public expectations of robots that are as capable as humans. Tesla can leverage its expertise in AI and key components to develop and produce smart, yet less expensive, humanoid robots at scale.

Humanoid robots can be used for practical purposes including interacting with humans, experimental analysis, automation of production processes, and other purposes. The robot business eventually may be worth more than Tesla’s car revenue. The robots would perform unsafe, repetitive, and boring activities. Many automakers, including Japan’s Honda, have tried to build humanoid robots, but none have been commercialized.

Musk said that Optimus is built using the same sensors and chipsets as Tesla’s self-driving automobiles. It is five feet inches tall and features a screen with relevant information. It weighs 125 pounds, can lift 150 pounds, and can carry 45 pounds. The company hopes to go beyond logistics this time. Musk sees robots being used in homes, as buddy or catgirl sex partners.

Elon Musk firmly believes that the company will eventually extend far beyond producing self-driving electric cars, and the robot industry may be worth more than Tesla’s automobile. Tesla did not respond to Reuters’ request for comments, but Musk in the past proved skeptics wrong, jump-starting the electric car market and building a rocket company, SpaceX. Musk’s robots may be able to demonstrate basic capabilities at the event, but it would be hard for them to impress public expectations of robots that are as capable as humans.

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A lightweight AI platform for entry-level Robotics: NVIDIA debuts Jetson Orion Nano

Nvidia unveiled new robotics-related hardware and services during the festivities at its fall 2022 GTC conference that are geared toward businesses creating and testing machines in sectors like manufacturing. With the help of realistic mock-ups, designers can model interacting robots using Isaac Sim, which went into open beta last June.

With the introduction of Jetson Orin Nano system-on-modules, NVIDIA has expanded the NVIDIA Jetson line-up and raised the bar for entry-level edge AI and robotics. These new products can perform up to 80 times faster than the previous generation. The Nvidia Jetson Orin line of AI application supercomputers is strong, small, and energy-efficient and is intended to power autonomous machines, robots, and other systems at the network edge. They have Arm-based central processing units, deep learning, and visual AI accelerators,

Jetson Orion Nano

The NVIDIA Jetson family now covers six Orin-based production modules for the first time to serve the complete spectrum of edge AI and robotics applications. This ranges from the Orin Nano, which offers the fastest Jetson compact factor and up to 40 trillion operations per second (TOPS) of AI performance, to the AGX Orin, which offers 275 TOPS for very sophisticated autonomous machines.

An NVIDIA Ampere architecture GPU, Arm-based CPUs, cutting-edge deep learning and vision accelerators, high-speed interfaces, rapid memory bandwidth, and support for multimodal sensors are all included in the Jetson Orin. More clients can commercialize products thanks to this performance and versatility, including engineers deploying cutting-edge AI applications and developers creating the next generation of intelligent robots using the Robotics Operating System (ROS).

The Orin Nano supports AI application pipelines with Ampere architecture GPU, Nvidia’s 2020-launched GPU architecture, and comes in modules compatible with the company’s previously announced Orin NX. The Orin Nano 8GB, which offers up to 40 TOPS with power customizable from 7W to 15W, and the Orin Nano 4GB, which reaches up to 20 TOPS with power options ranging from 5W to 10W, will both be available in January starting at $199.

The Nvidia Isaac Sim platform, which is now accessible on the cloud, will allow developers to create robotics applications that can operate on the Jetson Orin Nano. Jensen Huang, the founder, and CEO of Nvidia declared today at GTC that the Isaac Sim robotics simulation platform is now accessible in the cloud.

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These avant-garde micro robots will now automate brushing and flossing for humans

Using bigger robots might not always be the right way to go, hence, researchers are building more variants of micro robots to enable humans to perform more intricate and critical tasks. They imagine that someday a swarm of insect-sized robots might pollinate a field of crops or even search for survivors amidst adverse destruction. MIT researchers have claimed that diminutive drones that can move around like a bug, with the same agility and resilience, can eventually perform tasks with far more efficiency than bigger robots could. Researchers are now building a fabrication technique that will actually enable them to build soft actuators that offer over 80% accuracy in yielding results. But robots are not just being used to perform critical tasks, humans are using these evolving technologies to perform some of the most basic tasks like brushing or flossing!

