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(2004). The first computational theory of mind and brain: a close look at McCulloch and Pitts's "logical calculus of ideas immanent in nervous activity". Synthese, 141 (2), 175-215. https://doi.org/10.1023/B:SYNT.0000043018.52445.3e.

(2006). Computational explanation in neuroscience. Synthese, 153 (3), 343-353. https://doi.org/10.1007/s11229-006-9096-y.

(2007). Computationalism, the Church–Turing thesis, and the Church–Turing fallacy. Synthese, 154 (1), 97-120. https://doi.org/10.1007/s11229-005-0194-z.

(2010). The mind as neural software?: understanding functionalism, computationalism, and computational functionalism. Philosophy and Phenomenological Research, 81 (2), 269-311.

with Craver, C. F. (2011). Integrating psychology and neuroscience: functional analyses as mechanism sketches. Synthese, 183 (3), 283-311. https://doi.org/10.1007/s11229-011-9898-4.

(ed) (2011). Synthese 183 (3).

(ed) (2012). Synthese 189 (3).

with Maley, C. (2013). Get the latest upgrade: functionalism 6.3.1. Philosophia Scientiae, 17 (2), 135-149. https://doi.org/10.4000/philosophiascientiae.861.

with Maley, C. (2014). From phenomenology to the self-measurement methodology of first-person data. In R. S. Brown (Ed.). Consciousness inside and out (pp. 27-32). Dordrecht: Springer.

(ed) (2014). Synthese 191 (2).

with Boone, W. (2016). The cognitive neuroscience revolution. Synthese, 193 (5), 1509-1534. https://doi.org/10.1007/s11229-015-0783-4.

(ed) (2016). Synthese 193 (5).

(ed) (2016). Synthese 193 (12).

(2017). Activities are manifestations of causal powers. In M. P. Adams, Z. Biener, U. Feest, & J. A. Sullivan (Eds.). Eppur si muove (pp. 171-182). Dordrecht: Springer.

(ed) (2018). Synthese 195 (5).