一个智能实验容器套件:以一个虚拟-真实融合的化学实验为例

Q1 Computer Science
Lurong Yang , Zhiquan Feng , Junhong Meng
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引用次数: 0

摘要

背景当前,中小学实验教学受到成本和安全因素的影响。现有的虚拟实验平台研究缓解了这一问题。然而,缺乏真正的实验设备,使用单一渠道来了解用户的意图,削弱了这些平台的操作能力,降低了交互的自然性。为了解决上述问题,我们提出了一种智能实验容器结构和一种情境感知算法,并将其应用于涉及虚拟-现实融合的化学实验。首先,在视觉通道中对采集的图像进行去噪,使用最大漫反射色度来去除过度曝光。其次,通过对图像液位进行分割并建立关系拟合模型来实现容器态势感知。然后,分别采用构建完整行为的策略和对行为之间的优先级进行比较的策略来实现信息互补和信息独立。提出了一种融合视觉、听觉和触觉的多通道有意理解模型和交互范式。结果表明,在虚拟化学实验平台中,所设计的实验容器和算法可以实现自然水平的人机交互,增强用户的操作感,达到较高的用户满意度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An intelligent experimental container suite: using a chemical experiment with virtual-real fusion as an example

Background

At present, the teaching of experiments in primary and secondary schools is affected by cost and security factors. The existing research on virtual-experiment platforms alleviates this problem. However, the lack of real experimental equipment and the use of a single channel to understand users’ intentions weaken these platforms operationally and degrade the naturalness of interactions. To slove the above problems,we propose an intelligent experimental container structure and a situational awareness algorithm,both of which are verified and then applied to a chemical experiment involving virtual-real fusion. First, acquired images are denoised in the visual channel, using maximum diffuse reflection chroma to remove overexposures. Second, container situational awareness is realized by segmenting the image liquid level and establishing a relation-fitting model. Then, strategies for constructing complete behaviors and making priority comparisons among behaviors are adopted for information complementarity and information independence, respectively. A multichannel intentional understanding model and an interactive paradigm fusing vision, hearing and touch are proposed. The results show that the designed experimental container and algorithm in a virtual chemical experiment platform can achieve a natural level of human-computer interaction, enhance the user's sense of operation, and achieve high user satisfaction.

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来源期刊
Virtual Reality  Intelligent Hardware
Virtual Reality Intelligent Hardware Computer Science-Computer Graphics and Computer-Aided Design
CiteScore
6.40
自引率
0.00%
发文量
35
审稿时长
12 weeks
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