Eden Elbaz
@edenelbaz.bsky.social
Ph.D. student | Neuroscience | Unconscious processing | Data scientist
So fun to present my work on calibration methods at the @assc28.bsky.social! Link to the preprint osf.io/preprints/ps...
July 8, 2025 at 3:05 PM
So fun to present my work on calibration methods at the @assc28.bsky.social! Link to the preprint osf.io/preprints/ps...
Had a great time presenting our prediction maps at the @assc28.bsky.social! Here is a link to the platform (github.com/EdenElbaz10/...)
July 6, 2025 at 9:44 AM
Had a great time presenting our prediction maps at the @assc28.bsky.social! Here is a link to the platform (github.com/EdenElbaz10/...)
(5/7) We showed that participants were both subjectively and objectively unaware of the critical stimulus, but we still found unconscious priming effects, meaning the stimulus was strong enough to be processed unconsciously. This highlights the advantage of STEP
May 10, 2025 at 4:18 PM
(5/7) We showed that participants were both subjectively and objectively unaware of the critical stimulus, but we still found unconscious priming effects, meaning the stimulus was strong enough to be processed unconsciously. This highlights the advantage of STEP
(4/7) After the simulations, we ran three experiments to further validate STEP. Each included a calibration phase followed by either a motor or affective priming task
May 10, 2025 at 4:17 PM
(4/7) After the simulations, we ran three experiments to further validate STEP. Each included a calibration phase followed by either a motor or affective priming task
(3/7) We introduce the Subliminal Threshold Estimation Procedure (STEP), a novel calibration method designed specifically for unconscious processing studies. Using simulations (github.com/EdenElbaz10/...), we show that STEP performs better than existing calibration methods
May 10, 2025 at 4:17 PM
(3/7) We introduce the Subliminal Threshold Estimation Procedure (STEP), a novel calibration method designed specifically for unconscious processing studies. Using simulations (github.com/EdenElbaz10/...), we show that STEP performs better than existing calibration methods
(2/7) A major challenge in unconscious processing research is ensuring that the critical stimulus is presented subliminally, while still being strong enough to allow for unconscious processing. One way to achieve this is by calibrating stimulus strength
May 10, 2025 at 4:16 PM
(2/7) A major challenge in unconscious processing research is ensuring that the critical stimulus is presented subliminally, while still being strong enough to allow for unconscious processing. One way to achieve this is by calibrating stimulus strength
(5/7) We showed that participants were both subjectively and objectively unaware of the critical stimulus, but we still found unconscious priming effects, meaning the stimulus was strong enough to be processed unconsciously. This highlights the advantage of STEP
May 10, 2025 at 4:11 PM
(5/7) We showed that participants were both subjectively and objectively unaware of the critical stimulus, but we still found unconscious priming effects, meaning the stimulus was strong enough to be processed unconsciously. This highlights the advantage of STEP
(4/7) After the simulations, we ran three experiments to further validate STEP. Each included a calibration phase followed by either a motor or affective priming task
May 10, 2025 at 4:10 PM
(4/7) After the simulations, we ran three experiments to further validate STEP. Each included a calibration phase followed by either a motor or affective priming task
(3/7) We introduce the Subliminal Threshold Estimation Procedure (STEP), a novel calibration method designed specifically for unconscious processing studies. Using simulations (github.com/EdenElbaz10/...), we show that STEP performs better than existing calibration methods
May 10, 2025 at 4:10 PM
(3/7) We introduce the Subliminal Threshold Estimation Procedure (STEP), a novel calibration method designed specifically for unconscious processing studies. Using simulations (github.com/EdenElbaz10/...), we show that STEP performs better than existing calibration methods
(2/7) A major challenge in unconscious processing research is ensuring that the critical stimulus is presented subliminally, while still being strong enough to allow for unconscious processing. One way to achieve this is by calibrating stimulus strength
May 10, 2025 at 4:09 PM
(2/7) A major challenge in unconscious processing research is ensuring that the critical stimulus is presented subliminally, while still being strong enough to allow for unconscious processing. One way to achieve this is by calibrating stimulus strength
(2/7) A major challenge in unconscious processing research is ensuring that the critical stimulus is presented subliminally, while still being strong enough to allow for unconscious processing. One way to achieve this is by calibrating stimulus strength.
May 10, 2025 at 4:09 PM
(2/7) A major challenge in unconscious processing research is ensuring that the critical stimulus is presented subliminally, while still being strong enough to allow for unconscious processing. One way to achieve this is by calibrating stimulus strength.