Hybrid online surface roughness measurement using a robotic arm
Surface roughness is an important property in the engineering field. It is often used to determine the availability and function of finished parts in both assembly and machinery. However, commercial machines available currently for roughness distinguishing require high maintenance cost and are us...
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| Format: | Theses and Dissertations |
| Language: | English |
| Published: |
2017
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| Subjects: | |
| Online Access: | http://hdl.handle.net/10356/69911 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | Surface roughness is an important property in the engineering field. It is often used
to determine the availability and function of finished parts in both assembly and
machinery. However, commercial machines available currently for roughness
distinguishing require high maintenance cost and are usually not precise enough.
The objective of this project is to create a durable, effective and precise sensor
useable in roughness discrimination. With the development of technology and
science in the recent decades roughness testing has been brought to a whole new
degree, especially the application concerning robots in the area of high technology
such as medical, automobiles and semiconductor industries. Robot is known to use
a technique called tactile sensing to distinguish the shape, texture or roughness of an
object. Recent researches indicate that tactile sensors are used to simulate functions
of a human finger in robotic finger. Tactile sensors are used to imitate the human
mechanoreceptors which are divided into the Fast Adapting (FA) and Slow
Adapting (SA). In this project, an artificial finger with piewresistive sensors used to
represent the SA mechanoreceptors and piewelectric sensors used to represent the
FA mechanoreceptors is used. Besides, a commercia l optical sensor for roughness
testing is also used in this project. The sensors adapted are able to produce signals
and the signals generated will be processed and analyzed to evaluate the
effectiveness of the two sensors in surface roughness testing. |
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