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- Title
Highly Accurate Energy-Conserving Flexible Touch Sensors.
- Authors
Huimin Lu; Yujie Li; Seiichi Serikawa; Hyoungseop Kim; Yun Li
- Abstract
Smart touch sensors are used in many applications, such as the iPhone and some smart home systems. Recent touch sensors perform well in consumer electrical devices; however, there are some drawbacks. For example, most touch sensors have low accuracy for detecting human movements. Many require significant power and have a fixed shape. We propose a flexible, highly accurate, and energy-conserving touch sensor. Our primary contributions are as follows: (1) an energy-conserving touch sensor is developed and tested experimentally; (2) a flexible and arbitrarily shaped touch sensor is designed; and (3) the manufacturing cost is very low and up to 200 touch sensors can be connected to the system. As a result, this energy-conserving touch sensor can be fabricated using common manufacturing processes for consumer electronic devices.
- Subjects
TACTILE sensors; OPTOELECTRONIC detectors; INTERNET of things; ENERGY conservation equipment; METAL oxide semiconductor field
- Publication
Sensors & Materials, 2017, Vol 29, Issue 6, p611
- ISSN
0914-4935
- Publication type
Article
- DOI
10.18494/SAM.2017.1458