Autonomous Loaders Underground at Northparkes MineEric Strom
The highlights and key learnings from the implementation of Autonomous Loaders for Cost and Productivity Improvement (and of Course Safety). Including the business case for mine automation on a Block Cave Mine
EBEES AUTOMATION PVT LTD is a wholly owned subsidiary of EBEES dedicated towards services and training of Automation, Embedded, Robotics & Matlab. In case of any query, please contact.
EBEES Automation Services Pvt Ltd
This document provides information about a presentation on industrial automation and process control instrumentation. It discusses that companies worldwide require skilled workers with expertise in automation. The presentation aims to impart these skills to students and professionals and bridge the gap between academic curriculum and industry requirements. It covers various topics related to automation including PLCs, SCADA, variable speed drives, servo motors, motion control, automation applications in different industries, and career prospects in this field. The document also mentions the advanced laboratory facilities provided by IAT to gain practical experience in automation, embedded systems, robotics and other areas.
This document provides information about a presentation on industrial automation and process control instrumentation. It discusses how companies are seeking skilled workers in automation and how the training imparted by IAT bridges the gap between academic curriculum and industry requirements. It also highlights the benefits of automation, various automation products and applications used in industries like machine control, installation control and command, system management and more. PLCs, SCADA systems, servo motors and motion control are also explained. Career prospects in fields like project engineering, PLC programming and automation engineering are mentioned. The training institute provides advanced labs for automation systems, embedded systems, robotics and additional services to help students.
In this session you will learn:
History of Industrial Automation
Types of Industrial Automation
Process Industries
Overview of Continuous & Batch Process
For more information, visit: https://www.mindsmapped.com/courses/industrial-automation/complete-training-on-industrial-automation-for-beginners/
Session 03 - History of Automation and Process IntroductionVidyaIA
In this session you will learn:
History of Industrial Automation
Types of Industrial Automation
Process Industries
Overview of Continuous & Batch Process
FellowBuddy.com is an innovative platform that brings students together to share notes, exam papers, study guides, project reports and presentation for upcoming exams.
We connect Students who have an understanding of course material with Students who need help.
Benefits:-
# Students can catch up on notes they missed because of an absence.
# Underachievers can find peer developed notes that break down lecture and study material in a way that they can understand
# Students can earn better grades, save time and study effectively
Our Vision & Mission – Simplifying Students Life
Our Belief – “The great breakthrough in your life comes when you realize it, that you can learn anything you need to learn; to accomplish any goal that you have set for yourself. This means there are no limits on what you can be, have or do.”
Like Us - https://www.facebook.com/FellowBuddycom
This document discusses industrial automation using programmable logic controllers (PLCs) and supervisory control and data acquisition (SCADA) systems. It defines automation as using machines to control processes and minimize human intervention. Industrial automation aims to increase mass production, save human effort, improve quality, and increase accuracy and consistency. Types of industrial automation include process automation for things like water treatment, building automation for car parking and doors, and scientific automation for processes like satellite launches. The document outlines examples of automated systems and describes common field devices used for inputs like sensors and outputs like motors. It provides an overview of SCADA systems and their typical architecture in industries like electric power.
Autonomous Loaders Underground at Northparkes MineEric Strom
The highlights and key learnings from the implementation of Autonomous Loaders for Cost and Productivity Improvement (and of Course Safety). Including the business case for mine automation on a Block Cave Mine
EBEES AUTOMATION PVT LTD is a wholly owned subsidiary of EBEES dedicated towards services and training of Automation, Embedded, Robotics & Matlab. In case of any query, please contact.
EBEES Automation Services Pvt Ltd
This document provides information about a presentation on industrial automation and process control instrumentation. It discusses that companies worldwide require skilled workers with expertise in automation. The presentation aims to impart these skills to students and professionals and bridge the gap between academic curriculum and industry requirements. It covers various topics related to automation including PLCs, SCADA, variable speed drives, servo motors, motion control, automation applications in different industries, and career prospects in this field. The document also mentions the advanced laboratory facilities provided by IAT to gain practical experience in automation, embedded systems, robotics and other areas.
