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Effect of Experimental Paradigms on Reaction Time-based Concealed Information Test
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엄진섭 Jin-sup Eom |
KJSES 24(2) 3-12, 2021 DOI : 10.14695/KJSOS.2021.24.2.3 |
ABSTRACT
Most researchers have experimentally evaluated the detection efficiency of reaction time-based concealed information tests (RT CIT). In experimental studies, two experimental paradigms have been mainly used to create a lying situation, mock-crime paradigm and personal-item paradigm. This study is aimed at testing the detection efficiency of RT CIT for the one that could be estimated as the same as the other, regardless of the experimental paradigms. In study 1, it was tested whether the effect size of RT CIT was different in the two experimental paradigms through meta-analysis. As a result of the meta-analysis of 39 studies, the effect size (Hedges’g = 1.330) of the mock-crime paradigm was slightly larger than that (Hedges’g = 1.145) of the personal-item paradigm, but no statistically significant difference was found. Study 2 was an experimental study using both the mock-crime and personal-item paradigms, it was conducted to determine whether the detection efficiency of RT CIT differs in the two experimental paradigms. As a result of ANOVA , it was found that the RT differences between the probe and irrelevant stimuli were not significant in the two experimental paradigms. In the experimental study, the effect size (Cohen’s d) of the mock-crime and personal-item paradigms were 1.638 and 1.535, respectively. In the discussion section, the reason of the detection efficiency of RT CIT not affected by the experimental paradigms was discussed.
keyword : Reaction Time, Concealed Information Test, Mock Crime, Personal-Item, 반응시간, 숨긴정보검사, 모의 범죄, 개인적 항목
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Design of Interior Space for Psychological Safety of Passengers according to In-Vehicle Activity of Fully Autonomous Vehicle
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유지민 Ji Min Ryu , 권주영 Ju Yeong Kwon , 주다영 Da Young Ju |
KJSES 24(2) 13-24, 2021 DOI : 10.14695/KJSOS.2021.24.2.13 |
ABSTRACT
In level 5 (mind-off) of autonomous driving, the autonomous vehicle passengers are expected to have various activities such as face-to-face meetings, working, relaxing, and watching movies. In particular, various changes in the interior space of the vehicle are expected. Moreover, according to the survey conducted by the American Automobile Association, 73% of the respondents reported that they were afraid to board autonomous vehicles. In level 5 of autonomous driving, the subject of safety was expected to be transferred to autonomous vehicles; thus, research should be conducted from the user’s perspective. Recently, various studies have been conducted to secure the safety of fully autonomous vehicles. However, there are limited studies addressing the psychological safety of actual passengers. Therefore, this study conducted a questionnaire based on the AHP technique. Consequently, the automobile safety system’s priority for securing passengers’ psychological safety according to each type of indoor behavior was derived, and the interior space for securing the psychological stability of passengers was suggested based on the obtained results. This study offers a new direction for interior space design, satisfying the psychological safety of passengers. This study is important because it advocates that the interior environment of fully autonomous driving cars is expected to be designed to secure the user’s psychological safety.
keyword : Fully Autonomous Vehicle, Interior Environment, In-Vehicle Activity, Safety, 완전자율주행자동차, 실내 환경, 실내행위, 안전
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Development of the Protocol of the High-Visibility Smart Safety Vest Applying Optical Fiber and Energy Harvesting
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박순자 Soon-ja Park , 정준영 Jun-young Jung , 문민정 Min-jung Moon |
KJSES 24(2) 25-38, 2021 DOI : 10.14695/KJSOS.2021.24.2.25 |
ABSTRACT
The aim of this study is to protect workers and pedestrians from accidents at night or bad weather by attaching optical fiber to existing safety clothing that is made only with fluorescent fabrics and retroreflective materials. A safety vest was designed and manufactured by applying optical fiber, and energy-harvesting technology was developed. The safety vest was designed to emit light using the automatic flashing of optical fibers attached to the film, and an energy harvester was manufactured and attached to drive the light emission of the optical fiber more continuously. As a result, first, the vest wearer' body was recognized from a distance through the optical fiber and retroreflection, which helped prevent accidents. Thus, this concept helps in saving lives by preventing accidents during night-time work on the roadside or activities of rescue crew and sports activities, or by quickly finding the point of an accident with a signal that changes the optical fiber light emission. Second, to use the wasted energy, a piezoelectric-element power generation system was developed and the piezoelectric-harvesting device was mounted. Potentially, energy was efficiently produced by activating the effective charging amount of the battery part and charging it auxiliary. In the existing safety vest, detecting the person wearing the vest is almost impossible in the absence of ambient light. However, in this study, the wearer could be found within 100 m by the light emission from the safety vest even with no ambient light. Therefore, in this study, we will help in preventing and reducing accidents by developing smart safety clothing using optical fiber and energy harvester attached to save lives.
