Adams W, Graham JN, Han X, Riecke H. (2019). Top-down inputs drive neuronal network rewiring and context-enhanced sensory processing in olfaction. PLoS computational biology. 15 [PubMed]

• Neurogenesis in the olfactory bulb controlled by top-down input (Adams et al 2018) [Model]

Chow SF, Wick SD, Riecke H. (2012). Neurogenesis drives stimulus decorrelation in a model of the olfactory bulb. PLoS computational biology. 8 [PubMed]

• Olfactory bulb network: neurogenetic restructuring and odor decorrelation (Chow et al. 2012) [Model]

Kaplan BA, Lansner A. (2014). A spiking neural network model of self-organized pattern recognition in the early mammalian olfactory system. Frontiers in neural circuits. 8 [PubMed]

• Self-organized olfactory pattern recognition (Kaplan & Lansner 2014) [Model]

Migliore M, Hines ML, McTavish TS, Shepherd GM. (2010). Functional roles of distributed synaptic clusters in the mitral-granule cell network of the olfactory bulb. Frontiers in integrative neuroscience. 4 [PubMed]

• Olfactory bulb cluster formation (Migliore et al. 2010) [Model]

Simões-de-Souza FM, Antunes G, Roque AC. (2014). Electrical responses of three classes of granule cells of the olfactory bulb to synaptic inputs in different dendritic locations. Frontiers in computational neuroscience. 8 [PubMed]

• Granule Cells of the Olfactory Bulb (Simoes_De_Souza et al. 2014) [Model]

Yu Y et al. (2013). Sparse distributed representation of odors in a large-scale olfactory bulb circuit. PLoS computational biology. 9 [PubMed]

• Large scale model of the olfactory bulb (Yu et al., 2013) [Model]