This document provides information about a presentation on industrial automation and process control instrumentation. It discusses how companies are seeking skilled workers in automation and how the training imparted by IAT bridges the gap between academic curriculum and industry requirements. It also highlights the benefits of automation, various automation products and applications used in industries like machine control, installation control and command, system management and more. PLCs, SCADA systems, servo motors and motion control are also explained. Career prospects in fields like project engineering, PLC programming and automation engineering are mentioned. The training institute provides advanced labs for automation systems, embedded systems, robotics and additional services to help students.
In this session you will learn:
History of Industrial Automation
Types of Industrial Automation
Process Industries
Overview of Continuous & Batch Process
For more information, visit: https://www.mindsmapped.com/courses/industrial-automation/complete-training-on-industrial-automation-for-beginners/
Session 03 - History of Automation and Process IntroductionVidyaIA
In this session you will learn:
History of Industrial Automation
Types of Industrial Automation
Process Industries
Overview of Continuous & Batch Process
FellowBuddy.com is an innovative platform that brings students together to share notes, exam papers, study guides, project reports and presentation for upcoming exams.
We connect Students who have an understanding of course material with Students who need help.
Benefits:-
# Students can catch up on notes they missed because of an absence.
# Underachievers can find peer developed notes that break down lecture and study material in a way that they can understand
# Students can earn better grades, save time and study effectively
Our Vision & Mission – Simplifying Students Life
Our Belief – “The great breakthrough in your life comes when you realize it, that you can learn anything you need to learn; to accomplish any goal that you have set for yourself. This means there are no limits on what you can be, have or do.”
Like Us - https://www.facebook.com/FellowBuddycom
This document discusses industrial automation using programmable logic controllers (PLCs) and supervisory control and data acquisition (SCADA) systems. It defines automation as using machines to control processes and minimize human intervention. Industrial automation aims to increase mass production, save human effort, improve quality, and increase accuracy and consistency. Types of industrial automation include process automation for things like water treatment, building automation for car parking and doors, and scientific automation for processes like satellite launches. The document outlines examples of automated systems and describes common field devices used for inputs like sensors and outputs like motors. It provides an overview of SCADA systems and their typical architecture in industries like electric power.
Energy conservation security and complete automationKishorKhandge1
Automation will turn on and off the fan and lights with the help of timers and counter sensors which will save energy.
Energy saving is a need of the hour
With the help of automation we can make security
With the help of automation we can turn the motor on or off if the water in the water tank is low the motor will start and shut off after filling the water tank which will save both energy and water
Automation in the industrial workplace provides the advantages of improving productivity and quality while reducing errors and waste, increasing safety .
8-sem WEGHING AND BATCHING USING PLC BY MRUNAL VYAS [Autosaved]Mrunal Vyas
This document describes a project using a PLC to automate weighing and batching. It discusses why a manual system has disadvantages like being less accurate and efficient. It then provides details on the PLC components used - Allen Bradley Micrologix PLC, load cell amplifier, geared motors. The PLC allows automating the process through programming to reduce operators, increase accuracy and profits. Applications include food and cement industries. The goal is to develop an automated weighing and batching system using a PLC for process control.
This document discusses using a PLC for automatic box filling. It introduces PLCs and how they can automate industrial processes. The goal of the project is to design a simple, cost-effective filling system using a PLC. A conveyor belt moves boxes past an infrared sensor that detects the box position. When a box is detected under the valve, the valve opens and fills the box. All the components work together to automatically fill boxes in an efficient manner.
This presentation consist of basic old parking trends and the modern approach towards with the use Programmable logic controller PLC and its integration with Supervisory control and data acquisition system SCADA
Industrial automation involves using control systems and technology to reduce the need for human work in production. A key part of industrial automation is programmable logic controllers (PLCs), which allow automation through software programming rather than physical wiring. PLCs and supervisory control and data acquisition (SCADA) systems are widely used in industrial automation to monitor and control manufacturing processes. Engineers play an important role in designing, installing, and maintaining automated systems in industries like manufacturing.
