AUTONOMOUSROBOTS

[Audio] Good morning everyone. We are here to discuss the implications of Industry 4.0 and Autonomous Robots on our operations as a personal organization. During this presentation, we will examine the advantages and difficulties associated with these technologies, and converse about the ways we can ensure we are prepared for their implementation..

INTRODUCTION. [image]. ISHWAR LAL SINGH. [image].

[Audio] Industry 4.0 is the fourth industrial revolution, a government initiative that promotes connected manufacturing and digital convergence between industry, businesses and processes. It enables digital manufacturing and is applicable to all levels of the manufacturing process - from product development to the end of its life. Additionally, with Industry 4.0, manufacturers can apply concepts to external resources, such as supply chains, in order to better anticipate supply disruptions and facilitate sourcing materials..

[Audio] Implementing Industry 4.0 and Autonomous Robots offers many advantages but also has a few drawbacks. A table in this slide outlines the benefits and challenges associated with the technology. The benefits of it include allowing OEMs to observe how their product is being used, providing real-time insight into the manufacturing process through sensor data, and conducting Big Data analytics on the data generated in the manufacturing process. On the other hand, some of the challenges are cost, interoperability, and cyber security risks which can lead to disruption of operations. It is important to understand both the benefits and challenges of Industry 4.0 and Autonomous Robots for successful implementation of the technology..

[Audio] Autonomous robots have the ability to revolutionize the manufacturing industry, bringing greater accuracy and efficiency to complex tasks. Programmed to react to unexpected events, they provide a safe environment for workers, eliminating the need for tedious manual labor. Data collection and analysis is also made easier through the use of autonomous robots, enabling companies to quickly identify areas of improvement and become more efficient. As autonomous robots become increasingly sophisticated, their potential to make a lasting impact on the manufacturing industry continues to grow..

[Audio] Autonomous robots are becoming more widely used in a variety of areas, from Health Care and Industry 4.0 to Agriculture, Transportation, Space Exploration, and Education & Research. These robots have the potential to provide advantages like increased accuracy and productivity, as well as reduced safety risks. However, they also come with certain drawbacks, like higher expenses and the necessity for new abilities and dedicated coding. As robots are increasingly incorporated into more industries, they could potentially revolutionise a plethora of crucial sectors..

[Audio] Surgical robots and Assistive robots are two types of autonomous robots with distinct uses. Surgical robots are employed for delicate and complex procedures with more accuracy, maneuverability, and control when compared to traditional approaches. On the other hand, Assistive robots, sometimes known as bionic limbs and AMR bots, are created to assist people with physical or mental restrictions in daily tasks such as mobility, communication, and self-care, thereby granting new chances for them to approach life with autonomy and assurance..

[Audio] Technologies such as automated farming robots, weeding robots, seeding drones, and flying drones have drastically improved the way farmers work, increasing efficiency and productivity. Automated farming robots can access and weed crops quickly and accurately, saving time and resources. Seeding Drones and Flying Drones also help farmers sow their seeds uniformly and quickly, resulting in savings of both time and money. Additionally, farmers can benefit from thermal sensor technology to monitor their livestock more effectively, helping them to identify injuries or illnesses quickly and reliably, ultimately leading to increased yields and improved crop production..

[Audio] Autonomous robots are taking on a larger part in Industry 4.0. Robotic arms and mobile trolleys are a few of the robots being applied in production. Robotic arms are replicating and enhancing the capacity of humans in production tasks, since they give steady and precise performance during repetitive and mechanical tasks. Mobile trolleys are aiding in transferring heavy materials and products to the trucks and shipping containers, making the process more cost and time efficient. Autonomous robots are contributing to a safer and more productive industrial milieu..

[Audio] Autonomous vehicles, also known as self-driving cars, are making a big impact on the way people move. Advanced sensors, data processing and control systems allow these cars to safely navigate roads, detect obstacles, interpret road signs and make decisions based on current driving conditions. As more and more autonomous cars take to the roads, many industries are beginning to enjoy the benefits they offer. Autonomous vehicles could potentially reduce accidents and provide more efficient transportation, thus making a positive difference in our society..

[Audio] Delivery robots have become a popular means of enhancing last-mile delivery. They are able to travel autonomously to their destination, have various sensors to respond to their environment, and have a predetermined holding capacity for packages. This technology is aiding in making delivery services more proficient and more convenient for customers..

[Audio] Today, we will be discussing the use of autonomous robots in space exploration. Autonomous robots have been used in a variety of ways to explore the surfaces of planets, moons, asteroids, and comets. Rovers are wheeled or tracked vehicles that are used to explore the surfaces of planets and moons. Examples include the Mars rovers, such as Spirit, Opportunity, Curiosity, and Perseverance. In addition, specialized rovers, such as those in the MINERVA mission, have been designed for the exploration of asteroids and comets. Autonomous landers are robotic spacecrafts that are designed to land on the surface of celestial bodies. By doing so, these landers can deploy stationary science instruments, or even their own rovers. Autonomous robots have thus enabled us to explore the surfaces of worlds beyond our own, broadening our horizons and expanding our understanding of our solar system..

[Audio] Autonomous robots are being increasingly employed in an extensive range of domains, ranging from education and research to industry and beyond. In education and research, robots are facilitating the advancement of robotics, Artificial Intelligence (AI), and programming knowledge, and are additionally being used in data gathering and supervision. Unmanned Aerial Vehicles (UAVs), also known as research drones, are being utilized in several research activities, like environmental research, agriculture, and geographical studies. Humanoid robots, such as the NAO and Pepper models, are also used in research and education, allowing us to research the potentials of human-robot interactions. In the 21st century, autonomous robots are gaining recognition, helping us to discover novel knowledge and chances..