These Fantastic Robotics Advancements will Blow your Mind

Robotics

Let’s talk robotics!

Robotics has been integrated into almost every workplace, affecting organizational structures and processes, and products and services. Thanks to AI, these robots promise significant benefits to organizations, eliminating many challenges that were prevalent before. Not just in the business world, robotics has made a place for itself when it comes to home gadgets too in the form of robot pets and assistants.

Not as destructive as how they show in every sci-fi movie, here are the latest developments in the field of robotics.

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Meet Baubot, for The Construction Industry

Like every other industry, the construction industry has a new robot to help do the job. Baubot is a multi-talented mobile robot from Austria. This robot can transport heavy loads, lay bricks, and extrude concrete in 3D printing style with its robot arms. It can also sand sheetrock, cut, drill, and use a suction feature to lift heavy objects and put them in place.

The Sarcos Guardian XO is here to protect you!

Construction sites are dangerous and robotics has come up with a solution for that. Sarcos Robotics has created an exoskeleton, the Sarcos Guardian XO. The website claims, “our full-body powered exoskeleton augments operator strength without redistricting freedom of movement to boost productivity while drastically reducing injuries.” Now, isn’t that something straight out of Iron-Man?

The Grain Weevil Is Here For The Farmers

To remove clumped and rotten grains, thousands of farmers risk their lives by getting inside grain bins, every year. Did anyone think, “there needs to be a solution for this dangerous task?”

Yes, said the Nebraska-based JLI Robotics. The company that created a 26-lbs robot called Grain Weevil is set to change how grain bins are managed, which is a big deal for the agriculture community. The company said it uses “an auger-based propulsion to move across the top of grain to address several safety issues including breaking up the crust, leveling bins, doing the inspection, and helping the farmers with extractions.”

Make Way For Self-Driving Trucks

This being called the first-of-its-kind in autonomous trucking technology. Canadian Tire Corp. and another Canadian startup NuPort Robotics Inc, an autonomous trucking company, have partnered with the Ontario government to invest $3 million on an automated heavy-duty trucking project. This self-driving truck technology provides relief for the middle mile runs that semi-tractor trailers make between warehouses every day.

“The trucks are currently transporting goods between a Canadian Tire distributor center in the Greater Toronto Area and nearby rail terminals within a 20-kilometer radius, and early results are promising”, said Raghavender Sahdev, CEO of NuPort Robotics.

We’re yet to see the potential of these use bots in real-time action, for an extended period of time. But one thing is for sure, these bots are a big step towards robotic advancements that are practical solutions to real-time problems across industries. With further use, such technologies might come up with multi-disciplinary uses as well.

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Top 10 Companies Developing Robotics Hands to Watch Out in 2021

Robotics

Analytics insight has listed top 10 companies developing robotics hands.

“In this digital age, robotics is the next revolution.” As you might be aware, robotics is commonly used in manufacturing industries, labs, traffic control, military missions, and other areas where humans’ jobs have been made easier. In other words, they have taken over many roles that were previously performed by humans. Technology plays a critical role in assisting humans in working more efficiently. We may expect robots to quickly replace many roles that are currently done by humans, as automation has become an integral part of business operations.

In this article Analytics Insight has presented the top 10 companies developing robotics hands to watch out in 2021:

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Shadow Robot Company

The Shadow Robot Company is a leading robotics manufacturer in the United Kingdom, specializing in grasping and manipulation for robotic hands. It has collaborated with businesses and researchers all over the world to find new ways to apply robotics technology to serious challenges. The Dexterous Hand, which was recently used to advance AI science, and the Modular Grasper, an important tool for supporting Industry 4.0, are both developed and sold by the company. Their new Teleoperation System, which can be used in nuclear safety and pharma labs, is being designed for the AVATAR X space program (their third space partnership after NASA and ESA).

Link: https://www.shadowrobot.com/

Robotic Materials

Robotic Materials is a manufacturer of industrial robots that use cutting-edge robotic AI to improve throughput and efficiency in manufacturing and e-commerce. The company’s robots use edge computing to gather intelligence and analyze data, implement autonomous mobility to optimize material flow, and use robotic manipulation for full automation, allowing manufacturers to cut inventory, transportation, and immediate storage costs while also improving their ability to respond to customer requirements.

