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This document discusses emerging trends in robotics and neural networks. It provides an overview of neural network approaches to robotics, outlining current strengths and weaknesses. Some key points include:
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- Emerging technologies in robotics include collaborative robotics, advanced artificial intelligence, neuromorphic engineering, and intelligent nanobots. Neural networks are being applied to improve functions like perception, adaptation, and learning in robotic systems.
- Neural networks provide mapping between sensors and motors in robots. They are robust to noise and can serve
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IRJET- Can Robots are Changing the World: A ReviewIRJET Journal
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Robotic Soldier with EM Gun using Bluetooth Moduleijceronline
Need for security is growing day by day due to enormous development in the field of technology, but man wants to achieve this security at the minimum cost and minimum risk to human life. This is the factor which has encouraged us to develop this project which can achieve security at minimum risk to human life and at minimum cost. Here instead of exposing the soldier to do the hazardous job such as dangerous gas or hostile environment detection we have designed a machine which will do the same job more efficiently. This robot will be self-sufficient to sense the temperature of surrounding, and detecting if any obstacles are there at a certain distance depends on that robot guiding itself using the efficient algorithms and proper sensors.
IRJET- The Importance of Robotic Technology in Engineering Industries, Medica...IRJET Journal
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IRJET - Swarm Robotic System for Mapping and Exploration of Extreme Envir...IRJET Journal
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Robotic Automation Engineering And Technology (1).pdfShahIshfaq4
Robotic technology refers to the field of engineering involving the design, development, and use of robots. Robots are machines capable of performing tasks autonomously or semi-autonomously. Robotic technology has applications across many industries, including manufacturing, healthcare, agriculture, transportation, and more. It combines expertise from various disciplines and allows robots to perceive their environment and perform tasks precisely. Advancements in robotic technology have led to increased capabilities and transformed industries.
Cognitive Robotics: Merging AI and Robotics for Complex TasksIRJET Journal
The document discusses cognitive robotics, which merges artificial intelligence and robotics to enable robots to perform complex tasks. It describes key components of cognitive robotics like perception, reasoning, learning, interaction and autonomy. It also provides examples of data augmentation techniques to address challenges of limited labeled data when fine-tuning large language models for low-resource languages. Case studies show real-world applications of cognitive robotics in areas like logistics warehouses, surgery robots and home vacuums. The convergence of robotics and AI is advancing technologies to tackle intricate problems.
Robotics is the Engineering science and technology of robots, and their design, manufacture, application, and Structural disposition.
Robotics is related to Electronics, Mechanics, and Software.
The term “Robotics” was coined by Isaac Asimov in his 1941 science fiction Short story “Liar”.
The document discusses the development of a wireless pick and place robot. It aims to remove limitations of non-wireless robots by developing a system where a pick and place robot with 5 degrees of movement controlled by servo motors and an Arduino/Raspberry Pi board can operate freely without wires at any location. The robot will be designed to be compact, usable, affordable and help automate regular tasks like picking and placing to save human effort. Components will be selected and the robot will be fabricated, assembled and programmed using Arduino and Python to be controlled by a computer.
Robots are machines that can perform tasks automatically through programming or sensors. They are used in manufacturing, healthcare, exploration, and households. Robots range in complexity from simple robots that perform repetitive tasks to highly complex robots that can perform surgery or explore hazardous areas. Common robot types include industrial, service, and autonomous robots. Advancements in AI and machine learning have increased robot capabilities.
Robotics in healthcare has great potential benefits but is still in its early stages. Robots can perform surgery more accurately than humans and help elderly patients live independently through tasks like medication reminders. Further research is needed to develop technologies like smart medical capsules and intelligent prosthetics. Roadmaps are required to guide research from laboratories to practical healthcare applications that address societal challenges.
This document describes the design of an intelligent autonomous wheeled robot that uses RF transmission for communication. The robot has two modes - automatic mode where it can make its own decisions, and user control mode where a user can control it remotely. It is designed using a microcontroller and can perform tasks like object recognition using computer vision and color detection in MATLAB, as well as wall painting using pneumatic systems. The robot's movement is controlled by DC motors and it uses sensors like ultrasonic sensors and gas sensors to navigate autonomously. RF transmission allows communication between the robot and a remote control unit. The overall aim is to develop a low-cost robotic system for industrial applications like material handling.
Robotics in Manufacturing_ Case Studies and Innovations-QQMWorld.pptxOnyedikaOkoye
Discover the transformative power of robotics in the manufacturing sector with "Robotics in Manufacturing: Case Studies and Innovations." This comprehensive presentation delves into the latest advancements and applications of industrial robots, showcasing real-world case studies that highlight their impact on efficiency, productivity, and innovation. Explore the cutting-edge technologies driving factory automation, smart manufacturing, and Industry 4.0. Learn about the innovative solutions and engineering breakthroughs that are reshaping the manufacturing landscape. Whether you're a professional in the field, a technology enthusiast, or a business leader, this presentation offers valuable insights into the future of manufacturing with robotics.