With the emergence of this new technology, hands-free toothbrushing might just become the new trend. This is one of the craziest robotics innovations which can do three regular tasks that humans can in a single, hands-free, and automated manner. According to the researchers, these micro robots are made of iron oxide nanoparticles and are controlled by a magnetic field, which basically tends to change with changing motion and configuration to form bristles that brush plaque from teeth or long and narrow strings that can floss between them. Whichever form these bristles take, the nanoparticles will produce antimicrobial agents that will kill harmful oral bacteria.

Tech experts predict that this system will actually be highly beneficial for the elderly, the disabled, and others with reduced dexterity to maintain their oral health. The system is extremely flexible and can be personalized for all kinds of mouth shapes and teeth. However, it is still unclear whether the technology will make it to the market or not since the FDA is yet to approve the use of microbots for other medical purposes.

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The inclusion of Rust into the Linux Kernel might seem like a small detail, but it couldn’t have come at a better time.

Rust is an excellent language to learn in 2022. It is fast, safe, concurrent, and portable. It also has excellent tooling and a thriving community. If you are looking for a systems programming language, Rust is a perfect choice. There’s a vast ecosystem of robotics tools and paradigms like ROS and OpenCV that operate best within the Linux ecosystem. Like it or not, most robotics engineers get their start playing around in these sandboxes. Whole companies have based their work on these tools and have done very well for themselves.

Those that do are turning to Rust more often than not. This has led to a budding robotics ecosystem full of enthusiastic developers who just want to write better tools in the most loved programming language around. As excited as these developers might be, though, these tools by and large aren’t ready for prime-time. They are missing features that most engineers take for granted, or haven’t been used enough to be trusted by the larger community.

This means many older robotics companies are still playing it safe, still working in the sandbox full of familiar software. Some are simply loath to leave the comfort of C++, or Python, or whatever the senior engineer on staff believes is the Right Language. It’s certainly still early days for Rust in robotics, and it takes an enterprising team to take it on. Yet those who have ventured beyond the familiar and invested the time have been rewarded for their efforts with better products. In fact, for the newest generation of engineers, Rust is familiar. And that’s great news.

Between old tools, new programming languages, and the rise of automation, robotics is in a time of change. The inclusion of Rust into the Linux Kernel might seem like a small detail, but it couldn’t have come at a better time. The robotics community has been pushing Rust development for years now; for Linux to support, and be supported by, these efforts is a tide that lifts all boats. Rust has strong support for concurrency, with built-in tools such as the Arc smart pointer that make it easy to write safe code. Rust also has excellent memory safety, with automatic garbage collection and ownership rules that prevent dangling pointers. It is an excellent choice for creating safe and efficient software. With its strong support for concurrency and memory safety, it can help you create robust applications that are able to handle high loads.

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As per recent research, with organizations spend an average of $480,000 on RPA annually

Heavies in technology are engaged in a covert but ferocious conflict. They seek to consolidate the RPA (robotic process automation) sector, which is expanding fast, and the significant investments consumers are making. In the highest tier, firms spend far over $1 million yearly on automation, as per recent research, with organizations spending an average of $480,000 on RPA annually.

With such a large industry and signs that automation will only grow, it’s no surprise that companies like Microsoft have entered the ring to compete with longtime market leaders Automation Anywhere, UiPath, and Blue Prism, posing the issue of who will prevail.

Programs for automation have advanced. They have reached a point in their lifespan where size, innovation, cost savings, and increased end-to-end automation are more important than adoption. Companies have come up with a multi-platform strategy where multiple automation tools are employed to harness specific features, use cases, and improved compatibility with business architectures in their pursuit of these prioritized objectives.

Because automation must typically be created from scratch, re-platforming entire automation networks to a new platform are difficult and costly. These difficulties frequently prevent companies from switching. Nevertheless, some providers and solutions can assist and speed up the re-platforming of automation estates onto a new tool, such as Microsoft’s Power Automate, which appears to be garnering the majority of interest from potential suitors.

The reason Microsoft’s Power Platform, a collection of cutting-edge efficiency-based technologies, and its soon-to-be flagship product Power Automate is receiving so much support is that they speak directly to the concern of its target market: their wallets. Power Automate was a free addition by Microsoft to Windows 10. Scheduling and orchestrating automation are still paid for, but the pricing strategy is rather aggressive, with both per-user and per-flow models, even before you include the additional cost benefits it provides.