Link: https://www.rm.studio/

Kinova Robotics

Kinova Robotics is a Canadian technology company that creates personal assistance platforms and applications using service robotics. Under two business divisions, the company develops and produces robotic systems and components: Assistive robotics enables people with disabilities to get beyond their existing limitations, while Service robotics enables people in industry to communicate with their surroundings more safely and effectively.

Link: https://www.kinovarobotics.com/en

ZenRobotics

ZenRobotics is the leading provider of robotic waste separation technology in the world. The ZenRobotics Recycler is the world’s first robotic waste separation device, separating selected fractions from solid waste. ZenRobotics Recycler is a next-generation recycling system designed to improve productivity and reduce waste separation costs.

Link: https://zenrobotics.com/

BrainRobotics

BrainRobotics aims at creating cost-effective EEG (Electroencephalography, or brainwave) powered robotic prostheses that can be controlled directly using brainwave without the use of hands. For those who have lost a limb, this may be life-changing. The project is seen as a perfect example of cutting-edge technology combined with social responsibility. You have complete power over your life thanks to BrainRobotic’s technology.

Link: https://www.brainrobotics.com/

FFRobotics

The first fully automated fresh fruit harvester is being developed by FFrobotics, an AgTech company. Fresh Fruit Robotic Harvester is delivered by the company. This one-of-a-kind product was created by FFrobotics using advanced robotics and computer vision. Their robotic fresh fruit harvester allows growers to cut costs drastically by supplementing or replacing human staff. The company’s solution incorporates precise but simple robotic controls, quick and accurate image processing, and advanced algorithms for picking and separating functional produce from damaged, diseased, and underripe fruit.

Link: https://www.ffrobotics.com/

Barrett Technology

Barrett Technology, a spin-off from the Massachusetts Institute of Technology’s Artificial Intelligence Laboratory, designs and builds robotic manipulators, such as WAM, their first haptic robot arm. This manipulator uses Transparent Dynamics drives, which are radically different from traditional robotic manipulator designs.

Link:https://medical.barrett.com/

Rogo

For several years, agriculture has done soil sampling by hand, which has resulted in fertiliser prescription errors due to differences in depth, location, and pattern. The Soil Sampling Process is being totally revolutionised by Rogo. The company is prepared to solve any problem related to Soil Sampling by incorporating new technologies, its extensive knowledge of farming methods, and growth mindsets. Rogo’s autonomous robot, the SmartCore, will sample the soil to improve fertilizer performance.

Link: https://rogoag.com/

Force Dimension

Force Dimension is a company based in Switzerland that specializes in sophisticated force-feedback (haptic) technology. Force Dimension was founded in 2001 and specializes in developing and manufacturing dedicated haptic hardware and software for medical, industrial, aerospace, and research applications. In addition, the organization offers technology integration services to its clients and customers all over the world.

Link: http://www.forcedimension.com/

ZeroUI

The creator of Ziro, the world’s first hand-controlled robotics kit, is ZeroUI. Via hand gesture interactions, Ziro is trying to redefine the future of robotics; it provides robotics in an accessible and detailed kit that everyone enjoys. It makes robotics easy, straightforward, and informational.

Link: https://www.ziro.io/

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Carbon Robotics’ New Weed-Zapping Robot is all Set to Revamp the Farming Sector

Carbon Robotics

Carbon Robotics, a Seattle-based firm led by Isilon Systems, Co-Founded by Paul Mikesell, has unveiled its self-driving robot, which employs a combination of robotics, artificial intelligence (AI), and laser technology to effectively and safely ride through farmlands to detect, target, and eradicate weeds.

The farming robot has the appearance of a huge cube on wheels. Its 12 cameras scan the field as it drives down rows of crops. Weeds are identified by an AI-powered onboard computer, and the robot’s carbon dioxide lasers zap and destroy the plants without damaging the soil.

