在成像触摸屏上检测多个接触点

2012 International Conference on Communication, Information & Computing Technology (ICCICT) Pub Date : 2012-12-31 DOI:10.1109/ICCICT.2012.6398135

P. C. Ravoor, S. R. Rupanagudi, B. Ranjani

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引用次数: 10

摘要

触摸屏已经成为一种非常流行的技术。从笔记本电脑到手机，再到先进的安全系统，触摸屏无处不在，以至于任何不使用触摸屏的设备都被视为过时。触摸屏大致可分为三种类型——电容式、电阻式和成像式。与同类产品相比，成像触摸屏的主要优势是其成本较低，而且其升级也只需要对硬件进行最小的更改。在不需要超薄触摸屏的领域，图像处理触摸屏是一个很好的资产。从本质上讲，成像触摸屏具有与轻薄触摸屏相同的功能，甚至更多。这包括触摸屏技术的最新趋势——“多点触控”。本文讨论了一种检测成像触摸表面上多个接触点的新算法。该算法采用Java编程语言实现，在多种实验中对多个指尖斑点的检测达到了较高的精度。

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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Detection of multiple points of contact on an imaging touch-screen

Touch-screens have emerged as a very popular technology. Touch-screens pervade all electronic devices from laptops to mobile-phones to advanced security systems, up to such a point that any device that does not use touch-screens is deemed outdated. Touch-screens can be broadly classified into three types - capacitive, resistive and imaging. The major advantage of imaging touch screens is its low cost as compared to its counterparts and their upgradation also involves minimal changes to hardware. In areas where there is no necessity of slim touch-screens, image processing touch screens are of a great asset. Essentially, imaging touch-screens are capable of the same functionalities, if not more, as their slimmer counterparts. This includes the latest trend in touch-screen technology, “multi-touch”. This paper discusses a novel algorithm to detect multiple points of contact on an imaging touch surface. The algorithm was implemented using Java programming language and a high level of accuracy was achieved in detecting multiple finger tip blobs for various experiments conducted.

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来源期刊

2012 International Conference on Communication, Information & Computing Technology (ICCICT)

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