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26t spirometer  (ADInstruments)

 
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    Structured Review

    ADInstruments 26t spirometer
    Diagram of modelling (A) Schematic representation of real-time RGB-D visual feedback-assisted pulmonary rehabilitation system, which consists of a PowerLab <t>26T</t> spirometer connected to a mouthpiece, Realsense D415 RGB-D camera, and screen (not shown). (B) Both shoulders and hip joints are detected by pose-estimation (red target circles), which is used as a reference plane to define target-tracking regions (black dots). (C) Depth information (along the z-axis of the 3D camera coordinates) of target regions are recorded over time and visualised on a screen to provide real-time visual feedback. Three motion bars (pink rectangles) represent the capacity percentages of left-chest, right-chest, and stomach regions, individually. (For interpretation of the references to colour in this figure legend, the reader is referred to the Web version of this article.)
    26t Spirometer, supplied by ADInstruments, used in various techniques. Bioz Stars score: 95/100, based on 123 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/26t spirometer/product/ADInstruments
    Average 95 stars, based on 123 article reviews
    26t spirometer - by Bioz Stars, 2026-04
    95/100 stars

    Images

    1) Product Images from "Development of a real-time RGB-D visual feedback-assisted pulmonary rehabilitation system"

    Article Title: Development of a real-time RGB-D visual feedback-assisted pulmonary rehabilitation system

    Journal: Heliyon

    doi: 10.1016/j.heliyon.2023.e23704

    Diagram of modelling (A) Schematic representation of real-time RGB-D visual feedback-assisted pulmonary rehabilitation system, which consists of a PowerLab 26T spirometer connected to a mouthpiece, Realsense D415 RGB-D camera, and screen (not shown). (B) Both shoulders and hip joints are detected by pose-estimation (red target circles), which is used as a reference plane to define target-tracking regions (black dots). (C) Depth information (along the z-axis of the 3D camera coordinates) of target regions are recorded over time and visualised on a screen to provide real-time visual feedback. Three motion bars (pink rectangles) represent the capacity percentages of left-chest, right-chest, and stomach regions, individually. (For interpretation of the references to colour in this figure legend, the reader is referred to the Web version of this article.)
    Figure Legend Snippet: Diagram of modelling (A) Schematic representation of real-time RGB-D visual feedback-assisted pulmonary rehabilitation system, which consists of a PowerLab 26T spirometer connected to a mouthpiece, Realsense D415 RGB-D camera, and screen (not shown). (B) Both shoulders and hip joints are detected by pose-estimation (red target circles), which is used as a reference plane to define target-tracking regions (black dots). (C) Depth information (along the z-axis of the 3D camera coordinates) of target regions are recorded over time and visualised on a screen to provide real-time visual feedback. Three motion bars (pink rectangles) represent the capacity percentages of left-chest, right-chest, and stomach regions, individually. (For interpretation of the references to colour in this figure legend, the reader is referred to the Web version of this article.)

    Techniques Used:



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    Diagram of modelling (A) Schematic representation of real-time RGB-D visual feedback-assisted pulmonary rehabilitation system, which consists of a PowerLab <t>26T</t> spirometer connected to a mouthpiece, Realsense D415 RGB-D camera, and screen (not shown). (B) Both shoulders and hip joints are detected by pose-estimation (red target circles), which is used as a reference plane to define target-tracking regions (black dots). (C) Depth information (along the z-axis of the 3D camera coordinates) of target regions are recorded over time and visualised on a screen to provide real-time visual feedback. Three motion bars (pink rectangles) represent the capacity percentages of left-chest, right-chest, and stomach regions, individually. (For interpretation of the references to colour in this figure legend, the reader is referred to the Web version of this article.)
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    Diagram of modelling (A) Schematic representation of real-time RGB-D visual feedback-assisted pulmonary rehabilitation system, which consists of a PowerLab <t>26T</t> spirometer connected to a mouthpiece, Realsense D415 RGB-D camera, and screen (not shown). (B) Both shoulders and hip joints are detected by pose-estimation (red target circles), which is used as a reference plane to define target-tracking regions (black dots). (C) Depth information (along the z-axis of the 3D camera coordinates) of target regions are recorded over time and visualised on a screen to provide real-time visual feedback. Three motion bars (pink rectangles) represent the capacity percentages of left-chest, right-chest, and stomach regions, individually. (For interpretation of the references to colour in this figure legend, the reader is referred to the Web version of this article.)
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    Diagram of modelling (A) Schematic representation of real-time RGB-D visual feedback-assisted pulmonary rehabilitation system, which consists of a PowerLab <t>26T</t> spirometer connected to a mouthpiece, Realsense D415 RGB-D camera, and screen (not shown). (B) Both shoulders and hip joints are detected by pose-estimation (red target circles), which is used as a reference plane to define target-tracking regions (black dots). (C) Depth information (along the z-axis of the 3D camera coordinates) of target regions are recorded over time and visualised on a screen to provide real-time visual feedback. Three motion bars (pink rectangles) represent the capacity percentages of left-chest, right-chest, and stomach regions, individually. (For interpretation of the references to colour in this figure legend, the reader is referred to the Web version of this article.)
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    Image Search Results


