This is One of My Favorite Presentation .. Created By me
This Presentations Contents Are Robotics And its Scopes In Furture Like Robotics in Medical Help, Security, Advancement in Daily life and Future Project on Robotics Etc.
This document discusses robotics and robotic history. It defines a robot as a re-programmable machine that can perform tasks in place of humans. The word "robot" was introduced in a 1920 play and the term "robotics" was coined in the 1940s. The first digital and programmable robot was invented by George Devol in 1954. The document outlines the typical components of industrial robots and describes common types of robots including mobile, stationary, autonomous, and virtual robots. It discusses potential applications and limitations of robotics. In the future, robots may be used to explore space, perform dangerous tasks, and work continuously.
The document summarizes and compares several robots created for artistic purposes. Translator II is a robot created by Sabrina Raaf that uses a CO2 sensor to monitor air quality and draws pictures based on CO2 levels, providing a record of environmental conditions over time. Profiler is an interactive robot installation by Robotlab that exposes humans to industrial robots in a public setting. Fish, Plant, Rack is an artwork by Andy Gracie featuring interaction between a fish, plant and robot controlled by an AI microcontroller.
This document discusses robotics and various robots. It provides examples of household and consumer robots that can perform chores like vacuuming, mowing lawns, and folding laundry. The document also profiles several famous humanoid robots developed by companies like Sony, Honda, and SoftBank and describes how robots are used in manufacturing, assembly, research, and other industries. It concludes that robots help businesses improve efficiency and competitiveness by performing some jobs better and faster than humans.
This document defines robots and humanoid robots. It discusses their characteristics such as being consistent, accurate, and able to perform tasks humans cannot or should not. The three laws of robotics are outlined which require robots not harm humans and obey human orders. Humanoid robots are designed to resemble humans in appearance and behavior. They have sensors and actuators that allow movement and interaction. Examples of current and future uses of humanoid robots in areas like healthcare, disaster response, and entertainment are provided. Both advantages like helping people and potential disadvantages like job losses are mentioned.
Humanoid Robots || PPT || for electronic and electrical engineeringAakash Raj
Introduction
What is a Humanoid Anyway?
History of Humanoid Robot
Why to Develop Humanoids?
Challenges in Humanoids
Human Evolution
Legged Locomotion
Humanoid Robot Applications
Social Aspects
Conclusion
Introduction
Robotics deals with robots
Recent enhancement in robotics - Humanoid robots
Humanoid robots - having human characteristics or form
Resemble human both in appearance and behaviour
“Elektro” is the first Humanoid Robot
History of Humanoid Robot
Integration of scientific and engineering fields, has a social dimension
WASEDA University- leading research sites
First usable robot by HONDA in 1996
HONDA Humanoid robots-brief history
First high profile humanoid robot-Honda’s ASIMO-2000
What is a Humanoid Anyway?
Humanoid refers to any being whose body structure resembles that of a human: head, torso, legs, arms, hands.
But it is also a robot made to resemble a human both in appearance and behaviour.
The difference between a robot and android is only skin-deep, looks exactly like humans on the outside, but with internal mechanics of humanoid robot.
More rational reasons
They can work in human environment without a need to adapt themselves or to change the environment
Our environment and our tools are adapted for us
Why adapt all to robots?
It is easier for a human being to interact with a human-like being
Connect with me or follow me at
https://www.facebook.com/aakash416/
https://github.com/aakash416
https://www.linkedin.com/in/aakash-ra...
https://twitter.com/aakashraj416
https://www.youtube.com/channel/UCzy-...
https://plus.google.com/u/0/b/1028832...
This document provides an overview of robotics including its history and types. It discusses how the word "robotics" was first coined by a Czech playwright and Isaac Asimov's Three Laws of Robotics. The first robot, Unimate, was installed in a GM plant in 1961 to perform dangerous jobs. The key parts of robots are then explained as sensors to provide feedback, effectors to interact with the environment, actuators to enable movement, controllers as the brain, and arms for positioning. The main types of robots are described as remote controlled, mobile, walking, autonomous, and rolling robots with examples of applications for each.
Second Year ENTC Engg (Minor Project) on Motion Imitating Robotic Arm.Omkar Rane
This document describes designing and developing a robotic arm using servo motors controlled by an Arduino Uno microcontroller. The robotic arm uses 4 servo motors to control each joint and imitate the motion of a human arm. The arm is physically controlled, with the signals replicated by the microcontroller to synchronously control the servo motors of the robotic arm. The objectives are to help disabled people perform tasks independently and to use such robotic arms for applications like automated manufacturing and bomb disposal.
This document discusses humanoid robots and their development. It begins with introducing the contents which include the introduction, definitions of robots, history of humanoid robots, developments in robotics, current trends like robotic tele-surgery, applications in areas like manufacturing and households, future developments like agricultural robots and nanorobots, and a conclusion. It then discusses mental and physical agency and provides examples. The history section outlines major milestones in humanoid robots from ancient statues to modern ones like ASIMO. Developments in robotics are described as involving early modern technologies, new functions, and abilities. Current trends and applications are outlined in different areas. The future developments section predicts technologies in various fields out to 2050. In conclusion,
This document discusses robotics and robotic history. It defines a robot as a re-programmable machine that can perform tasks in place of humans. The word "robot" was introduced in a 1920 play and the term "robotics" was coined in the 1940s. The first digital and programmable robot was invented by George Devol in 1954. The document outlines the typical components of industrial robots and describes common types of robots including mobile, stationary, autonomous, and virtual robots. It discusses potential applications and limitations of robotics. In the future, robots may be used to explore space, perform dangerous tasks, and work continuously.
