Рубрика: Robotics

There are some jobs, though, robots struggle to complete, like dressing a human.

There are a lot of things robots are good at. Automating manufacturing processes and helping humans accomplish repetitive tasks are just two examples. The use of robots in factories and other industries for carrying out a number of menial jobs is not rare but researchers have been able to take a huge step in using robotics for far bigger functions. There are some jobs, though, robots struggle to complete, like dressing a human. The nuance, gentleness, and responsive touch required are hard for an algorithm or bot using machine learning — especially without hurting the subject — but that’s exactly what scientists at MIT wanted to conquer with new research on the robotics movement.

Easy Does It

A short field of vision is one of the challenges in creating a robot that can dress humans. In an interview with MIT’s media arm, the researchers said that a robotic arm that helps a person pull on a jacket sleeve can’t see the entire arm and needs to calculate the position. The scientists plan to expand the types of material the robot can use as well as make them personalized and better able to adapt to individual movement patterns.

Researchers in Japan recently unveiled a robot that was able to complete the task of peeling a banana without causing any harm to the fruit. The video released by the University of Tokyo showed that the robot was able to pick up the banana and peel it in three minutes using both hands.

According to Reuters, the robot was able to successfully complete the task after around 13 hours of training but the success rate of the dual-armed robot still remains at 57 percent for the time being.

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As no-code AI matures, it becomes valuable to seasoned data scientists and machine learning engineers

In today’s ever-changing market, planning for the future of your business is not only more important than ever but also more difficult. The last few years have been filled with uncertainty, across all organizations and industries.

Fortunately, there’s a solution- DataRobot’s No Code AI App Builder makes planning and preparing for the future of your business easy and quick. By using reliable insights built from your deployed DataRobot AI models–you can help your business make informed decisions. These insights can empower you to address mission-critical needs, whether that’s forecasting demand, simulating scenarios to mitigate potential supply chain disruptions, optimizing staff allocation for ER shifts, or predicting who’s most likely to default on a loan.

AI Apps aren’t just powerful business tools, they are also specifically designed so that any user, regardless of their technical expertise, can quickly turn a deployed model into a rich AI application, thanks to a platform that requires no coding. This means that any predictive model can become an AI app in minutes, putting the power of DataRobot directly in the hands of your front-line decision-makers.

One of the challenges that organizations face with scaling AI is turning deployed models into simple consumable decision-intelligence solutions for business users to use on the front lines.

The DataRobot No Code AI App Builder allows you to quickly turn any model into an AI application, without requiring any coding. This makes it much easier for business users and information workers to leverage predictions generated by their models and make more informed AI-driven decisions.

As no-code AI has matured, it has also become valuable to seasoned data scientists and machine learning engineers, who are interested in automating the tedious parts of their job. Throughout the entire machine learning development lifecycle, more advanced users can integrate their hand-written code with DataRobot’s automated tools. Alternatively, they can extract the Python or R source code for the models DataRobot generates and further customize it for integration into their applications.

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We are going to learn about the open-source platforms that can help create robots

One multi-task performing robot can create an enormous difference in the cores of a business operation and its workflow. Over the past few years, robotics technology has risen and is still moving up the ladder, proving its worth by providing huge successes to businesses with increased productivity and customer retention rates.

These brave new robots are becoming a part of other technological changes and are moving towards enabling unprecedented opportunities for industries around the globe.

Every robot is an integration of sleek electronics and versatile software. Robots have to connect to real-life circumstances and perform based on predictive analytics about the situations that might occur in the future.

In this article, we are going to learn about the top open-source platforms with which developers can create robots and help maximize business profits.

• OpenBionics: OpenBionics is the perfect open-source initiative to create robots and bionic products. The company aims at creating affordable 3D printed bionic brands for amputees and researchers.
• Poppy Project: Poppy Project is an open-source platform for the creation and use of interactive 3D printed robots. This platform promotes open source by sharing hardware, software, and web tools.
• Webots: Webots is another open-source platform used to fuel robot making. It provides a completely supportive environment to model, program, and makes robots. This platform is designed for professional use in the fields of industry, education, and research.
• Otto DIY: Otto DIY is also an open-source robot platform to build and create robots. It guides the users through the videos to build Otto. It also allows you to print 3D robots which is absolutely free.
• Wandelbots: Wandelbots is a unique platform that allows its users to design a robot without writing codes. This enables the building of independent robot programs along with saving a lot of time.

