Embedded Metrology Transforming Factories

Embedded Metrology Transforming Factories

In-line Operation to Reduce Production Bottlenecks and Improve Productivity

RELEASE DATE
27-Sep-2019
REGION
Global
Research Code: D8CE-01-00-00-00
SKU: IA01548-GL-TR_23644

$4,950.00

Special Price $3,712.50 save 25 %

In stock
SKU
IA01548-GL-TR_23644

$4,950.00

$3,712.50 save 25 %

DownloadLink

Pay by invoice

ENQUIRE NOW

Description

Industrial production lines are undergoing transformation to adapt to the competitive market. As factory of the future becomes real, inter-connected devices autonomously enable flow of data, allowing automated analysis. Automation requires machines that are highly technologically advanced to derive reliable results.
With manufacturing shop floors transforming into smarter and connected environments, measurement systems will also witness a shift. Operational activities in the value chain will be positioned closer to avoid bottleneck and delayed supply of product to market. Metrology systems will be moved to improve the status quo of finished products and provide a more flexible production environment. In this way, each part’s status can be monitored from raw material stage until packaging stage in real time.

Key Questions Addressed in the report
What is the traditional scenario in manufacturing quality inspection?
What are the key evolution areas?
Which are some of the advancements initiatives?
What are the challenges in traditional inspection systems ?
What are the commonly adopted technology solutions in embedded metrology ?
Who are the leading participants in the embedded metrology market ?
What is the global presence of the technology?
What are the factors driving adoption of the in-metrology solutions ?
What steps and measures must developers and end users adopt to stay ahead in the market ?

Table of Contents

1.1 Research Scope

1.2 Research Methodology

1.3 Explanation of Research Methodology

1.4 Key Findings

2.1 Traditional Manufacturing and Metrology Scenario

2.2 Evolution from Artisan Manufacturing to Automation

2.3 Current Status Ways Of Measuring And Inspection Systems

2.4 Initiatives by Metrology Equipment and Technology Providers

2.5 Innovations Penetrating into Quality and Inspection Market

2.6 Challenges in Traditional Inspection Methods

3.1 Shift from Static Manual Inspection Systems to Automated Metrology

3.2 Commonly Adopted Methods by Embedded Metrology Systems

3.3 Automotive Industry Driving In-line CMM

3.4 Optical Non-Contact Measuring Using Camera and Light Source

3.5 Quality Control and Reverse Engineering Using White Light

3.6 Single Source Blue Light Scanners for Inspection of Complex Geometries

3.7 Common Inspection Application Areas

3.8 Funding Scenario

3.9 Significant Market Participants in the Metrology Market

3.10 Systems Offer Customization Option to Expand Adoption

4.1 Shifting Industrial Scenario Impacts Value Chain Operations

4.2 Smart Factories Continue to Play a Major Role in Driving Adoption of New Systems

4.3 Regional Analysis and Adoption Potential of In-line Inspection Systems

4.4 Technologies to Impact Metrology systems

4.5 Lack of Product Awareness Restricting Adoption

5.1 Transformative Measures Adopted for Growth in Measurement Systems

5.2 Technical Requirements for Digital Measurement Systems

5.3 Business Models to Increase Awareness

6.1 Key Contacts

Legal Disclaimer

Related Research
Industrial production lines are undergoing transformation to adapt to the competitive market. As factory of the future becomes real, inter-connected devices autonomously enable flow of data, allowing automated analysis. Automation requires machines that are highly technologically advanced to derive reliable results. With manufacturing shop floors transforming into smarter and connected environments, measurement systems will also witness a shift. Operational activities in the value chain will be positioned closer to avoid bottleneck and delayed supply of product to market. Metrology systems will be moved to improve the status quo of finished products and provide a more flexible production environment. In this way, each part’s status can be monitored from raw material stage until packaging stage in real time. Key Questions Addressed in the report What is the traditional scenario in manufacturing quality inspection? What are the key evolution areas? Which are some of the advancements initiatives? What are the challenges in traditional inspection systems ? What are the commonly adopted technology solutions in embedded metrology ? Who are the leading participants in the embedded metrology market ? What is the global presence of the technology? What are the factors driving adoption of the in-metrology solutions ? What steps and measures must developers and end users adopt to stay ahead in the market ?
More Information
No Index No
Podcast No
Author Ranjana Lakshmi Venkatesh Kumar
Industries Industrial Automation
WIP Number D8CE-01-00-00-00
Is Prebook No