APRIL Launch Event - Kuka - Intersector Knowledge Transfer OpportunitiesJake Norman
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This document discusses the use of robotics in the food processing industry. It provides an introduction and overview of the history and components of robots. It then discusses the various types of robots used in specific food industry applications, including meat processing, fruit and vegetable processing, dairy processing, and packaging. Reasons for automating food processing are also outlined, along with the components and types of robots commonly used. Examples of robotic applications in specific food sectors like meat, dairy, and fruit and vegetable processing are also summarized.
APRIL Launch Event - How Will Robotics & Automation Change Food Processing?Jake Norman
How will robotics & automation change food processing?
For the launch of the APRIL robotic chef, OAL and the University of Lincoln hosted a number of fantastic speakers to discuss "How will robotics & automation change food processing?". Speakers included:
Jake Norman, Marketing Manager, OAL
Andrea Paoli - Robotics Professor, University of Lincoln
Ian Beauchamp - Process Manager, OAL
Mark Swainson - Principal Lecturer, OAL
Harry Norman - Owner/Managing Director, OAL
This document discusses the use of robots in the food processing industry. It begins by defining industrial robots according to the British Automation and Robot Association and International Standards Organization. It then provides a brief history of industrial robots, noting that the first modern robot was developed in 1959. The document outlines the various types of robots used in food processing, including articulated, SCARA, and delta robots. It discusses specific applications of robots in areas like cartoning, labeling, palletizing, and dairy, meat, and fruit/vegetable processing. Sensory robots like electronic noses and tongues are also summarized. In conclusion, the document discusses the benefits of robots for food manufacturers but also notes their high costs.
Industrial Automation at Food Processing and Packaging IndustryFaizan Ali
This document summarizes the automation processes used at Rathi Foods, a sweets and snacks manufacturer located in Nagpur, India. Rathi Foods uses semi-automated packaging machines like filling, sealing, wrapping and labeling machines. Key machines described include a six-head potato chips packaging machine and a single-head packaging machine for small snacks. Automation has provided benefits like consistency, precision, increased speed and productivity while reducing costs from lower labor requirements and waste.
The document discusses automation in the food industry. It begins by stating that the current level of automation is described as "islands of automation" rather than fully integrated systems. It also notes that food processing is highly labor-intensive, with labor costs up to 50% of production costs, so automation aims to improve productivity and reduce labor costs. Common tools of automation discussed include computer vision systems, online sensors, robotics, and computer-integrated manufacturing systems. The document provides examples of automated dairy, bakery, and beverage processing.
In this presentation, Abhishek introduces automation and associated trends. Abhishek is interested in applications that are at the confluence of Artificial Intelligence and Augmented Reality.
Richard Lightbound presents on the topic of robotics and automation. Some key points:
- Computing and robotics are advancing faster than ever before, with robots gaining abilities like seeing, moving, and interacting naturally.
- The robotics industry is expected to be worth $1.2 trillion by 2025, with businesses projected to have 7,000 drone permits within three years.
- Robots are being used in a variety of industries like manufacturing, healthcare, agriculture, and more. Applications include drones, surgical robots, automated milking, and driverless tractors.
- Countries like China are seeing rapid growth in robotics adoption, with the cost of robots decreasing which will drive further adoption as
APRIL Launch Event - Kuka - Intersector Knowledge Transfer OpportunitiesJake Norman
For the launch of the APRIL robotic chef, Kuka Robotics UK CEO Jeff Nowill spoke about the "Intersector Knowledge Transfer Opportunites at the National Centre for Food Manufacturing.
This document discusses the use of robotics in the food processing industry. It provides an introduction and overview of the history and components of robots. It then discusses the various types of robots used in specific food industry applications, including meat processing, fruit and vegetable processing, dairy processing, and packaging. Reasons for automating food processing are also outlined, along with the components and types of robots commonly used. Examples of robotic applications in specific food sectors like meat, dairy, and fruit and vegetable processing are also summarized.
APRIL Launch Event - How Will Robotics & Automation Change Food Processing?Jake Norman
How will robotics & automation change food processing?
