*Result*: Brain–computer interface channel selection optimization using meta-heuristics and evolutionary algorithms.

*Many brain–computer interface (BCI) studies overlook the channel optimization due to its inherent complexity. However, a careful channel selection increases the performance and users' comfort while reducing the cost of the system. Evolutionary meta-heuristics, which have demonstrated their usefulness in solving complex problems, have not been fully exploited yet in this context. The purpose of the study is two-fold: (1) to propose a novel algorithm to find an optimal channel set for each user and compare it with other existing meta-heuristics; and (2) to establish guidelines for adapting these optimization strategies to this framework. A total of 3 single-objective (GA, BDE, BPSO) and 4 multi-objective (NSGA-II, BMOPSO, SPEA2, PEAIL) existing algorithms have been adapted and tested with 3 public databases: 'BCI competition III-dataset II', 'Center Speller' and 'RSVP Speller'. Dual-Front Sorting Algorithm (DFGA), a novel multi-objective discrete method especially designed to the BCI framework, is proposed as well. Results showed that all meta-heuristics outperformed the full set and the common 8-channel set for P300-based BCIs. DFGA showed a significant improvement of accuracy of 3.9% over the latter using also 8 channels; and obtained similar accuracies using a mean of 4.66 channels. A topographic analysis also reinforced the need to customize a channel set for each user. Thus, the proposed method computes an optimal set of solutions with different number of channels, allowing the user to select the most appropriate distribution for the next BCI sessions. [Display omitted] • Meta-heuristics can find an optimal channel set in P300-based BCI systems. • Six single- and four multi-objective algorithms are compared for the first time. • Dual-Front Sorting Algorithm (DFGA) demonstrated an excellent performance. • Discrete approaches performed better due to the dichotomous nature of the problem. • Meta-heuristics cannot be used in their common form and should be carefully adapted. [ABSTRACT FROM AUTHOR]*