Robots can boost the process of personalized learning, since they are equipped to interact, listen, speak, and connect and so can also be used as a tool by many businesses. These open-source robotic platforms can help you design and build your robots hustle-free.

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Let’s have a look at the top 5 robotics projects ideas for robotics lovers in 2022

Robotics may sound new and cool, it refers to robots or machines that consist of mechanical parts. Even though the robotics technology is still developing, you can still spot many uses in the different industries. For all those who love robotics, here are the most popular robotics project ideas.

Virtual Telepresence Robot Using Raspberry Pi

This robot with a camera is placed in a remote location to capture the environment in visual form using Raspberry Pi (RPi). The captured visuals are displayed on the user’s virtual reality (VR) headset. An added feature allows the camera to move in the direction of the user’s head movements. This gives the user a real-time experience as if he is present where the robot is located.

Arduino based Smartphone Controlled Robot Car

In this project, an Arduino-based robot car can be controlled using an Android smartphone having an Arduino RC application installed in it. This bot receives commands from your smartphone with the help of a Bluetooth module.

War Field Spying Robot using Night Vision Wireless Camera

This project uses a night vision camera to capture images even in dark places and transmits wirelessly to a TV receiver unit. These robots are used in military applications like sending information to the control unit and spying on enemy lands.

Soccer Robot

This soccer robot can move forward, reverse, forward-left, forward-right, reverse-left, and reverse-right with the help of an Android phone. The angle of rotation of the phone controls its speed of movement. The robot also kicks a ball on shaking the phone.

Line Following Robotic Vehicle

A-Line Following Robot is a robot that follows a certain path on which it moves. The path can be a black path on a white floor or a magnetic field. These robots are being used in a variety of applications from being a guide in public places to automatic vehicles.

The post Top 5 Robotics Project Ideas to Take Up in 2022 appeared first on Analytics Insight.

High demand for robotics has resulted in an exceptional performance of robotics stocks as well.

The extent to which robotics has changed our lives for the better can merely be put into words. Be it healthcare, IT, education, defense, or finance, robotics has served to be no less than a blessing. Such high demand for robotics has resulted in an exceptional performance of robotics stocks as well. In this article, we will talk about the top 10 penny robotics stocks to stake up for good returns.

iRobot Corporation

This company is known for coming up with innovative advances in artificial intelligence to make products smarter for consumers. An interesting point to note here is that a majority of the company’s hedge funds are bullish.

Rockwell Automation

If there’s one name that comes to our mind when it comes to industrial automation and digital transformation solutions, it has to be that of Rockwell Automation. The company has carved a niche for itself in offering a wide range of products such as programmable automation controllers, human-machine interface products, sensing devices, etc. All in all, this robotics stock is worth an investment.

Fanuc Corporation

Fanuc Corporation has a list of products to its name including servo motors, lasers, robots, and electric injection molding machines, among others. Over a period of time, the company has seen improving profitability thereby throwing light on how good of an investment this stock could be.

ABB Ltd

ABB Ltd. makes and sells robotics, motion, and industrial automation products. As far as the company’s performance is concerned, the year 2022 started on a very positive note. The company has taken some key decisions that are set to drive the sales. Well, you wouldn’t want to miss out on the high returns, would you?

UiPath Inc.

Though this is a debutant in the market, the performance has been phenomenal – so much so that the investors are highly inclined towards it. The fact that a lot of investment advisors like Wells Fargo and Cowen are bullish on UiPath Inc. talks volumes about the potential this robotics stock has.

Novanta Inc.

Novanta Inc. has gained wide recognition for providing electronic equipment and instruments to original equipment manufacturers. Yet another reason why this stock is unique and worth investing in is that an overwhelming majority of the shares are held by institutional investors.

Omnicell, Inc.

