_{Publications:
Department for Sensory & Sensorimotor Systems}

Zhaoping, L.: Testing the top-down feedback in the central visual field using the reversed depth illusion. iScience 28 (4), 112223 (2025)

Liang, J.; Yang, Z.; Zhou, C.: Excitation-Inhibition Balance, Neural Criticality, and Activities in Neuronal Circuits. Neuroscientist 31 (1), pp. 31 - 46 (2025)

Liang, J.; Zhaoping, L.: Trans-saccadic integration for object recognition peters out with pre-saccadic object eccentricity as target-directed saccades become more saliency-driven. Vision Research 226, 108500 (2025)

Yang, Z.; Liang, J.; Zhou, C.: Critical Avalanches in Excitation-Inhibition Balanced Networks Reconcile Response Reliability with Sensitivity for Optimal Neural Representation. Physical Review Letters 134 (2), 028401 (2025)

Zhaoping, L.: Applying the efficient coding principle to understand encoding of multisensory and multimodality sensory signals. Vision Research 226, 108489 (2025)

Zhaoping, L.: The central-peripheral dichotomy theory and the reversed depth illusion. Systems Vision Science Summer School and Symposium 2025, Tübingen, Germany (2025)

Aksiotis, V.; Liang, J.; Zhaoping, L.: Scalp event-related potentials (ERPs) reflect distinct neural processes for attention shifts, perception, and decision-making in a visual search task. Systems Vision Science Summer School and Symposium 2025, Tübingen, Germany (2025)

Liang, J.; Zhaoping, L.: Trans-saccadic integration for object recognition peters out with pre-saccadic object eccentricity as target-directed saccades become more saliency-driven. Systems Vision Science Summer School and Symposium 2025, Tübingen, Germany (2025)

Zhaoping, L.: Looking with and without seeing in an individual with macular degeneration impairing central vision. Systems Vision Science Summer School and Symposium 2025, Tübingen, Germany (2025)

Zhaoping, L.: Exploring the flip tilt illusion in central vision by impairing the top-down feedback via backward masking. Twenty-Fifth Annual Meeting of the Vision Sciences Society (VSS 2025), St. Pete Beach, FL, USA (2025)

Liu, C.; Liu, C.; Huber, L.; Zhaoping, L.; Zhang, P.: V1 superficial layers create a saliency map that feeds forward to the parietal cortex for attentional guidance. (submitted)

Zhaoping, L.: Vision: looking and seeing through our brain’s information bottleneck. (submitted)

Zhaoping, L.: Vision: looking and seeing through our brain's information bottleneck. (submitted)