Since many businesses already use Microsoft’s product line, whether it’s Office 365 for business applications or Azure for cloud computing, Power Automate integrates seamlessly with existing enterprise architecture, enabling businesses to automate more business processes with less effort and higher quality. The UX and UI of Power Automate differ from those of its highly technical and intricately designed rivals, which required specialized technical resources to create even the most basic automated activities. Microsoft will keep working to make automation more approachable for the typical business user to fulfill the promise of “citizen developers” by providing a user-friendly drag-and-drop interface.

Automation Anywhere, a stalwart in the RPA industry, is hot in Microsoft’s footsteps.

Automation Anywhere has historically controlled a significant portion of the RPA industry. It has now created the first cloud-native platform in the sector, providing the features that both its clients and the sector at large felt were lacking in its flagship and legacy services.

In comparison to Microsoft Power Automate, Automation Any where’s Automation 360 platform offers more than 1,000 pre-built automation, but it also forces potential customers to make difficult decisions. Cloud-native Automation 360 presents a difficult choice for CIOs comparing the two established leaders due to its lower cost of ownership due to its cloud infrastructure, built-in machine learning and AI, very intuitive UX, better security, flexibility, and scalability, and a massive change from UI-centric to API-centric automation.

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Researchers put GPT-3 in this creepy robot, and now experts think it might not have been fruitful!

Artificial intelligence is now being extensively used by all industries. The integration of AI into robotics has enhanced the dominance of the industry over several global paradigms. Experts claim that in the years to come, AI-powered robotic beings will become a crucial part of our society and some might even serve us. However, there are several researchers who believe that the advancement in humanoid robots might eventually lead to the downfall of humanity, nevertheless, the research does not stop! Over the past couple of years, the top robotics companies in the world have been working on developing some of the most advanced and efficient robots that can actually live with humans. One such humanoid robot that has made huge strides, is Ameca. The robot was developed by Engineered Arts, a world-renowned humanoid entertainment robot designer, and manufacturer that constantly cuts through traditional forms of robotic development.

Ameca is essentially a cloud-connected platform that enhances the strength of an AI-powered system. It allows Engineered Arts’ popular robot operating system to make changes to the system. Companies that are working on AI and machine learning can actually use Ameca to test and present their developments in front of a live audience. The robot might offer muti-functioning capabilities, but it certainly is creepy, as described by experts. The robot has a fantastic smile, also the ability to blink its eyes, gasp when it is surprised, scratch its nose, and have a staring contest makes it equally charismatic and weird. Now, researching and working on the constant developments of Ameca have included GPT-3 into it, and gave it a voice!

So, how did they actually do it?

A video recently circulated on the internet showed Ameca having a conversation with several of the company’s engineers. Well, OpenAI included a speech synthesizer into the robot that enabled it to use deep learning technology to generate human-like texts. After showcasing its almost human-like expressions, the fact that it is also talking has rendered internet users in disbelief! Leveraging the power of GPT-3 has enabled engineers to portray what modern robots can do in this ever-evolving domain.

Now, these developments have certainly raised some brows among the critics in the tech industry. Some tech enthusiasts have been too worried about giving humanoid robots too much power. Since the advancement of AI, experts have been worried about evil robots taking over the world and artificial superintelligence becoming a reason behind the destruction of humanity. The creators of this new version of Ameca confirmed that the robot has denied looking for friendship with humans. The activities of the robot in the future is quite unpredictable, and what it will do with its new-found is also obscure, nevertheless, in one of the conversations the AI-driven robot has clearly mentioned that it aims to serve humans! Well, only time will say what the future holds.

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The Global Robotics-as-a-service market is expected to reach US$2BN in 2026, says a report

Today we are living in a technology-driven world where AI has generated sweeping transformation across industries in the past couple of decades. No doubt, AI has become the most powerful tool for both large corporations generating significant data and small organizations that require processing the necessary work. This scenario has given rise to the global robotics-as-a-service market.

According to a report, the global robotics-as-a-service market size is predicted to enlarge by about US$2BN in 2026, accelerating at a CAGR of 18.12% between 2021 and 2026. Various factors can be considered including investments related to CAPEX from the industrial sector, revenue generated by vendors, GDP growth, and commodity price fluctuation among others to estimate the size of the market. RaaS market research report gives valuable insights on the post-COVID-19 impact on the market, which will assist companies in evaluating their business approaches. It covers robotics-as-a-service (RaaS) market segmentation by application (intralogistics, medical applications, surveillance and security, field robotics, and others). Also, we can find information on several market vendors.