For the launch of the APRIL robotic chef, OAL and the University of Lincoln hosted a number of fantastic speakers to discuss "How will robotics & automation change food processing?". Speakers included:
Jake Norman, Marketing Manager, OAL
Andrea Paoli - Robotics Professor, University of Lincoln
Ian Beauchamp - Process Manager, OAL
Mark Swainson - Principal Lecturer, OAL
Harry Norman - Owner/Managing Director, OAL
This document discusses the use of robots in the food processing industry. It begins by defining industrial robots according to the British Automation and Robot Association and International Standards Organization. It then provides a brief history of industrial robots, noting that the first modern robot was developed in 1959. The document outlines the various types of robots used in food processing, including articulated, SCARA, and delta robots. It discusses specific applications of robots in areas like cartoning, labeling, palletizing, and dairy, meat, and fruit/vegetable processing. Sensory robots like electronic noses and tongues are also summarized. In conclusion, the document discusses the benefits of robots for food manufacturers but also notes their high costs.
Industrial Automation at Food Processing and Packaging IndustryFaizan Ali
This document summarizes the automation processes used at Rathi Foods, a sweets and snacks manufacturer located in Nagpur, India. Rathi Foods uses semi-automated packaging machines like filling, sealing, wrapping and labeling machines. Key machines described include a six-head potato chips packaging machine and a single-head packaging machine for small snacks. Automation has provided benefits like consistency, precision, increased speed and productivity while reducing costs from lower labor requirements and waste.
The document discusses automation in the food industry. It begins by stating that the current level of automation is described as "islands of automation" rather than fully integrated systems. It also notes that food processing is highly labor-intensive, with labor costs up to 50% of production costs, so automation aims to improve productivity and reduce labor costs. Common tools of automation discussed include computer vision systems, online sensors, robotics, and computer-integrated manufacturing systems. The document provides examples of automated dairy, bakery, and beverage processing.
In this presentation, Abhishek introduces automation and associated trends. Abhishek is interested in applications that are at the confluence of Artificial Intelligence and Augmented Reality.
Richard Lightbound presents on the topic of robotics and automation. Some key points:
- Computing and robotics are advancing faster than ever before, with robots gaining abilities like seeing, moving, and interacting naturally.
- The robotics industry is expected to be worth $1.2 trillion by 2025, with businesses projected to have 7,000 drone permits within three years.
- Robots are being used in a variety of industries like manufacturing, healthcare, agriculture, and more. Applications include drones, surgical robots, automated milking, and driverless tractors.
- Countries like China are seeing rapid growth in robotics adoption, with the cost of robots decreasing which will drive further adoption as
Andrea Paoli, OAL Food Manufacturing 2030 ConferenceJake Norman
Andrea Paoli, a Senior Lecturer in Robotics at the University f Lincoln spoke about the Future of Robotics inFood Manufacturing at the OAL Food Manufacturing 2030 Conference
IRJET- The Importance of Robotic Technology in Engineering Industries, Medica...IRJET Journal
This document discusses the importance of robotic technology in engineering industries, medical fields, and radioactive environments. It provides an overview of the history and development of robots, their various applications, and Japan's leadership in industrial robotics production. Specifically, the document notes that robots are useful in dangerous situations like nuclear power plants as they can complete tasks without risk to human workers. Medical robots are also discussed, including the Da Vinci surgical robot. The use of small swimming robots to inspect the damaged Fukushima Daiichi nuclear plant following the 2011 earthquake and tsunami is highlighted.
1) Japan has developed a robot strategy to make the country a global leader in robot innovation and utilization.
2) The strategy aims to make Japan the world's leading robot utilization society through three pillars: becoming the top robot innovation hub, utilizing robots widely in various fields like manufacturing, services, nursing and more, and leading in robotics for the internet of things era.
3) The strategy includes action plans to establish initiatives to support robot development, standardization and testing, as well as regulatory reform to promote robot adoption in various sectors such as manufacturing, services, nursing, infrastructure and more.
The document discusses the history and types of industrial robots. It begins with an introduction to robotics and defines what robots are. It then covers the types of industrial robots, the laws of robotics, and how robots have developed over time. Statistics on worldwide supply of industrial robots are presented. Current trends in industrial robots and how they play a role in intelligent manufacturing are examined. The future of robots and the advantages and disadvantages of industrial robots are also discussed before concluding.
Russian Robotics: Jumpstarting to re-industrialisation with Skolkovo Albert Yefimov
The document discusses the potential of robotics to become the next general purpose technology and drive re-industrialization in Russia. It outlines how robotics can address challenges like declining productivity, aging populations, and dangerous jobs. The Skolkovo Robotics Center in Russia aims to capitalize on the country's engineering talent and create opportunities in robotics startups. The Center focuses on improving cognition/navigation, human-machine interfaces, human augmentation, and medical robotics.
