Cognitive radio applications require flexible waveforms to overcome challenges such as opportunistic spectrum allocation. In this context, filtered multicarrier modulations are particularly justified to fit time-frequency characteristics of the channel. In our theoretical framework, a multicarrier signal is described as a Gabor family the coeÿcients of which are the symbols to be transmitted and the generators are the time-frequency shifted pulse shapes to be used. In this article, we consider non-rectangular pulse shapes and an increased signaling density such that inter-pulse interference is unavoidable. Such an interference is minimized when using a tight Gabor frame. We show that, in this case, it can be approximated as an additive Gaussian noise, allowing us to compute theoretical bit-error-probability. This result allows to predict the convergence of a coded system using iterative decoding. We also study the relevancy of such a system in an interference cancellation context.