.. _label-References: References ===================================== .. _label-literature: Literature ----------------------------- * Hasofer AM (1978) `Upcrossings of random fields. `_ **Suppl Adv Appl Prob** 10:14-21. * Hayasaka S, Peiffer AM, Hugenschmidt CE, Laurienti PJ (2007). `Power and sample size calculation for neuroimaging studies by non-central random field theory. `_ **NeuroImage** 37(3): 721-730. * Friston KJ, Worsley KJ, Frackowiak RSJ, Mazziotta JC, Evans AC (1994). `Assessing the significance of focal activations using their spatial extent. `_ **Human Brain Mapp** 1: 210-220. * Friston KJ, Holmes A, Poline JB, Price CJ, Frith CD (1996). `Detecting Activations in PET and fMRI: Levels of Inference and Power. `_ **NeuroImage** 4(3): 223--235. * Joyce KE, Hayasaka S (2012). `Development of PowerMap: a Software Package for Statistical Power Calculation in Neuroimaging Studies. `_ **Neuroinform** 10: 351. * Mumford J, Nichols TE (2008). `Power Calculation for Group fMRI Studies Accounting for Arbitrary Design and Temporal Autocorrelation. `_ **NeuroImage** 39(1): 261–268. * Pataky TC (2016). `rft1d: Smooth one-dimensional random field upcrossing probabilities in Python `_ **Journal of Statistical Software** 71(7): i07. * Pataky TC (in review). Power1D: A Python toolbox for numerical power estimates in experiments involving one-dimensional continua. **PeerJ Computer Science**. * Ramsay JO, Silverman BW (2005). `Functional Data Analysis `_ Springer-Verlag, New York. .. _label-software: Software ----------------------------- * `fmripower `_ * `PowerMap `_ * `rft1d `_ * `spm1d `_ * `SPM12 `_