Events Archives - Evolvingai https://www.evolvingai.org Advanced Robotics Conferences Mon, 23 Sep 2024 19:53:43 +0000 en-US hourly 1 https://wordpress.org/?v=5.9.2 https://www.evolvingai.org/wp-content/uploads/2022/04/cropped-Logo22-32x32.png Events Archives - Evolvingai https://www.evolvingai.org 32 32 The Role of Advanced Gripping Devices in Industrial Robotics: Driving Automation Forward https://www.evolvingai.org/2024/09/23/the-role-of-advanced-gripping-devices-in-industrial-robotics-driving-automation-forward/ Mon, 23 Sep 2024 19:53:42 +0000 https://www.evolvingai.org/?p=412 The rise of industrial robotics has transformed manufacturing, logistics, and other sectors by increasing efficiency, reducing labor costs, and enhancing precision. One key technology enabling […]

The post The Role of Advanced Gripping Devices in Industrial Robotics: Driving Automation Forward appeared first on Evolvingai.

]]>
The rise of industrial robotics has transformed manufacturing, logistics, and other sectors by increasing efficiency, reducing labor costs, and enhancing precision. One key technology enabling this revolution is the gripping device, which allows robots to interact with objects in their environment. As industries continue to evolve, gripping devices are becoming more sophisticated, enabling robots to perform increasingly complex tasks across a wide range of applications.

This article delves into how modern gripping devices have advanced industrial robotics, driving automation forward in various sectors, and the potential future developments in this field.

The Basics of Robotic Gripping Devices

Gripping devices are essentially the “hands” of industrial robots, designed to grab, hold, and manipulate objects. They can vary from simple mechanical claws to highly specialized tools that can handle delicate materials with extreme precision. The selection of a gripping device depends on the specific application, whether it’s lifting heavy objects in automotive assembly or handling fragile components in electronics manufacturing.

The introduction of intelligent gripping systems has allowed robots to adapt to different environments, materials, and shapes. These devices are now capable of real-time adjustments, ensuring they can handle varying loads, textures, and conditions without damaging the product or losing efficiency.

How Gripping Devices are Transforming Industrial Applications

Electronics Manufacturing: Precision and Care

In electronics manufacturing, the use of robotic gripping devices has revolutionized the assembly of sensitive components like microchips and circuit boards. Robots equipped with fine-tuned gripping technology can handle these delicate parts with care, reducing the risk of human error and improving overall production speed. These gripping systems are designed to adjust grip strength based on the object’s size and fragility, ensuring a high degree of precision.

Automotive Industry: Heavy-Duty Handling

In the automotive sector, gripping devices are essential for handling bulky and heavy parts, such as metal frames and engine components. These robots need to be equipped with powerful, robust gripping systems that can withstand significant forces. As gripping technology improves, robots are now able to handle a wider variety of materials and objects, making the assembly process faster and more efficient.

This is where automation parallels other industries in terms of strategy. Just as users on Betting.BC.Game develop betting strategies for success, manufacturers leverage advanced robotic gripping systems to increase productivity and precision.

Logistics and Warehousing: Speed and Accuracy

Gripping devices are also playing a vital role in the logistics and warehousing industry, where speed and accuracy are critical. Robots equipped with advanced gripping systems can sort, pack, and transport goods much faster than human workers. These devices are particularly beneficial in e-commerce, where the demand for quick order fulfillment has skyrocketed. Gripping technology helps robots handle a variety of goods, from fragile items like glassware to bulky products, without compromising efficiency.

Trends in Robotic Gripping Technology

AI Integration and Machine Learning

The next frontier for robotic gripping devices lies in the integration of AI and machine learning. With these technologies, robots will be able to learn from their environment and adjust their gripping methods based on real-time feedback. For example, a robot could adjust its grip on a material based on the amount of pressure it detects, avoiding potential damage or slippage.

Energy Efficiency in Gripping Devices

As industries prioritize sustainability, energy-efficient gripping devices are becoming more prevalent. These systems are designed to consume less power while maintaining or even improving performance. By reducing energy consumption, businesses can lower operational costs and contribute to environmentally friendly practices without sacrificing productivity.

Future Outlook: What’s Next for Gripping Devices?

The future of industrial robotics will be defined by even more advanced gripping technologies. In the coming years, we can expect to see gripping devices that are capable of handling more diverse tasks, including those that require human-like dexterity. These advancements will allow robots to perform tasks that were previously thought to be impossible, such as assembling complex products or working in highly dynamic environments.