The document summarizes and compares several robots created for artistic purposes. Translator II is a robot created by Sabrina Raaf that uses a CO2 sensor to monitor air quality and draws pictures based on CO2 levels, providing a record of environmental conditions over time. Profiler is an interactive robot installation by Robotlab that exposes humans to industrial robots in a public setting. Fish, Plant, Rack is an artwork by Andy Gracie featuring interaction between a fish, plant and robot controlled by an AI microcontroller.
This document discusses robotics and various robots. It provides examples of household and consumer robots that can perform chores like vacuuming, mowing lawns, and folding laundry. The document also profiles several famous humanoid robots developed by companies like Sony, Honda, and SoftBank and describes how robots are used in manufacturing, assembly, research, and other industries. It concludes that robots help businesses improve efficiency and competitiveness by performing some jobs better and faster than humans.
This document defines robots and humanoid robots. It discusses their characteristics such as being consistent, accurate, and able to perform tasks humans cannot or should not. The three laws of robotics are outlined which require robots not harm humans and obey human orders. Humanoid robots are designed to resemble humans in appearance and behavior. They have sensors and actuators that allow movement and interaction. Examples of current and future uses of humanoid robots in areas like healthcare, disaster response, and entertainment are provided. Both advantages like helping people and potential disadvantages like job losses are mentioned.
Humanoid Robots || PPT || for electronic and electrical engineeringAakash Raj
Introduction
What is a Humanoid Anyway?
History of Humanoid Robot
Why to Develop Humanoids?
Challenges in Humanoids
Human Evolution
Legged Locomotion
Humanoid Robot Applications
Social Aspects
Conclusion
Introduction
Robotics deals with robots
Recent enhancement in robotics - Humanoid robots
Humanoid robots - having human characteristics or form
Resemble human both in appearance and behaviour
“Elektro” is the first Humanoid Robot
History of Humanoid Robot
Integration of scientific and engineering fields, has a social dimension
WASEDA University- leading research sites
First usable robot by HONDA in 1996
HONDA Humanoid robots-brief history
First high profile humanoid robot-Honda’s ASIMO-2000
What is a Humanoid Anyway?
Humanoid refers to any being whose body structure resembles that of a human: head, torso, legs, arms, hands.
But it is also a robot made to resemble a human both in appearance and behaviour.
The difference between a robot and android is only skin-deep, looks exactly like humans on the outside, but with internal mechanics of humanoid robot.
More rational reasons
They can work in human environment without a need to adapt themselves or to change the environment
Our environment and our tools are adapted for us
Why adapt all to robots?
It is easier for a human being to interact with a human-like being
Connect with me or follow me at
https://www.facebook.com/aakash416/
https://github.com/aakash416
https://www.linkedin.com/in/aakash-ra...
https://twitter.com/aakashraj416
https://www.youtube.com/channel/UCzy-...
https://plus.google.com/u/0/b/1028832...
This document provides an overview of robotics including its history and types. It discusses how the word "robotics" was first coined by a Czech playwright and Isaac Asimov's Three Laws of Robotics. The first robot, Unimate, was installed in a GM plant in 1961 to perform dangerous jobs. The key parts of robots are then explained as sensors to provide feedback, effectors to interact with the environment, actuators to enable movement, controllers as the brain, and arms for positioning. The main types of robots are described as remote controlled, mobile, walking, autonomous, and rolling robots with examples of applications for each.
Second Year ENTC Engg (Minor Project) on Motion Imitating Robotic Arm.Omkar Rane
This document describes designing and developing a robotic arm using servo motors controlled by an Arduino Uno microcontroller. The robotic arm uses 4 servo motors to control each joint and imitate the motion of a human arm. The arm is physically controlled, with the signals replicated by the microcontroller to synchronously control the servo motors of the robotic arm. The objectives are to help disabled people perform tasks independently and to use such robotic arms for applications like automated manufacturing and bomb disposal.
This document discusses humanoid robots and their development. It begins with introducing the contents which include the introduction, definitions of robots, history of humanoid robots, developments in robotics, current trends like robotic tele-surgery, applications in areas like manufacturing and households, future developments like agricultural robots and nanorobots, and a conclusion. It then discusses mental and physical agency and provides examples. The history section outlines major milestones in humanoid robots from ancient statues to modern ones like ASIMO. Developments in robotics are described as involving early modern technologies, new functions, and abilities. Current trends and applications are outlined in different areas. The future developments section predicts technologies in various fields out to 2050. In conclusion,
about robotics with some introductory level information. This presentation can be used to address a group of people to evoke their interests in robotics.
Robotics is the science of designing and building robots. The word "robot" was introduced in a 1920 play and refers to automatic machines that can replace humans in hazardous work. There are various types of robots including mobile, stationary, autonomous, remote-controlled, and virtual robots. Mobile robots can be rolling or walking, stationary robots perform repetitive tasks without moving, and autonomous robots rely on their own control systems. Robots have advantages like ability to work in dangerous environments and perform tasks quickly and consistently, but also have disadvantages like potential job losses for humans and high costs. Today robots are commonly used in industries and factories to help businesses be more efficient and competitive.
This document discusses robots and their applications. It begins with a definition of a robot as a re-programmable, multifunctional machine that can replace humans in hazardous work. It then provides a brief history of robots, including the origin of the term "robotics" and Isaac Asimov's Three Laws of Robotics. The document outlines the major components of robots and different types, including mobile, stationary, autonomous, and remote-controlled robots. It discusses several applications of robots, such as industrial uses like welding and painting, medical uses like robotic surgery, military uses like bomb disposal and defense systems, and their use in space research.
Robotics is the branch of technology that deals with the design, construction, operation, and application of robots. Robots can take the place of humans in hazardous or manufacturing processes, or resemble humans. Many modern robots are inspired by nature. The history of robots dates back to ancient myths, but modern concepts developed with the Industrial Revolution and introduction of electricity. Today, robots play a widespread role in industrial operations, classified as assembly/finishing products, moving materials/objects, or performing hazardous/difficult tasks. Robots provide quality work and increased production quantities for industries like manufacturing. They are also used in medical applications like surgery and rehabilitation. Household robots may perform tasks like cleaning in the future.