Machining Automation and Integration to the MaxMakino
This presentation on “Machining Automation and Integration to the Max” has been adapted from Makino’s webinar series. To view the full webinar, visit http://www.makino.com/resources/webinars/archive/automation-and-integration-machining-to-the-max/319/
Machining automation is a proven method for reducing manufacturing costs, eliminating non-value added labor, improving quality, increasing equipment flexibility and growing throughput. This presentation discusses the fundamentals of machining automation, key activities performed during implementation, and the technologies involved to complete a successful automated system. An emphasis on project management and engineering is discussed, providing insights for successful installation of machining centers, software and the manufacturing processes that drive North American manufacturing success. The discussion concludes with a series of real-world case studies from shops that have successfully integrated machining automation to lower their overall cost of manufacturing.
Do you want to understand the foundations of automation? Is it your job to make production more productive, efficient and secure? Are you asking yourself how to open up the potential of Industry?
We will provide you with the answers. Profit from our knowledge and experience – well-founded, practical, and explained fast and simply.
You will find the essentials of automation, sensors, RFID and network technology:
1)What basic knowledge you need
2)How to solve common applications
3)What product technologies will help you
Get ready for your future!
Contact@ +91-9555405045 / +91-9811253572
Visit: www.innovicindia.com
This document provides an introduction to programmable logic controllers (PLCs). It discusses that PLCs were first developed in the 1960s to replace unreliable relay systems for controlling industrial processes. A PLC typically consists of a central processing unit, input/output modules, and a power supply. PLCs are commonly programmed using ladder logic and are used widely in manufacturing, process control, building automation, and transportation applications due to their flexibility, reliability, modularity and cost-effectiveness. The document also notes some disadvantages of PLCs, such as complexity, security vulnerabilities, and lack of standardization.
Automation is the use of control systems and information technologies to reduce the need for human work in production. Key automation tools include PLCs, SCADA systems, HMIs, and VFDs. PLCs are special computers that perform logic control functions through user-programmed logic. They are programmed using ladder logic and consist of inputs, outputs, a CPU, and memory. SCADA systems centrally monitor and control remote equipment, gathering information and alerting operators of issues. HMIs allow humans to interact with machines through input devices like touchscreens. VFDs control motor speed in industrial processes.
Automation in the dairy industry has evolved from manual operations to integrated systems controlled by programmable logic controllers, SCADA systems, and other automation tools. Key developments include the introduction of cleaning-in-place systems in the 1950s, extensive mechanization taking over manual labor, and increasing levels of control from manual to unit, line, and production management. Automation addresses issues like quality control and reduces human errors and interference to improve efficiency. Common automation components in dairy include PLCs, HMIs, VFDs, ERP systems, and automatic milking systems.
PLC Workshop session for learning principles of ladder logicHassanShehadi3
The document outlines a 3-day workshop on programmable logic controllers (PLCs). Day 1 covers the history of PLCs and their uses. Day 2 discusses PLC inputs/outputs and introduces ladder logic programming. Day 3 focuses on PLC modules and continues programming with timers and counters. PLCs were created in the 1960s and are considered the "brain" of machines, controlling operations based on inputs and logic. Ladder logic is a graphical programming language commonly used with PLCs.
This document provides information about Module 2 of the EET 06102 Automation course. The 8-credit module covers topics including identifying electronic devices, analysing sensors and transducers, applying pneumatic and hydraulic systems, analysing actuation systems, and analysing programmable logic controllers. It describes the module contents, learning outcomes, and definitions and principles of key concepts like automation, types of automation, advantages of automation, and PLC systems.
Introduction To Automation / Overview of Industrial AutomationRaj Nayak
Automation describes a wide range of technologies that reduce human intervention in processes, namely by predetermining decision criteria, subprocess relationships, and related actions, as well as embodying those predeterminations in machines.
In this ppt presentation, we shall learn about Automation types, process,es and development.
This is density based traffic light control system using Programmable logic controller(PLC). Then side which have more vehicles(density) will be getting on first. This process will take place according to number of vehicles.
This document provides an overview of Sofcon Systems India Pvt. Ltd., a company that provides industrial automation and building automation solutions. It details Sofcon's business segments, locations, solutions, domain expertise in various industries, and descriptions of automation projects implemented for clients. The document also includes milestones in Sofcon's history, visions for the future, and profiles of its group companies that provide training and integrated building management systems.