Moreover, as the integration of AI and machine learning continues to evolve, robots will become even more autonomous, able to adapt their gripping techniques on the fly. This will open new possibilities for automation across industries, leading to greater efficiencies and new business models.

Conclusion

Gripping devices are the backbone of industrial robotics, enabling machines to interact with their environment and perform essential tasks across multiple sectors. From precision handling in electronics manufacturing to heavy-duty lifting in the automotive industry, these devices are transforming the way industries operate.

As gripping technology advances, driven by AI, machine learning, and energy efficiency, the potential for industrial robotics will continue to grow, pushing automation into new and exciting areas. Whether in the factory or warehouse, the capabilities of gripping devices will remain at the forefront of the robotics revolution, much like how strategic thinking plays a vital role in the success of platforms like Betting.BC.Game.

The post The Role of Advanced Gripping Devices in Industrial Robotics: Driving Automation Forward appeared first on Evolvingai.

]]>
Equip Your Production Line with Robotic Automation https://www.evolvingai.org/2023/06/23/equip-your-production-line-with-robotic-automation/ Fri, 23 Jun 2023 10:57:03 +0000 https://www.evolvingai.org/?p=376 Who doesn’t love efficiency and precision? Especially in production lines where every second and every move counts. That’s where robotic automation comes into play. But, […]

The post Equip Your Production Line with Robotic Automation appeared first on Evolvingai.

]]>
Who doesn’t love efficiency and precision? Especially in production lines where every second and every move counts. That’s where robotic automation comes into play. But, what is robotic automation? Imagine an orchestra, but instead of musicians, you have robots and machines working in perfect harmony to produce goods.

Importance of Automation in Manufacturing

Have you ever wondered how big companies produce massive quantities without sacrificing quality? Automation, my friend! Not only does it save time, but it also minimizes human error, ensuring the consistent quality of products.

How Robotic Automation Enhances Productivity

Picture this: humans and robots working together like Batman and Robin, making production swifter than a cheetah. Robots can handle repetitive tasks tirelessly, while humans focus on more complex decisions.

Essential Equipment for Robotic Automation

Robotic automation is revolutionizing the way industries function, from manufacturing to packaging, and even entertainment. But what makes these robots tick? It’s a symphony of various components that work together like a well-oiled machine. Let’s dive into the essential equipment needed for robotic automation.

Industrial Robots

These are the superheroes of the production line! From assembling parts to packaging finished products, these robots handle it all.

Types of Industrial Robots

You’ve got the articulated robots, SCARA robots, delta robots – each with its own superpower. Think of them like different characters in a video game, each essential for different levels of the production line.

Robot Controllers

Imagine robots are race cars; controllers are the steering wheels. These are critical for guiding the movements and tasks of the robots.

End Effectors

These are the hands of robots, literally. From grippers to welding torches, end effectors ensure robots can perform specific tasks.

Types of End Effectors

There are grippers, suction cups, force-torque sensors – you name it. Like a Swiss Army Knife, these different tools make robots versatile.

Vision Systems

Eyes for the robots! Vision systems allow robots to see and adapt to the environment, making them more intelligent and responsive.

Integrating Live Casinos with Robotics

Imagine walking into a live casino and being greeted by a friendly robotic dealer. Wild, right? The integration of robotics into live casinos is transforming the gaming experience. From dealing cards with pinpoint accuracy to handling chips and rolling dice, robots are bringing in a new level of precision and efficiency. What’s more, robotic dealers never tire, ensuring that the action keeps rolling 24/7. On the tech side, casinos can integrate advanced algorithms to ensure fair play. Players, on the other hand, can enjoy an exciting, futuristic gaming atmosphere. It’s like stepping into a sci-fi movie! But worry not, human touch isn’t entirely lost; robotic dealers are often designed to interact and engage with the players, ensuring that the personal element remains intact. So, ready to place your bets in this modern, robotic gaming haven?

Why Live Casinos are Embracing Automation

Ever been to a live casino? It’s a whirlwind of excitement. Now, imagine that the dealers are robots. More and more casinos are adopting automation for precision and efficiency. How cool is that?

Robotics in Plinko Game Online

What if I told you that robots are now an integral part of online gaming https://plinkogameonline.com/ like Plinko? They handle the nitty-gritty so that you can enjoy a seamless and fair gaming experience.

Challenges of Implementing Robotic Automation

Implementing robotic automation in production lines brings numerous benefits, but it also comes with its fair share of challenges. Let’s explore some of the hurdles that businesses may face when adopting this advanced technology.