Omnicell, Inc. is also known for providing automation solutions. The sector catered to is that of the health industry. Industry experts, too, believe in the fact that Omnicell, Inc. is quite a good robotics stock trending right now.

iRhythm

iRhythm as a medical device company grabbed eyeballs for its Zio Patch cardiac monitoring system. This company enjoys a market cap of about US$3.5 billion. The services are cost-effective which is why the company has gained attention from everywhere across. No wonder, the stock prices would shoot up.

Zebra Technologies

This is a very well-known company that specializes in the automation space. Zebra Technologies is known for developing mobile computing devices to help employees of a company work more effectively and efficiently. With a market cap of about US$32 billion, the company has already carved a niche for itself.

Intuitive Surgical Inc.

This robotics company offers robotic-assisted, minimally invasive surgery equipment and solutions. Intuitive Surgical Inc. is a global technology company with a market cap of about US$130 billion.

The post Top 10 Penny Robotics Stocks to Stake Up for Good Returns appeared first on Analytics Insight.

For all those who love robotics, here are the most popular robotics project ideas

Robotics has come up in a huge way. It’s not just something to meddle with now. A dedicated stream of engineering has come up in several engineering colleges. College events, Robotic festivals, and competitions see a very large interest from robot enthusiasts. Even though robotics technology is still developing, you can still spot many uses in the different industries. For all those who love robotics, here are the most popular robotics project ideas.

1. Obstacle Avoiding Robot

An obstacle-avoiding robot is a fully autonomous robot that is able to avoid any obstacle which it faces when it moves. Simply, when it meets an obstacle while it is moving forward, automatically stops moving forward and makes a step back. Then it looks at’s two sides left & right and starts to move the best possible way; which means either in the left direction if there is another obstacle in the right or in the right direction if there is another obstacle on the left side. The obstacle avoiding robots is very helpful and it is the base of many large projects such as Automatic cars, robots used in manufacturing factories, and even robots used in spacecraft.

2. GreenHouse Managing Robot

This is one of the important projects among various agriculture projects for engineering students. This project consists of temperature, humidity monitoring & controlling, and light monitoring. This unit is installed on a Robot that moves through the greenhouse on a predefined track. This High technology farming project will consist of three basic modules. The first is “Parameters Monitoring” the second is “Parameters Controlling” and the third is the automatic movement of the Robot on a predefined path. A display unit will show the values of parameters like Temperature and Light. This will help the person to know the values, for this purpose we are going to use various sensors, which will be connected to ADC.

3. Automatic Wall Painting Robot

In this project, the screw rod arrangement has the main role in the working of the model. A table is mounted on the frame such that it can be moved front and back with the help of a bearing set up at the four corners of the table. A dc motor is mounted on the one end of the upper frame and the shaft of the motor is coupled with the screw rod. When the motor is operated the table moves in the x-direction and the same setup is made separately for the z-direction also. Here the die is kept for the purpose of holding the workpiece. A u-slot sensor is kept at the end of the frame so that the rotation can be calculated. By this, the distance of the movement of the table can be determined. Proximity sensors are kept at both ends of the table setup. Totally four proximity sensors are used in the model to make it an automatic machine. The total setup is constructed on a single frame.

4. Intelligent Combat Robot

The combat robot can be designed to tackle cruel terror attacks. This robot is radio-operated, self-powered, and has all the controls like a normal car. A wireless camera has been installed on it so that it can monitor enemies remotely when required. It can silently enter enemy areas and send us all the information through its tiny Camera eyes. This spy robot can be used in star hotels, shopping malls, jewelry showrooms, etc where there can be threats from intruders or terrorists. Since human life is always precious, these robots are the replacement of fighters against terrorists in war areas.

5. Autonomous Underwater Robot

Autonomous Underwater Vehicles (AUVs) are robotic submarines that are a part of the emerging field of autonomous and unmanned vehicles. This project shows the design implementation of an AUV as a testbed platform for a variety of research in underwater technologies especially involving small-scale, surface water, and low-cost underwater robots. The AUV prototype has been developed by SolidWorks. It will have a fixed mechanical system and body, having a modular electronic system that allows the development of various controllers. The controller and motors have been tested in small-scale surface water and the result is encouraging.