This document provides an introduction to robotics, covering general topics such as robot structures, actuators, sensors, control, programming, applications in manufacturing, and the history of robotics. It defines a robot as an electromechanical device that is reprogrammable, multifunctional, and can sense its environment. Examples of different robot types are given such as manipulators, wheeled robots, legged robots, unmanned aerial vehicles, and autonomous underwater vehicles. Applications of robots are discussed including jobs that are dangerous, repetitive, boring, labor-intensive, or manual tasks humans don't want to do.
A robot is a machine that is designed to perform a variety of tasks automatically. Robots are used in a wide range of applications, including manufacturing, medicine, military, and space exploration. They can be programmed to perform tasks such as assembly, inspection, transport, and manipulation of objects.
Robotics is the branch of engineering that deals with the design, construction, operation, and use of robots. It involves the integration of various technologies, including mechanics, electronics, computer science, and artificial intelligence. The goal of robotics is to create machines that can function autonomously or semi-autonomously, and that can perform tasks that would be difficult or dangerous for humans to perform.
Robots can be classified based on their size, shape, and level of intelligence. Some robots are small and simple, while others are large and complex. Some are designed to mimic human or animal movements, while others are more abstract in their design. Some robots are capable of making decisions and learning from their experiences, while others are more limited in their capabilities.
This document discusses the use of robots in the chemical industry. It notes that robots are increasingly being used to perform hazardous tasks that were previously done by humans, helping to increase safety. The document provides an overview of the types of robots used, including industrial robots used for automation. It discusses some of the key advantages of using robots, such as increased productivity and safety. However, it also notes some disadvantages like high costs. The document concludes that as more chemicals are used, the demand for robots to handle them safely will continue to grow.
ABSTRACT: Robots are quickly providing an indispensable function in the safe operation of chemical laboratories. They are now performing tasks which traditionally could harm or kill humans. Tasks such as handling explosive chemicals to radioactive substances, are now successfully (routinely) performed by robots. This paper provides a brief introduction of the use of robots in the chemical industry.
KEY WORDS: robots in chemical industry, industrial robots, robotics
Designing, verifying and producing of a rescue robot prototypeUnai Suárez Bernedo
Project about the designing, verifying and producing of a rescue robot prototype made by a group of students of Mechanical Engineering at Mondragon Unibertsitatea
This document provides an overview of robot fundamentals and components. It defines a robot and discusses robot anatomy, which includes end effectors, joints, manipulators and kinematics. It also describes different robot coordinate systems and common robot configurations like cylindrical, polar, jointed arm and Cartesian, detailing their advantages and disadvantages. The document serves as a reference for the basic concepts, components and terminology used in robotics.
The document summarizes the use of robotics in food processing. It discusses how robotics is being used in various food industries like meat, fruit/vegetables, and dairy to automate tasks like harvesting, grading, packaging etc. The benefits of robotics include reduced labor costs, increased productivity and quality. While initial costs are high, robotics has potential to streamline production processes. Different types of robots like articulated and delta robots are discussed along with examples of their applications in food processing.
This document provides an introduction to robotics, including: a definition of robots as automatic devices that perform functions using computer technology; a brief history of how robots transitioned from fictional stories to commercial use with transistors; and an overview of the types and purposes of robots in various fields such as industrial, medical, and military uses. It also discusses automation and the current ubiquitous status of robots in modern society.
This presentation discusses robotics applications. It defines a robot as a machine that is controlled by a computer and can do work like a human. The three laws of robotics are presented, which aim to ensure robots do not harm humans. Various uses of robotics are outlined, including in agriculture, automobiles, construction, entertainment, healthcare, households, laboratories, manufacturing, the military, mining, transportation, and utilities. Specific industrial applications of robots in material handling, welding, assembly, and inspection are discussed. The use of robots in hazardous environments, space exploration, the military, households, construction, automobiles, medicine, laboratories, and agriculture is also covered. In conclusion, the presentation notes that robots currently work in many industries
The document discusses fundamentals of robotics including history, types, applications and future. It provides definitions of robots, discusses Isaac Asimov's Three Laws of Robotics. It describes major parts of industrial robots like controllers, links and end effectors. It outlines types of robots based on movement and applications in fields like medical, space, agriculture and defense. It predicts that by 2020, most robots will use cloud-based software and a robotics marketplace will emerge.
Have you ever been confused by the myriad of choices offered by AWS for hosting a website or an API?
Lambda, Elastic Beanstalk, Lightsail, Amplify, S3 (and more!) can each host websites + APIs. But which one should we choose?
Which one is cheapest? Which one is fastest? Which one will scale to meet our needs?
Join me in this session as we dive into each AWS hosting service to determine which one is best for your scenario and explain why!
