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Sliding Factor Development on Mechanical Emotion in Mobile Phone of Slide Type
Jaein Lee,Jungwoong Byun,Jaehwa Jeong,C. J. Lim 대한인간공학회 2012 大韓人間工學會誌 Vol.31 No.6
Objective: The aim of this study is to find the optimal values of sliding factors which influence the mechanical emotion of users when they use sliding type mobile phones. Background: There are various researches that study the emotion of using mobile phones. They focus the correlation between emotion words and design factors and use the commercial products by the subjects in the experiment. However, it has a limit in finding the optimal point of emotional factors because we can search the restricted values in the mass production of the products. Therefore, we will find the optimal points by realizing the full range of the user"s mechanical emotion. Method: First, we need to get the detailed factors which can describe the mechanical emotion in sliding up and down the mobile phone. Next, we find the control factors by considering the correlation between the factors of the sliding emotion and the possibility of quantitative design. To find the optimal points on the control factors, we make a sliding evaluation system which can help users feel the sliding mechanical emotion by realizing control factors. Finally, we find the optimal points by doing the experiment the system being used. Results: The critical values of the factors which are the main variables of this study are Open Max Force and Dead point Ratio. The optimal point of the Open Max Force is 200~250g/f, and the Dead point Ratio is 40~50%. Conclusion: In this study we develop the sliding evaluation system to realize the control factors of the sliding type phone and find the optimal values of the critical factors. Application: The results can be used as the criteria for designing sliding type phone.
Robust Design and Performance Verification of an In-Plane XYθ Micropositioning Stage
Donghyun Hwang,Jungwoong Byun,Jaehwa Jeong,Lee, M. G. IEEE 2011 IEEE TRANSACTIONS ON NANOTECHNOLOGY Vol.10 No.6
<P>This paper describes the robust design, fabrication, and performances verification of a novel ultraprecision XYθ micropositioning stage with piezoelectric actuator and flexure mechanism. The main goal of the proposed novel design is to combine a translational motion part and rotational motion part as a decoupled serial kinematics on a same plane. Proposed compound cymbal mechanisms of the translational motion part have functions of motion amplifier as well as motion guide. And Scott-Russell linkage mechanism is applied to the rotational motion part. In this research, Taguchi Design of Experiments is used for robust design with flexure notch hinge fabrication errors as noise factors. Target specifications of the design are sufficient range and bandwidth of motion. The proposed XYθ stage has a translational motion range of 58.0 μm and rotational motion range of 1.05 mrad, and a closed-loop resolution of ±2.5 nm, ±2.5 nm, and ±0.25 μrad in X-, Y-, and θ-directional motion, respectively. The proposed XYθ micropositioning stage has a novelty with in-plane and decoupled kinematic design, compared with many previously developed stages based on planar parallel kinematics.</P>