6. Robotic Arm

The programmable robotic arm finds extensive applications in its use in extreme conditions like space missions or underwater expeditions. It is also used in nuclear power plants and in toxic atmospheres where human surveillance is difficult. There are numerous types of the robotic arm used in industries but going to give you details on a basic prototype. The movement of parts is done by a servo motor, which can rotate approximately up to 190 degrees. The whole circuit is powered by a 12-volt adapter and an Arduino Nano is used as the controlling unit. The servo motor for the robotic arm is controlled by android mobile. The communication between the mobile phone and servo robot arm is done by Bluetooth module HC-05.

7. Biped Walking Robot

The robot replicates the walking style of a human, particularly walking upright. The robot is built with lightweight Aluminium sheets which act as the structural members and also house the servos. Controllers using EyeBot produce intelligent commands to the servos for walking and kicking. The robot is controlled in an open-loop utilizing a lateral balancing feature for maintaining walking and kicking. This work enables one to realize an insight into the design and development of a mechatronic system using the concept of synergetic unison of electronics, mechanical, and computation engineering fields.

8. Sensor Guided Robotics

The aim of the project is to design a robot system for joining ship sections in the final stage when ship sections are to be assembled together in a dry dock. Due to a high degree of manual work involved in the assembly procedure of the ship, the project addresses both productivity and quality issues. In addition, many welding operations are done in closed areas and the improvement of working conditions is of great importance as well. An important part of the project is to develop control algorithms for seam tracking during welding. The aim is to be able to cope with tolerances in the joints after manual set-up and tack welding of the structure.

9. Hexapod

Hexapod is a biomimetic, six-legged robot, which emulates insect locomotion. The robot is a fully mobile Hexapod capable of multi-directional walking and self-balancing. The hexapod robot is a mechanical vehicle that walks on six legs. Since a robot can be statically stable on three or more legs, the hexapod robot has a great deal of flexibility in how it can move. The robot has six legs, each consisting of three servo motors, for a total of eighteen. Mounting the other components onto this frame is not a trivial task. Most work went into mounting these components to allow for (a) robustness, (b) ease of replacement, and (c) neat design.

10. Swarm Robotics

Swarm robotics is an implementation of Swarm intelligence. Swarm Intelligence (SI) is an artificial intelligence technique based on the study of collective behaviour in decentralized, self-organized systems. Swarm robotics is a new approach to the coordination of multi-robot systems which consist of large numbers of mostly simple physical robots. It is supposed that a desired collective behaviour emerges from the interactions between the robots and interactions of robots with the environment. This approach emerged in the field of artificial swarm intelligence, as well as the biological studies of insects, ants, and other fields in nature, where swarm behaviour occurs. The main objective of Swarm robotics is to reduce the workload and increase the efficiency of the system.

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Unleashing the power of computer vision in robotics and automation

Welcome to an enlightening exploration of the remarkable impact of computer vision in robotics and automation. In this article, we delve into the transformative effects of computer vision technology, revolutionizing industries and redefining the boundaries of efficiency, accuracy, and productivity. Prepare to witness the convergence of cutting-edge advancements as we uncover how this groundbreaking technology empowers machines to perceive and interpret visual information, mimicking the capabilities of human vision.

From object recognition and navigation to quality inspection and human-robot interaction, computer vision has driven unprecedented advancements in various fields. Join us on this captivating journey as we uncover the endless possibilities and unrivaled potential that computer vision brings to robotics and automation.

Understanding Computer Vision

Computer vision refers to the ability of machines to extract meaningful information from visual data, such as images or videos. By leveraging sophisticated algorithms and deep learning techniques, computers can analyze, understand, and interpret the visual world with remarkable precision. This technology enables machines to perform tasks that were once exclusive to human vision, such as object recognition, image classification, and scene understanding.

Applications of Computer Vision in Robotics

1.Object Recognition and Detection

Computer vision is vital in enabling robots to recognize and detect objects accurately. This capability is crucial in manufacturing industries, where robots must identify and handle specific components or products. Robots equipped with computer vision systems can swiftly identify objects in complex environments by employing advanced image processing techniques, improving efficiency and productivity.

