Hansheng Cai scite author profile

Whether internal insight can be recognized by experiencing (somatic feeling) remains an unexplored problem. This study investigated the issue by examining potential somatic markers of the "aha" experience occurring at the moment of sudden insight. Participants were required to solve a set of compound remote associates (CRA) problems and were simultaneously monitored via electrodermal and cardiovascular recordings. The "aha"-related psychological components and somatic markers were determined by contrasting insightful solutions with non-insightful solutions. Results showed that the "aha" experience was an amalgam entailing positive affects and approached cognition accompanied by a greater mean skin conductance response (mSCR) amplitude and a marginally accelerated heart rate than the "no-aha" one. These results confirm and extend findings of the multidimensionality of the "aha" feeling and offer the first direct evidence of somatic markers, particularly an electrodermal signature of an "aha" feeling, which suggests a sudden insight could likely be experienced by individuals' external soma.

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Precise orbit determination for BDS-3 satellites using satellite-ground and inter-satellite link observations

Xie

Geng

Zhao

et al. 2019

GPS Solut

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A miniature surface tension-driven robot using spatially elliptical moving legs to mimic a water strider’s locomotion

et al. 2015

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The highly agile and efficient water-surface locomotion of the water strider has stimulated substantial interest in biomimetic research. In this paper, we propose a new miniature surface tension-driven robot inspired by the water strider. A key feature of this robot is that its actuating leg possesses an ellipse-like spatial trajectory similar to that of a water strider by using a cam-link mechanism. Simplified models are presented to discuss the leg-water interactions as well as critical conditions for a leg penetrating the water surface, and simulations are performed on the robot's dynamic properties. The final fabricated robot weighs about 3.9 g, and can freely and stably walk on water at different gaits. The maximum forward and turning speeds of the robot are measured as 16 cm s −1 and 23°/s, respectively. Furthermore, a similarity analysis with Bond number and Weber number demonstrates that the locomotion of this robot is quite analogous to that of a real water strider: the surface tension force dominates the lifting force and plays a major role in the propulsion force. This miniature surface tension-driven robot might have potential applications in many areas such as water quality monitoring and aquatic search and rescue.

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The Mechanical Design and Experiments of HIT/DLR Prosthetic Hand

Huang

Jiang

Liu

et al. 2006

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Adaptive sliding bandlimited multiple fourier linear combiner for estimation of pathological tremor

Wang

Gao

Zhao

et al. 2014

Biomedical Signal Processing and Control

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Hansheng Cai

Combined Use of FSR Sensor Array and SVM Classifier for Finger Motion Recognition Based on Pressure Distribution Map

Optimal Tolerance Allocation Based on Fuzzy Comprehensive Evaluation and Genetic Algorithm

Household pathway selection of energy consumption during urbanization process in China

Feeling the Insight: Uncovering Somatic Markers of the “aha” Experience

Precise orbit determination for BDS-3 satellites using satellite-ground and inter-satellite link observations

A miniature surface tension-driven robot using spatially elliptical moving legs to mimic a water strider’s locomotion

The Mechanical Design and Experiments of HIT/DLR Prosthetic Hand

Adaptive sliding bandlimited multiple fourier linear combiner for estimation of pathological tremor

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