The fully automated system runs on diesel and can cover 15 to 20 acres (6 to 8 ha) every day, with its lasers leaving the surrounding soil uninterrupted to protect its microbiology. The Autonomous Weeder, according to the company, is a cost-effective way to boost crop yields, particularly for organic growers and those who use regenerative farming practices to ensure the soil’s long-term wellness. The robots were put through their paces on specialty crops farms, where they worked on a variety of crops such as broccoli and onions.

This news became extremely unusual, it was important to a wide variety of audiences due to its technical advances and agricultural application. It’s also appealing to national publications because it’s optimized for farms that produce the vegetables that customers eat, and it has a range of environmental advantages.

Farmers that use automated robots will use less fertilisers, save time and money while increasing crop production.

Carbon Robotics has been improving and beta checking its weed-killing robots with the aid of farmers since 2018, and the 2021 versions have already sold out, whereas pre-orders for the 2022 line have been announced as available now.

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Aspiring to Become a Robotics Engineer? Here’s What You Need to Know!

Robotics

A Robotics Engineer is one of the trendiest occupations in the world today.

In the twenty-first century, automation is progressing, and a robotics engineer is needed to keep up with this trend. These engineers investigate different methods for improving existing robots or prototypes, as well as ways to develop the field of robotics.

You may want to consider a career in robotics engineering if you enjoy solving complex issues and are interested in electronics, programming and mechanics.

A robotics engineer is a skilled and experienced individual who creates, designs, constructs, and manages robots or robotic systems. They may spend countless hours in front of a machine, experimenting with designs and coming up with new ways to think about how robots function and even think. Their work necessitates advanced engineering and computer science expertise, among other things.

An engineer who works in robotics creates prototypes, constructs and examines robots, and manages the software that runs them. They also perform research to determine the most cost-effective and secured manufacturing method for their robotic devices.

What Does a Robotics Engineer Do?

Consider the following steps:

  • A Diploma, Bachelor’s, or Master’s degree in Robotics Engineering from a recognized institution is required.
  • The applicant must have taken a Robotics Engineering advanced course such as Automation, Micro robotics, Medical Robotics, Design and Control, Robot Motion Planning, and so on.
  • Computer-Aided Design and Computer-Aided Manufacturing (CADD/CAM) are required skills for this role.
  • Candidates may also obtain a Master of Science in Robotics degree to gain more in-depth knowledge and experience in the area.

Roles and Responsibilities

Although the task will vary depending on the organization, the following are standard responsibilities:

  • Researching parts, design, software, and performance requirements of robotics.
  • Prototypes and processes are designed, tested, and analyzed.
  • Integration and quality control of software.
  • Identifying and troubleshooting machine defects.
  • Cost forecasts and budget management for the robots.

What is the Demand for Robotics Engineers?

Robots are becoming increasingly important in the automotive industry today because they can complete tasks that are too complex or risky for humans, making the workplace safer and easier.

Robots are commonly used in the automotive industry, but they are also used in other fields including medicine.

If more tasks are assigned to robots, the demand for these devices will increase, as will the demand for engineers with a focus on robotics.

Robotics Engineering Career Opportunities

Today, robotics engineering is regarded as a high-end technical career. A person with advanced experience in robotics engineering would have access to a plethora of work opportunities. A robotic engineer may work in factories, laboratories, medical fields, mines, the automation industry, life sciences, aerospace engineering, and agricultural engineering, among other places. This profession is in high demand in the gaming industry as well as in manufacturing facilities. If an applicant has a strong track record, they can be considered for top positions in research organizations such as NASA.

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Top 5 Agricultural Robots that are Ruling the World

Agricultural Robots

The impact that automation has left on each and every sector is commendable. We have got used to automation so much that getting done with certain tasks manually doesn’t just seem right. One of the most remarkable innovations under automation has to be robotics. It is because of robots that we are leading a life of comfort and convenience. Robots have seen vast implementation in numerous fields, be it defence, healthcare or any sector for that matter. Agriculture is one such sector that got transformed in ways beyond expectation by virtue of automation. Considering how rapidly the population of the world is growing, the demand for agricultural products is exponentially increasing. This has led to the farmers turning towards robotics. That said, here are the top 5 agricultural robots that are ruling the world

Top 5 agricultural robots that are ruling the world:

Energid Citrus Picking System

If you are into the citrus fruits business, this is the one for you. We all know how much time is consumed in picking up fruits from every single tree on the farm. This is where fruit picking robots come to the rescue. Energid Citrus Picking System does the job for you. One of the best features of this agricultural robot is that when this is deployed, the cost incurred is way cheaper than what the human labour costs. In addition to this, this system is fast and efficient – fast to the extent that it can pick up a fruit in just a matter of 2 to 3 seconds.

