ESTV MIDway seminar

On behalf of ESTV project and academic partners (Aalto University and VTT), It is a great pleasure to invite you to the  Midway Seminar ” Intelligent Techniques in Condition Monitoring of Electromechanical Energy Conversion Systems”, which will be held on Friday, January 13, 2023, at Tampere University (Hervanta Campus), Finland. The seminar will be organized and hosted by Innovative Hydraulics and Automation (IHA) at Tampere University (TAU), Finland.

Condition monitoring of electromechanical energy conversion systems, such as electric vehicles, wind turbines, or hydraulic units, is of great significance. A failure in any part of the system can incur considerable economical losses or might endanger the safety of the humans and the environment. To automate the condition monitoring of these systems, high-dimensional non-linear models such as artificial deep neural networks, random forests, or networked exponential families are investigated. These methods are generally data-hungry, however, intelligent techniques such as transfer learning and data augmentation are applied to overcome these challenges.

ESTV research project concentrates on developing modern artificial intelligence-based methods for condition monitoring of electro-hydraulic systems. To ensure safe and efficient operation of these systems, it is essential to predict their incipient faulty operations at an early stage.

In seminar you will learn:

  • The challenges of implementing condition monitoring in electro-hydraulic systems
  • How to minimize the use of sensors?
  • The advantages of data collection and cloud storage usage
  • How robust are simulation models to generate real data ?

Sounds interesting? 

When: On January 13th, 2023 at

  • 11:45                 Coffee Served
  • 12:00 – 14:00    Seminar and Q&A Session (English language)
  • 14:00 – 15:00    IHA lab visit (optional)

Where: Room K1703, Korkeakoulunkatu 6, Tampere, Finland

 

Your contact person for questions

Tatiana Minav

  • Assistant Professor (tenure track) Hybrid Drives
  • Leader of Zonal Hydraulics
  • Automation Technology and Mechanical Engineering
  • Tampere University
  • +358505940496
  • tatiana.minav@tuni.fi