Optimal and practical trans-path analysis (TPA)
Challenge: Easy to understand the results of TPA analysis
There exist several approaches in TPA analysis, which are the dynamic spring method, the inverse matrix method and the operational TPA method. However, the outputs from each method are not identical respectively because of each method has knowhow of test and measurement procedures as well as different analytical schemes.
Additionally, it is not easy to understand the phenomenon since the outputs of contribution analysis are not identical even for the same phenomenon.
How to resolve pains:
ESTECH.PathFinder is an integrated TPA tool consists of the three approaches mentioned-above plus Assembly TPA and Multiple Coherence Contribution analyses which are original technologies of the company.
Because it requires extensive knowhow to apply TPA software and understand the output of the analysis, making use of technical support and technical transfer by experienced engineers of the company are highly recommended.
Strength of the Software
- Substantial reduction of the experimental man-hour is achieved by applying the company's original software named "Assembly TPA" which enables engineer to conduct TPA analysis in assembly state of a test specimen.