2.Navigation and Mapping

Robotic systems often require navigating autonomously in unknown or dynamic environments. Computer vision enables robots to perceive and understand their surroundings, creating detailed maps and effectively planning their movements. This capability is invaluable in warehouse automation, autonomous vehicles, and search and rescue missions.

3.Quality Inspection

Computer vision plays a vital role in automating the inspection process in industries where product quality is of utmost importance. By analyzing visual data, robots can detect defects, anomalies, or inconsistencies in products with exceptional accuracy and speed. This improves product quality and reduces the need for manual inspection, saving time and resources.

4.Human-Robot Interaction

Computer vision technology enhances the interaction between humans and robots, making collaborative tasks more intuitive and efficient. Robots with vision systems can recognize human gestures, expressions, and movements, allowing for seamless communication and cooperation. This capability finds applications in various fields, including healthcare, where robots can assist medical professionals in surgeries or patient care.

Benefits of Computer Vision in Automation

Integrating computer vision technology in robotics and automation brings forth numerous benefits, revolutionizing industries and transforming the way tasks are performed. Some notable advantages include:

1.Increased Efficiency and Productivity

Computer vision enables robots to perform tasks with remarkable precision, speed, and consistency. Automation systems equipped with computer vision can significantly enhance efficiency and productivity by eliminating human error and fatigue. This reduces production times, increases output, and improves overall operational efficiency.

2.Enhanced Accuracy and Quality

Computer vision systems offer unparalleled accuracy in object recognition, quality inspection, and measurement tasks. By eliminating the limitations of human perception, robots equipped with computer vision can achieve consistent and reliable results, leading to higher product quality and reduced defects.

3.Improved Safety

Robotic systems integrated with computer vision technology can enhance safety in various environments. By perceiving and understanding their surroundings, robots can navigate and operate in hazardous conditions or restricted spaces, reducing the risk to human workers. Furthermore, computer vision enables robots to detect and respond to potential safety hazards, ensuring a secure working environment.

4.Cost Savings

Integrating computer vision technology into automation systems can save substantial business costs. By automating repetitive and labor-intensive tasks, companies can reduce labor costs and reallocate resources to more strategic activities. Additionally, computer vision-driven automation systems can minimize material waste, optimize energy consumption, and streamline production processes, resulting in significant long-term savings.

Conclusion

Computer vision has revolutionized the field of robotics and automation, opening up new possibilities and transforming industries across the board. Computer vision technology enhances various applications’ efficiency, accuracy, and safety by enabling machines to perceive and interpret visual information. From object recognition and navigation to quality inspection and human-robot interaction, the impact of computer vision is undeniable.

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These robotics project ideas for engineering students will be helpful while doing the practice

Nowadays, several engineering students are showing a lot of interest in robotic projects. They create a lot of interest as compared to other electronics projects. At the education level, these projects on robotics are very popular, they are line-following robots, pick and place robot, fire fighting, wall track, humanoid, Hexapod, etc. These robotics project ideas for engineering students will be helpful while doing the practice. So, here are the top 10 robotics project ideas for engineering students.

1. 3D Printed Robot

It so happens that 3D printing is a wonderful application for the discipline of robotics. It provides designers with the freedom to add new functionality to their creations. That, and end-users can customize a robot for their specific needs. With robotics and 3D printing combined, people are pushing the boundaries of possibility every day. Therefore, 3D Printed robot would be the best project to make in your final year to make an everlasting impact.

2. Stair Climber Robot

Robots have widely been used for a wide number of tasks. But a very promising use of robotics lies in goods transport. Most robots use either a wheeled or a tracked mechanism for mobility. While wheeled mechanisms offer impressive speed and a significant advantage in steering, this often proves to be difficult to use in off-road conditions and for climbing over obstacles.

3. Robotic Arm Controlled by Touch Screen Display

The project proposes a touch screen operated robotic vehicle that is operated remotely. The touch screen remote is used as the transmitter to send RF control signals. The robotic vehicle consists of receivers used to capture those signals and perform required tasks. The project uses an 8051 microcontroller for this purpose. The touch screen device is used as the transmitter to send movement commands to the robotic vehicle. The receiver on the vehicle receives those commands and operates the vehicle using an 8051 microcontroller.

