MARS: Magnitude-Aware Rank Statistics
Provides a more accurate evaluation tool for researchers comparing multiple machine learning models in extensive experiments.
MARS addresses magnitude-blindness in Critical Difference diagrams by incorporating a relative margin coefficient into rank statistics, enabling more realistic statistical comparisons of model performances.
Comprehensive evaluation of machine learning models is the key to make sure that they perform as robustly and consistently as desired. In order to summarize the experimental results and pick a winner, Critical Difference (CD) diagrams are used. Standard CD diagrams rely on discrete ranks, discarding the magnitude of performance gaps between models, raising an issue which we call magnitude-blindness. In order to address this issue, we propose Magnitude-Aware Rank Statistics (MARS) that incorporates a relative margin coefficient as a weight for the discrete ranks. This coefficient scales ranks based on the distance between the best and worst performers, with a dynamic projection to handle boundary cases. Followed by the calculation of a CD value, MARS results in a more realistic statistical representation of differences of model performances and more insights on how methods actually perform in vast and extensive experimental settings.