Robotics-as-a-service

Robotics-as-a-service is basically a cloud services unit that allows the seamless integration of robots and embedded devices into online and cloud computing environments. Customers and robotic enterprises both get benefits from robots as a service. Robots as a service permit businesses to reap the rewards of robotic process automation (RPA) by authorizing robotic gear and utilizing a cloud-based subscription service. The top advantage of using this technology is that it turns down the requirement for manual IT support while increasing the efficiency of robotic procedures. The deployment of Robotics-as-a-service in an organization is dependent on three factors: first, the use of proper tools to operate the robot as a service; second, determining the precise level of services needed by the company; and third, selecting a vendor to assist the robot as a service.

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Tiny swimming robots help mice get rid of deadly bacterial pneumonia in their lungs

Microrobots, created by nanoengineers at the University of California, San Diego. Tiny swimming robots can carry medication, and swim around in the lungs, and these robots sort bacterial pneumonia which is life-threatening. The microrobots successfully eradicated the bacteria that causes pneumonia in the lungs of mice, resulting in 100% survival.

In contrast, mice that weren’t treated all passed away three days after becoming ill. Nature Materials reported the findings on September 22. The amount of antibiotics required is a tiny portion of what is routinely used to treat this infection. The tiny robots are constructed from algal cells, which give them the ability to move, and then coated in nanoparticles containing antibiotics. The neutrophils’ cell membranes, a type of white blood cell that fights infection and inflammation, are coated on the tiny spheres used to make these nanoparticles, which increases the efficiency of the swimming robots in combating lung infection.

Professor Joseph Wang, the paper’s principal author, speaks to us about the technology that enabled the group of nanoengineers to build these tiny robots. Both Joseph Wang and Liangfang Zhang, professors of nanoengineering at the UC San Diego Jacobs School of Engineering, collaborated on the project. Wang is a global expert in the study of micro- and nanorobotics, and Zhang is a global expert in the creation of nanoparticles that resemble living cells to treat illnesses and infections. Together, they have paved the way for the creation of miniature drug-delivery robots that can be used to safely treat bacterial infections in the blood and stomach of living animals. The most recent aspect of their work involves treating bacterial lung infections.

“Our objective is to perform targeted medicine delivery into harder-to-reach areas of the body, such as the lungs. And we want to accomplish it in a way that is long-lasting, straightforward, safe, and biocompatible,” added Zhang. “In this work, we have shown that to be the case.”

The scientists treated mice with Pseudomonas aeruginosa-caused acute pneumonia using microrobots to prevent death in some cases. Patients receiving mechanical ventilation in the intensive care unit are frequently affected by this type of pneumonia. Through a catheter placed in the mice’s windpipe, the researchers delivered the microrobots to their lungs. After one week, the infections were entirely under control. While untreated mice perished within 3 days, all mice treated with the microrobots did survive for more than 30 days.

A bloodstream IV infusion of antibiotics was not as effective as the treatment with the microrobots. To accomplish the same impact, the latter needed an antibiotic dose that was 3000 times larger than what was employed in the tiny swimming robots. For instance, an IV injection delivered 1.644 milligrams of antibiotics per mouse, while a dose of microrobots delivered 500 nanograms.

The team’s strategy works so well because it delivers the medication directly to the patient’s area of need rather than dispersing it throughout the body.

These findings demonstrate how active mobility from the microalgae and focused medication delivery might enhance therapeutic effectiveness, according to Wang.

Sometimes, very little of the antibiotics administered by IV injection will reach the lungs. Because of this, many of the current antibiotic treatments for pneumonia don’t work as well as they should, which causes extremely high mortality rates in the sickest patients, according to Victor Nizet, a professor at the UC San Diego School of Medicine and Skaggs School of Pharmacy and Pharmaceutical Sciences and a co-author on the study with Wang and Zhang. The microrobots may be able to increase antibiotic penetration to kill bacterial infections and save the lives of more people, according to the mice study.

And if the idea of inhaling algae cells makes you queasy, the researchers claim that this method is secure. Following therapy, the algae and any lingering nanoparticles are effectively digested by the body’s immune cells. Nothing hazardous is left behind, according to Wang.

The proof-of-concept phase of the project is still ongoing. To precisely understand how the microrobots interact with the immune system, the team plans to conduct further fundamental studies. Before testing it on larger animals and eventually on humans, the microrobot treatment will also undergo research to validate it and be scaled up.

“In the area of targeted medicine delivery, we’re pushing the boundaries even further,” added Zhang.

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