keyword : Accident Prevention, Energy Harvesting, High Visibility, Piezoelectric Device, Smart Safety Vest, 사고예방, 에너지 하베스팅, 고시인성, 압전소자, 스마트 안전조끼
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Comparisons of the Plastic Changes in the Central Nervous System in the Processing of Neuropathic Pain
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권민지 Minjee Kwon |
KJSES 24(2) 39-48, 2021 DOI : 10.14695/KJSOS.2021.24.2.39 |
ABSTRACT
According to International Associating for the Study of Pain (IASP) definition, neuropathic pain is a disorder characterized by dysfunction of the nervous system that, under normal conditions, mediates virulent information to the central nervous system (CNS). This pain can be divided into a disease with provable lesions in the peripheral or central nervous system and states with an incorporeal lesion of any nerves. Both conditions undergo long-term and chronic processes of change, which can eventually develop into chronic pain syndrome, that is, nervous system is inappropriately adapted and difficult to heal. However, the treatment of neuropathic pain itself is incurable from diagnosis to treatment process, and there is still a lack of notable solutions. Recently, several studies have observed the responses of CNS to harmful stimuli using image analysis technologies, such as functional magnetic resonance imaging (fMRI), positron emission tomography (PET), and optical imaging. These techniques have confirmed that the change in synaptic-plasticity was generated in brain regions which perceive and handle pain information. Furthermore, these techniques helped in understanding the interaction of learning mechanisms and chronic pain, including neuropathic pain. The study aims to describe recent findings that revealed the mechanisms of pathological pain and the structural and functional changes in the brain. Reflecting on the definition of chronic pain and inspecting the latest reports will help develop approaches to alleviate pain.
keyword : Neuropathic Pain, Pain Mechanism, Plasticity, Pain Matrix, Pain Management, 신경병증성 통증, 통증의 기전, 가소성, 뇌 통증 매트릭스, 통증관리
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Analysis of the Necessary Mechanical Properties of Embroiderable Conductive Yarns for Measuring Pressure and Stretch Textile Sensor Electrodes
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김상운 Sang-un Kim , 최승오 Seung-o Choi , 김주용 Joo-yong Kim |
KJSES 24(2) 49-56, 2021 DOI : 10.14695/KJSOS.2021.24.2.49 |
ABSTRACT
In this study, we investigated the necessary mechanical properties of conductive multifilament yarns for fabricating the electrodes of biosignal measurement pressure and stretch textile sensors using embroidery. When electrodes and circuits for smart wearable products are produced through the embroidery process using conductive multifilament yarns, unnecessary material loss is minimized, and complex electrode shapes or circuit designs can be produced without additional processes using a computer embroidering machine. However, because ordinary missionary threads cannot overcome the stress in the embroidery process and yarn cutting occurs, herein, we analyzed the S-S curve, thickness, and twist structure, which are three types of silver-coated multifilament yarns, and measured the stress in the thread of the embroidery simultaneously. Thus, the required mechanical properties of the yarns in the embroidery process were analyzed. In the actual sample production, cutting occurred in silver-coated multifilament rather than silver-coated polyamide/polyester, which showed the lowest S-S curve. In the embroidery process, the twist was unwound through repetitive vertical movement. Further, we fabricated a piezoresistive pressure/tension sensor to measure gauge factor, which is an index for measuring biological signals. We confirmed that the sensor can be applied to the fabrication of embroidery electrodes, which is an important process in the mass production of smart wearable products.
keyword : Physiological Signal, Embroidery Conductive Yarn, Pressure Textile Sensor, Strain Textile Sensor, Textile Sensor Electrode, Smart Healthcare Wearable, 자수용 전도사, 기계적 물성, 자수 전극, 생체 신호 측정, 압력 및 인장 직물 센서, 스마트 웨어러블
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Reaction Times to Predictable Visual Patterns Reflect Neural Responses in Early Visual Cortex
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Sung Jun Joo |
KJSES 24(2) 57-64, 2021 DOI : 10.14695/KJSOS.2021.24.2.57 |
ABSTRACT
It has long been speculated that the visual system should use a coding strategy that takes advantage of statistical redundancies in images. But how such a coding strategy should manifest in neural responses has been less clear. Low-level image structure related to the power spectrum of natural images appears to be captured by a hard-wired efficient code in the retina of the fly and precortical structures like the LGN of cats that maximizes information content through the limited capacity channel of the optic nerve. But visual images are typically filled with higher-order structure beyond that captured by the power spectrum and visual cortex is not constrained by the same capacity limits as the optic nerve. Whether and how visual cortex can flexibly code for higher order redundancies is unknown. Here we show using psychophysical techniques that the neural response in early human visual cortex may be modulated by orientation redundancies in images such that a visual feature that is contained within a predictive pattern results in slower reaction times than a feature that deviates from a pattern, suggesting lower neural responses to predictable stimuli in the visual cortex. Our results point to a neural response in early visual cortex that is sensitive to global patterns and redundancies in visual images and is in marked contrast to standard models of cortical visual processing.