PrecisionHawk

This is your one-stop destination for all your concerns and requirements. The drones designed here are what you need for the results you would want to deliver. Calling these drones a perfect tool for the farmers will not prove you wrong anywhere. These drones from PrecisionHawk boast of all the advanced technologies that you can possibly think of. Artificial intelligence paired with multispectral, hyperspectral, and LiDar technology is one of the many advanced technologies that are the reason behind the exceptional performance.

RoBoPlant

Are you into greenhouse management or protected horticulture? If yes, then this is what would yield results as anticipated. This comes with both semi and fully automatic machinery that is suitable for greenhouse management, protected horticulture. Artificial intelligence forms the base of this agricultural robot. This robot is known for taking flats of peat seedlings to separate them and plant them in optimal patterns.

Blue River LettuceBot2

If the farmer into the production of lettuce crops, the agricultural robot to trust is Blue River LettuceBot2. The LettuceBot2 is a popular tool in the agriculture world that attaches itself to a tractor. Doing so, it thins out lettuce fields as well as prevents herbicide-resistant weeds. It does all this by making use of its imaging system. In a nutshell, there are multiple objectives achieved by deploying this robot on your farm.

Ecorobotix

This is a fully autonomous drone. It relies on solar energy to run. One of the many remarkable features of this drone that sets it apart from the rest is that it uses its complex camera system to target and spray weeds. This robot has the potential to reduce human labour drastically.

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MIT’s Hair Brushing Robot is Set to Redefine Hair Grooming

Robot

This hair brushing robot will simplify untangling for people with limited mobility

Recently scientists from MIT’s Computer Science and Artificial Intelligence Laboratory (CSAIL) and the Soft Math Lab at Harvard University, together developed a hair-brushing robot. The robotic arm has a sensorized soft brush, camera with force feedback, and closed-loop control, that can identify different hair types and groom accordingly.

A paper was published on this soft robot by Josie Hughes, Thomas Bolton Plumb-Reyes, L. Mahadevan, and Daniela Rus. The robotic hairbrush, called ‘RoboWig’ is intended in reducing the pain involved in untangling hair and to assist the elderly, young, and people with limited mobility in the process of grooming their hair. The paper reveals that this soft robot leverages a model of entangled soft fiber bundles and mathematical algorithms that can identify tangled hair as entwined double helices. The sensorized soft bristle end effector can efficiently measure the forces during brushing and also creates fore-feedbacks that ensure that the user can control the device and feel what it is up to.

The team has performed many experiments to validate the innovation. According to the paper, “First, we show repeated brushing of a single wig with the brushing height fixed. We see the expected rise in force as the hair fibers start to jam, after which the force applied to the brush overcomes this jamming force and brushes free. The brush force is the highest for the first brush, however, reduces with brushing iterations as with each brush a number of entanglements are removed.”

The camera on the robot arm clicks the picture of the hair, analyses it by converting it to Grayscale images, by using horizontal and vertical (x/y) gradient ratio, and finally performs computations to understand the texture, straight or curly. The paper says that this project is proposed to use sigmoid function and computer vision to select the brushing heights for different hairs and identify the curliness of the hair respectively. Also, it says that there is an increased need for conducting human-based experiments to understand the ‘pain’ factor properly and get subjective feedback. This nascent innovation is pathbreaking since untangling hair is a complex process and robots should not cause pain, but should also be able to put enough pressure necessary to untangle it. While speaking to MIT News, Josie Hughes told that “In addition to hair brushing, the insights provided by our approach could be applied to brushing of fibers for textiles, or animal fibers.”