Sensor Based Motion Control of Mobile Car Robotijtsrd
A robot is a computer , mobile , or digital programmed virtual synthetic agent or electromechanical system that can perform tasks on its own. These frameworks stand out because of their ability to be controlled. As a result of this, a group of independent PCs appears to clients as a single controlling framework. Artificial Intelligence AI is required to construct technologies that can interact with the physical world in Robotics and Vision. AI systems such as robots can only communicate with the real world if they do their tasks accurately. The Robots efficiency is highly dependent on the applications vision techniques. As a result, the development of self driving and self contained robots relies heavily on visual techniques and procedures. A combination of temperature, gas, and fire sensors, as well as a buzzer, is used to detect areas that are more prone to explosions. In addition, a live video feed is available to keep tabs on the cars every move. Sensor based remote control of mobile robots in an unknown environment with obstacles is the focus of this paper. Prakash. P. | Mohamed Abdul Naseer R | Shajil Ameer V. V. "Sensor Based Motion Control of Mobile Car Robot" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-6 | Issue-3 , April 2022, URL: https://www.ijtsrd.com/papers/ijtsrd49688.pdf Paper URL: https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/49688/sensor-based-motion-control-of-mobile-car-robot/prakash-p
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2. CONTENTS:-
1. Introduction
2. Definition
3. Key components
4. Advantages and Benefits of Robotics
5. Application of Robotics
6. Challenges and risk involved
7. Types of Robots
8. Current and future trend
9. Case studies
10. conclusion
2
3. Introduction to Robotics
Robotics deals with the design, construction use to control robots, sensory feedback and
information processing. Robots are machines that are used in different fields to perform
actions like human beings. Robotics deals with the creation and designing of mechanical
humans. The objective of this field is to create intelligent machines that can assist
human in variety of ways.
3
4. Definition and Concept of Robotics
4
Robotics is a branch engineering and computer science that involved the conception,
design, manufacture and operation of robots. Robotics comes under the field of
artificial intelligence. AI in robotics allow robots to learn from experience, adapt to new
situations and make decisions based on data from sensors. Robots use machine learning
algorithms to analyse data and recognise patterns. AI powered vision system allows
robots to interpret and understand visual information from the surrounding.
5. Key components of Robotics
Power Supply
The working power to the robot is
provided by batteries, hydraulic, solar
power or pneumatic power sources.
Sensors
Sensors are components that perceives
the change in the environment and provide
information to the robots.
End effectors
Controller
It is a part of the robot that coordinates all
the motions of the mechanical system. The
heart of the robot’s controller is a
microprocessor linked with input/output
and monitoring devices.
5
Actuators
The major function of the actuators is
to convert energy into movement.
The tools or devices attached to
the end of a robotic arm, which
interact with the environment.
6. Benefits and advantages of Robotics
Productivity
Robots may be programmed to operate constantly
without stopping in repeated cycle. They can do
repeated jobs more effectively than humans since
they are built to perform the same without getting
tired or taking a break.
i
The repetitive manual work may decrease
focus and increase the likelihood of mistakes
and poor quality work. But robots avoid these
risks by consistently providing high quality
results.
Work in hazardous environments/safety
Robots can even work in such places where
humans can’t work due to unsafe surroundings,
posing health and safety hazards. Automated robots
may be developed and used in any situation.
Quick data collection & analysis
Robots equipped with sensors and cameras can
collect vast amount of data in real-time. This data
can be crucial for monitoring and improving
processes, identifying issues and making decisions.
6
Improved Quality
7. Applications of robotics in Various fields
7
Manufacturing- Robots can work alongside human to improve production workflows.
Healthcare – Robots assist in surgeries, offering invasive options for faster recovery.
They can aid rehabilitation and help patients to regain mobility post-injuries.
Space Missions – space agencies deploy robots for planetary exploration and spacecraft
maintenance missions.
Logistics – Robots accelerate the supply chain and enhances customer satisfaction by
ensuring timely deliveries.
Education – Robotics has become integral tool in education providing students with
hands on experience in engineering, programming and problem-solving.
Environmental monitoring – Robots with sensors and cameras are deployed to monitor
and collect air & water data, and natural disasters.
8. Challenges and risks in Robotics
High Costs
The high cost of implementation are the major
challenges when installing industrial robots.
Learning and adaptation
Teaching the robots to adapt the changing
environments is another challenge.
Job displacement
Introducing robots can lead to job
displacement raising unemployment.
Dependency on technology
Depending on robotic technology for better
and quick work has its downsides.
8
9. Types of Robots:
9
1) Mobile Robots
Perform searching
by moving
2) Industrial Robots
Perform repeating
task without moving
3)Autonomous
Robots
They are self
supported through
programs.
4) Remote-controlled
Robots – can be guided
by remote
5) Virtual Robots
Programs inside
computer that can
perform tasks
10. Current and Future Trends in Robotics
1
Autonomous vehicles
With the use of AI, sensor technology
and connectivity, self-driving cars and
drones are becoming more popular. 2 Medical Robots
Robots are enhancing healthcare
access through telemedicine and
remote monitoring to improve precision
and patient outcomes.
3
Humanoid Robots
These robots are designed to mimic human
appearance and movement. They can
perform human-like interaction. Eg. Sophia,
ASIMO
10
11. Case studies of successful Robotics
implementations
Smart Home Automation
An image of a modern, sleek
smart home system
showcasing seamless
integration of Robotic
technology, enhancing
convenience and efficiency.
Industrial Robotics
An image of heavy machinery
with real-time monitoring,
reflecting the precise and
rugged implementation of
industrial robotics for improved
production processes.
Robotics in Healthcare
An image presenting advanced medical
devices and patient monitoring,
showcasing the impactful use of robots in
improving healthcare and patient
outcomes through data analytics.
11
12. Conclusion
.
.
.
12
• Today we find many robots working for people in
Industries, factories, warehouses and
laboratories. This way it boots economy because
businesses need to be efficient to keep up with
the industry competition.
• The ultimate goal of the robotics is a super human
system that embodies all the skills such as
intelligence, touch and sensitivity of humans
without of any limitations.