This document provides an overview of programmable logic controllers (PLCs). It discusses the history of PLCs, how they were developed to replace relay-based control systems. The key components of a PLC including the processor, memory, and input/output modules are described. Examples of PLC programming languages and applications in industrial automation like machine control, food/beverage processing, and material handling are provided. Advantages of PLCs include fast operation, modularity, ease of maintenance, and improved productivity. Disadvantages include initial high costs and difficulty changing or replacing systems. PLCs have become widely used in industrial automation applications ranging from simple to complex control systems.
This document provides information about Axis Global Automation and its industrial automation training services. It offers training in various automation tools like PLC, SCADA, DCS, VFD, PAC, HMI, robotics, and field instruments. It has branches in India and UAE and provides both industrial and college-based training programs. It also discusses concepts in automation including the history and applications of tools like PLCs, SCADAs, VFDs, PACs, servo motors, industrial robotics, and the benefits of automation.
This document discusses automation and programmable logic controllers (PLCs). It defines automation as using control systems like computers to replace human operators in industrial processes. PLCs are described as programmable devices that monitor inputs, make decisions based on their program, and control outputs to automate processes. The document outlines the history of automation from manual to hardwired to PLC control and describes the basic components and programming of PLCs like inputs, outputs, memory organization, and ladder logic.
This document provides an overview of a seminar on programmable logic controllers (PLCs). The objectives are to describe PLC components, interpret specifications, apply troubleshooting techniques, convert relay logic to PLC languages, and operate and program PLCs. The contents include the history of PLCs, relay logic, PLC architecture such as CPU and I/O systems, programming concepts, applications, and troubleshooting. PLCs were developed to replace relay-based control systems and are now widely used in industrial automation.
Supermarket Management System Project Report.pdfKamal Acharya
Supermarket management is a stand-alone J2EE using Eclipse Juno program.
This project contains all the necessary required information about maintaining
the supermarket billing system.
The core idea of this project to minimize the paper work and centralize the
data. Here all the communication is taken in secure manner. That is, in this
application the information will be stored in client itself. For further security the
data base is stored in the back-end oracle and so no intruders can access it.
Energy conservation security and complete automationKishorKhandge1
Automation will turn on and off the fan and lights with the help of timers and counter sensors which will save energy.
Energy saving is a need of the hour
With the help of automation we can make security
With the help of automation we can turn the motor on or off if the water in the water tank is low the motor will start and shut off after filling the water tank which will save both energy and water
Automation in the industrial workplace provides the advantages of improving productivity and quality while reducing errors and waste, increasing safety .
8-sem WEGHING AND BATCHING USING PLC BY MRUNAL VYAS [Autosaved]Mrunal Vyas
This document describes a project using a PLC to automate weighing and batching. It discusses why a manual system has disadvantages like being less accurate and efficient. It then provides details on the PLC components used - Allen Bradley Micrologix PLC, load cell amplifier, geared motors. The PLC allows automating the process through programming to reduce operators, increase accuracy and profits. Applications include food and cement industries. The goal is to develop an automated weighing and batching system using a PLC for process control.
This document discusses using a PLC for automatic box filling. It introduces PLCs and how they can automate industrial processes. The goal of the project is to design a simple, cost-effective filling system using a PLC. A conveyor belt moves boxes past an infrared sensor that detects the box position. When a box is detected under the valve, the valve opens and fills the box. All the components work together to automatically fill boxes in an efficient manner.
This presentation consist of basic old parking trends and the modern approach towards with the use Programmable logic controller PLC and its integration with Supervisory control and data acquisition system SCADA
Industrial automation involves using control systems and technology to reduce the need for human work in production. A key part of industrial automation is programmable logic controllers (PLCs), which allow automation through software programming rather than physical wiring. PLCs and supervisory control and data acquisition (SCADA) systems are widely used in industrial automation to monitor and control manufacturing processes. Engineers play an important role in designing, installing, and maintaining automated systems in industries like manufacturing.