This document provides an introduction to robots and mechanical engineering. It defines robots and provides examples such as industrial robots, military robots, medical robots, and more. It discusses the history of robots and introduces the three laws of robotics. Overall, the document serves as a high-level overview of robots and their applications across different fields.
Humanoid robots are anthropomorphic robots designed to resemble the human body. They typically have a torso, two arms, two legs, and a head. This allows them to interact with human environments and interfaces. The term "robotics" was coined by Isaac Asimov in the 1940s, who also proposed three laws of robotics to ensure robots do not harm humans. Honda developed some of the earliest humanoid robots in the 1990s like the P1 prototype to study bipedal locomotion. Modern humanoids have sensors, effectors, controllers and articulated limbs to mimic human abilities and be deployed for useful tasks. While not as capable as humans, humanoid robot technology continues to advance.
Humanoid robots are robots that resemble humans in appearance and abilities. They are designed to interact with human environments and tools. The presentation discusses the motivation for developing humanoids, how they work using sensors and actuators, advantages like assisting humans, and disadvantages like job loss. Applications include helping children with autism and performing tasks humans cannot.
This presentation is about Robotics Technology. In this presentation, you know about the history of robots, types of robots, advanced robotics technology, application of robots, advantage dis advantage of robots.
A swarm is a collective group of self-propelled entities that move together. Swarm robotics uses large numbers of simple robots that coordinate together without a centralized control through local interactions. Swarm intelligence is an artificial intelligence technique inspired by swarms in nature, using algorithms like ant colony optimization and flocking to achieve collective behaviors from decentralized and self-organized systems. These algorithms were developed to help solve optimization problems. While swarms exhibit benefits like adaptability and novelty, they also have disadvantages like being non-optimal, non-controllable and non-predictable. Swarm robotics has applications in industries, medicine, military and space research.
This document provides an overview of robotics including:
- Definitions of robotics and its branches including mechanics, electronics, computer science.
- Characteristics of robots like appearance, sensors, actuators, programming.
- Types of robots such as pre-programmed, humanoid, autonomous, teleoperated, augmenting.
- Uses of robots in daily life like manufacturing, healthcare, transportation.
- History and basic elements of robotics.
This presentation was prepared for a seminar. I have shared this with you. This is not related to curriculam. Please writre your criticisms to: hareeshang@gmail.com.
This document discusses pick and place robots. It describes how a pick and place robot uses a stud mechanism with threads on both ends to grip and move objects. One end of the stud is connected to a DC motor and the other end is attached to a longitudinal beam and gripper. As the motor rotates, it causes the stud to rotate and loosen or tighten the thread, moving the beam and opening/closing the gripper. The document then provides background information on end-of-arm tooling, robot control systems, robot market trends, robot working processes, robot types and features, and robot applications.
The document discusses robots and robotics. It defines a robot and explains that the word robot was coined by Czech playwright Karel Capek from the Czech word for forced labor or serf. It also outlines Isaac Asimov's Three Laws of Robotics, which govern a robot's behavior. The document discusses various applications of robots, including in NASA's telerobotics program, industrial uses, surgery, dangerous situations, and more.
A short PowerPoint presentation on robotic arm, its features and its development. Contains a video explanation, please download to watch it....Thanks for watching.
The document provides an introduction to robotics presented by Arjun Chopra. It discusses how the development of machines to perform repetitive tasks reduced the need for human labor and accelerated technological advances. It then summarizes that electronics were a major development leading to the creation of autonomous robots by William Grey in 1948. The document also categorizes types of robots by locomotion and application and discusses advantages and disadvantages of robots as well as their influence and future.
This document discusses various types and applications of robots. It describes industrial robots, military robots, aerospace robots, and healthcare robots. It provides details on articulated, SCARA, Delta, and Cartesian robots used for material handling, processing, assembly, inspection, and other industrial applications. The document also discusses military robots used for clearing minefields and deactivating bombs. Aerospace robots are discussed for space exploration. Healthcare robots include magnetic microbots for medical procedures. Examples of military robots include Dragon Runner, TALON, ACER, and Packbot. The document also summarizes humanoid robots, swarm robots, prosthetics, neural networks, and prediction robots.
This document discusses robotics and provides information on various related topics in 6 paragraphs. It defines a robot and discusses where robots are used. It then defines robotics and why it is used. It notes that the words "robot" and "robotics" were first used by Karel Capek and Isaac Asimov, respectively. It outlines Isaac Asimov's Three Laws of Robotics. Finally, it discusses the advantages and disadvantages of robotics technology.
Humanoid robots are robots designed to resemble humans. They were created to work in human environments without needing to adapt the environment for themselves. Developing humanoid robots allows for easier human interaction compared to other robot forms. While bipedal locomotion is challenging for humanoids to master, it is important to solve in order to eventually develop more advanced cognition capabilities like humans. Current applications of humanoid robots include service, entertainment, and research into human-robot social interaction.
Robots have become a subject of great interest and are defined as man-made mechanical devices that can move by themselves. Robotics is the science of designing or building robots and their applications. The first commercial robot, Unimate, was created in 1956 and performed repetitive tasks like welding. There are several types of robots including mobile, industrial, autonomous, remote-controlled, and virtual robots. Robots are used in applications like space exploration, medical surgery, assembly lines, security, and home assistance. Advantages include performing dangerous tasks and working consistently, while disadvantages include potential job losses and maintenance costs. The future of robotics involves greater robot autonomy and new forms of human-robot collaboration.