    Diagram of modelling (A) Schematic representation of real-time RGB-D visual feedback-assisted pulmonary rehabilitation system, which consists of a PowerLab 26T spirometer connected to a mouthpiece, Realsense D415 RGB-D camera, and screen (not shown). (B) Both shoulders and hip joints are detected by pose-estimation (red target circles), which is used as a reference plane to define target-tracking regions (black dots). (C) Depth information (along the z-axis of the 3D camera coordinates) of target regions are recorded over time and visualised on a screen to provide real-time visual feedback. Three motion bars (pink rectangles) represent the capacity percentages of left-chest, right-chest, and stomach regions, individually. (For interpretation of the references to colour in this figure legend, the reader is referred to the Web version of this article.)

    Journal: Heliyon

    Article Title: Development of a real-time RGB-D visual feedback-assisted pulmonary rehabilitation system

    doi: 10.1016/j.heliyon.2023.e23704

    Figure Lengend Snippet: Diagram of modelling (A) Schematic representation of real-time RGB-D visual feedback-assisted pulmonary rehabilitation system, which consists of a PowerLab 26T spirometer connected to a mouthpiece, Realsense D415 RGB-D camera, and screen (not shown). (B) Both shoulders and hip joints are detected by pose-estimation (red target circles), which is used as a reference plane to define target-tracking regions (black dots). (C) Depth information (along the z-axis of the 3D camera coordinates) of target regions are recorded over time and visualised on a screen to provide real-time visual feedback. Three motion bars (pink rectangles) represent the capacity percentages of left-chest, right-chest, and stomach regions, individually. (For interpretation of the references to colour in this figure legend, the reader is referred to the Web version of this article.)

    Article Snippet: We thank the Department of Physiology, College of Medicine, 10.13039/501100007750 National Cheng Kung University for the use of their PowerLab 26T spirometer to facilitate our research; the Department of Computer Science and Information Engineering, 10.13039/501100007750 National Cheng Kung University for unwavering support in the use of artificial intelligence techniques; and the Institute of Allied Health Sciences, College of Medicine, 10.13039/501100007750 National Cheng Kung University for advice on rehabilitation guidance and provision of the rehabilitation video.

    Techniques:

    Diagram of modelling (A) Schematic representation of real-time RGB-D visual feedback-assisted pulmonary rehabilitation system, which consists of a PowerLab 26T spirometer connected to a mouthpiece, Realsense D415 RGB-D camera, and screen (not shown). (B) Both shoulders and hip joints are detected by pose-estimation (red target circles), which is used as a reference plane to define target-tracking regions (black dots). (C) Depth information (along the z-axis of the 3D camera coordinates) of target regions are recorded over time and visualised on a screen to provide real-time visual feedback. Three motion bars (pink rectangles) represent the capacity percentages of left-chest, right-chest, and stomach regions, individually. (For interpretation of the references to colour in this figure legend, the reader is referred to the Web version of this article.)

    Journal: Heliyon

    Article Title: Development of a real-time RGB-D visual feedback-assisted pulmonary rehabilitation system

    doi: 10.1016/j.heliyon.2023.e23704

    Figure Lengend Snippet: Diagram of modelling (A) Schematic representation of real-time RGB-D visual feedback-assisted pulmonary rehabilitation system, which consists of a PowerLab 26T spirometer connected to a mouthpiece, Realsense D415 RGB-D camera, and screen (not shown). (B) Both shoulders and hip joints are detected by pose-estimation (red target circles), which is used as a reference plane to define target-tracking regions (black dots). (C) Depth information (along the z-axis of the 3D camera coordinates) of target regions are recorded over time and visualised on a screen to provide real-time visual feedback. Three motion bars (pink rectangles) represent the capacity percentages of left-chest, right-chest, and stomach regions, individually. (For interpretation of the references to colour in this figure legend, the reader is referred to the Web version of this article.)

    Article Snippet: A PowerLab® 26T spirometer (ADInstruments, Sydney, Australia) was used to measure flow changes through the mouthpiece, and a nose clip was applied to prevent air leakage.

    Techniques: