3,437 research outputs found
Algorithms for the enhancement of dynamic range and colour constancy of digital images & video
One of the main objectives in digital imaging is to mimic the capabilities of the human eye, and perhaps, go beyond in certain aspects. However, the human visual system is so versatile, complex, and only partially understood that no up-to-date imaging technology has been able to accurately reproduce the capabilities of the it. The extraordinary capabilities of the human eye have become a crucial shortcoming in digital imaging, since digital photography, video recording, and computer vision applications have continued to demand more realistic and accurate imaging reproduction and analytic capabilities.
Over decades, researchers have tried to solve the colour constancy problem, as well as extending the dynamic range of digital imaging devices by proposing a number of algorithms and instrumentation approaches. Nevertheless, no unique solution has been identified; this is partially due to the wide range of computer vision applications that require colour constancy and high dynamic range imaging, and the complexity of the human visual system to achieve effective colour constancy and dynamic range capabilities.
The aim of the research presented in this thesis is to enhance the overall image quality within an image signal processor of digital cameras by achieving colour constancy and extending dynamic range capabilities. This is achieved by developing a set of advanced image-processing algorithms that are robust to a number of practical challenges and feasible to be implemented within an image signal processor used in consumer electronics imaging devises.
The experiments conducted in this research show that the proposed algorithms supersede state-of-the-art methods in the fields of dynamic range and colour constancy. Moreover, this unique set of image processing algorithms show that if they are used within an image signal processor, they enable digital camera devices to mimic the human visual system s dynamic range and colour constancy capabilities; the ultimate goal of any state-of-the-art technique, or commercial imaging device
DETECTION OF GRANULATION TISSUE FOR HEALING ASSESSMENT OF CHRONIC ULCERS
Wounds that fail to heal within an expected period develop into ulcers that cause
severe pain and expose patients to limb amputation. Ulcer appearance changes
gradually as ulcer tissues evolve throughout the healing process. Dermatologists
assess the progression of ulcer healing based on visual inspection of ulcer tissues,
which is inconsistent and subjective. The ability to measure objectively early stages
of ulcer healing is important to improve clinical decisions and enhance the
effectiveness of the treatment. Ulcer healing is indicated by the growth of granulation
tissue that contains pigment haemoglobin that causes the red colour of the tissue. An
approach based on utilising haemoglobin content as an image marker to detect regions
of granulation tissue on ulcers surface using colour images of chronic ulcers is
investigated in this study. The approach is utilised to develop a system that is able to
detect regions of granulation tissue on ulcers surface using colour images of chronic
ulcers
Style transfer for headshot portraits
Headshot portraits are a popular subject in photography but to achieve a compelling visual style requires advanced skills that a casual photographer will not have. Further, algorithms that automate or assist the stylization of generic photographs do not perform well on headshots due to the feature-specific, local retouching that a professional photographer typically applies to generate such portraits. We introduce a technique to transfer the style of an example headshot photo onto a new one. This can allow one to easily reproduce the look of renowned artists. At the core of our approach is a new multiscale technique to robustly transfer the local statistics of an example portrait onto a new one. This technique matches properties such as the local contrast and the overall lighting direction while being tolerant to the unavoidable differences between the faces of two different people. Additionally, because artists sometimes produce entire headshot collections in a common style, we show how to automatically find a good example to use as a reference for a given portrait, enabling style transfer without the user having to search for a suitable example for each input. We demonstrate our approach on data taken in a controlled environment as well as on a large set of photos downloaded from the Internet. We show that we can successfully handle styles by a variety of different artists.Quanta Computer (Firm)Adobe System
Data Models for Dataset Drift Controls in Machine Learning With Images
Camera images are ubiquitous in machine learning research. They also play a
central role in the delivery of important services spanning medicine and
environmental surveying. However, the application of machine learning models in
these domains has been limited because of robustness concerns. A primary
failure mode are performance drops due to differences between the training and
deployment data. While there are methods to prospectively validate the
robustness of machine learning models to such dataset drifts, existing
approaches do not account for explicit models of the primary object of
interest: the data. This makes it difficult to create physically faithful drift
test cases or to provide specifications of data models that should be avoided
when deploying a machine learning model. In this study, we demonstrate how
these shortcomings can be overcome by pairing machine learning robustness
validation with physical optics. We examine the role raw sensor data and
differentiable data models can play in controlling performance risks related to
image dataset drift. The findings are distilled into three applications. First,
drift synthesis enables the controlled generation of physically faithful drift
test cases. The experiments presented here show that the average decrease in
model performance is ten to four times less severe than under post-hoc
augmentation testing. Second, the gradient connection between task and data
models allows for drift forensics that can be used to specify
performance-sensitive data models which should be avoided during deployment of
a machine learning model. Third, drift adjustment opens up the possibility for
processing adjustments in the face of drift. This can lead to speed up and
stabilization of classifier training at a margin of up to 20% in validation
accuracy. A guide to access the open code and datasets is available at
https://github.com/aiaudit-org/raw2logit.Comment: LO and MA contributed equall
Advanced Image Acquisition, Processing Techniques and Applications
"Advanced Image Acquisition, Processing Techniques and Applications" is the first book of a series that provides image processing principles and practical software implementation on a broad range of applications. The book integrates material from leading researchers on Applied Digital Image Acquisition and Processing. An important feature of the book is its emphasis on software tools and scientific computing in order to enhance results and arrive at problem solution
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