Industrial Engineering - Role of Engineering, Mechanization and Automation
In process improvement study or projects, to do a task in the most productive manner, the most efficient manual method (best manual method), best mechanized method and best automation method are to be compared and the most productive method has to be employed. This comparison has to be done at element or suboperation level.
Source: Book: Motion and Time Study: Design and Measurement of Work, Ralph M. Barnes, 7th Edition, Chapter 18. Motion Study, Mechanization, and Automation.
Jidoka - Automation and Mechanization - Process Engineering and Industrial Engineering in Toyota Production System
Jidoka, a pillar of Toyota Production Systems advocates automation with human touch in all operations of a process to increase productivity of operators as well as that of total systems.
Automation for Productivity and Cost Reduction - Productivity Automation Engineering. - Lesson 112 of Industrial Engineering ONLINE Course
Automation of Operations in Flow Process Chart
Automated Inspection - Bibliography
What Is Automated Visual Inspection And How Is It Used?
Averroes
May 21, 2024
Automated visual inspection leverages technology to scrutinize products or equipment without human intervention, marking a significant evolution in quality control methodologies.
Automated visual inspection is a technology-driven method that uses cameras, sensors, and algorithms to detect defects and ensure compliance with standards, highlighting its ability to operate faster and more accurately than human inspectors.
Applications in Industries
Semiconductor Manufacturing
Main Tools & Systems Used For Semiconductor Metrology (2024)
Averroes
May 20, 2024
Food Processing
Enhancing food safety through automated inspection systems and AI-powered quality assurance..
Jul 1, 2024
Biopharma Manufacturing
Syntegon’s AIM Automated Inspection Machines offer the best quality inspection services powered by artificial intelligence. They developed the first Automatic Inspection Machine, the AIM275, in Japan in 1975. It marked the first use of SD technology in particle detection, which has since become a staple of many pharmaceutical production facilities. Today, both camera-based inspection and SD technology can be integrated.
AIM 2|5 Series – Automated Inspection with Artificial Intelligence.
AIM 3000 ‒ Combining Visual Inspection, HVLD and Operational Excellence
Syntegon’s AIM 3000 guarantees high detection rates of moving particles by checking twice on two identical stations.
AIM 8000 Series ‒ AI-Ready, Versatile Platform for a Wide Variety of Products
The AIM 8000 is a flexible modular machine designed for customised solutions, with a vision system built to handle highly complex inspection requirements for particulate and cosmetic defects.
AIM 5022S: Automated inspection machine for syringes
Automated inspection machine for cartridges
Proven and reliable technology based on long-term experiences with dental and insulin cartridges
Automotive Manufacturing
A large, multinational automobile manufacturer responsible for producing millions of vehicles annually, engaged with IBM® to streamline their manufacturing processes with seamless, automated inspections driven by real-time data and artificial intelligence (AI).
As an automobile manufacturer, our client has an inherent duty to provide high-quality products. Ideally, they need to discover and fix any defects well before the automobile reaches the consumer. These defects are often expensive, difficult to identify and present a myriad of significant risks to customer satisfaction.
IBM worked with the client’s technical experts to deploy IBM Inspection Suite solutions to help them reduce defects and downtime while enabling quick action and issue resolution. The solutions deployed include fixed-mounted inspections (IBM Maximo® Visual Inspection Mobile) and handheld inspections (IBM Inspector Portable). Hands-free wearable inspections (IBM Inspector Wearable) were also made available for situations that required a head-mounted display.
Automated Inspection Solutions for Railroads
Mining
Medical Device Manufacturing
Construction
Solar Farms
Oil and Gas
April 10, 2024
TEST AND INSPECTION ASSEMBLY
Beyond the Human Eye: AI Improves Inspection in Manufacturing
By Ramūnas Berkmanas
Since implementing AI, a car seat manufacturer has seen a 30 percent reduction in defect rates.
Manual quality control methods limit the efficiency and effectiveness of modern manufacturing processes.
For one, manual inspection is too inconsistent. Due to factors like fatigue, human inspectors are prone to variability in their defect detection rates, which can range between 60 and 90 percent. Additionally, manual inspection is also slow. Manual processes often cannot keep up with fast-moving assembly lines, resulting in bottlenecks.
Common Use Cases are given in the article.
2021
Machine vision Based Inspection Productivity Improvement on Bottling Line - IE Case Study.
2020
AI Adds Continuous Improvement to Vision Systems
Cogniac helps manufacturers take vision system investments to the next level with AI-based models.
Peter Fretty
DEC 17, 2020
NEXIV VMZ-S3020 CNC video measuring system
December 11, 2020
Nikon Metrology
Automated Gauging for Process Control of Machining Operations
November 10, 2020
Gauging system provides 30% increase in manufacturing capacity
15 SEPTEMBER 2020
Manual gauging processes have created a bottleneck and preventing the achievement of throughput necessary to achieve a part-manufacturing target at Olympus NDT. By automating inspection processes using a programmable shopfloor gauging system, the company eliminated the bottleneck and increased the output per hour with improved part quality and reduced scrap.