The document discusses the history and types of robots. It begins by explaining how early human labor led to the development of machines to perform repetitive tasks. This technological advancement eventually led to the creation of autonomous robots in 1948. The document then outlines different types of robots categorized by locomotion and application. It discusses advantages like performing dangerous tasks but also disadvantages like costs. Finally, it suggests that in the future humans and robots may complement each other and live and work together.
about robotics with some introductory level information. This presentation can be used to address a group of people to evoke their interests in robotics.
Robotics is the science of designing and building robots. The word "robot" was introduced in a 1920 play and refers to automatic machines that can replace humans in hazardous work. There are various types of robots including mobile, stationary, autonomous, remote-controlled, and virtual robots. Mobile robots can be rolling or walking, stationary robots perform repetitive tasks without moving, and autonomous robots rely on their own control systems. Robots have advantages like ability to work in dangerous environments and perform tasks quickly and consistently, but also have disadvantages like potential job losses for humans and high costs. Today robots are commonly used in industries and factories to help businesses be more efficient and competitive.
This document discusses robots and their applications. It begins with a definition of a robot as a re-programmable, multifunctional machine that can replace humans in hazardous work. It then provides a brief history of robots, including the origin of the term "robotics" and Isaac Asimov's Three Laws of Robotics. The document outlines the major components of robots and different types, including mobile, stationary, autonomous, and remote-controlled robots. It discusses several applications of robots, such as industrial uses like welding and painting, medical uses like robotic surgery, military uses like bomb disposal and defense systems, and their use in space research.
Robotics is the branch of technology that deals with the design, construction, operation, and application of robots. Robots can take the place of humans in hazardous or manufacturing processes, or resemble humans. Many modern robots are inspired by nature. The history of robots dates back to ancient myths, but modern concepts developed with the Industrial Revolution and introduction of electricity. Today, robots play a widespread role in industrial operations, classified as assembly/finishing products, moving materials/objects, or performing hazardous/difficult tasks. Robots provide quality work and increased production quantities for industries like manufacturing. They are also used in medical applications like surgery and rehabilitation. Household robots may perform tasks like cleaning in the future.
This document provides an introduction to robots and mechanical engineering. It defines robots and provides examples such as industrial robots, military robots, medical robots, and more. It discusses the history of robots and introduces the three laws of robotics. Overall, the document serves as a high-level overview of robots and their applications across different fields.
Humanoid robots are anthropomorphic robots designed to resemble the human body. They typically have a torso, two arms, two legs, and a head. This allows them to interact with human environments and interfaces. The term "robotics" was coined by Isaac Asimov in the 1940s, who also proposed three laws of robotics to ensure robots do not harm humans. Honda developed some of the earliest humanoid robots in the 1990s like the P1 prototype to study bipedal locomotion. Modern humanoids have sensors, effectors, controllers and articulated limbs to mimic human abilities and be deployed for useful tasks. While not as capable as humans, humanoid robot technology continues to advance.
Humanoid robots are robots that resemble humans in appearance and abilities. They are designed to interact with human environments and tools. The presentation discusses the motivation for developing humanoids, how they work using sensors and actuators, advantages like assisting humans, and disadvantages like job loss. Applications include helping children with autism and performing tasks humans cannot.
This presentation is about Robotics Technology. In this presentation, you know about the history of robots, types of robots, advanced robotics technology, application of robots, advantage dis advantage of robots.
A swarm is a collective group of self-propelled entities that move together. Swarm robotics uses large numbers of simple robots that coordinate together without a centralized control through local interactions. Swarm intelligence is an artificial intelligence technique inspired by swarms in nature, using algorithms like ant colony optimization and flocking to achieve collective behaviors from decentralized and self-organized systems. These algorithms were developed to help solve optimization problems. While swarms exhibit benefits like adaptability and novelty, they also have disadvantages like being non-optimal, non-controllable and non-predictable. Swarm robotics has applications in industries, medicine, military and space research.
This document provides an overview of robotics including:
- Definitions of robotics and its branches including mechanics, electronics, computer science.
- Characteristics of robots like appearance, sensors, actuators, programming.
- Types of robots such as pre-programmed, humanoid, autonomous, teleoperated, augmenting.
- Uses of robots in daily life like manufacturing, healthcare, transportation.
- History and basic elements of robotics.
This presentation was prepared for a seminar. I have shared this with you. This is not related to curriculam. Please writre your criticisms to: hareeshang@gmail.com.
This document discusses pick and place robots. It describes how a pick and place robot uses a stud mechanism with threads on both ends to grip and move objects. One end of the stud is connected to a DC motor and the other end is attached to a longitudinal beam and gripper. As the motor rotates, it causes the stud to rotate and loosen or tighten the thread, moving the beam and opening/closing the gripper. The document then provides background information on end-of-arm tooling, robot control systems, robot market trends, robot working processes, robot types and features, and robot applications.
The document discusses robots and robotics. It defines a robot and explains that the word robot was coined by Czech playwright Karel Capek from the Czech word for forced labor or serf. It also outlines Isaac Asimov's Three Laws of Robotics, which govern a robot's behavior. The document discusses various applications of robots, including in NASA's telerobotics program, industrial uses, surgery, dangerous situations, and more.
A short PowerPoint presentation on robotic arm, its features and its development. Contains a video explanation, please download to watch it....Thanks for watching.
The document provides an introduction to robotics presented by Arjun Chopra. It discusses how the development of machines to perform repetitive tasks reduced the need for human labor and accelerated technological advances. It then summarizes that electronics were a major development leading to the creation of autonomous robots by William Grey in 1948. The document also categorizes types of robots by locomotion and application and discusses advantages and disadvantages of robots as well as their influence and future.
This document discusses various types and applications of robots. It describes industrial robots, military robots, aerospace robots, and healthcare robots. It provides details on articulated, SCARA, Delta, and Cartesian robots used for material handling, processing, assembly, inspection, and other industrial applications. The document also discusses military robots used for clearing minefields and deactivating bombs. Aerospace robots are discussed for space exploration. Healthcare robots include magnetic microbots for medical procedures. Examples of military robots include Dragon Runner, TALON, ACER, and Packbot. The document also summarizes humanoid robots, swarm robots, prosthetics, neural networks, and prediction robots.
