TU/e HTSC Research Meet 'Smart Manufacturing'

Date
Thursday September 12, 2019 from 3:00 PM to 6:00 PM
Location
Multi-Media Paviljoen, TU/e Campus
Price
Free of charge
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Brainport, the digital 'mainport' of the Dutch manufacturing industry

Datafication - the creation of economic value from data- offers excellent opportunities for the Brainport region to develop new and existing businesses. In the high-tech manufacturing industry in Brabant, more and more data is being produced, particulary for the optimization of (production) processes and equipment performance.

A competitive manufacturing industry is increasingly determined by the extent to which companies know how to work together in a network in design, manufacturing, operations, maintenance and even remanufacturing stages, covering the complete product life cycle. Here, digitization is a critical precondition for these developments. More and more often it concerns data that must be shared "through the factory walls". Machine, production and process data are the ingredients for new "Smart Industry" concepts such as flexible manufacturing, supply chain collaboration, quality control and zero defect manufacturing. This also makes it possible to integrate new production techniques, such as additive manufacturing, into existing production processes.

The role of data as a production factor is therefore becoming increasingly important. Through the application of Internet-of-Things technology the amount of data within production environments is growing exponentially. Collaboration between companies creates the need for controlled data-sharing and new processing mean in order to capture the value from the data.

In this Research Meet, a few examples will be given from both Industry and from Eindhoven University of Technology in order to highlight the developments towards a digital factory of the future. You can register here.

Program

15:00  Welcome
  Georgo Angelis - TU/e HTSC
   
15:05     Smart Manufacturing: The BIC Picture
  John Blankendaal - Brainport Industries
   
15:35     Industrial Engineer
  Koen Herps - KMWE & TU/e Industrial Engineering & Innovation Sciences
   
16:05     Break
   
16:20    Process Mining – Data-driven Compliance
  Prof.dr.ir. Boudewijn van Dongen - TU/e Mathematics and Computer Science
   
16:50   Industrial IoT Platform for the High-Tech Industry (pitch)
  David Rijsman - MEUNGO 
   
17:05 Drinks & networking
18:00  End

Subject to change

 

Process Mining – Data-driven Compliance

Prof.dr.ir. Boudewijn van Dongen - TU/e Mathematics and Computer Science

In process mining, we analyze event logs from systems which capture who did what activity when and in the context of which case. Such event logs can be analyzed to obtain insights into the actual process and most importantly to what extent it matches with the intended processes. While the typical application of process mining techniques are in the analysis of business processes, we also have experience with the analysis of sensor data from a variety of systems to get insights into the underlying performance of these systems.

 

Industrial IoT Platform for the High-Tech Industry

David Rijsman - MEUNGO

MEUNGO (www.meungo.com) is a JADS* Playground start-up that provides a universal cloud-based software service that allows for easy deployment from all kinds of connected devices. Getting the right actions at the right place at the right time. Designed to be integrated into existing business by business users.

*JADS is a unique cooperation between the Province of North Brabant, the Municipality of ‘s-Hertogenbosch, Tilburg University and Eindhoven University of Technology.

Organizer

High Tech Systems Center

In next-generation high-tech and mechatronic systems, extreme functionalities and performance requirements will be realized by using a model-based multi-physics systems approach.

New sensing technologies and actuator designs for multi-physics processes (forces, flows, temperatures, acoustics, optics) will need to be integrated with and used by distributed on-line model-based control and optimization tools. The control systems are adaptive, auto-tuned, are implemented in optimized hardware and software architectures, and use effective (wireless) communication.