Visual Perception of 3D Space and Shape in Time - Part III 2D Shape Recognition by Log-Scaling

Ta, Brian; Silva, Maria E. M. M.; Bartlett, Kelly; Afifa, Umaima; Agazaryan, Annie; Canela, Ricardo; Carmona, Javier; Leon, Emmanuel John L. De; Drost, Alyssa; Espino, Diego; Espinoza, Guadalupe; Follis, Kyleigh; Gan, Paul; Ho, Lauren; Honore, Christina; Huang, Emily; Ibarra, Luis; Jackson, Tessa; Khosla, Mira; Le, Caominh T; Li, Victor; McCarthy, Trevor; Mills, Elizabeth; Mohapatra, Sukanya; Morishige, Yuuki; Nguyen, Nancy; Peng, Ziyan; Peyvan, Kimya; Phipps, Michael; Poschl, Isabella; Rangarajan, J.; Santos, Charÿsa; Schummer, Leonard; Shi, Sky; Smale, Natalie; Smith, April; Sood, Divya; Ta, Cindy; Tran, Anna; Tran, Michelle; Wang, Rui; Wilson, P; Yang, Nicole L.; Yu, Megan; Yu, Selena; Blaisdell, Aaron P.; Arisaka, K.

doi:10.1101/2022.03.01.482004

2022

DOI: 10.1101/2022.03.01.482004

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Visual Perception of 3D Space and Shape in Time - Part III 2D Shape Recognition by Log-Scaling

Brian Ta

Maria E. M. M. Silva²,

Kelly Bartlett³

et al.

Abstract: Human vision has a remarkable ability to recognize complex 3D objects such as faces that appear with any size and 3D orientations at any 3D location. If we initially memorize a face only with a normalized size and viewed from directly head on, the direct comparison between the one-sized memory and a new incoming image would demand tremendous mental frame translations in 7D. How can we perform such a demanding task so promptly and reliably as we experience the objects in the world around us?Intriguingly, our pr… Show more

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Cited by 2 publications

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Visual Perception of 3D Space and Shape in Time - Part I: 2D Space Perception by 2D Linear Translation

Afifa

Carmona²,

Dinh³

et al. 2022

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Visual perception plays a critical role in navigating space and extracting useful semantic information crucial to survival. To identify distant landmarks, we constantly shift gaze vectors through saccades, while still maintaining the visual perception of stable allocentric space. How can we sustain stable allocentric space so effortlessly? To solve this question, we have developed a new concept of NHT (Neural Holography Tomography). This model states that retinotopy is invisible (not available to consciousness) and must be converted to a time code by traveling alpha brainwaves to perceive objects consciously. According to this framework, if identical alpha phases are continually assigned to a landmark, we perceive its exact and consistent allocentric location.To test this hypothesis, we designed reaction time (RT) experiments to observe evidence of the predicted space-to-time conversion. Various visual stimuli were generated at a wide range of eccentricities either on a large TV (up to 40°) or by LED strips on a hemispherical dome (up to 60°). Participants were instructed to report the observed patterns promptly under either covert (no eye movement) or overt (with eye movement) conditions. As predicted, stimuli presented at the center of fixation always produced the fastest RTs. The additional RT delay was precisely proportional to the eccentricity of the peripheral stimulus presentation. Furthermore, both covert and overt attention protocols created the same RT delays, and trajectories of saccadic eye motions were in parallel to the overt RT vs. eccentricity. These findings strongly support our NHT model, in which the observed RT-eccentricity dependence is indicative of the spatiotemporal conversion required for maintaining a stable allocentric frame of reference. That is, we perceive space by time.

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Visual Perception of 3D Space and Shape in Time - Part I: 2D Space Perception by 2D Linear Translation

Afifa

Carmona²,

Dinh³

et al. 2022

Preprint

Self Cite

View full text Add to dashboard Cite

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Visual Perception of 3D Space and Shape in Time - Part IV - 3D Shape Recognition by 3D Rotation

Pedersen

Chan

et al. 2022

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Human vision has a remarkable ability to recognize complex 3D objects such as faces that appear at any size and 3D orientations at any 3D location. If we initially memorize a face only with a normalized size upfront at the object center, the direct comparison between the one-sized memory and an incoming new image would demand tremendous mental frame translations in 7D. How can we perform such a demanding task so promptly as we experience it in our daily lives?This paper specifically addresses the recognition of human faces with arbitrary 3D orientation in the [Roll, Yaw, Pitch] axes. According to our new model of NHT (Neural Holography Tomography), space is represented by time utilizing the phase of the alpha brainwave. This principle should be applicable to any mental rotation in 3D; thus, it predicts that extra time is required to perceive a rotated face to revolve it back to upright by the constant-speed alpha wave.To assess this hypothesis, we designed a reaction time (RT) experiment, where participants were first asked to memorize sets of upright unfamiliar faces. Following the memorization phase, similar stimuli with a wide range of rotating faces in 3D were presented, and RTs were recorded. As expected, the memorized upfront face was the fastest RT. The excess of the RT was observed proportional to the rotating angle in all [Roll, Yaw, Pitch] axes. Roll had the flattest slope, whereas upper Pitch was the steepest. We suspect that Roll is the swiftest mental operation because it can be conducted by the linear frame translation on the log-polar retinotopy of the visual cortex.

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Visual Perception of 3D Space and Shape in Time - Part III 2D Shape Recognition by Log-Scaling

Cited by 2 publications

References 18 publications

Visual Perception of 3D Space and Shape in Time - Part I: 2D Space Perception by 2D Linear Translation

Visual Perception of 3D Space and Shape in Time - Part I: 2D Space Perception by 2D Linear Translation

Visual Perception of 3D Space and Shape in Time - Part IV - 3D Shape Recognition by 3D Rotation

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