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A Robot to Assist COVID-19 Patients in Home Quarantine

Robot

Mukkudal Robotics members in Karamadai, along with three students from schools, reported to have built a robot to support those in self-isolation with COVID-19.

Many people have been infected with the virus and are being treated in hospitals as the second wave of corona spreads rapidly. But many of them are self-quarantined at home as well. Doctors encourage those who are isolated at home to have their own bedroom and not to contact anyone when they are being fed. This has become a matter of concern.

To alleviate the situation, the organization’s CEO, S.D.R. Niranjan, and Secretary, Manikandan, designed the robot in collaboration with K. Viswath, a Class 11 student, K. Nithin, and S. Athul Krishna, Class 10 students, who came up with the concept in April and the machine was built in a month. It’s built to run on its own with the help of a mobile application and other sensors. It has the ability to transport food, water, and medicine.

With a carrying capacity of up to 10 kg, the robot could help COVID-19 patients in self-isolation get meals, clothing, and medicines without the need for human intervention, according to Mr. Niranjan. It also had the arrangement to position a smartphone for clinical assessment with doctors. He said it could also deliver hand sanitizers to patients and disinfect a room on its own. The robot could be operated remotely, but it could also be configured ahead of time to perform particular tasks. He also stated that in the future, the system will be modified to carry oxygen cylinders to hospitals.

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Self-learning Robots can Soon Become the New Normal

Self-learning robots

Researchers from AMOLF have landed with autonomous self-learning robots

AI and robotics are going to reign in the coming years. The ongoing digital transformation and technology adoption is the initial stage of this revolutionary step. Robots are already being widely used in many industries for different business operations. These intelligent machines have proved to be a smart addition to the healthcare sector. We witnessed how several companies manufactured robotic disinfectants with the onset of the pandemic. According to a Statista report, the global market for robots is projected to reach USD210 billion by 2025, growing at a CAGR of 26%.

In a recent paper published by researchers at AMOLF’s Soft Robotic Matter group, they have shown how self-learning robots can easily adapt to changing circumstances. These small autonomous robots were connected to each other for them to learn on their own to move. They conducted experiments and simulations on a specific robotic platform that could assess and sense their environment and react accordingly. This robotic platform consisted of autonomous units that were identical, as the paper specifies.

Self-learning Robots

Robots that can sense their environment and act according to it are self-learning robots. These robots will not depend on any specific programming as it trains itself to react differently in different scenarios. Autonomously adapting to changing environment and optimizing itself is not an easy task. There have been reports of different methods of achieving self-learning robots. One is intuitive cooperation, which means the robots are connected to AI systems where they can understand speech and act accordingly or intuitively interpret commands from connected devices. It can also be a camera or a sensor that continuously provides images or data. Another method would be shared experiences. Here, robots can be connected to each other and learn from each other’s experiences. Robots can be programmed with AI systems and deep learning techniques so that they learn from observing or experiences. XLab had done experiments on developing robots with no codes and instead teach them through shared experience, or by simulating over the cloud. Recently MIT Technology Review covered a pair of robot legs, Cassie that taught himself to walk using reinforcement training.

AMOLF’s Self-learning Robots

The research group successfully developed robotic carts that could move on track and learn how to go in a single direction as fast as possible. This did not require any programming or training and it was just through the physical connection of these robots, they learned to move without any centralized information system. The self-learning system comprises small linked building blocks, a microcontroller, a motion sensor, a pump that enables air into the bellows, and a needle to let it out.

They say that this method allows the robots to breathe. By connecting a robot to the other robots below, it will push them to move together. The researchers presented a set of algorithm-based rules to these robots and these tiny machines measured the speed of their action and conducted self-experiments every time the pump is switched on and off.

The group also tried to check the adaptivity of these robots to damage. For this, they purposefully damaged a robot unit by removing the venting needle. But surprisingly, this damage did not stop the robot trail as it started conducting two simultaneous experiments and ket moving ahead. They easily adapted to this sudden change. The speed of these robots is measured by a chip, which is planted inside them. This system is also easy to scale up as the group revealed that they produced a trail of seven robotic units.