This document discusses robotics and provides information on various related topics in 6 paragraphs. It defines a robot and discusses where robots are used. It then defines robotics and why it is used. It notes that the words "robot" and "robotics" were first used by Karel Capek and Isaac Asimov, respectively. It outlines Isaac Asimov's Three Laws of Robotics. Finally, it discusses the advantages and disadvantages of robotics technology.
Humanoid robots are robots designed to resemble humans. They were created to work in human environments without needing to adapt the environment for themselves. Developing humanoid robots allows for easier human interaction compared to other robot forms. While bipedal locomotion is challenging for humanoids to master, it is important to solve in order to eventually develop more advanced cognition capabilities like humans. Current applications of humanoid robots include service, entertainment, and research into human-robot social interaction.
Robots have become a subject of great interest and are defined as man-made mechanical devices that can move by themselves. Robotics is the science of designing or building robots and their applications. The first commercial robot, Unimate, was created in 1956 and performed repetitive tasks like welding. There are several types of robots including mobile, industrial, autonomous, remote-controlled, and virtual robots. Robots are used in applications like space exploration, medical surgery, assembly lines, security, and home assistance. Advantages include performing dangerous tasks and working consistently, while disadvantages include potential job losses and maintenance costs. The future of robotics involves greater robot autonomy and new forms of human-robot collaboration.
The document discusses the history and types of robots. It begins by explaining how early human labor led to the development of machines to perform repetitive tasks. This technological advancement eventually led to the creation of autonomous robots in 1948. The document then outlines different types of robots categorized by locomotion and application. It discusses advantages like performing dangerous tasks but also disadvantages like costs. Finally, it suggests that in the future humans and robots may complement each other and live and work together.
This document discusses the history and types of robots. It notes that the term "robotics" was first used by Karel Capek in the 1920s to describe artificial workers. Isaac Asimov later proposed three laws of robotics to ensure robots do not harm humans. The first industrial robot was Unimate, which was installed in a GM plant in the 1960s to perform dangerous jobs. The document then describes the main components of industrial robots like sensors, effectors, actuators, controllers, and arms. It also discusses different types of robots including mobile, stationary, autonomous, and virtual robots.
This document provides an overview of robots and robotics. It defines a robot as a re-programmable machine that can perform tasks automatically in place of humans, especially in hazardous environments. The document then discusses the history and origins of the words "robot" and "robotics." It also outlines some of the key parts of industrial robots like sensors, effectors, actuators, controllers, and arms. Finally, it briefly describes different types of robots and their applications as well as some advantages and disadvantages of robotics.
The document discusses the three laws of robotics proposed by Isaac Asimov, which state that a robot may not injure humanity through inaction, must obey orders from humans, and must protect its own existence. It also categorizes different types of robots including industrial, mobile, military, household, security, and space robots. While robots have advantages, the document also notes there are disadvantages to robots that are not elaborated on. The presentation was created by Silam Vishal and Gatika Manaswini.
The document provides an overview of basic robotics concepts including:
- The workshop leader's background in robotics competitions and internships.
- Common uses of robots in daily life and industry.
- A brief history of robots from early designs to modern examples.
- Definitions of robots and ideal tasks for them such as dangerous, boring, or high-precision work.
- Examples of basic robot components like chassis, motors, batteries, and switches.
- Additional concepts covered include gears, sensors, controllers, and mobile robot locomotion.
A basic robotics workshop conducted for juniors at BIT Mesra in 2007. The presentation gives an overview of hobby robotics and necessary know how to get started building a robot.
This document summarizes Day 2 of an Arduino robotics workshop. It discusses varying the speed of motors using PWM, playing tones on a buzzer, using infrared (IR) sensors to detect obstacles and teach the robot to avoid strangers, and introducing more advanced concepts like using interrupts and timer libraries to make the robot autonomous. Code examples are provided to demonstrate different techniques like reading sensor values without delays, controlling motors with interrupts, and implementing software interrupts on any pin. The document concludes by suggesting additional robotics projects and listing relevant links.
This document summarizes Day 1 of an Arduino robotics workshop. It introduces the instructor and provides an overview of the workshop objectives, which are to introduce Arduino, teach robotics fundamentals, have participants build and program a small autonomous robot. The workshop covers basics like breadboards, Arduino components, circuits, coding blink programs. It also demonstrates using sensors, motors, an H-bridge motor controller to build a crawling robot that can move and turn in different directions.
How do you build hardware startups in 2015? Same questions, new answers. This presentation was first given at HAX 7 Demo Day and UC Berkeley in November 2015.
This document provides information about the LEGO MINDSTORMS Education EV3 solution. It describes the EV3 robot and core set components including the P-brick, motors, sensors and software. The software provides graphical programming, data logging, content editing for teachers and students, and resources for design engineering projects. Additional sensors are also described like the infrared seeker sensor, infrared beacon, Bluetooth dongle and temperature sensor.
Slides accompanying 2.008x* video module on Robotics, Prof. John Hart, MIT, 2016.
*Fundamentals of Manufacturing Processes on edX: https://www.edx.org/course/fundamentals-manufacturing-processes-mitx-2-008x
Best practices for crowdfunding your hardware startup in 2017, collected from over 70 campaigns run by HAX portfolio companies, including 10 who raised over $1 million.
This document provides an agenda for a workshop on exploring the Raspberry Pi. The agenda includes introductions, an overview of the Raspberry Pi hardware, installing the operating system, using remote access like SSH and VNC, GPIO and sensor interfacing, Python and C programming, and demos of blinking LEDs, using buttons as inputs, and PWM. The document also discusses connecting the Raspberry Pi to devices like Arduino, cameras, and sound. It concludes with a 2 hour hackathon for participants to build projects with the Raspberry Pi.