  1. Costs: Acquiring robots, controllers, and training can involve significant expenses. Evaluating the financial feasibility is crucial.
  2. Maintenance: Robots require regular upkeep, including check-ups, software updates, and repairs, which can be time-consuming and costly.
  3. Workforce Adaptation: Employees may fear job displacement. Training programs and clear communication can ease the transition and promote acceptance.
  4. Integration and Compatibility: Technical challenges may arise when integrating robots into existing systems. Planning and coordination are necessary for a smooth integration process.
  5. Regulatory and Safety Compliance: Adhering to safety regulations and establishing protocols for worker and robot safety are essential.

Despite these challenges, businesses can harness the benefits of robotic automation with proper planning and implementation.

Conclusion and Future Prospects

As we gaze into the crystal ball, it’s evident that robots are here to stay. They’re bound to become even more integrated into our daily lives. The question is, are you ready to embrace the robotic revolution and turbocharge your production line?

The post Equip Your Production Line with Robotic Automation appeared first on Evolvingai.

]]>
Robotics: Enhancing Our Lives and Redefining the Future https://www.evolvingai.org/2023/05/08/robotics-enhancing-our-lives-and-redefining-the-future/ Mon, 08 May 2023 13:47:52 +0000 https://www.evolvingai.org/?p=371 Robotics has come a long way since its inception, and today, it plays a pivotal role in improving various aspects of our lives. From healthcare […]

The post Robotics: Enhancing Our Lives and Redefining the Future appeared first on Evolvingai.

]]>
Robotics has come a long way since its inception, and today, it plays a pivotal role in improving various aspects of our lives. From healthcare and education to agriculture and disaster response, robots are becoming indispensable tools for a wide range of applications. This article will explore how robotics is transforming our lives and shaping our future. Additionally, we will discuss the impact of robotics on the online casino industry, particularly in terms of minimum deposit requirements.

Robotics in Everyday Life

Healthcare

Robots have made significant inroads in the healthcare sector, offering numerous benefits to both patients and medical professionals. Surgical robots, for instance, enable surgeons to perform complex procedures with increased precision and control, leading to better patient outcomes. Rehabilitation robots, on the other hand, assist patients in their recovery process by providing support and guidance during physical therapy sessions. Robots are also being used in hospitals to carry out tasks such as delivering medication, sanitizing rooms, and transporting lab samples, freeing up valuable time for medical staff.

Education

The field of education is also witnessing the transformative power of robotics. Robots can be utilized as interactive learning tools, helping students develop problem-solving, programming, and engineering skills. By engaging students in hands-on projects and collaborative activities, robots can foster creativity, critical thinking, and teamwork. Moreover, social robots are being used to support children with special needs, such as autism, by providing personalized and adaptive learning experiences.

Agriculture

Agricultural robots are revolutionizing the way we produce food, making farming more efficient, sustainable, and environmentally friendly. These robots can perform tasks such as planting seeds, monitoring crop growth, and harvesting produce with remarkable accuracy and speed. They can also be used for targeted pesticide application, reducing the amount of chemicals needed and minimizing environmental impact. By automating labor-intensive and time-consuming tasks, agricultural robots can help address the global challenge of feeding an ever-growing population.

Disaster Response

Robots have proven to be invaluable assets in disaster response and recovery efforts. In the aftermath of natural disasters, robots can be deployed to search for survivors, assess damage, and clear debris in hazardous environments. By performing tasks that would be too dangerous or difficult for humans, robots can save lives and help communities recover more quickly.

Robotics in Online Casinos

Enhancing the Gaming Experience

As robotics continues to advance, its impact on the online casino industry is becoming increasingly evident. By integrating robotic technology, online casinos can offer players a more immersive and engaging gaming experience. For example, AI-driven robotic croupiers can interact with players in real-time, providing a more authentic casino atmosphere. Robots can also be used to create personalized gaming experiences, tailoring the gameplay to individual preferences and skill levels.

Reducing Minimum Deposit Requirements

One of the key concerns for online casino enthusiasts is the minimum deposit requirement. Robotics has the potential to streamline payment processes and reduce operational costs for online casinos, enabling operators to lower their minimum deposit requirements. As a result, players can enjoy their favorite casino games without being burdened by high minimum deposits. This not only makes the gaming experience more accessible to a wider audience but also helps online casinos attract and retain more players.

Robotics is undeniably playing a transformative role in our lives, offering innovative solutions to a multitude of challenges across various sectors. From healthcare and education to agriculture and disaster response, robots are proving to be invaluable assets that enhance our lives in countless ways.