Machining Automation and Integration to the MaxMakino
This presentation on “Machining Automation and Integration to the Max” has been adapted from Makino’s webinar series. To view the full webinar, visit http://www.makino.com/resources/webinars/archive/automation-and-integration-machining-to-the-max/319/
Machining automation is a proven method for reducing manufacturing costs, eliminating non-value added labor, improving quality, increasing equipment flexibility and growing throughput. This presentation discusses the fundamentals of machining automation, key activities performed during implementation, and the technologies involved to complete a successful automated system. An emphasis on project management and engineering is discussed, providing insights for successful installation of machining centers, software and the manufacturing processes that drive North American manufacturing success. The discussion concludes with a series of real-world case studies from shops that have successfully integrated machining automation to lower their overall cost of manufacturing.
Do you want to understand the foundations of automation? Is it your job to make production more productive, efficient and secure? Are you asking yourself how to open up the potential of Industry?
We will provide you with the answers. Profit from our knowledge and experience – well-founded, practical, and explained fast and simply.
You will find the essentials of automation, sensors, RFID and network technology:
1)What basic knowledge you need
2)How to solve common applications
3)What product technologies will help you
Get ready for your future!
Contact@ +91-9555405045 / +91-9811253572
Visit: www.innovicindia.com
This document provides an introduction to programmable logic controllers (PLCs). It discusses that PLCs were first developed in the 1960s to replace unreliable relay systems for controlling industrial processes. A PLC typically consists of a central processing unit, input/output modules, and a power supply. PLCs are commonly programmed using ladder logic and are used widely in manufacturing, process control, building automation, and transportation applications due to their flexibility, reliability, modularity and cost-effectiveness. The document also notes some disadvantages of PLCs, such as complexity, security vulnerabilities, and lack of standardization.
Automation is the use of control systems and information technologies to reduce the need for human work in production. Key automation tools include PLCs, SCADA systems, HMIs, and VFDs. PLCs are special computers that perform logic control functions through user-programmed logic. They are programmed using ladder logic and consist of inputs, outputs, a CPU, and memory. SCADA systems centrally monitor and control remote equipment, gathering information and alerting operators of issues. HMIs allow humans to interact with machines through input devices like touchscreens. VFDs control motor speed in industrial processes.
Automation in the dairy industry has evolved from manual operations to integrated systems controlled by programmable logic controllers, SCADA systems, and other automation tools. Key developments include the introduction of cleaning-in-place systems in the 1950s, extensive mechanization taking over manual labor, and increasing levels of control from manual to unit, line, and production management. Automation addresses issues like quality control and reduces human errors and interference to improve efficiency. Common automation components in dairy include PLCs, HMIs, VFDs, ERP systems, and automatic milking systems.
PLC Workshop session for learning principles of ladder logicHassanShehadi3
The document outlines a 3-day workshop on programmable logic controllers (PLCs). Day 1 covers the history of PLCs and their uses. Day 2 discusses PLC inputs/outputs and introduces ladder logic programming. Day 3 focuses on PLC modules and continues programming with timers and counters. PLCs were created in the 1960s and are considered the "brain" of machines, controlling operations based on inputs and logic. Ladder logic is a graphical programming language commonly used with PLCs.
This document provides information about Module 2 of the EET 06102 Automation course. The 8-credit module covers topics including identifying electronic devices, analysing sensors and transducers, applying pneumatic and hydraulic systems, analysing actuation systems, and analysing programmable logic controllers. It describes the module contents, learning outcomes, and definitions and principles of key concepts like automation, types of automation, advantages of automation, and PLC systems.
Introduction To Automation / Overview of Industrial AutomationRaj Nayak
Automation describes a wide range of technologies that reduce human intervention in processes, namely by predetermining decision criteria, subprocess relationships, and related actions, as well as embodying those predeterminations in machines.
In this ppt presentation, we shall learn about Automation types, process,es and development.
This is density based traffic light control system using Programmable logic controller(PLC). Then side which have more vehicles(density) will be getting on first. This process will take place according to number of vehicles.
This document provides an overview of Sofcon Systems India Pvt. Ltd., a company that provides industrial automation and building automation solutions. It details Sofcon's business segments, locations, solutions, domain expertise in various industries, and descriptions of automation projects implemented for clients. The document also includes milestones in Sofcon's history, visions for the future, and profiles of its group companies that provide training and integrated building management systems.