4. Line Follower Robot

A line follower is a simple robot that follows a thick line drawn on the floor using infrared (IR) or other optical sensors. This line follower robot uses two motors with wheels on the rear and a castor wheel as support on the front. The line follower robot is one of the best robotic projects to try especially, for the final year engineering students who want to make an everlasting impression.

5. Solar Floor Cleaner Robot

A solar-based floor cleaner robot helps to clean outdoor spaces, terraces, open restaurants, large campuses, etc. You can prepare a robot to help cleaners clean large open spaces without any physical effort and without the need to charge the robot. Students can use the RF remote to control the robot and send movement commands. The solar floor cleaner robot is a must-try robotic project for engineering students.

6. Metal Detector Robotic Vehicle

The system works in conjunction with an 8051 series microcontroller to achieve this operation. The pushbuttons are used to send commands to move the vehicle forward, backward, left, and right. Two motors at the receiving end operate the vehicle as per the commands received. As soon as a command is sent it gets transmitted through the RF transmitter. At the receiving end, an rf receiver reads the command and passes it to an 8051 microcontroller for processing. The microcontroller then operates the motors to move the vehicle through a motor driver IC. The metal detection system attached to the system detects any metal underneath it. On detection, it automatically sends on a small buzzing alarm to notify the user about it. Thus the metal detection system coupled with a robotic vehicle allows for operating the robotic vehicle on a 200-meter radius remotely through RF technology.

7. Pick and Place Robotic Vehicle

A pick and place robot is the one that is used to pick up an object and place it in the desired location. It can be a cylindrical robot providing movement in horizontal, vertical and rotational axes, a spherical robot providing two rotational and one linear movement, an articulated robot, or a scary robot (fixed robots with 3 vertical axes rotary arms). The basic function of a pick and place robot is done by its joints. Joints are analogous to human joints and are used to join the two consecutive rigid bodies in the robot. They can be rotary joints or linear joints. To add a joint to any link of a robot, we need to know about the degrees of freedom and degrees of movement for that body part. Degrees of freedom implement the linear and rotational movement of the body and Degrees of movement imply the number of axes the body can move.

8. Mobile Autonomous Robot

The proposed system is capable of detecting obstacles at various ranges. This was inspired by a visual looming algorithm and was achieved by defining the minimum number of pixels within the code while measuring the distance between the camera and the obstacle. The proposed system was implemented on a Raspberry Pi using a USB webcam to capture images. The proposed system will incorporate a USB camera which will be connected to a Raspberry Pi. Raspberry Pi will be running a python script that will grab images in the video while looking for a geometrical shape i.e. circles. If the circle is detected then based on the location of the circle on the screen, the script will pull up or down the GPIO port pins that will be used to control the direction of the robot.

9. Chess Playing Robot

This project integrates aspects of robotics, computer vision, and of course chess. And don’t worry! It’s very easy to set up, the code is written in Python and every step of the project is explained in this tutorial series, so it’s perfect for those who don’t have much experience in the field. It uses a camera and a visual recognition system running on a Raspberry Pi to detect the movements of chess pieces in the game. It uses Stockfish as a chess engine to validate the human player’s moves and decide which move the robot will make, then it uses all this information to transcribe the game in a graphical user interface that shows the game state and allows you to configure all the aspects of it, for example, at the start of the game it allows you to calibrate the camera and choose which color you would like to play with. It does not require any special chess board or pieces; in fact, the GUI allows you to enter the dimensions of your board so you can play without making any changes to the code or having to make a custom board.

10. Cleaning Robot

This allows for automatic cleaning of a particular area or room by covering the area using border analysis. The robotic system follows a zigzag path to cover the entire room. The system uses ultrasonic sensors for boundary sensing and operates accordingly in order to cover the entire room. The system also has a vacuum suction cleaner attached to its back for dust suction. It also displays the time utilized for a complete cleaning session and displays it on an LCD display post the cleaning process. The system uses a microcontroller-based circuit system in order to monitor ultrasonic sensors as well as operate LCD displays and control robot movement at the same time. The system detects one corner of the room and starts from there, it then activates the vacuum cleaner motor in order to start the suction system.