The online casino industry, too, stands to benefit from the advancements in robotics. By integrating robotic technology, online casinos can offer more immersive and personalized gaming experiences, as well as lower minimum deposit requirements. As robotics continues to evolve and push the boundaries of innovation, we can expect even greater impact on our lives and the industries that shape them.

The future of robotics is bright, and as we continue to embrace these technological marvels, we open the door to countless possibilities and improvements in our day-to-day lives. From better healthcare outcomes and more engaging educational experiences to sustainable agriculture and efficient disaster response, robotics is poised to redefine our future in ways we have yet to imagine.

Moreover, the integration of robotics in the online casino industry is set to further revolutionize the gaming experience for players around the world. As minimum deposit requirements decrease and AI-driven robotic croupiers become the norm, online casinos will be able to offer a more accessible and engaging platform for gaming enthusiasts.

As we look ahead to the future, it is clear that robotics will play an increasingly important role in shaping our lives and the world around us. With each new advancement, we move closer to a world where robots are not just a novelty but an integral part of our daily existence, helping us overcome challenges and enhance our quality of life.

The post Robotics: Enhancing Our Lives and Redefining the Future appeared first on Evolvingai.

]]>
Robotics Revolution: Novel Innovations That Will Surprise Us in 2023 https://www.evolvingai.org/2023/05/08/robotics-revolution-novel-innovations-that-will-surprise-us-in-2023/ Mon, 08 May 2023 13:44:56 +0000 https://www.evolvingai.org/?p=367 The robotics industry is on a fast track to transform the way we live, work, and play. As we step into 2023, the world is […]

The post Robotics Revolution: Novel Innovations That Will Surprise Us in 2023 appeared first on Evolvingai.

]]>
The robotics industry is on a fast track to transform the way we live, work, and play. As we step into 2023, the world is witnessing an unprecedented level of innovation in robotics, with groundbreaking advancements that continue to surprise and captivate us. This article will explore some of the most astonishing novelties in robotics that are set to redefine our future. Additionally, we will briefly touch upon the impact of robotics on online casinos, including aspects such as minimum deposits and the use of forints in these gaming platforms.

Revolutionary Robotics

Robotic Companions for the Elderly

One of the most remarkable novelties in robotics is the development of robotic companions designed to provide support and companionship to the elderly. These robots can engage in conversations, recognize emotions, and even monitor health parameters, significantly improving the quality of life for senior citizens. With the global population aging rapidly, robotic companions are expected to play a crucial role in addressing the challenges of elderly care and loneliness.

Exoskeletons for Enhanced Mobility

Exoskeleton technology has made remarkable strides in recent years, with devices designed to assist people with limited mobility or physical disabilities. These wearable robotic suits can help users walk, lift heavy objects, or perform other tasks that would otherwise be impossible. As the technology becomes more affordable and accessible, we can expect exoskeletons to transform the lives of millions of people across the globe.

Swarm Robotics for Disaster Response

Swarm robotics is an emerging field that focuses on the collective behavior of multiple robots working together. Inspired by nature’s swarming creatures like bees and ants, researchers are developing robot swarms capable of efficiently coordinating in complex environments. These swarms can be used in disaster response situations, such as search and rescue missions or cleaning up hazardous materials, significantly enhancing our ability to respond to emergencies.

Soft Robotics for Delicate Operations

Traditional robots are known for their rigidity and strength, but soft robotics is introducing a new class of robots that are flexible, adaptable, and gentle. Made of materials like silicone and other polymers, soft robots can perform delicate tasks such as handling fragile objects or navigating through tight spaces. This new breed of robots has immense potential in industries like agriculture, healthcare, and manufacturing, where precision and adaptability are crucial.

Robotics in Online Casinos

Impact on Customer Experience

The online casino industry is another domain that stands to benefit from advancements in robotics. By integrating robotic technology, online casinos can significantly enhance the user experience by offering personalized and immersive gaming experiences. For example, AI-driven robotic croupiers can interact with players in real-time, providing a more engaging and authentic casino atmosphere.

Minimum Deposit Requirements

One of the major concerns of online casino enthusiasts is the minimum deposit requirement. Robotics can play a role in streamlining payment processes and reducing operational costs for online casinos. This, in turn, allows operators to lower minimum deposit requirements, making the gaming experience more accessible to a wider audience. As a result, players can enjoy their favorite casino games without being burdened by high minimum deposits.

Online Casinos Accepting Forints

The integration of robotics and AI technologies in online casinos also paves the way for more diverse payment options. As more online casinos begin to accept forints – the official currency of Hungary – Hungarian players can enjoy a seamless gaming experience without the need for currency conversion. This move not only provides convenience for players but also helps online casinos tap into the growing Hungarian market.