This document provides an overview of programmable logic controllers (PLCs). It discusses the history of PLCs, how they were developed to replace relay-based control systems. The key components of a PLC including the processor, memory, and input/output modules are described. Examples of PLC programming languages and applications in industrial automation like machine control, food/beverage processing, and material handling are provided. Advantages of PLCs include fast operation, modularity, ease of maintenance, and improved productivity. Disadvantages include initial high costs and difficulty changing or replacing systems. PLCs have become widely used in industrial automation applications ranging from simple to complex control systems.
This document provides information about Axis Global Automation and its industrial automation training services. It offers training in various automation tools like PLC, SCADA, DCS, VFD, PAC, HMI, robotics, and field instruments. It has branches in India and UAE and provides both industrial and college-based training programs. It also discusses concepts in automation including the history and applications of tools like PLCs, SCADAs, VFDs, PACs, servo motors, industrial robotics, and the benefits of automation.
This document discusses automation and programmable logic controllers (PLCs). It defines automation as using control systems like computers to replace human operators in industrial processes. PLCs are described as programmable devices that monitor inputs, make decisions based on their program, and control outputs to automate processes. The document outlines the history of automation from manual to hardwired to PLC control and describes the basic components and programming of PLCs like inputs, outputs, memory organization, and ladder logic.
This document provides an overview of a seminar on programmable logic controllers (PLCs). The objectives are to describe PLC components, interpret specifications, apply troubleshooting techniques, convert relay logic to PLC languages, and operate and program PLCs. The contents include the history of PLCs, relay logic, PLC architecture such as CPU and I/O systems, programming concepts, applications, and troubleshooting. PLCs were developed to replace relay-based control systems and are now widely used in industrial automation.
Similar to PLC Training work for new student which is work in automation field (20)
Supermarket Management System Project Report.pdfKamal Acharya
Supermarket management is a stand-alone J2EE using Eclipse Juno program.
This project contains all the necessary required information about maintaining
the supermarket billing system.
The core idea of this project to minimize the paper work and centralize the
data. Here all the communication is taken in secure manner. That is, in this
application the information will be stored in client itself. For further security the
data base is stored in the back-end oracle and so no intruders can access it.
Software Engineering and Project Management - Introduction, Modeling Concepts...Prakhyath Rai
Introduction, Modeling Concepts and Class Modeling: What is Object orientation? What is OO development? OO Themes; Evidence for usefulness of OO development; OO modeling history. Modeling
as Design technique: Modeling, abstraction, The Three models. Class Modeling: Object and Class Concept, Link and associations concepts, Generalization and Inheritance, A sample class model, Navigation of class models, and UML diagrams
Building the Analysis Models: Requirement Analysis, Analysis Model Approaches, Data modeling Concepts, Object Oriented Analysis, Scenario-Based Modeling, Flow-Oriented Modeling, class Based Modeling, Creating a Behavioral Model.
Use PyCharm for remote debugging of WSL on a Windo cf5c162d672e4e58b4dde5d797...shadow0702a
This document serves as a comprehensive step-by-step guide on how to effectively use PyCharm for remote debugging of the Windows Subsystem for Linux (WSL) on a local Windows machine. It meticulously outlines several critical steps in the process, starting with the crucial task of enabling permissions, followed by the installation and configuration of WSL.
The guide then proceeds to explain how to set up the SSH service within the WSL environment, an integral part of the process. Alongside this, it also provides detailed instructions on how to modify the inbound rules of the Windows firewall to facilitate the process, ensuring that there are no connectivity issues that could potentially hinder the debugging process.
The document further emphasizes on the importance of checking the connection between the Windows and WSL environments, providing instructions on how to ensure that the connection is optimal and ready for remote debugging.
It also offers an in-depth guide on how to configure the WSL interpreter and files within the PyCharm environment. This is essential for ensuring that the debugging process is set up correctly and that the program can be run effectively within the WSL terminal.
Additionally, the document provides guidance on how to set up breakpoints for debugging, a fundamental aspect of the debugging process which allows the developer to stop the execution of their code at certain points and inspect their program at those stages.
Finally, the document concludes by providing a link to a reference blog. This blog offers additional information and guidance on configuring the remote Python interpreter in PyCharm, providing the reader with a well-rounded understanding of the process.
