Mónica Isabel Teixeira Costa scite author profile

In recent years, research in tracking and assessing wound severity using computerized image processing has increased. With the emergence of mobile devices, powerful functionalities and processing capabilities have provided multiple non-invasive wound evaluation opportunities in both clinical and non-clinical settings. With current imaging technologies, objective and reliable techniques provide qualitative information that can be further processed to provide quantitative information on the size, structure, and color characteristics of wounds. These efficient image analysis algorithms help determine the injury features and the progress of healing in a short time. This paper presents a systematic investigation of articles that specifically address the measurement of wounds’ sizes with image processing techniques, promoting the connection between computer science and health. Of the 208 studies identified by searching electronic databases, 20 were included in the review. From the perspective of image processing color models, the most dominant model was the hue, saturation, and value (HSV) color space. We proposed that a method for measuring the wound area must implement different stages, including conversion to grayscale for further implementation of the threshold and a segmentation method to measure the wound area as the number of pixels for further conversion to metric units. Regarding devices, mobile technology is shown to have reached the level of reliable accuracy.

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Experimental Study on Wound Area Measurement with Mobile Devices

Ferreira

Pires

Ponciano

et al. 2021

Sensors

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Healthcare treatments might benefit from advances in artificial intelligence and technological equipment such as smartphones and smartwatches. The presence of cameras in these devices with increasingly robust and precise pattern recognition techniques can facilitate the estimation of the wound area and other telemedicine measurements. Currently, telemedicine is vital to the maintenance of the quality of the treatments remotely. This study proposes a method for measuring the wound area with mobile devices. The proposed approach relies on a multi-step process consisting of image capture, conversion to grayscale, blurring, application of a threshold with segmentation, identification of the wound part, dilation and erosion of the detected wound section, identification of accurate data related to the image, and measurement of the wound area. The proposed method was implemented with the OpenCV framework. Thus, it is a solution for healthcare systems by which to investigate and treat people with skin-related diseases. The proof-of-concept was performed with a static dataset of camera images on a desktop computer. After we validated the approach’s feasibility, we implemented the method in a mobile application that allows for communication between patients, caregivers, and healthcare professionals.

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Signal processing interpolation educational workbench

Costa

Barroso

Soares

2012

Comp Applic In Engineering

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Signal Reconstruction Techniques Applied to High Frame Rate Sequences

Costa

Soares

Assunção

et al. 2007

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Handheld devices as actors in domotic monitoring system

Gašpar

Rodrigues

Odedra

et al.

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Abslrm-this paper describes the first stage of P pmtotyp lhat k being developed using a Penonsl Digital Assistant (PDA) and Bluetooth communication Io build an information system to supelvise Automated Robotic Maintenance Systems. l h i s work is being done under collaboralion between different Univrnity depilltmcnts with different specialties The work fmures on the programming of PDA devices and its uwgr in monitoring Systems with domnlir applicability. One of Ihr drs i d goalr is to apply new lechnolagios far deploying an information syrlem on mobile and wireless devices. The l i n t IC-SUI% system architecture and main blocks are prnrntcd in this pnprr. lnder T e m -Bluelooth, handheld, PDA (Personal Uigital Assismnl), Meehatronie. Domotic.

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