Tracxn Research — Consumer Robotics Landscape, October 2016Tracxn
The report provides an overview of the consumer robotics sector, including entrepreneur activity and investment trends. It analyzes major subsectors such as personal, entertainment, healthcare, educational, domestic, and tech enabler robots. The report found over 500 companies in the sector, with 84 receiving funding in the last 5 years and $278M invested in 2015. It profiles the most funded companies and business models within each subsector.
Tracxn Research - Industrial Robotics Landscape, February 2017Tracxn
A number of investments in 2016 were made by CVCs such as GE Ventures, Caterpillar, Medtronic, and Mitsubishi UFJ Capital, who envision robotic technology to be implemented in their area of expertise.
This document provides an overview of the state of robotics in 2015. It discusses major trends seen that year, including faster/cheaper components, more startups and funding, and the growing robot-as-a-service model. Specific areas covered include drones becoming more advanced and popular, progress in autonomous vehicles, the expansion of service robots into new industries, lifestyle robots entering homes, and continued development of social robots.
Robotics is the scientific branch that studies technical operations on robots and applies them in our lives. In the last 30 years, robotics technology has advanced rapidly from limited robotic arms to humanoid robots. Robotic arms are mostly used as industrial workers to increase production rates and have more accuracy and power than human workers. Some notable humanoid robots discussed are ASIMO, NAO, and HRP-4, which are being developed for uses in entertainment, medical sciences, space technology, security, and the military. Researchers are working to improve features like facial expressions, artificial intelligence, battery life, and applications like programming ASIMO as a firefighting robot. The future of robotics is predicted to have a large role in
This document provides an overview of robotics and different types of robots. It discusses the components and applications of industrial robots, as well as emerging fields like nanotechnology and nanorobotics. The document introduces robotics concepts like the three laws of robotics. It describes different types of robots including industrial, military, medical, and domestic robots. It also discusses uses of robots in industries like welding, painting, assembly and material handling. The conclusion states that further developing technologies like robotics and nanotechnology can help improve our technological capabilities.
Robots are increasingly being used in radioactive environments like nuclear power plants to reduce human exposure to radiation. Various types of robots have been developed for tasks like inspecting and cleaning steam generators, retrieving fallen objects, and underwater cleaning. Future applications include using robots to help isolate nuclear power plants during accidents to prevent radiation release. Robots are expected to eventually allow nuclear plants to operate without any human workers present on site.
This document describes designing and developing a robotic arm using servo motors controlled by an Arduino Uno microcontroller. The robotic arm uses 4 servo motors to control each joint and imitate the motion of a human arm. The arm is physically controlled, with the signals replicated by the microcontroller to synchronously control the servo motors of the robotic arm. The objectives are to help disabled people perform tasks independently and to use such robotic arms for applications like automated manufacturing and bomb disposal.
This document provides information about robotics and machine vision systems courses. The objectives are to study robot components, derive kinematics and dynamics equations, manipulate trajectories, and learn machine vision. Key topics covered include robot history, components, configurations like Cartesian and cylindrical, applications in material handling, processing, assembly, and inspection. Benefits of robots are also discussed.
The document describes OPIMsoft's OFFPIPE Assistant Toolbox software for offshore pipeline S-lay design. It allows users to build detailed laybarge and stinger models, run finite element analyses to optimize pipeline bending radius and tension for minimum stress, and output optimized parameters, analysis results and charts. The toolbox includes modules for model building, analysis, parameter optimization, converting stress-strain curves and simulating wave spectra. It aims to improve on traditional manual S-lay design methods.
The document is a report on robotics submitted to a lecturer. It begins with an introduction to robotics, defining it as the branch of technology dealing with the design, construction, operation, and application of robots. It then covers the history of robotics from the first depiction of a robot in 1927 to the development of cybernetics and digitally operated robots in the mid-20th century. The document goes on to discuss the typical components of robots, including power sources, actuation, sensing, manipulation, locomotion, environmental interaction, and human-robot interaction. Control and various aspects of robotics research are also summarized.
ball-shaped robots to inspect nuclear power plants.pptVedantSonawane16
Ball-shaped robots have been developed to efficiently inspect underground pipes in nuclear power plants without requiring the pipes to be dug up. The robots, about the size of an egg, use cameras to take images of pipe interiors to detect signs of corrosion or leakage. They are propelled using a mechanism that creates a jet stream by switching the direction of fluid flow through a network of Y-shaped valves in the robot's skin. This allows the ball-shaped robots to maneuver through tight spaces and overcome large obstacles within nuclear power facilities.
This document describes a proposed technical improvement to a pick and place robot arm machine by adding an alternate turn table machine. It includes an abstract, definitions, background information, literature review on related topics, design specifications, calculations, and expected outcomes. The project aims to address issues like regular failures, damage to products, and economic impacts by developing an alternative turn table system that can rotate and lift products safely and at low maintenance costs compared to the existing pick and place robot arm machine.
IRJET - Wireless Controlled Rough Terrain Vehicle to Detect Alive Human in Ea...IRJET Journal
This document describes a wireless controlled rough terrain vehicle designed to detect alive humans in earthquake areas using a rocker bogie suspension system. The proposed system uses a PIR sensor to detect the presence of living humans and a low-cost camera to obtain video of the scene. Additional sensors include a temperature sensor and gas detector to analyze the surrounding environment. The rocker-bogie suspension allows the vehicle to traverse irregular surfaces. The robot is controlled remotely by a user via smartphone. When a human is detected, the controller stops the robot and sends an alert to the user. The system aims to safely and efficiently conduct search and rescue operations after disasters.