Speaking for a news release, Bas Overvelde, the Principal Investigator of the Soft Robotic Matter group, stated, “Ultimately, we want to be able to use self-learning systems constructed from simple building blocks, which for example, only consist of a material like a polymer. We would also refer to these as robotic materials.”

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Meet TiBeast: A Supreme 12-DOF Robotic Dog & Walking PC

Robotic Dog

TiBeast, a Supreme 12-DOF Robotic Dog & Walking PC was released this week by Celestial Robotics. This device is designed to be controlled and operated by anyone using an accessible app, making it the ideal tool for studying robotics, creativity, and having fun.

TiBeast is a highly adaptable robot that can assist people in a number of ways, including carrying items, friendship, photography, video surveillance, patrolling, and serving as a mobile speaker. It’s like getting a walking PC with unlimited gaming, fun, disruptive innovation, and robotics applications. The most important point is that it’s simple to master and use, much like the rest of Celestial Robotics’ products.

All can enjoy TiBeast in their own unique way, from children to accomplished developers. Anyone can easily monitor the device in 3D Mode via mobile app or desktop with a live-syncing 3D model thanks to the Unity3D framework. TiBeast can play games and conduct a number of tasks with a number of controls, including keyboard/mouse, Xbox controllers, joysticks, PS4, PS5, and flight-sticks.

TiBeast is also the first LEGO-compatible robot dog, allowing users to expand their games by using LEGO top and side plates. TiBeast is capable of completing a wide range of tasks, from mundane to imaginative. Its built-in camera can also take photographs and record video, as well as perform visual examination including the face and object recognition.

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Boston Dynamics: Dancing Robots are Grooving to Different Genres

Robots

Dancing robots from Boston Dynamics are going viral on social media platforms for their realistic grooving to different genres

We are used to watching the usual robotic walk or the traditional robotic dance steps on television for many years. Now with the enhancement of AI-based technologies, we are excited to watch dancing robots grooving to different genres with humanistic moves. Yes, Boston Dynamics has once again surprised the audience with their three favorite AI robots having the best robot dance in recent years.

Boston Dynamics was founded in 1992 specialized in a series of three mobile AI robots popularly known as Spot, Atlas, and Handle. These three robots have shot less than three minutes of robot dance video grooving to the 1962 hit “Do you love me?” by The Contours. It is unbelievable that this mesmerizing video has attracted more than 30 million views in the first week.

Atlas, two humanoid robots, Spot, a dog-like yellow robot, and Handle is an ostrich-like mobile robot that is continuously showcasing various kinds of activities efficiently and effectively with multi-agility and proper guidance.

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Why is the AI robot dance video going viral?

The robot dance video started with a solo performance of Atlas where the robot is grooving with classic moves like twirls, jumps, shuffles, mashed potato and runs elegantly then later joined by Spot dancing like a ballerina with bobs and twists, and Handle has a brief cameo in this video with moving boxes in the warehouse, rolls across the scene and bobs up and down. The AI robots have explosive and expressive motions mimicking the humanistic facial moves.

The high-quality video has surprised many viewers who applauded the humanistic dance moves by the robots. The video had a description— to celebrate the start of what we hope will be a happier year. The ground-breaking video has received a large audience due to the perfect combination of old-school music with AI-based technology. Atlas, Spot, and Handle have diverse fan range from grandparents to babies who love to watch the video on repeat mode.

There are some difficulties to tackle dancing robots, which motivated Boston Dynamics to enhance the motion-programming tools with the updated training given by the choreographer, Monica Thomas. The AI robots generated new humanistic dance steps due to the integration of effective rapid generation tools into the performance. The amazing viral robot dance video is the result of the tough constant choreography, simulation, and programming updates for almost one and a half years. The video is successful in showing the AI robots have impressive stabilization skills and coordination among the neural networks.

Boston Dynamics has already started selling Spot to the public by promoting that Spot can adapt to diverse tasks range from industrial inspections to entertainment. Thus, the dancing robots possess engineering excellence and classic grooving moves.

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