 

The year 2023 promises to be a remarkable one for the field of robotics, with innovations that will surprise and delight us in various aspects of our lives. From robotic companions for the elderly and exoskeletons enhancing mobility to swarm robotics for disaster response and soft robotics for delicate operations, these cutting-edge developments have the potential to reshape industries and redefine our future.

Moreover, the integration of robotics in online casinos is set to revolutionize the gaming experience, with AI-driven croupiers offering a more immersive atmosphere. Additionally, robotics can help streamline payment processes, reduce operational costs, and lower minimum deposit requirements, making online gaming more accessible to a broader audience. With the acceptance of huf online casino, Hungarian players can also enjoy a seamless gaming experience in their local currency.

As we continue to push the boundaries of innovation in robotics, we can expect to witness even more astonishing developments that will transform the way we live, work, and play. The future of robotics promises to be both exciting and unpredictable, and we can only imagine what other surprises await us in the years to come.

The post Robotics Revolution: Novel Innovations That Will Surprise Us in 2023 appeared first on Evolvingai.

]]>
What robotics is and why children need it https://www.evolvingai.org/2021/11/05/what-robotics-is-and-why-children-need-it/ Fri, 05 Nov 2021 12:21:00 +0000 https://themepalacedemo.com/top-event/?p=15 Get up to 20 new business contacts in one speed dating session
Present yourself and find partners or contractors

The post What robotics is and why children need it appeared first on Evolvingai.

]]>
The pandemic provoked a race in the robotics market: Amazon announced the release of a home robot assistant in 2021, warehouse robot maker Locus Robotics raised $150 million, and agricultural robot developer FJ Dynamics raised another $70 million.

Robotics today is an entire industry that includes a large number of markets and areas of science and research. It is responsible for the design, production and application of programmable mechanical devices – robots that can act without human assistance. Robots work according to a pre-programmed program and receive information about the outside world through sensors – analogues of the senses of living organisms. They can both communicate with the operator (receive commands from him) and act autonomously.

What is growing in the robotics market

Industrial robotics has received the greatest development among all areas. The first automated industrial robots appeared back in 1947 – the impetus for their emergence was the development of nuclear power. Today, this market continues to grow: welding, bending, soldering and other operations in most large enterprises have long been performed by robots, and the number of solutions is only growing every year.

Another area worthy of attention is medical robotics. One of the most popular solutions here is the four-armed da Vinci robot, which holds tools in its hands.

Most car companies, including Tesla, Mercedes, and Volkswagen, as well as Yandex and Uber, which are far from the automobile industry, are doing research on unmanned vehicles. In addition to unmanned cars, drones are also actively used in today’s world, both in the military industry for reconnaissance and bombing operations, and in the civilian industry for entertainment and video recording.

According to the International Federation of Robotics (IFR), worldwide sales of service robots grew 32% to $11.2 billion in 2018-2019. Sales of logistics robots more than doubled by 110% and medical robots more than doubled by 28%. The total number of service robots sold for personal and home use increased 34% to 23.2 million in 2019.

In the pandemic, these types of robotics have grown even faster: people in remote work are actively buying household robots, and players in the growing logistics and medical markets are developing and selling devices to replace couriers and medics. From 2019 to 2021, the number of large companies deploying robots doubled, according to data from the National Association of Robotics Market Participants (NAUR).

Where to learn how to make robots
The development of the entire robotics industry and its individual areas means there is a shortage of specialists who will implement, develop and operate the devices. With a shortage of personnel, employment and high salaries are guaranteed – which is why the robotics industry has begun to focus on the education system.

In the last few years the market for private robotics courses is actively gaining momentum: dozens of new robot clubs are opening across the country, where children assemble robots, understand the basics of algorithms and launch their own projects. According to our data, there are more than a hundred brands on the market.

Private courses are only one area of educational robotics. It is also taught in children’s creativity palaces and other municipal budgetary institutions of additional education, in general education schools and in universities. In Russia there is no unified program of robotics education approved by the Ministry of Education, but there are general recommendations for creating educational programs. Lego, Robbo TRIC and other companies’ sets are usually used in circles and schools to introduce children to the general course of engineering, physics and programming. At universities, classes are usually based on existing industrial or service robots – with their help, students can learn the features of mechatronics (computer motion control), computer vision, navigation, programming, neural networks, and object recognition.

