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Vision & Motion Engineering company for Image Processing & Motion Analyzing
Applications and tools (Abstract)
Germany Austria
Vision & Motion Ing.Ges. Vision & Motion Ing.Ges. Paul-Löbe-Sraße 39 Graben 10
D-40595 Düsseldorf A-7053 Hornstein
+49(0) 211 7599 1577 +43(0) 2689 2738 26
http://www.visionmotion.com
All rights reserved.
© Vision & Motion 2019
Edition 1.2 (Sep. 2019)
This informations are protected by copyright. Any use outside the strict limits of copyright law is prohibited and punishable without the consent of Vision & Motion. This applies in particular to dupli-cation, translations, microfilming and storage and processing in electronic systems.
Ventures Inhalt 2
Topics
Sample of projects using image processing practices ................................................................. 3
1. How expensive is it to use no vision system? ........................................................................... 5
2. What does Vision & Motion stand for? ....................................................................................... 6
3. Optical character reading-/ verification ...................................................................................... 7
3.1 OCV at prepaid cards .............................................................................................................. 7
3.2 Barcode reading of labels at SMD reels .................................................................................. 8
3.3 1D- and 2D code reading at MAT-Label .................................................................................. 9
3.4 OCV on forged crankshafts .................................................................................................... 10
3.5 Reading of die cast plastic numbers ...................................................................................... 11
4. Feature extractions ..................................................................................................................... 12
4.1 Cavity sensor ......................................................................................................................... 12
4.2 Toner and cartridges sorting .................................................................................................. 13
5. 3D Matching ................................................................................................................................. 14
5.1 Tolerance measuring on metallic surfaces ............................................................................ 14
5.2 Checking of regular geometries ............................................................................................. 15
6. Measuring .................................................................................................................................... 16
6.1 Automated centering of encoder dics .................................................................................... 16
7. Optics ........................................................................................................................................... 17
7.1 Semi-automatic first article inspection (FAI) .......................................................................... 17
Ventures 3
Sample of projects using image processing practices
Vision & Motion Ing.Ges. reserves all rights even in the event of industrial property rights. We reserve all rights of disposal such as copying and passing on to third party.
Ventures 4
2018
Vision & Motion was founded by Bernhard Schnürch outside Munich
2003
2004
First installation of La-belReader inside tracea-bility process at vehicle control units
2005
2006
2007
2008
2009
2010
2011
2012
2013
World`s first Textur Reader for laser markings on forged crankshafts at auto-motive supplier
Machine replaces human: Fully automated cavity deci-sion maker at world leader in die-cast cases
Manufacturing Execution Software for delivering, packaging and quantity ma-naging of control units at Germanys biggest automo-tive supplier
Multi-level inspection of printed circuit boards
Workstation LabelIn-spect for complex verifi-cation and generating MAT-Label for total control unit production
Usage of 2D and 3D object vectors to classify toner in recycling process
STL and CAD data transformation with false colors as inline process
Shape and position to-lerance measuring as inline process for Euro-pean biggest exhaust systems supplier
Point cloud matching as method of inline shape comparison for Germans leader in auto-motive mechatronics
2014
Online OCV during packaging process at prepaid cards at leading European plastic cards manufacturer
2015
2016
2017
Real time tool tracking system at leading global tool manufacturer of screw drivers
Character Verification on radar sensors against assembling mix-ups at automotive supplier
Full automated first article inspection for automotive control units
Automated optical alignment of rotary sclales for measu-ring devices
Ventures 5
1. How expensive is it to use no vision system?
The decision to use automatic optical inspection systems (AOI) is also a matter of cost-benefit ratios. In other words, the rationality potential of such a system.
Inspection systems are expensive, produce nothing, and do not contribute to the overall results of the business. However, modern assemblies use more and more and smaller components that make manual inspection impossible. Or components that can not be tested with electrical tests or are hidden from the human eye.
The question is:
What costs will manufacturers risk because they do not use AOI systems?
Abb.1 Reduction of errors for a production run of 7 months in which a total of 1.29 million
assemblies were inspected.
Ventures 6
2. What does Vision & Motion stand for?
Vision & Motion enters the market as a personally liable engineering company in order to help our customers to produce products accurately with the help of optical inspections. In particular, these are image processing methods, also known as artificial vision technology.
The name Vision is synonymous with the term "machine vision" and thus describes the com-puter-aided solving of tasks that are based on the capabilities of human vision (https://en.wi-kipedia.org/wiki/Machine_vision)
The name Motion is synonymous with "Motion Analysis" and refers to the recognition and inter-pretation of movements within a sequence of images. (https://en.wikipedia.org/wiki/Motion_ana-lysis)
Camera and computer give machines, independently of humans, the ability to make decisions based on image data. The recorded images are evaluated by the computer, relevant infor-mations are filtered out and the results are transferred to a controller that can react accordingly.
Questions as to whether all contacts of a chip are soldered, whether scratches on a body can be seen, or whether the adhesive application of car doors are completely in shape and position, the steering wheel airbag has been installed correctly, etc., can be answered reliably and repro-ducible. And there are many numbers of applications in the world of production that are waiting for answers about their consistent manufacturing quality.
Surface inspection, completeness control, metrology, identification and robot guidance are typi-cal applications of image processing. Even outside industrial production, image processing sys-tems perform tasks in personal identification, document processing or traffic control technology.