keyword : Predictive Coding, Reaction Time, Redundancy Reduction, Visual Pattern
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Carbon-nanotube-based Spacer Fabric Pressure Sensors for Biological Signal Monitoring and the Evaluation of Sensing Capabilities
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윤하영 Ha-yeong Yun , 김상운 Sang-un Kim , 김주용 Joo-yong Kim |
KJSES 24(2) 65-74, 2021 DOI : 10.14695/KJSOS.2021.24.2.65 |
ABSTRACT
With recent innovations in the ICT industry, the demand for wearable sensing devices to recognize and respond to biological signals has increased. In this study, a three-dimensional (3D) spacer fabric was embedded in a single-wall carbon nanotube (SWCNT) dispersive solution through a simple penetration process to develop a monolayer piezoresistive pressure sensor. To induce electrical conductivity in the 3D spacer fabric, samples were immersed in the SWCNT dispersive solution and dried. To determine the electrical properties of the impregnated specimen, a universal testing machine and multimeter were used to measure the resistance of the pressure change. Moreover, to examine the changes in the electrical properties of the sensor, its performance was evaluated by varying the concentration, number of penetrations, and thickness of the specimen. Samples that penetrated twice in the SWCNT distributed solution of 0.1 wt% showed the best performance as sensors. The 7-mm thick sensors showed the highest GF, and the 13-mm thick sensors showed the widest operating range. This study confirms the effectiveness of the simple process of fabricating smart textile sensors comprising 3D spacer fabrics and the excellent performance of the sensors.
keyword : Biological Signal Monitoring, CNT-Based Sensor, Dip-coating, Piezoelectric Resistance Sensor, Pressure Sensor, Smart Textile Sensor, 생체신호 모니터링, 압력 센서, CNT 기반 센서, 함침공정, 압전 저항식 센서, 스마트 직물 센서
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Happy Applicants Achieve More: Expressed Positive Emotions Captured Using an AI Interview Predict Performances
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Ji-eun Shin , Hyeonju Lee |
KJSES 24(2) 75-80, 2021 DOI : 10.14695/KJSOS.2021.24.2.75 |
ABSTRACT
Do happy applicants achieve more? Although it is well established that happiness predicts desirable work-related outcomes, previous findings were primarily obtained in social settings. In this study, we extended the scope of the "happiness premium" effect to the artificial intelligence (AI) context. Specifically, we examined whether an applicant's happiness signal captured using an AI system effectively predicts his/her objective performance. Data from 3,609 job applicants showed that verbally expressed happiness (frequency of positive words) during an AI interview predicts cognitive task scores, and this tendency was more pronounced among women than men. However, facially expressed happiness (frequency of smiling) recorded using AI could not predict the performance. Thus, when AI is involved in a hiring process, verbal rather than the facial cues of happiness provide a more valid marker for applicants' hiring chances.
keyword : Happiness, Emotion, Facial Expression, Language, Artificial Intelligence
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Effects of EMS Compression Belts with Different Muscular Patterns on Lumbar Stabilization
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김대연 Dae-yeon Kim , 박진희 Jin-hee Park , 김주용 Joo-yong Kim |
KJSES 24(2) 81-92, 2021 DOI : 10.14695/KJSOS.2021.24.2.81 |
ABSTRACT
In this study, we investigated the effects of five EMS lumbar back pressure belts produced on an anatomical basis on lumbar spine stabilization. Five core muscles were selected, including the urinal, vertebral column, endotracheal, external abdominal, and large back muscles, and patterns were designed using a conductive fabric considering the appropriate muscle shape and pain-causing points. We experimented with four motions to examine the effects of different EMS abdominal compression belts on lumbar spine stabilization. Five healthy men in their 20s were selected. The selection conditions include no back pain history for the past three months, no restricted movements through pre-inspection, and the muscular strength of the body should belong to the normal grade. Using SLR, the sequence of experimental actions was chosen from the following but not limited to left-hand, body-hand, and back-line forces. Resting between movements lasted for 2 min, and the experiments were conducted after wearing the EMS abdominal pressure belt. Electrical stimulation was applied for 10 min to increase blood flow and muscle activation. The statistics of the experimental results were analyzed for specific differences by conducting the Wilcoxon and Friedman tests with nonparametric tests. The ranking results of each pattern were successfully assessed in the order of 5, 4, 3, 1, 2 for the five patterns, and we could identify slightly more significant results for experimental behavior associated with each muscle movement. Patterns produced based on anatomy showed differentiated effects when electric stimulation was applied to each muscle in different shapes, which could improve the stabilization of the lumbar spine in everyday life or training to the public. Based on these results, subsequent research would focus on developing smart healthcare clothing that is practical in daily life by employing different anatomical mechanisms, depending on the back pain, to utilize trunk-type tights.
keyword : Lumbar Stabilization, EMS/Electronic Muscle Simulation, Abdominal Pressure Belt, Tirgger Point, Muscle Pattern, 요추안정화, 전기자극, 복압벨트, 압통점, 근육모양
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