Why children need robotics

A child can start learning robotics at the age of six with a Lego Education set. What is it for? Robotics develops responsibility, discipline, teamwork, imagination, attentiveness, creative thinking, orientation in space, fine motor skills, memory, and independence. By constructing robots, a child also learns step-by-step work “from simple to complex”, patience, and determination. Together with this science, he masters the basics of computer literacy, the basics of mathematics, working with different mechanisms, and even gets a basic knowledge of technical English. All of this is suitable for children of all ages and genders and can be serious preparation for further study of applied sciences. Children who study robotics can qualify in the future as robotics engineers, designers of children’s machinery and robots, or developers of neuro-interfaces.

However, children’s robotics programs have a downside. Many schools try to attract parents who want to put as much knowledge into their child as possible. Such schools emphasize learning mathematical models and other complex designs, which, of course, will be used in the future, but are hard for very young students to grasp. Often educational programs do not include gamification elements and turn into another boring lesson. Gradually, children may develop a negative perception of robotics – similar to the disciplines where parents try to lead them by force and where lessons are reduced to persistent rote memorization of materials.

The first impression of robotics is also negatively influenced by the manufacturers’ desire to reduce production costs: robots often do not include the use of different housings, design and customization elements, or voice interfaces. As a result, a schoolboy is essentially assembling not a robot, but a square with wheels that rides along a line. He does not feel satisfied with his work, because he came to study robotics, build transformers and robocars, but got a set of gray parts.

The combination of these factors can lead to children developing a negative attitude towards robotics in general as early as adolescence. Children will not be interested in technology, and they will not be interested in the engineering profession. When a student comes to university, he or she can categorically refuse to take a course when he or she hears the word “robotics” – because it is not interesting and boring.

How to choose a robotics class
How to avoid a negative perception of robotics by a child? First of all, it is worth looking at the educational program in the club. If the educational materials are dominated by numbers, formulas, program code, and the lessons are based on the fact that the child will have to sit and program most of the time – this is by definition a red flag. The child will quickly get bored and will not want to continue development in this area. If the program contains elements of gamification from the teacher, competitions, for example, races of assembled robots, robo-sumo, sparring – this is a positive sign. A child is more likely to enjoy the lessons and become interested in robotics.

It is also worth paying attention to the material base of the club. If it contains only one type of set, such as Lego – it is also a warning sign. Certainly, there are interesting robotics programs based on one type of constructors, but anyway, one set is a sign of poor approach of the organization to education.

The learning process itself is also important. Robotics in today’s world is not just about programming and hardware, it’s also about design. If the club has machines, locksmith’s equipment, workbenches, it means that the robot will get additional elements – for example, an unusual body, which will attract additional attention of the child. This is as important a factor for learning and involvement as the teacher himself.

The post What robotics is and why children need it appeared first on Evolvingai.

]]>
10 Essential Skills Required for Robotics https://www.evolvingai.org/2021/05/26/10-essential-skills-required-for-robotics/ Wed, 26 May 2021 12:20:36 +0000 https://themepalacedemo.com/top-event/?p=13 Get a one-on-one, 30-minute breakdown session with your case from innovative technology experts whose time is valuable

The post 10 Essential Skills Required for Robotics appeared first on Evolvingai.

]]>
  • Systems thinking
  • A project manager once observed that many robotics-related people end up as project managers or systems engineers. This makes a lot of sense, because robots are very complex systems. A robotics specialist must be a good mechanic, electronics engineer, electrician, programmer, and even have a background in psychology and cognitive activities.

    A good robotics engineer is able to understand and theorize how all these different systems work together in a coherent way. If a mechanical engineer can quite reasonably say, “that’s not my job, we need a programmer or an electrician here”, then a robotics engineer should be well versed in all these disciplines.

    1. Programmer’s Mindset

    Programming is a pretty important skill for a robotics engineer. It doesn’t matter if you’re a low-level control systems engineer (using only MATLAB to design controllers) or a computer scientist designing high-level cognitive systems. Robotic engineers can be involved in programming at any level of abstraction. The main difference between conventional programming and robot programming is that the robotics engineer interacts with the hardware, electronics, and clutter of the real world.

    More than 1,500 programming languages are in use today. Although you obviously won’t need to learn them all, a good robotics engineer has the mindset of a programmer. And they will be comfortable learning any new language, should it suddenly become necessary. And here we move seamlessly to the next skill.

    1. Self-learning ability.

    It is impossible to know everything about robotics, there is always something unknown that will have to be learned when the need arises to do the next project. Even after a higher education in robotics and several years as a graduate student, many only begin to truly understand the basics of robotics.

    The drive to continually learn something new is an important ability throughout your career. Therefore, using learning methods that are effective for you personally and reading well will help you gain new knowledge quickly and easily when the need arises.

    1. Math

    There are not many foundational skills in robotics. One of those foundational skills is math. You will probably have a hard time succeeding in robotics without a proper knowledge of at least algebra, calculus, and geometry. This is because at a basic level, robotics relies on the ability to understand and operate on abstract concepts, often represented as functions or equations. Geometry is especially important for understanding topics such as kinematics and technical drawings (which you will probably have to do a lot of during your career, including those done on a napkin).

    1. Physics and Applied Mathematics

    There are some people (pure mathematicians, for example) who tend to operate on mathematical concepts without reference to the real world. Robot makers are not this type of person. Knowledge of physics and applied mathematics is important in robotics because the real world is never as precise as mathematics. Being able to decide when a calculation result is good enough to actually work is a key skill for a robotics engineer. Which brings us smoothly to the next point.

    1. Analysis and solution selection

    Being a good robotics engineer means constantly making engineering decisions. What should we choose to program, ROS or another system? How many fingers should the designed robot have? What sensors should you choose to use? Robotics uses many solutions and among them there is almost no single correct one.

    With the vast knowledge base used in robotics, you could find a better solution to certain problems than experts from more narrow disciplines. Analysis and decision making are necessary to get the most out of your solution. Analytical thinking skills will allow you to analyze a problem from different perspectives, while critical thinking skills will help you use logic and reasoning to balance the strengths and weaknesses of each solution.

    The post 10 Essential Skills Required for Robotics appeared first on Evolvingai.

    ]]>
    First steps in electronics https://www.evolvingai.org/2020/09/24/first-steps-in-electronics/ Thu, 24 Sep 2020 13:58:57 +0000 https://www.evolvingai.org/?p=162 Meet only those who match your interests.

    The post First steps in electronics appeared first on Evolvingai.

    ]]>
    Arduino and a matchboxArdino is a small board with its own processor and memory. The board also has a couple of dozens of pins to which you can connect all kinds of components: light bulbs, sensors, motors, kettles, routers, magnetic door locks and in general anything that runs on electricity.

    The Arduino processor can be loaded with a program that will control all these devices according to a preset algorithm. This way you can create an endless number of unique and cool gadgets made by your own hands and according to your own idea. To understand the general idea, take a look at the illustration. It doesn’t represent a millionth of all the possibilities, but it still gives you an initial idea.

    Affordable Complexity
    The Arduino platform has become wildly popular because of its simplicity and friendliness. Even complete novices in programming and circuit design can master the basics of Arduino in a couple of hours. There are thousands of publications, tutorials, notes on the internet, and an excellent series of video tutorials on Arduino in Russian.

    Arduino IDE
    Arduino programs are written in plain C++, complete with simple and clear functions to control I/O on the pins. If you already know C++, the Arduino is a door to a new world where programs are not limited to the computer but interact with and influence the world around them. If you’re new to programming – no problem, you can easily learn, it’s easy.

    To make working with Arduino boards easy, there is the free official Arduino IDE programming environment that runs on Windows, Mac OS and Linux. With it, loading a new program into the controller becomes a matter of one click, just connect the board to your computer via USB. For the more inquisitive mind you can also use Visual Studio, Eclipse, other IDEs or the command line, but for beginners the visual programming environment XOD IDE will do.

    You will not need a soldering iron. You can assemble complete devices using a special breadboard, jumpers and wires with absolutely no soldering. Designing has never been so fast and easy.

    The sandwich principle
    Another characteristic feature of Arduino is the presence of expansion boards called shields or simply “shields”. These are additional boards that are put like layers of sandwich on top of the Arduino to give it new features. For example, there are expansion boards for connecting to a local area network and the internet (Ethernet Shield), for controlling powerful motors (Motor Shield), for getting coordinates and time from GPS satellites (GPS/GLONASS receiver) and many others.

    Bottom line
    Arduino is the heart of a construction kit, with no finite, defined set of parts, and no limits to the variety of what you can assemble. Everything is limited only by your imagination. It’s a new world, a killer hobby, and a great gift. Tens of thousands of people around the world have already figured it out.

    Where to start
    You’ll need the board itself. For example, the Arduino Uno is the most popular board at the moment. It’s a good place to start your experiments. But if you want to “grow out” of it, you might want to consider the more powerful Arduino Mega 2560.

    You will also need a USB cable, a breadboard, jumpers, resistors, transistors… and a dozen other handy things. If you don’t want to tire yourself looking for what you need, you can take everything you need as one of the pre-built kits.

