Hi @Mathej01,
I will comment on some of your questions and responses:
- "I dont really know how to explain the complexity . But i do have various types of responses , for example total price to rheological properties."
I perfectly see your point, price might be a very easy response to model (additive contribution of factors), whereas for rheological properties you may encounter some strong non-linearities depending on the ratio of some raw materials in the formulation. So a single apriori model sufficient and relevant for all responses may be difficult to find to take into consideration the differences in complexity between several responses.
- "I am not really sure how different is space filling approach. I can only manage 20 experiment runs at most. Will that make any sense to do with space fillling approach?"
Here is a short overview and comparison between model-based and model-agnostic approach :
As you can see, the methodology behind these two designs types is very different, and may be complementary.
Concerning your budget for 20 runs, it depends on how many mixture factors do you have : the more factors you have, the more spread out will be the points in the experimental space, the higher will be your prediction variance (as the grid points/net will be more sparse, the prediction performances may be lower). Space-Filling approach are often used in combination with Machine Learning models (example (in french, soon in english) here from one of my use case : https://community.jmp.com/t5/Groupe-francophone-des/Compl%C3%A9mentarit%C3%A9-des-plans-d-exp%C3%A9r...)
What may also be interesting could be to combine and use a model-based approach to place points in the edges/corners/vertices of your experimental space, and augment this design with Space-Filling points with the remaining experimental budget. This enable you to cover the full experimental space (borders included), and choose in the analysis phase a large variety of approaches, from different regression models to ML models.
I hope this complementary answer will help you,
Victor GUILLER
"It is not unusual for a well-designed experiment to analyze itself" (Box, Hunter and Hunter)