Review on Development of Industrial Robotic ArmIRJET Journal
This document discusses the development of an industrial robotic arm. It provides an abstract that outlines the aim to develop a lightweight robotic arm using materials like aluminum and carbon fiber. It also discusses the need to reduce friction on internal cabling. The document then reviews literature on various robotic arms and their applications. This includes arms controlled by accelerometers, haptic technology, and for applications like spot welding. It discusses the key components of a robotic arm like links, joints, end effectors. Finally, it provides conclusions that the developed arm can precisely control movements and help with tasks like picking hazardous objects.
IRJET- An Investigation of Application of Artificial Intelligence in RoboticIRJET Journal
This document discusses research into applying artificial intelligence to robotics, specifically robotic welding. It provides background on the fields of robotics and AI, noting that while initially closely linked, they developed separately in later decades. However, there is now renewed interest in combining the two due to more advanced robot capabilities and better understanding of scientific challenges. The research aims to investigate integrating different AI techniques into robotic welding. It reviews several past studies on automated and robotic welding systems and the benefits they provide. The main problem identified is that while AI has succeeded in many areas, it is rarely applied to robots due to differences in how robots and AI traditionally represent and understand the world.
The document describes a seminar report submitted by Yogesh Sharma on nanobotics to fulfill requirements for a Bachelor of Technology degree. It includes an abstract that discusses nanorobotics as the field of creating robots at the microscopic nanometer scale and potential applications in medical technology and environmental monitoring. The report also provides acknowledgements, table of contents, introduction to nanorobotics concepts, and planned chapters on topics like biochips, fractal robots, and challenges of nanobotics.
The Office of Intellectual Property & Technology Licensing (IP TeL) at IISc was established in 2004 to protect the intellectual property of IISc, including patents, copyrights, and trademarks. It also handles technology transfer and licensing. IP TeL files patents for innovations developed at IISc and licenses the technologies commercially. Between 2015-2016, IP TeL filed 43 patents, granted 2 patents, licensed 1 patent for Rs. 70 lakhs. Some examples of technologies licensed include a hybrid capacitor, an insecticide production process, and taxol/bactin production. IISc has been actively pursuing intellectual property protection since 1950, with its earliest patent application filed in 1950.
This document provides information about robotics and machine vision systems. It discusses the objectives of studying these topics, which include understanding the components of industrial robots, deriving kinematics and dynamics equations, programming robots for applications, and learning machine vision systems. Key events in the history of robotics are outlined from the 1940s to present day. The basic components and functions of an industrial robot are described. Reasons for using robots include handling hazardous materials, improving consistency and productivity.
Designing a suitable robotic arm for loading and unloading of material on lat...IRJET Journal
The document describes the design of a robotic arm to automatically load and unload workpieces on a lathe machine. The robotic arm would be mounted on a movable table attached to the lathe. It was designed using CAD software and simulated using workspace simulation software. The robotic arm has a 7-axis configuration including a gripper with dual four-fingered hands to load and unload workpieces simultaneously, increasing productivity. An electric drive system is proposed to power the robotic arm for its light loading tasks. The design aims to reduce non-operation time on the lathe and allow one person to manage multiple machines.
This document provides an overview of robotics, including definitions, history, components, applications, and research areas. It defines robotics as a field that involves designing, building, and programming machines to perform tasks autonomously or using remote control. The document traces the history of robotics from its conceptual origins in ancient times to modern industrial robots. It discusses the typical mechanical, electrical, and programming aspects of robots. Examples are given of current and potential applications in manufacturing, military, agriculture, medicine, and more. The key components of robots like power sources, actuators, sensors, and manipulators are outlined. The areas of locomotion, environmental interaction, control systems, and human-robot interaction are also summarized.
IRJET - Design and Investigation of End Effector Possessor for Robotic LimbIRJET Journal
This document describes the design and investigation of an end effector connector for a robotic limb. The goal is to design a connector that allows a robotic arm to use multiple end effectors when needed to increase flexibility. A finite element analysis is performed using ANSYS to modify an existing end effector connector design using composite materials. The analysis found that a carbon steel material provided high load bearing capacity with low deformation, making it suitable for the robotic arm connector.
Walmart Business+ and Spark Good for Nonprofits.pdfTechSoup
"Learn about all the ways Walmart supports nonprofit organizations.
You will hear from Liz Willett, the Head of Nonprofits, and hear about what Walmart is doing to help nonprofits, including Walmart Business and Spark Good. Walmart Business+ is a new offer for nonprofits that offers discounts and also streamlines nonprofits order and expense tracking, saving time and money.
The webinar may also give some examples on how nonprofits can best leverage Walmart Business+.
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Walmart Business + (https://business.walmart.com/plus) is a new shopping experience for nonprofits, schools, and local business customers that connects an exclusive online shopping experience to stores. Benefits include free delivery and shipping, a 'Spend Analytics” feature, special discounts, deals and tax-exempt shopping.
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ISO/IEC 27001, ISO/IEC 42001, and GDPR: Best Practices for Implementation and...PECB
Denis is a dynamic and results-driven Chief Information Officer (CIO) with a distinguished career spanning information systems analysis and technical project management. With a proven track record of spearheading the design and delivery of cutting-edge Information Management solutions, he has consistently elevated business operations, streamlined reporting functions, and maximized process efficiency.
Certified as an ISO/IEC 27001: Information Security Management Systems (ISMS) Lead Implementer, Data Protection Officer, and Cyber Risks Analyst, Denis brings a heightened focus on data security, privacy, and cyber resilience to every endeavor.
His expertise extends across a diverse spectrum of reporting, database, and web development applications, underpinned by an exceptional grasp of data storage and virtualization technologies. His proficiency in application testing, database administration, and data cleansing ensures seamless execution of complex projects.
What sets Denis apart is his comprehensive understanding of Business and Systems Analysis technologies, honed through involvement in all phases of the Software Development Lifecycle (SDLC). From meticulous requirements gathering to precise analysis, innovative design, rigorous development, thorough testing, and successful implementation, he has consistently delivered exceptional results.