Human can recognize objects in different situations because they have the ability to include the environment of the object for image interpretation. The human can also complete missing or in-complete information by linking it to other signals in a larger context. These cognitive abilities do not belong to machines. However, if all boundary conditions are known, a machine can be programmed using mathematical algorithms and technical-physical methods to be far superior to human eyes in terms of durability, accuracy, speed, and redproducibility.
We offer solutions to our customers wherever complex, nonexistent or impossible visual human controls can be replaced by technology,.
In the following, we will show selected examples from our projects that illustrate the world of arti-ficial vision and illustrate the capabilities of such systems.
Ventures 7
3. Optical character reading-/ verification
3.1 OCV at prepaid cards
Demand: Reading numbers and checking for consistency by comparing with internal counter Industry/User: Swipe cards, Austria Technology: Smart camera Cognex Insight, Strobe controller with LED white light Features: 10 cards / sec. with NIO-STOP signal to packaging system, optionally manual or automation inspection mode, fast segmentation of characters and decisions in case of fail pressure Value per system: € 20.000,00
Ventures 8
3.2 Barcode reading of labels at SMD reels
Demand: Reading different barcodes and their assignment on a label Industry/User: Automotive electronics, Germany Technology: Manual workstation with camera and parameter library for reading from below through glass pane or fully automatic feeder with mechanical locking Features: Functionality of the BarcodeReader manually adjustable for all reading parameters, therefore all types and elements can be decoded up to 100μm lines Value per system: € 30.000,00
Ventures 9
3.3 1D- and 2D code reading at MAT-Label
Demand: Reading different codes with complex verification to generate and print MAT label Industry/User: Automotive electronics, Germany Technology: Manual workstation with four 5 Mb Cameras and extensive library Features: Decoding of 13 "SMD reels from top view, differentiation into leaded or unleaded goods, complex verifi-cation of warehouse files with manufacturer and production informations Value per system: € 100.000,00
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1. TTNR: vom Lagerrechner (*.dru) und mit Hersteller-Label vergleichen
2. Stückzahl: vom Hersteller-Label le-sen
3. Lot-Nr: vom Hersteller-Label lesen 4. FD-Datum: vom Hersteller-Label le-
sen 5. Auslager-Datum: vom Lagerrechner
(*.dru) 6. Anlieferbahnhof: vom Lagerrechner
(*.dru) 7. Bezeichnung: vom Lagerrechner
(*.dru)
Ventures 10
3.4 OCV on forged crankshafts
Demand: Optical Character Verification of laser-cut numbers on forged cast iron crankshafts Industry/User: Automotive, Germany Technology: Special classifier based on SVM (Support Vector Machine) (world's first imaging solution for reading such markings, 2005) Features: Extensive SIL (samle imaging list) increases the stability of the classifier; therefore no overtraining as with neural networks Value per system: € 150.000,00
Ventures 11
3.5 Reading of die cast plastic numbers
Demand: Comparing part numbers of radar sensors Industry/User: Automotive electronics, Germany Technology: Smart camera with special matching algorithm Features: Contour determination with trained classifier, direct communication with PLC via TCP / IP Value per system: € 40.000,00
Ventures 12
4. Feature extractions
4.1 Cavity sensor
Demand: Optical sensor for self-finding and evaluating cavities in die cast gearboxes Industry/User: Automotive, Germany Technology: Prop. Development of 3-axis gantry with 360° camera to inspect holes Features: Extracting image features followed by good / bad decision Value per system: € 250.000,00
Ventures 13
4.2 Toner and cartridges sorting
Demand: Differentiation in „Virgin“ und „Non-Virgin“ products Industry/User: Printing industry, Germany Technology: Triangulation sensor for geometric contour features Features: Comparison with referenced feature vectors (1st to 3rd order moments) Value per system: € 200.000,00
EP_A
C8543X
FX_3 Q2612
Q7551
Q7553
Ventures 14
5. 3D Matching
5.1 Tolerance measuring on metallic surfaces
Demand: Inline flatness determination of the manifold surface with max. tolerance of 200μm Industry/User: Automotive, Germany Technology: Structured-light 3D scanner with GEOMAGIC QUALIFY Features: STL and CAD data transformation with false color representation Value per system: € 180.000,00
Ventures 15
5.2 Checking of regular geometries
Demand: Form and location tolerance measurement of loader manifold welding Industry/User: Automotive, Germany Technology: Structured light 3D sensor with PolyWorks 3D software suite Features: STL and CAD data transformation with false color representation Value per system: € 100.000,00
Ventures 16
6. Measuring
6.1 Automated centering of encoder dics
Demand: Form and location tolerance measuring of rotary scale pattern on glass plates with⌾≤ 3µ Industry/User: System supplier optomechatronics, Germany Technology: Fully automatic centering of encoder discs on mounting shafts with gluing Features: Measurement of the eccentricity of encoder lines by edge detection in the subpixel area and orthogonal displacement of the glass pane on a mounting shaft for μ-precise UV bonding Value per system: € 150.000,00
Ventures 17
7. Optics
7.1 Semi-automatic first article inspection (FAI)
Demand:
2D positioning of a camera for visual assembly control Industry/User: Automotive electronics, Germany Technology: 10μ repeatable linear system for moving HD color camera with autofocus and 30x zoom with darkfield ring light Features: Mode for teaching test positions. Automatic job routine according to the type of assembled SMD boards. Visual target / actual comparison for IO or NIO criteria Value per System: € 40.000,00
IO S 100