Measuring system for an attitude angle of a denture using an Inertial Measurement Unit

The aim of this study was to assemble and verify a measuring system for 3-D movements (attitude angle) of the denture during function. For the calibration test, the sensor was fixed at the center of the rotary table. Operation and stopping of the rotary table were repeated 8 times, and the direction...

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Published inJournal of prosthodontic research Vol. 62; no. 2; pp. 195 - 199
Main Authors Sekita, Toshiaki, Takeuchi, Syuhei, Minakuchi, Syunsuke
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier Ltd 01.04.2018
Subjects
A complementary filter
Accelerometry - instrumentation
Aged
Attitude angle: Inertial Measurement Unit
Denture movements
Denture, Complete, Upper
Humans
Imaging, Three-Dimensional - instrumentation
Movement
Rotation
Television
A complementary filter
Denture movements
Attitude angle: Inertial Measurement Unit
Online AccessGet full text
ISSN1883-1958
2212-4632
2212-4632
DOI10.1016/j.jpor.2017.08.008

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Abstract The aim of this study was to assemble and verify a measuring system for 3-D movements (attitude angle) of the denture during function. For the calibration test, the sensor was fixed at the center of the rotary table. Operation and stopping of the rotary table were repeated 8 times, and the direction of rotation was reversed in the middle. The amount of rotation was 1.2 and 2.4°. As a pilot clinical trial, the attitude angles of three upper complete dentures during tapping were measured by this system. The attitude angles calculated by this system reduced by 3–4%. Pitch and roll of Subject III were significantly larger than Subjects I and II (P<0.001), but yaw of Subject: III was significantly smaller than Subject: II (P<0.01) during tapping. Pitch and yaw of “good” was significantly smaller than “average” in the stability of the dentures (P<0.001). But roll of “average” was significantly smaller than “good” (P<0.05). Pitch and yaw of “B” was significantly smaller than “C” in the type of maxillary ridge (P<0.001). But roll of “C” was significantly smaller than “B” (P<0.05). The measurement accuracy of this system was equivalent to that of 3-D motion capture system by four infrared TV cameras. The measuring system using the IMU is reliable and easy to analyze the attitude angle of the denture during function. It may serve a diagnostic appliance to evaluate the quality of the denture.
AbstractList The aim of this study was to assemble and verify a measuring system for 3-D movements (attitude angle) of the denture during function.PURPOSEThe aim of this study was to assemble and verify a measuring system for 3-D movements (attitude angle) of the denture during function.For the calibration test, the sensor was fixed at the center of the rotary table. Operation and stopping of the rotary table were repeated 8 times, and the direction of rotation was reversed in the middle. The amount of rotation was 1.2 and 2.4°. As a pilot clinical trial, the attitude angles of three upper complete dentures during tapping were measured by this system.METHODSFor the calibration test, the sensor was fixed at the center of the rotary table. Operation and stopping of the rotary table were repeated 8 times, and the direction of rotation was reversed in the middle. The amount of rotation was 1.2 and 2.4°. As a pilot clinical trial, the attitude angles of three upper complete dentures during tapping were measured by this system.The attitude angles calculated by this system reduced by 3-4%. Pitch and roll of Subject III were significantly larger than Subjects I and II (P<0.001), but yaw of Subject: III was significantly smaller than Subject: II (P<0.01) during tapping. Pitch and yaw of "good" was significantly smaller than "average" in the stability of the dentures (P<0.001). But roll of "average" was significantly smaller than "good" (P<0.05). Pitch and yaw of "B" was significantly smaller than "C" in the type of maxillary ridge (P<0.001). But roll of "C" was significantly smaller than "B" (P<0.05).RESULTSThe attitude angles calculated by this system reduced by 3-4%. Pitch and roll of Subject III were significantly larger than Subjects I and II (P<0.001), but yaw of Subject: III was significantly smaller than Subject: II (P<0.01) during tapping. Pitch and yaw of "good" was significantly smaller than "average" in the stability of the dentures (P<0.001). But roll of "average" was significantly smaller than "good" (P<0.05). Pitch and yaw of "B" was significantly smaller than "C" in the type of maxillary ridge (P<0.001). But roll of "C" was significantly smaller than "B" (P<0.05).The measurement accuracy of this system was equivalent to that of 3-D motion capture system by four infrared TV cameras. The measuring system using the IMU is reliable and easy to analyze the attitude angle of the denture during function. It may serve a diagnostic appliance to evaluate the quality of the denture.CONCLUSIONSThe measurement accuracy of this system was equivalent to that of 3-D motion capture system by four infrared TV cameras. The measuring system using the IMU is reliable and easy to analyze the attitude angle of the denture during function. It may serve a diagnostic appliance to evaluate the quality of the denture.
The aim of this study was to assemble and verify a measuring system for 3-D movements (attitude angle) of the denture during function. For the calibration test, the sensor was fixed at the center of the rotary table. Operation and stopping of the rotary table were repeated 8 times, and the direction of rotation was reversed in the middle. The amount of rotation was 1.2 and 2.4°. As a pilot clinical trial, the attitude angles of three upper complete dentures during tapping were measured by this system. The attitude angles calculated by this system reduced by 3-4%. Pitch and roll of Subject III were significantly larger than Subjects I and II (P<0.001), but yaw of Subject: III was significantly smaller than Subject: II (P<0.01) during tapping. Pitch and yaw of "good" was significantly smaller than "average" in the stability of the dentures (P<0.001). But roll of "average" was significantly smaller than "good" (P<0.05). Pitch and yaw of "B" was significantly smaller than "C" in the type of maxillary ridge (P<0.001). But roll of "C" was significantly smaller than "B" (P<0.05). The measurement accuracy of this system was equivalent to that of 3-D motion capture system by four infrared TV cameras. The measuring system using the IMU is reliable and easy to analyze the attitude angle of the denture during function. It may serve a diagnostic appliance to evaluate the quality of the denture.
Author Minakuchi, Syunsuke
Sekita, Toshiaki
Takeuchi, Syuhei
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Keywords A complementary filter
Denture movements
Attitude angle: Inertial Measurement Unit
Language English
License Copyright © 2017 Japan Prosthodontic Society. Published by Elsevier Ltd. All rights reserved.
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  article-title: Basic factors retarding resorptive changes of residual ridges under complete denture prostheses
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  ident: 10.1016/j.jpor.2017.08.008_bib0060
  article-title: Denture mobility with six degrees of freedom during function
  publication-title: J Oral Rehabil
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Snippet The aim of this study was to assemble and verify a measuring system for 3-D movements (attitude angle) of the denture during function. For the calibration...
The aim of this study was to assemble and verify a measuring system for 3-D movements (attitude angle) of the denture during function.PURPOSEThe aim of this...
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StartPage 195
SubjectTerms A complementary filter
Accelerometry - instrumentation
Aged
Attitude angle: Inertial Measurement Unit
Denture movements
Denture, Complete, Upper
Humans
Imaging, Three-Dimensional - instrumentation
Movement
Rotation
Television
Title Measuring system for an attitude angle of a denture using an Inertial Measurement Unit
URI https://dx.doi.org/10.1016/j.jpor.2017.08.008
https://www.ncbi.nlm.nih.gov/pubmed/28927995
https://www.proquest.com/docview/1941100755
Volume 62
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