Throughout his career, he has taken on multifaceted roles, from leading technical project management teams to owning solutions that drive operational excellence. His conscientious and proactive approach is unwavering, whether he is working independently or collaboratively within a team. His ability to connect with colleagues on a personal level underscores his commitment to fostering a harmonious and productive workplace environment.
Date: May 29, 2024
Tags: Information Security, ISO/IEC 27001, ISO/IEC 42001, Artificial Intelligence, GDPR
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Main Java[All of the Base Concepts}.docxadhitya5119
This is part 1 of my Java Learning Journey. This Contains Custom methods, classes, constructors, packages, multithreading , try- catch block, finally block and more.
A workshop hosted by the South African Journal of Science aimed at postgraduate students and early career researchers with little or no experience in writing and publishing journal articles.
How to Setup Warehouse & Location in Odoo 17 InventoryCeline George
In this slide, we'll explore how to set up warehouses and locations in Odoo 17 Inventory. This will help us manage our stock effectively, track inventory levels, and streamline warehouse operations.
This presentation was provided by Steph Pollock of The American Psychological Association’s Journals Program, and Damita Snow, of The American Society of Civil Engineers (ASCE), for the initial session of NISO's 2024 Training Series "DEIA in the Scholarly Landscape." Session One: 'Setting Expectations: a DEIA Primer,' was held June 6, 2024.
How to Fix the Import Error in the Odoo 17Celine George
An import error occurs when a program fails to import a module or library, disrupting its execution. In languages like Python, this issue arises when the specified module cannot be found or accessed, hindering the program's functionality. Resolving import errors is crucial for maintaining smooth software operation and uninterrupted development processes.
3. Robotics: tHe scientiFic bRAncH
tHAt is used to studY tecHnicAL
opeRAtions on Robots And
AppLYing tHeM in ouR LiFe.
MAKing Robots
And AppLYing
tHeM in ouR ReAL
LiFe FoR use.
4.
in LAst 30 YeARs Robotics tecHnoLgY tAKe A HigH At A
VeRY FAst RAte FRoM A LiMited Robotic ARM to A
HuMAnoid one.
5. A Robotic ARM:
MostLY used As An industRiAL
woRKeR
incReAses tHe pRoduction RAte.
HAs MoRe AccuRAcY tHAn A
HuMAn woRKeR.
HAs MoRe poweR tHAn A HuMAn
woRKeR .
6. THE SAME YEAR IN WHICH THE ROBOTIC ARM
INTRODUCED THAT ARM CAUSES FIRST DEATH OF A 37
YEAR OLD ENGINEER AT KAWASAKI INDUSTRIES.
THE ROBOT PUT THAT ENGINEER
INTO A GIANT GRINDING MACHINE AND
THAT NEWS WAS MADE PUBLIC AFTER
5 MONTHS OF THAT INCIDENT.
1981:
AFTER THAT INCIDENT THREE
LAWS OF ROBOTICS WERE
INTRODUCED.
9. ASIMO = ADvANCED STEP IN HUMAN
MOBILITY:
HUMANOID ROBOT SIZED 4 FEET 3
INCHES AND WEIGHTS 54KG.
MOST FAMOUS HUMANOID ROBOT
ACROSS THE WORLD
IT HAS 20 PROCESSORS TO CONTROL
DIFFERENT OPERATIONS WITHIN IT.
IT COSTS 72,00,000 TO 93,00,000 INR.
CURRENTLY WE ARE HAvING
E6 vERSION OF ASIMO INPIRED
FROM P3 vERSION.
RESEARCHERS WANT TO DO
vARIOUS UPGRADATION IN
ASIMO E6 AND WORKING FOR
SAME.
10. THEY ARE WORKING FOR FACIAL
ExPRESSION ON ASIMO
MORE EqUATIONS FOR ARTIFICIAL
INTELLIGENCE IS NEEDED FOR AN ASIMO
TO SURvIvE IN PRACTICAL ENvIRONMENT
AS AN ExAMPLE THE PICTURE BELOW
THIS TExT SHOWS
RESEARCHERS WANT AN ASIMO
ROBOT TO BE A PROGRAMMED
FIREFIGHTER.
RESEARCHERS ALSO WANTS
INCRESE ITS BATTERY BACKUP
WHICH IS CURRENTLY 57 MINUTES.
11. NAO(NA-Oh):
NAO the rObOt develOped by SONy
techNOlOgieS iS the 2Nd
mOSt fAmOuS
humANOid rObOt.
itS height iS 58 cm ANd weight iS
4.8kg ANd it uSeS liNux OperAtiNg
SyStem pluS mAjOr pArt Of hiS
SOftwAre iS develOped iN mAt lAb.
it cOStS 2,71,000 tO 8,12,000 iNr
it uSeS iNtel AtOm prOceSSOr ANd
giveS bAckup Of 2 hOur
thiS rObOt iS prOgrAmmed tO be
frieNdly with humAN beiNgS he hAS A
cute AttrActive vOice.
12. hrp-4:
hrp-4 iS develOped At A
jApANeSe iNStitute.
itS height iS 5 feet ANd
weight iS 39 kg ANd giveS
bAckup Of 30 miNuteS
cONtiNuOuSly.
A hrp-4 cOSt rANgeS frOm
54,00,000 tO 67,00,000 iNr.
it uSeS AN iNtel peNtium
prOceSSOr ANd liNux OS.
15. 3.SpAce techNOlOgy ANd Security
future SpAce prOjectS will
be depeNdeNt ON rObOtS.
rObOtS with Self repAiriNg
SyStem.
lOweSt eNergy cONSumptiON.
Spy rObOtS treNd.
ArmieS with beSt rObOticS
techNOlOgieS.