    The post First steps in electronics appeared first on Evolvingai.

    ]]>
    Common types of robots https://www.evolvingai.org/2020/06/18/common-types-of-robots/ Thu, 18 Jun 2020 13:07:00 +0000 https://themepalacedemo.com/top-event/?p=70 Large-scale closing of the business program with a music show and formats for networking and recreation

    The post Common types of robots appeared first on Evolvingai.

    ]]>
    As robotics manufacturers continue to innovate across functions, price points and form factors, robotics solutions are finding their way into a variety of industries that are growing relentlessly. Advances in computing power and AI capabilities mean that we can now use robots to perform important tasks in a multitude of ways.

    While the applications of robotics are quite varied – providing instructions, shelving for storage, welding metal in hazardous environments, and more – today’s robots can be divided into six categories.

    Autonomous Mobile Robots (AMR)
    AMRs move around the world and make decisions in near real time. Technologies such as sensors and cameras help them assimilate information about their surroundings. Onboard data processing equipment helps them analyze and make informed decisions, such as moving around an employee, accurately picking a bag or selecting the appropriate surface to disinfect. These are mobile solutions that require minimal human involvement to perform their tasks. Read more about AMR robots.

    Automated Vehicles (AGVs)
    While AMRs move freely through their surroundings, AGVs use trajectories or predetermined paths and often require operator supervision. They are typically used to deliver materials and move objects in controlled spaces, such as warehouses and factory floors.

    Articulated robots (also called robotic arms) are designed to mimic the functions of a human arm. Typically, they can have two to 10 swivel joints. Each additional joint or axis provides a greater degree of motion, which is ideal for welding, material handling, machine tool maintenance, and packaging. Learn more about articulated robots and robotic arms.

    Humanoids
    Although many mobile humanoid robots may technically fall into the AMR category, the term is used to identify robots that perform human-oriented functions and often have a human-like shape. They use most of the same technological components as AMRs to define, plan, and act as they perform tasks such as providing instructions or providing concierge services.

    Cobots
    Cobots are designed to work alongside or directly with humans. While most other types of robots perform their tasks independently or in strictly isolated areas, cobots can be in the same space as employees to help them do more work. They are often used to perform manual, dangerous or heavy tasks in day-to-day work processes. In some cases, cobots can work by reacting to or learning human movements.

    Hybrids
    Different types of robots are often combined to create hybrid solutions that can perform more complex tasks. For example, an AMR can be combined with a robotic arm to create a robot for handling packages inside a warehouse. As more functionality is combined in a single solution, computing capabilities are also consolidated.

    Fixed and non-fixed location robots
    Robots can also be broadly divided into two groups: those that move in the surrounding space and those that do not.

    Businesses and government agencies use robotics in a variety of ways. All five common types of robots are used to improve results and reduce the burden on employees so they can concentrate on the most important tasks.

    Industrial System.
    Industrial manufacturing has long been at the forefront of using different types of robots to achieve business results. AMRs, AGVs, articulated robots and cobots are used in factory floors and warehouses to speed up processes, increase efficiency and ensure safety, often in conjunction with programmable logic controllers. They are used in a variety of applications, including welding, assembly, material handling, and warehouse security.

    Farming and agriculture
    AMRs help farmers harvest crops faster and more efficiently and use impressive intelligence to do so. Agricultural robots can estimate the degree of maturity, remove branches and leaves along the way, and gently and accurately harvest crops without damaging them.

    Health Care
    Various types of robots are used in healthcare to improve patient care. AMRs are used to deliver medications, disinfect surfaces, or provide a mobile presence function. Cobots are also used as assistants for doctors during rehabilitation or to help nurses provide better patient care.

    Logistics
    Robotics helps logistics and transportation companies deliver products quickly and efficiently. They use AMRs and AGVs as warehouse robots to help them process materials, speed up work, and improve accuracy. They also use AMRs for the “last mile” section and to ensure safe delivery to customers.

    Retail and Hospitality
    Robotics can be used in a variety of ways to enhance the customer or guest experience. Retail and hospitality companies use robotics to automate inventory processes, provide concierge or navigation services, clean various areas and help customers with luggage or parking.

    Smart Cities.
    Robotics is helping to create smarter and safer cities. Humanoid robots offer navigation and information services. AMRs are used to deliver goods and perform routine patrols. Robotics also helps speed up the construction of buildings, conduct site surveys, and collect building modeling information.

    The post Common types of robots appeared first on Evolvingai.

    ]]>