Applications of artificial Intelligence in Mechanical Engineering.pdfAtif Razi
Historically, mechanical engineering has relied heavily on human expertise and empirical methods to solve complex problems. With the introduction of computer-aided design (CAD) and finite element analysis (FEA), the field took its first steps towards digitization. These tools allowed engineers to simulate and analyze mechanical systems with greater accuracy and efficiency. However, the sheer volume of data generated by modern engineering systems and the increasing complexity of these systems have necessitated more advanced analytical tools, paving the way for AI.
AI offers the capability to process vast amounts of data, identify patterns, and make predictions with a level of speed and accuracy unattainable by traditional methods. This has profound implications for mechanical engineering, enabling more efficient design processes, predictive maintenance strategies, and optimized manufacturing operations. AI-driven tools can learn from historical data, adapt to new information, and continuously improve their performance, making them invaluable in tackling the multifaceted challenges of modern mechanical engineering.
Generative AI Use cases applications solutions and implementation.pdfmahaffeycheryld
Generative AI solutions encompass a range of capabilities from content creation to complex problem-solving across industries. Implementing generative AI involves identifying specific business needs, developing tailored AI models using techniques like GANs and VAEs, and integrating these models into existing workflows. Data quality and continuous model refinement are crucial for effective implementation. Businesses must also consider ethical implications and ensure transparency in AI decision-making. Generative AI's implementation aims to enhance efficiency, creativity, and innovation by leveraging autonomous generation and sophisticated learning algorithms to meet diverse business challenges.
https://www.leewayhertz.com/generative-ai-use-cases-and-applications/
Height and depth gauge linear metrology.pdfq30122000
Height gauges may also be used to measure the height of an object by using the underside of the scriber as the datum. The datum may be permanently fixed or the height gauge may have provision to adjust the scale, this is done by sliding the scale vertically along the body of the height gauge by turning a fine feed screw at the top of the gauge; then with the scriber set to the same level as the base, the scale can be matched to it. This adjustment allows different scribers or probes to be used, as well as adjusting for any errors in a damaged or resharpened probe.
Tools & Techniques for Commissioning and Maintaining PV Systems W-Animations ...Transcat
Join us for this solutions-based webinar on the tools and techniques for commissioning and maintaining PV Systems. In this session, we'll review the process of building and maintaining a solar array, starting with installation and commissioning, then reviewing operations and maintenance of the system. This course will review insulation resistance testing, I-V curve testing, earth-bond continuity, ground resistance testing, performance tests, visual inspections, ground and arc fault testing procedures, and power quality analysis.
Fluke Solar Application Specialist Will White is presenting on this engaging topic:
Will has worked in the renewable energy industry since 2005, first as an installer for a small east coast solar integrator before adding sales, design, and project management to his skillset. In 2022, Will joined Fluke as a solar application specialist, where he supports their renewable energy testing equipment like IV-curve tracers, electrical meters, and thermal imaging cameras. Experienced in wind power, solar thermal, energy storage, and all scales of PV, Will has primarily focused on residential and small commercial systems. He is passionate about implementing high-quality, code-compliant installation techniques.
Home security is of paramount importance in today's world, where we rely more on technology, home
security is crucial. Using technology to make homes safer and easier to control from anywhere is
important. Home security is important for the occupant’s safety. In this paper, we came up with a low cost,
AI based model home security system. The system has a user-friendly interface, allowing users to start
model training and face detection with simple keyboard commands. Our goal is to introduce an innovative
home security system using facial recognition technology. Unlike traditional systems, this system trains
and saves images of friends and family members. The system scans this folder to recognize familiar faces
and provides real-time monitoring. If an unfamiliar face is detected, it promptly sends an email alert,
ensuring a proactive response to potential security threats.
Accident detection system project report.pdfKamal Acharya
The Rapid growth of technology and infrastructure has made our lives easier. The
advent of technology has also increased the traffic hazards and the road accidents take place
frequently which causes huge loss of life and property because of the poor emergency facilities.
Many lives could have been saved if emergency service could get accident information and
reach in time. Our project will provide an optimum solution to this draw back. A piezo electric
sensor can be used as a crash or rollover detector of the vehicle during and after a crash. With
signals from a piezo electric sensor, a severe accident can be recognized. According to this
project when a vehicle meets with an accident immediately piezo electric sensor will detect the
signal or if a car rolls over. Then with the help of GSM module and GPS module, the location
will be sent to the emergency contact. Then after conforming the location necessary action will
be taken. If the person meets with a small accident or if there is no serious threat to anyone’s
life, then the alert message can be terminated by the driver by a switch provided in order to
avoid wasting the valuable time of the medical rescue team.
4. Introduction to Automation
⚫Automation:
Automation or automatic control is the use of various
control systems for operating equipment such as machinery,
processes in factories, boilers and heat treating ovens, filling
system, steering and stabilization of ships, aircraft and other
applications with minimal or reduced human intervention.
5. Introduction to Automation
Semi Automation
50% of job done Automatically
Fully Automation
100% of job done Automatically
Type of Automation
6. Introduction to Automation
• Mass production was popularized in 1910 and 1920’ by
Henry ford’s ford company.
• In 1947 automation was widely used, when general motor
Established automation department.
• In 1980 US car manufacturers came up with the vision of
“Light’s out” (Entire process could be left to robots)
History of Automation
7. Introduction to Automation
Why Automation ?
1. Manual mode of control
2. Hardwired control
(Electrical Machines) • More space
• complexity
• troubleshooting is difficult
• power consumption
• more loss
• Over all efficiency low
• Safety less
Disadvantages
8. Introduction to Automation
3. Electronic (PCBs, IC’s……)
• Small and compact
• Easy to handle
• Power consumption
is less
• Wire requirement is
less
• Troubleshooting is difficult
• Programming will be
difficult
• Can not withstand
industrial environment
• High complexity of circuits
• Low thermal handling
capacity
Advantages Disadvantages
9. Introduction to Automation
4. Programmable logic controller
• Small and compact
• Easy to handle
• Power consumption is less
• Wire requirement is less
• With stand with industry’s Rough
environment
• Higher thermal handling capacity
• Easy to program
• All logic, sequencing, timing,
counting, and arithmetic
operation can be done
• Troubleshooting is difficult
• costly device
• Trained person can only be
operate
• I/O limitations
Advantages Disadvantages
10. Automation
SEMI AUTOMATION
FULLY AUTOMATION
HOME AUTOMATION
INDUSTRIAL AUTOMATION
PUBLIC AUTOMATION
BUILDING AUTOMATION
SCIENTIFIC AUTOMATION
ON THE BASIS OF FUNCTION ON THE BASIS OF APPLICATION
11. Introduction to Automation
Home Automation
• Automatic door
• Automatic lighting
• Automatic cooling
• Automatic locking
• Automatic surveillance system
• Automatic water tank control
etc.
12. Introduction to Automation
Industrial & Process Automation
• Water treatment
• Electric power management
• Filling system
• Conveyor system, Motor/valve control
• Assembly process in factories
Building Automation
• Car parking system
• Automatic door opening and closing
• Lift control
13. Introduction to Automation
Public transportation
• Track changer
• Train signal system
• Traffic signal
• Automatic Tollgate system
• Electrical Traction
• Ship Automation
14. Introduction to Automation
Scientific Automation
• Rocket launching system
• Satellite launching system
• Meteorological system
Robotic Automation
• Nuclear reactor control system
• Various Robotic Process
15. Introduction to Automation
Its use of various control systems like PLC for operating
equipment like machinery.
E.g. (Filling system)
Industrial Automation
16. Introduction to Automation
Advantage of Industrial automation
• Increased mass production
• Reduce human effort
• Increased precision
• Improved quality
• Increased accuracy
• Increased consistency output
17. Introduction to Automation
AUTOMATION TOOLS
PLC (Programmable logic controller)
SCADA( Supervisory control and data acquisition)
HMI (Human machine interface)
VFD ( Variable frequency drive)
DCS (Distributed control system)
RTU (Remote terminal unit)
18. Thank you!
If you have any query, please contact:
Mr. SANDEEP PHARSWAN
www.nielit.gov.in/haridwar