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IoRT is here to transform the world and take it towards productivity and efficiency

The world has already witnessed the capabilities of the internet of things in the last couple of years. Now, tech purists have discovered a new concept to establish effective communication between automated devices and convey data over the existing internet. This is called the Internet of Robotics Things.

Well, what is the internet of Robotic Things (IoRT)?

Internet of Robotic Things (IoRT) is the convergence of the internet of things (IoT) and robotics. It is an emerging concept where autonomous machines communicate with each other by gleaning data from multiple sensors to perform complex tasks.

Let’s take a closer look at this concept. Internet of Robotic Things comprises three components:

• Intelligent Device or Robot embedded with monitoring and data collection features.
• Data Analysis via local and distributed intelligence or edge computing.
• The merger of sensors data with intelligence to determine actions

What are Real-World Applications of IoRT?

The Internet of Robotic Things is being used across diverse industrial areas.

Warehouses: Robots can navigate around warehouses by following a series of computerized barcode stickers on the floor.

Smart Home: The IoRT has become more prevalent for future smart homes. This is because of its ability to produce visual cleaning maps of the home and communicate with smart home devices.

E-Commerce: The increasing adoption of connected devices and the proliferation of robots that deliver enhanced customer experience are also defining the future of the Internet of Robotic Things in e-commerce.

Construction: Robots can automate labor-intensive and life-threatening activities like scaffolding, loading, and unloading heavy construction equipment, etc., at construction sites.

Healthcare: Today, IoRT-based robots can go into patient rooms. They can perform measurements and collect information by employing sensing capabilities. This also allows for real-time and remote monitoring of patients.

The post Internet of Robotic Things (IoRT) is Changing the World for Good appeared first on Analytics Insight.

Artificial Intelligence is growing by leaps and bounds. It is about to become a $60 billion market by 2025 and you would hardly find a company that is not invested in AI currently or planning for in future. The very versatile applications are not built in a day. They are vetted thoroughly before making them available to the public. In the process, the developers end up inventing some intuitive and unique machines whose functionalities are beyond our imagination.

Toyota’s THR-3

Meet THR-3, the third generation of Toyota’s Humanoid Robot program. The robot, designed to fill multiple roles can be programmed to learn several things. It can provide care, do construction work, clean, or even just be your companion.

Additionally, the robot is made to be controlled remotely. So, a human can wear a motion capture suit to step in and control the robot, move its limbs, etc. The robot is made for working along with us and its hybrid control model is groundbreaking.

Sony Aibo

Sony’s Aibo is a robotic dog, designed to sit halfway between being a pet and being a toy. Since it was first launched in 2018, it has been augmented with AI designed to make it act and behave realistically, to the extent that it can now recognize its owner’s face or voice and adapt its behavior to its personality.

Honda Asimo

Asimo is one of the world’s most progressive humanoid robots, ready to adapt freely, stroll on two legs, and climb steps. For a robot, two-legged ambulation in a true situation is an unpredictable AI accomplishment in its own right. Machines must have the option to learn so as to keep upstanding, stable, and moving with a wide range of circumstances and perils they may experience.

Samsung’s Bot Retail

This Samsung robot is made just to work in the retail world. The robot can navigate its way through crowds as it directs customers to products they want to buy. Moreover, they are so similar to salesmen that they can also make suggestions to people who are browsing.

Apart from navigating, the bot can also take payments via NFC. In addition to this, they can be a personal shopper as they can stock your products on a shelf behind them as you buy. The robot is also adept at analyzing human expressions and language to make itself more useful during your shopping experience.

Houston Mechatronics Aquanaut

The Aquanaut is a combination of two of the most generally utilized unmanned submerged vehicles – submarine automatons, and remote-controlled support vehicles. Enabled by AI, it can act self-rulingly to analyze and complete fixes on structures, for example, oil apparatuses and pipelines, in situations that would be both dangerous and costly for people to reach.

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