Research on Rationality of the Riot Equipment Console Based on Ergonomics

Zhou, Ling-chen; Qin, Xue; Xue, Shi; Dada, Cheng

doi:10.1109/iea.2019.8715216

Cited by 1 publication

(2 citation statements)

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“…Regarding a person's vertical vision, the best eye rotation area is 25 degrees above the horizon to 30 degrees below the horizon. The best human visual angle is within the range of 10 degrees above and below the horizon [3], as shown in Figure 4. By keeping the display screen within the best visual area of the human eye and within the range of the human visual distance, the relative perpendicularity of the panel and the human visual line is guaranteed, and the eye moves within the best range of human eye rotation during observation.…”

Section: A Preliminaries 1) Design Of the Display Screen Positionmentioning

confidence: 88%

“…Oakman et al [2] proposed a practical guide for submarine console design through a systematic literature review, related standard extraction, human body data measurements, and core user research. Lingchen et al [3] used the ergonomics module of the CATIA software to simulate an occupant's posture and used the ergonomics module of the CATIA software to simulate the space, visual field of view and upper limb comfort. Then, the authors evaluated and combined the results with human-machine theory to propose strategies.…”

Section: Introductionmentioning

confidence: 99%

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Human-Ocular-Physiological-Characteristics- Based Adaptive Console Design

Zhao

et al. 2020

IEEE Access

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A console is an important platform for controlling indoor operations and displaying information. It is an important device for human-computer interactions. Whether an operator is comfortable using a console is an important issue of concern in industry. However, previous works have focused only on the joint angle and muscle fatigue of the console user, with few works focusing on the eye comfort of users. In this paper, we propose a console design method based on the physical comfort of the human eye to allow consoles to satisfy the needs of a user regarding the joint angle and muscle comfort and to reduce the physiological fatigue of a user's eyes, thereby improving the operator's cognitive efficiency and accuracy. In addition, a software and hardware collaboration platform is used to effectively improve the stability and accuracy of the proposed method. We also propose a method for evaluating the human eye comfort of console users based on a dual-channel objective visual quality analysis system. To the best of our knowledge, this is the first work to propose an evaluation metric for determining the comfort of the human eye afforded by a console, and experiments in the real world verify the effectiveness of this metric. Through this evaluation method, a console designed by using the console optimization method proposed herein is compared with a console designed according to the previous console design method. The results prove that our proposed method can effectively improve human eye comfort when using a console.INDEX TERMS Console, optimal design, comfort evaluation, visual quality evaluation.

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Section: A Preliminaries 1) Design Of the Display Screen Positionmentioning

confidence: 88%

Section: Introductionmentioning

confidence: 99%