A New Programming Approach for Robot-based Flexible Inspection systems
William Brice Tekouo Moutchiho
utzverlag GmbH, 27-Mar-2019 - 226 pages
Preview
CNC Lathe In-Process Gauge
Supplier: Autonetics
The guage is a single part: the gauging head. The head was adapted for the FANUC robot tending the machine/cell. The robot grips the gauge as needed in a quick, automated tool change.
Inspection Process
After the first roughing pass, the robot brings the measurement head into the machining envelop and positions it at the end of the part. A scan is then started and the robot move across the length of the part. Based on the scan, a 2D point cloud of the part is constructed. The point cloud is quickly processed and various diametrical and axial features are analyzed. The results are displayed on the Autonetics HMI. The measurements are automatically sent to the machine tool allowing the final cutting pass to remove the exact amount of material. After the last cutting pass is made the part is scanned by the robot with the gauge once more for a final assessment of the part.
Advancements in Automated Inspection - EWI - 2017
https://www.slideshare.net/EWI_engineering/advancements-in-automated-inspection
Flexible Measurement Systems - Robotic Inspection
https://www.dynalog-us.com/automated-in-line-gauging.htm
https://www.dynalog-us.com/case-study-world-first-calibrated-fms.htm
https://www.dynalog-us.com/case-study-katayama-automates-in-line-measurement.htm
https://www.amtcpl.com/software-based-automatic-multi-gauging-systems.html
https://blog.eaglegroupmanufacturers.com/precision-machined-parts-measuring-tools-every-cnc-shop-should-have
Gauging System Intelligent Process Control Software Automatically Updates CNC Tool Offsets
15 Feb 2018
Automatic Measurement in CNC Machines
Sipotek Machine Vision Systems
In Process Part Measurement - HaaS Tips - Video
https://www.haascnc.com/video/tipoftheday/ffzi6rwicuu.html
6 Factors to Consider Before Moving to Automated Inspection
A properly programmed automatic-visual-inspection system can significantly reduce the risk of bad inspections, and lead to reduced costs over time.
Dr. Helmut Hamfeld
JUL 05, 2016
https://www.machinedesign.com/markets/manufacturing-equipment/article/21832077/6-factors-to-consider-before-moving-to-automated-inspection
https://www.automation.com/en-us/articles/2009-2/automated-inspection-gaging-systems-improve-qualit
6 Factors to Consider Before Moving to Automated Inspection
A properly programmed automatic-visual-inspection system can significantly reduce the risk of bad inspections, and lead to reduced costs over time.
Dr. Helmut Hamfeld
JUL 05, 2016
https://www.machinedesign.com/markets/manufacturing-equipment/article/21832077/6-factors-to-consider-before-moving-to-automated-inspection
https://www.automation.com/en-us/articles/2009-2/automated-inspection-gaging-systems-improve-qualit
4 ways - Machine vision cameras or laser sensors integrated into equipment
2. Separate inspection station with Machine vision cameras or laser sensors
3. Turnkey systems with Machine vision cameras or laser sensors designed for specific component or family of components.
4. Robots to handle parts or cameras
https://blog.jrecorp.com/blog/four-types-of-automated-inspection-systems
Springer Handbook of Automation
Shimon Y. Nof
Springer Science & Business Media, 16-Jul-2009 - Technology & Engineering - 1812 pages
Automation is undergoing a major transformation in scope and dimension and plays an increasingly important role in the global economy and in our daily lives. Engineers combine automated devices with mathematical and organizational tools to create complex systems for a rapidly expanding range of applications and human activities. The Springer Handbook of Automation incorporates these new developments and presents a widespread and well-structured conglomeration of new emerging application areas of automation. Besides manufacturing as a primary application of automation, the handbook contains new application areas such as medical systems and health, transportation, security and maintenance, service, construction and retail as well as production or logistics. This Springer Handbook is not only an ideal resource for automation experts but also for people new to this expanding field such as engineers, computer scientists, designers. It is edited by an internationally renowned and experienced expert.
Automating Quality Systems
J.E. Tannock
1988 - Report FMS - Automated Inspection
Four key conclusions can be made based on the information available about automated inspection in flexible machining systems.
1. There are very few FMS installations that have automated inspection fully integrated into the system.
2. A major factor is the reluctance of management to invest large amounts of capital because of concerns about the length of the payback period.
3. Many vendors, user groups, and research institutions are actively involved in research and development in all aspects of automated inspection.
4. The trend in FMS automated inspection is toward controlling the process through in-process gaging and deterministic metrology.
Updated 24.9.2024, 29.9.2022, 23 Sep 2021, 17 December 2020
First published 16 July 2020
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