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This document discusses the importance of robotic technology in engineering industries, medical fields, and radioactive environments. It provides an overview of the history and development of robots, their various applications, and Japan's leadership in industrial robotics production. Specifically, the document notes that robots are useful in dangerous situations like nuclear power plants as they can complete tasks without risk to human workers. Medical robots are also discussed, including the Da Vinci surgical robot. The use of small swimming robots to inspect the damaged Fukushima Daiichi nuclear plant following the 2011 earthquake and tsunami is highlighted.
1) Japan has developed a robot strategy to make the country a global leader in robot innovation and utilization.
2) The strategy aims to make Japan the world's leading robot utilization society through three pillars: becoming the top robot innovation hub, utilizing robots widely in various fields like manufacturing, services, nursing and more, and leading in robotics for the internet of things era.
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This document provides an introduction to robotics, covering general topics such as robot structures, actuators, sensors, control, programming, applications in manufacturing, and the history of robotics. It defines a robot as an electromechanical device that is reprogrammable, multifunctional, and can sense its environment. Examples of different robot types are given such as manipulators, wheeled robots, legged robots, unmanned aerial vehicles, and autonomous underwater vehicles. Applications of robots are discussed including jobs that are dangerous, repetitive, boring, labor-intensive, or manual tasks humans don't want to do.
A robot is a machine that is designed to perform a variety of tasks automatically. Robots are used in a wide range of applications, including manufacturing, medicine, military, and space exploration. They can be programmed to perform tasks such as assembly, inspection, transport, and manipulation of objects.
Robotics is the branch of engineering that deals with the design, construction, operation, and use of robots. It involves the integration of various technologies, including mechanics, electronics, computer science, and artificial intelligence. The goal of robotics is to create machines that can function autonomously or semi-autonomously, and that can perform tasks that would be difficult or dangerous for humans to perform.
Robots can be classified based on their size, shape, and level of intelligence. Some robots are small and simple, while others are large and complex. Some are designed to mimic human or animal movements, while others are more abstract in their design. Some robots are capable of making decisions and learning from their experiences, while others are more limited in their capabilities.
This document discusses the use of robots in the chemical industry. It notes that robots are increasingly being used to perform hazardous tasks that were previously done by humans, helping to increase safety. The document provides an overview of the types of robots used, including industrial robots used for automation. It discusses some of the key advantages of using robots, such as increased productivity and safety. However, it also notes some disadvantages like high costs. The document concludes that as more chemicals are used, the demand for robots to handle them safely will continue to grow.
ABSTRACT: Robots are quickly providing an indispensable function in the safe operation of chemical laboratories. They are now performing tasks which traditionally could harm or kill humans. Tasks such as handling explosive chemicals to radioactive substances, are now successfully (routinely) performed by robots. This paper provides a brief introduction of the use of robots in the chemical industry.
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This document provides an introduction to robotics, including: a definition of robots as automatic devices that perform functions using computer technology; a brief history of how robots transitioned from fictional stories to commercial use with transistors; and an overview of the types and purposes of robots in various fields such as industrial, medical, and military uses. It also discusses automation and the current ubiquitous status of robots in modern society.
This presentation discusses robotics applications. It defines a robot as a machine that is controlled by a computer and can do work like a human. The three laws of robotics are presented, which aim to ensure robots do not harm humans. Various uses of robotics are outlined, including in agriculture, automobiles, construction, entertainment, healthcare, households, laboratories, manufacturing, the military, mining, transportation, and utilities. Specific industrial applications of robots in material handling, welding, assembly, and inspection are discussed. The use of robots in hazardous environments, space exploration, the military, households, construction, automobiles, medicine, laboratories, and agriculture is also covered. In conclusion, the presentation notes that robots currently work in many industries
The document discusses fundamentals of robotics including history, types, applications and future. It provides definitions of robots, discusses Isaac Asimov's Three Laws of Robotics. It describes major parts of industrial robots like controllers, links and end effectors. It outlines types of robots based on movement and applications in fields like medical, space, agriculture and defense. It predicts that by 2020, most robots will use cloud-based software and a robotics marketplace will emerge.
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21. [Courtesy WillowGarage]
21
Do we trust robots?
Basic Safety-Related
Functions
Supervision
Functions
Intrinsically Safe
Robots
Next Generation
Predictive Robots
We are here!!
Smartness
22. 22
Conclusions
Industry 4.0 revolution
Human and Robots work together
High productivity and availability
We need to work together
More investment
Push robotics in less-explored sectors
Robotics of the future
Internet of Things
Advanced Safety
Natural Human/Robot interaction