Improve Speed Real-Time Rendering in Mixed Reality HOLOLENS during Training

Mamdouh, Rafeek; El-Bakry, Hazem M.; Riad, A. M.; Elkhamisy, Nashaat

doi:10.14569/ijacsa.2020.0110339

Cited by 3 publications

(2 citation statements)

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“…Helps classify and store medical images by "Azure Cosmo DB", using Internet of Things services [16]. HOLOLENS devices can live in the real environment and recover 3D models by improving display speed during training in real-time, by increasing the accuracy of the intensity and degree of illumination while taking into account the degree of illumination distributed in the area to improve the display intensity [17].…”

Section: Anatomical Model and Visualization Systemmentioning

confidence: 99%

A New Model for Image Segmentation Based on Deep Learning

et al. 2021

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Image segmentation of the medical image and its conversion into anatomical models is an important technique and main point in computer vision (CV) and image processing (IP), training tools that are used routinely in the fields of medicine and surgery. Segmenting images and converting them into a model that depends on its work on the different algorithms and the extent of technological advancement and method of application. The advancement of segmentation algorithms has led to the possibility of creating three-dimensional models for the patient to study without endangering his life. This paper describes a combination of two fields of solving segmentation problem to convert through the workflow of a hybrid algorithm structure Convolutional neural network (CNN, Active Contour & Deep Multi-Planar) and seg3d2 to switch DICOM medical rays “Digital Imaging and Communications in Medicine” into a 3Dimintional model, using data from active contour to be the input of deep learning. This research will be using are human liver DICOM images and is divided into two stages (medical image segmentation - retinal model optimization). This is to help doctors and surgeons to study the patient’s condition with accuracy and efficiency through the use of mixed reality technology in liver surgery [living donor liver transplantation (LDLT)], all implement by Seg3D2 and Python.

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Section: Anatomical Model and Visualization Systemmentioning

confidence: 99%

A New Model for Image Segmentation Based on Deep Learning

et al. 2021

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“…In this section, the implementation phase of the program designed in the previous section goes through several stages of design of 3D models using Autodesk Maya program, taking into account that it is of high quality in design and a low poly Figure 8 for ease of upload. Moreover, transfer to the next stage is the use of a simulation program and a unity game engine with [MR TOOLKIT] (29) . Azure Spatial Anchors has been used to design a mixed-reality program using C# and HoloLens emulator to create a list of models ( Figure 9-A).…”

Section: Fig 7 Google Trend Of Uses Mixed Reality and Windows Azurementioning

confidence: 99%

Using Azure to construct recent architecture for visualize training in real-time

Mamdouh¹

2020

IJST

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Background/Objectives: In recent years, visualization systems were not only entertainment but also essential in training in our various fields. They do not depend on fixed devices only. They use visual systems, such as the headmounted display that Microsoft developed as the Mixed Reality (MR) HoloLens. Its features are equipped with engines that allow the user to interact with the headset via oral orders to communicate remotely with specialists in the surgical field in real-life situations. The main objective of the study is to use the 3D anatomical information models, the Digital Imaging and Communications in Medicine (DICOM) file and all the patient's data, its registration on Azure cloud computing system, to obtain the necessary training and support in case of encountering any emergency before and during the surgical planning. Method: This study presents the application as divided into two stages of anatomical simulation: training for local and international trainees through MR. The first stage classified (DICOM) files to the 3D model using the machine learning and HoloLens emulator of anatomy operational structure. The second stage involves Microsoft Azure and stores on cloud network by Data Lake, Azure Cosmo DB, and utilization of the Azure Spatial Anchors service to access the trainee to locate it at any time through the ID that is displayed by the IoT Sensor. Finding: This study examines Mixed Reality technology, HoloLens, and Head Mount Display to show the expected potential results to improve the surgeon's actions in surgery. This examination finished by 3D displaying anatomical models because they allow the surgeon to access the best solutions in real-life situations during the process to assess the three-dimensional holograms related to patient imaging or surgical techniques.

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Overview and Tendencies of Augmented Reality Applications in Medicine

Santos,

Trevisan

2023

Symposium on Virtual and Augmented Reality

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Improve Speed Real-Time Rendering in Mixed Reality HOLOLENS during Training

Cited by 3 publications

References 10 publications

A New Model for Image Segmentation Based on Deep Learning

A New Model for Image Segmentation Based on Deep Learning

Using Azure to construct recent architecture for visualize training in real-time

Overview and Tendencies of Augmented Reality Applications in Medicine

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