773 research outputs found

    sj-docx-1-spq-10.1177_01902725241239953 – Supplemental material for Signaling Commitment via Insincere Conformity: A New Take on the Persistence of Unpopular Norms

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    Supplemental material, sj-docx-1-spq-10.1177_01902725241239953 for Signaling Commitment via Insincere Conformity: A New Take on the Persistence of Unpopular Norms by Minjae Kim in Social Psychology Quarterly</p

    sj-pptx-2-spq-10.1177_01902725241239953 – Supplemental material for Signaling Commitment via Insincere Conformity: A New Take on the Persistence of Unpopular Norms

    No full text
    Supplemental material, sj-pptx-2-spq-10.1177_01902725241239953 for Signaling Commitment via Insincere Conformity: A New Take on the Persistence of Unpopular Norms by Minjae Kim in Social Psychology Quarterly</p

    Supplemental material - The role of relational mobility in relationship quality and well-being

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    Supplementary material for The role of relational mobility in relationship quality and well-being by BoKyung Park, Minjae Kim, and Liane Young in Journal of Social and Personal Relationships</p

    Design of robot hand for bipedal/quadrupedal transformable locomotive robot

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    Since the 2011 Fukushima nuclear disaster in Japan, various types of humanoid robots have been developed. Although many researchers are trying to develop the robotic technology, it is premature to deploy the robot to a real situation. The main reason is a lack of a manipulation performance. This paper suggests the new mechanism for a robot gripper. Torsion springs, an outer frame and a ballscrew are used to realize the new gripping mechanism. It is light-weight and resistant to external forces. This mechanism is useful especially for bipedal/quadrupedal transformable locomotive robots. Simulation and optimization are carried out by MATLAB 2014b. Six design parameters are chosen to minimize the required motor torque. SOLIDWORKS 2014 is used to obtain the robot hand model for the experiment. Experimental tests are done for validating the proposed robot gripper. All of details are extensively reported in the paper

    Miniaturization for wearable EEG systems: recording hardware and data processing

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    As more people desire at-home diagnosis and treatment for their health improvement, healthcare devices have become more wearable, comfortable, and easy to use. In that sense, the miniaturization of electroencephalography (EEG) systems is a major challenge for developing daily-life healthcare devices. Recently, because of the intertwined relationship between EEG recording and processing, co-research of EEG recording hardware and data processing has been emphasized for whole-in-one miniaturized EEG systems. This paper introduces miniaturization techniques in analog-front-end hardware and processing algorithms for such EEG systems. To miniaturize EEG recording hardware, various types of compact electrodes and mm-sized integrated circuits (IC) techniques including artifact rejection are studied to record accurate EEG signals in a much smaller manner. Active electrode and in-ear EEG technologies are also researched to make small-form-factor EEG measurement structures. Furthermore, miniaturization techniques for EEG processing are discussed including channel selection techniques that reduce the number of required electrode channel and hardware implementation of processing algorithms that simplify the EEG processing stage

    Pd‐Catalyzed Negishi Cross‐Coupling of Vinyl Bromides with Diborylmethylzinc Chloride

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    We have developed Pd‐catalyzed Negishi cross‐coupling of diborylmethylzinc chloride with vinyl bromides. The reaction shows a broad scope and an array of α‐boryl‐substituted allylic boronate esters are obtained in high efficiency.11Nsciescopu

    F2RPC: Fake to Real Portrait Control from a Virtual Character

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    This study explores a new method for generating virtual characters in video for use in virtual and augmented reality services. We propose F2RPC as a unified framework for improving both the appearance and motion of the characters, unlike previous method focusing only on one or the other. Specifically, our F2RPC consists of two modules for image destylization (AdaGPEN) and face reenactment (PCGPEN), respectively. Experimental results show that ours successfully solves the task compared to the combination of state-of-the-art destylization and reenactment method
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