Peer reviewed publications

More information on Google Scholar.

1. Layton OW & Fajen BR (2017). Possible Role for Recurrent Interactions between Expansion and Contraction cells in MSTd during Self-Motion Perception in Dynamic Environments. Journal of Vision.17(5). [link]
2. Layton OW & Fajen BR (2016). A Neural Model of MST and MT Explains Perceived Object Motion During Self-Motion. Journal of Neuroscience. 36(301). [link]
3. Layton OW & Fajen BR (2016). Competitive Dynamics in MSTd: A Mechanism for Robust Heading Perception Based on Optic Flow. PLOS Computational Biology. 12(6). [link]
4. Layton OW & Fajen BR (2016). The Temporal Dynamics of Heading Perception in the Presence of Moving Objects. Journal of Neurophysiology. 115(1). [link]
5. Layton OW & Fajen BR (2016). Sources of bias in the perception of heading in the presence of moving objects: Object-based and border-based discrepancies. Journal of Vision. 16(1). [link]
6. Layton OW & Yazdanbakhsh A (2015). A Neural Model of Border-Ownership from Kinetic Occlusion. Vision Research (106). [link]
7. Layton OW & Browning NA (2014). A Unified Model of Heading and Path Perception in Primate MSTd. PLOS Computational Biology. 10(2). [link]
8. Layton OW, Mingolla E, Yazdanbakhsh A (2014). Neural Dynamics of Feedforward and Feedback Processing in Figure-Ground Segregation. Frontiers in Psychology. 5(972). [link]
9. Layton OW & Browning NA (2013). The Simultaneous Coding of Heading and Path in Primate MSTd. IJCNN Neural Networks. [link]
10. Layton OW, Mingolla E, Yazdanbakhsh A (2012). Dynamic Coding of Border-Ownership in Visual Cortex. Journal of Vision. 12(13). [link]
11. Layton OW & Browning NA (2012). Recurrent Competition Explains Temporal Effects of Attention in MSTd. Frontiers In Computational Neuroscience. 6(80). [link]
12. Layton OW, Mingolla E, Browning NA (2012). A Motion-Pooling Model of Visually-Guided Navigation Explains Human Behavior in the Presence of Independently Moving Objects. Journal of Vision. [link]