A Haptic Enabled DNA Model Sensing

2008 International Symposium on Parallel Architectures, Algorithms, and Networks (i-span 2008) Pub Date : 2008-05-07 DOI:10.1109/I-SPAN.2008.47

Dan Martin, M. Eid, Abdulmotaleb El Saddik

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引用次数: 2

Abstract

The science of haptics has received enormous attention in the last decade. One of the major application trends of haptics technology is data visualization and training. In this paper, we present our work towards developing a haptically enabled model for the structure of DNA. The graphic model of the DNA strand is made up of individual base pair models. The environment presents two views of the model: a global view that reflects the real stretching forces for a 5000 base pair strand and a 40 base pair portion of the strand to display the twisting of the molecules. The addition of the haptic model enables users to feel the stretching and twisting forces while manipulating the model through the PHANTOMreg Desktop haptic device. Since the interaction forces are in the piconewton range, the forces applied by/to the user are scaled accordingly. The model can serve as a good instructional aid for helping users to understand the molecular structure of DNA through effective visual representation and interactive manipulation. In incorporating more physical details, it may also have a future use in simulating protein and enzyme interactions with DNA.

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触觉激活DNA模型传感

在过去的十年里，触觉科学受到了极大的关注。触觉技术的主要应用趋势之一是数据可视化和训练。在本文中，我们提出了我们的工作朝着开发一个触觉使能模型的DNA结构。DNA链的图形模型由单个碱基对模型组成。环境呈现了模型的两种视图:反映5000碱基对链的真实拉伸力的全局视图和显示分子扭曲的40碱基对链部分。触觉模型的增加使用户能够感受到拉伸和扭曲的力量，同时通过PHANTOMreg桌面触觉设备操纵模型。由于相互作用的力在皮牛顿范围内，由/施加给用户的力相应地缩放。该模型可以作为一个很好的教学辅助工具，通过有效的可视化表示和交互式操作，帮助用户了解DNA的分子结构。在结合更多的物理细节时，它也可能在未来用于模拟蛋白质和酶与DNA的相互作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2008 International Symposium on Parallel Architectures, Algorithms, and Networks (i-span 2008)

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