One of the goals of the COMPASS experiment is the precision study of light-meson spectroscopy with data for various final states. With 46\times 10^6$ exclusive events, the process \process constitutes the flagship channel.
Based on this data set, the results of an extensive partial-wave analysis (PWA), using a total of 88 partial waves in the model, were published. Along with it, results of a first study of the so-called freed-isobar method were shown. Here, the fixed amplitudes for appearing $\Ppip\Ppim$ intermediate states used in the conventional analysis were replaced by sets of piecewise constant functions to extract the amplitudes of the $\Ppip\Ppim$ subsystems directly from the data. In this first study, this was done for three $\Ppi$ partial waves with $\JPC=0^{++}$ intermediate $\Ppip\Ppim$ states.
The promising results inspired further extension of this method, by also freeing intermediate $\Ppip\Ppim$ states with $\JPC = 1^{--}$ and $2^{++}$. With this extension of the set of freed waves, mathematical ambiguities in the model arise due to the much higher flexibility of the model. We will present first results of these extended studies on COMPASS data along with methods to resolve the arising ambiguities.