Qualitative Comparison of Image Stitching Algorithms for Multi-Camera Systems in Laparoscopy

Guy, Sylvain; Haberbusch, Jean-Loup; Promayon, Emmanuel; Mancini, Stéphane; Voros, Sandrine

doi:10.3390/jimaging8030052

Cited by 6 publications

(3 citation statements)

References 39 publications

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“…In the domain of digital surgical pathology, our mNLOG platform, for the first time to the best of our knowledge, provides a truly WSI-competing whole specimen superficial imaging (WSSI) digital ITA solution enabling multicolor imaging of a 1 cm 2 area in <120 s with a total of 86 G bits or 3.6 Gigapixels (24-bit) preserving a submicron digital resolution with no requirement of post-acquisition data/ image processing. It is noted that despite substantial contributions being made towards image/video or panoramic stitching techniques [38][39][40][41][42][43] , feature-based sophisticated algorithms are often not suitable for a large-field high-pixel-rate dynamic microscopy in the context of parallel implementation, distortion compensation, immunity to high-frequency noise, and especially to assist with half-a-second computational complexity for real-time stitching of ultra-high resolution (such as >800 M bit) imaging tiles. To fit our specific need, a Compute Unified Device Architecture (CUDA)-accelerated rapid artifact-compensated 2D largefield mosaic-stitching (rac2D-LMS) approach is streamlined to our large-FOV (≥1 mm 2 ) high-NFOM (>1) multi-channel nonlinear optical laser-scanning and acquisition system.…”

Section: Plain Language Summarymentioning

confidence: 99%

Rapid digital pathology of H&E-stained fresh human brain specimens as an alternative to frozen biopsy

et al. 2023

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Background Hematoxylin and Eosin (H&E)-based frozen section (FS) pathology is presently the global standard for intraoperative tumor assessment (ITA). Preparation of frozen section is labor intensive, which might consume up-to 30 minutes, and is susceptible to freezing artifacts. An FS-alternative technique is thus necessary, which is sectioning-free, artifact-free, fast, accurate, and reliably deployable without machine learning and/or additional interpretation training. Methods We develop a training-free true-H&E Rapid Fresh digital-Pathology (the-RFP) technique which is 4 times faster than the conventional preparation of frozen sections. The-RFP is assisted by a mesoscale Nonlinear Optical Gigascope (mNLOG) platform with a streamlined rapid artifact-compensated 2D large-field mosaic-stitching (rac2D-LMS) approach. A sub-6-minute True-H&E Rapid whole-mount-Soft-Tissue Staining (the-RSTS) protocol is introduced for soft/frangible fresh brain specimens. The mNLOG platform utilizes third harmonic generation (THG) and two-photon excitation fluorescence (TPEF) signals from H and E dyes, respectively, to yield the-RFP images. Results We demonstrate the-RFP technique on fresh excised human brain specimens. The-RFP enables optically-sectioned high-resolution 2D scanning and digital display of a 1 cm2 area in <120 seconds with 3.6 Gigapixels at a sustained effective throughput of >700 M bits/sec, with zero post-acquisition data/image processing. Training-free blind tests considering 50 normal and tumor-specific brain specimens obtained from 8 participants reveal 100% match to the respective formalin-fixed paraffin-embedded (FFPE)-biopsy outcomes. Conclusions We provide a digital ITA solution: the-RFP, which is potentially a fast and reliable alternative to FS-pathology. With H&E-compatibility, the-RFP eliminates color- and morphology-specific additional interpretation training for a pathologist, and the-RFP-assessed specimen can reliably undergo FFPE-biopsy confirmation.

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Section: Plain Language Summarymentioning

confidence: 99%

Rapid digital pathology of H&E-stained fresh human brain specimens as an alternative to frozen biopsy

et al. 2023

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“…The image stitching method can be classified into two general methods: direct and feature-based. The direct method compares all the pixel intensities of the image with each other, while the feature-based method aims to determine the relationship between images through various features extracted from the processed image [20]- [23].…”

Section: Introductionmentioning

confidence: 99%

Designing a Virtual Campus Tour using Image Stitching Techniques to Provide Information on College Entrance Test

Utama,

Wijanarko,

Alfarobi

2023

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The University of Bengkulu administers college entrance exams, however some test takers still require assistance in locating the correct room, despite the building being marked. It is crucial to avoid errors in finding the right test room, as it can cause potential students to waste valuable time. Therefore, a more precise and practical solution is necessary to provide information on test locations. This study designs a location-based virtual tour that offers a 360-degree view, providing information on the location of each building and the conditions inside and outside each test room. The virtual tour encompasses 81 buildings, including test rooms, with 28 to 32 images captured at each location, then stitched together using image stitching techniques. The goal of the virtual tour is to create a comprehensive view of the test location and provide more detailed information on the room's condition. Furthermore, the usability of this virtual tour was tested on 140 high school students as potential test participants, utilizing the System Usability Scale (SUS) to evaluate its effectiveness, resulting in a score of 72.19. In other words, the virtual tour was found to be an effective tool in helping users understand the test location.

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“…Image stitching [1] refers to the use of a set of images of the same scene taken from different perspectives to create a single fused image with a wider field of view. It is widely used in multimedia content generation, image analysis/understanding, industrial inspection, and other fields (such as panoramic imaging [2], aerial image generation [3], medical synthetic image generation [4,5], virtual reality [6], remote visual inspection [7], and so on).…”

Section: Introductionmentioning

confidence: 99%

Optimized Seam-Driven Image Stitching Method Based on Scene Depth Information

Chen

Song

2022

Electronics

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It is quite challenging to stitch images with continuous depth changes and complex textures. To solve this problem, we propose an optimized seam-driven image stitching method considering depth, color, and texture information of the scene. Specifically, we design a new energy function to reduce the structural distortion near the seam and improve the invisibility of the seam. By additionally introducing depth information into the smoothing term of energy function, the seam is guided to pass through the continuous regions of the image with high similarity. The experimental results show that benefiting from the new defined energy function, the proposed method can find the seam that adapts to the depth of the scene, and effectively avoid the seam from passing through the salient objects, so that high-quality stitching results can be achieved. The comparison with the representative image stitching methods proves the effectiveness and generalization of the proposed method.

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Qualitative Comparison of Image Stitching Algorithms for Multi-Camera Systems in Laparoscopy

Cited by 6 publications

References 39 publications

Rapid digital pathology of H&E-stained fresh human brain specimens as an alternative to frozen biopsy

Rapid digital pathology of H&E-stained fresh human brain specimens as an alternative to frozen biopsy

Designing a Virtual Campus Tour using Image Stitching Techniques to Provide Information on College Entrance Test

Optimized Seam-Driven Image Stitching Method Based on Scene Depth Information

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