Industrial Engineering Focus Areas and Tracks - IISE 2024 Annual Conference - Montreal

Functions and Focus Areas of Industrial Engineering.

2016, Udyog Pragati, Journal of NITIE. 

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PRINCIPLES OF INDUSTRIAL ENGINEERING.   

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INTRODUCTION TO MODERN INDUSTRIAL ENGINEERING.   

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Industrial Engineering Focus Areas and Tracks - IISE 2024 Annual Conference

Construction Industrial Engineering & Management

Industrial Engineering  Data Analytics and Information Systems

Energy Systems Industrial Engineering 

Industrial  Engineering Economy

Industrial Engineering  Education

Industrial Engineering  and Engineering Management

Facilities Industrial Engineering -   Design & Planning

Health Systems Industrial Engineering 

Industrial Engineering  Human Factors & Ergonomics

IAB/Young Professionals - Industrial Engineering 

Logistics & Supply Chain Industrial Engineering 

Manufacturing Industrial Engineering  & Product Design Industrial Engineering 

Industrial Engineering  Modeling & Simulation

Natural Resources Industrial Engineering 

Operational Excellence - Industrial Engineering  (Lean & Six Sigma)

Industrial Engineering Operations Research - IEOR

Industrial Engineering  Performance Excellence

Industrial Engineering  - Role in Quality Control & Reliability Engineering

SDG Network/CEOSNet - Industrial Engineering 

Student - Industrial Engineering 

Industrial Engineering  in Sustainable Development

Industrial Engineering  Systems Engineering

Work Systems Industrial Engineering  &  Service Work Systems Industrial Engineering 

https://iise.confex.com/iise/2024/meetingapp.cgi/ModuleSubjectIndex/0

What is Industrial and Systems Engineering?

IISE Definition of Industrial Engineering

Industrial and systems engineering (ISE) is concerned with the design, improvement and installation of integrated systems of people, materials, information, equipment and energy. It draws upon specialized knowledge and skill in the mathematical, physical, and social sciences together with the principles and methods of engineering analysis and design, to specify, predict, and evaluate the results to be obtained from such systems.

https://www.iise.org/details.aspx?id=43631

Industrial engineering began with focus on cost reduction.

F.W. Taylor developed a system to increase productivity of machine and man and thereby decrease unit cost of production of products.

AIIE tried to augment the focus of industrial engineering to more result areas. 

Industrial engineering specifies, predicts and evaluates the results to be obtained from systems of equipment, materials, people, energy and information.

It does design, improvement and installation.

It draws upon in the mathematical, physical and social sciences with the principles of and methods of engineering analysis and design.

Industrial engineering analyses and designs elements related to equipment, materials, people, energy and information as individual areas of focus and it also also analyses and designs combinations of these components of systems up to the level of treating all of them in a single decision, which is system level focus. The benefit to be gained by any industrial engineering redesign or design has to be gained at the system level.

Industrial engineering is result oriented engineering. Its discipline content includes social sciences to take care of people. It includes management discipline also.

Result Areas

As per definition, any result area can become the activity of IE.

Cost and productivity are the two result areas which were first taken up by IE. Quality awareness and resolve not to deteriorate quality was part of IE right from beginning. But as quality engineering and management made its progress, IE adopted quality as a result area. Later flexibility appeared. Now sustainability came into prominence.

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Material

Machine

Men

Energy

Information

Industrial Engineering Analysis - Methods

Process Analysis

Operation Analysis

Operation Element Analysis - Example: Cutting tool analysis in a machining operation.

Layout Transportation Analysis

Process, Operation, Element Time Analysis

Value Analysis

Cost Analysis

Productivity Analysis

Inventory Analysis (Value Stream Mapping)

Basic Engineering Analysis

Analysis of Mechanisms and Machine Design

Design of Machine Elements

Process Engineering

Facilities Engineering

System Industrial Engineering

Integration

Integration for Total Productivity Management.

Integration for System Efficiency

Total Productivity Management.

Industrial Engineering of the Components of the System

Material

Materials Industrial Engineering

Machine

Machine Work Study Through Operation Analysis of Maynard & Stegemerten

Machine Based Industrial Engineering - Japanese Practice - Karakuri Kaizen

Total Equipment Productivity Management and Engineering (TEPME) - Industrial Engineering

Men

Human Effort Industrial Engineering - Design of Human Effort for Increasing Productivity, Comfort, Health and Income

H.B. Maynard - HUMAN EFFORT INDUSTRIAL ENGINEERING - Methods Time Measurement (MTM) - Introduction

Energy

Energy Industrial Engineering

Information

Industrial Engineering of Information Systems

ABOUT IISE

The Institute of Industrial and Systems Engineers (IISE),  is an international, nonprofit association that provides leadership for the application, education, training, research, and development of industrial and systems engineering.

Industrial and systems engineers make things better in any industry.

What is industrial and systems engineering? (IISE official definition)

Industrial and systems engineering is concerned with the design, improvement and installation of integrated systems of people, materials, information, equipment and energy. It draws upon specialized knowledge and skill in the mathematical, physical, and social sciences together with the principles and methods of engineering analysis and design, to specify, predict, and evaluate the results to be obtained from such systems.

IISE is recognized internationally as:

The leading provider of cutting-edge continuing education in industrial and systems engineering.

The acknowledged source of productivity improvement information via the Internet, publications, webinars, podcasts, and live events, including an annual conference, topical conferences, and career-enhancing courses.

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WHAT INDUSTRIAL & SYSTEMS ENGINEERS DO

The most distinctive aspect of industrial and systems engineering is the flexibility it offers. Whether it's shortening a rollercoaster line, streamlining an operating room, distributing products worldwide, or manufacturing superior automobiles, these challenges share the common goal of saving companies money and increasing efficiencies.

As companies adopt management philosophies of continuous productivity and quality improvement to survive in the increasingly competitive world market, the need for industrial engineers is growing. Why? Industrial and systems engineers are the only engineering professionals trained specifically to be productivity and quality improvement specialists.

Industrial engineers figure out how to do things better. They engineer processes and systems that improve quality and productivity. They work to eliminate waste of time, money, materials, energy and other commodities.

ISEs make processes better (more productive) in the following ways:

More efficient and more profitable business practices

Improved efficiency

Increased ability to do more with less

Making work safer, faster, easier and more rewarding

Helping companies produce more products quickly

Reducing costs associated with new technologies

https://www.iise.org/details.aspx?id=716

Industrial Engineering started with #productivity engineering and improvement of systems and processes.  Cost reduction of engineering products through productivity improvement was pioneered by F.W. Taylor, Father of Industrial Engineering.

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