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Deep Learning is an inevitable branch of Artificial Intelligence technology. In which, Convolutional Neural Network is a modern approach to visualize the images with high performance. These networks help for high performance in the recognition and categorization of images. It has found applications in the modern science sectors such as Healthcare, Bioinformatics, Pharmaceuticals, etc. for Meta-analysis Writing Services. Full Information: https://bit.ly/3lrEt1C Reference: https://pubrica.com/services/research-services/meta-analysis/ Why Pubrica? When you order our services, we promise you the following – Plagiarism free, always on Time, outstanding customer support, written to Standard, Unlimited Revisions support and High-quality Subject Matter Experts. Contact us : Web: https://pubrica.com/ Blog: https://pubrica.com/academy/ Email: [email protected] WhatsApp : +91 9884350006 United Kingdom: +44- 74248 10299
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An Academic presentation byDr. Nancy Agens, Head, Technical Operations, Pubrica Group: www.pubrica.comEmail: [email protected]
META-ANALYSIS OF CONVOLUTIONAL NEURAL NETWORKS FOR RADIOLOGICAL IMAGES
In-Brief IntroductionConvolutional Neural Network Architecture of CNN Applications in Radiology Advantages of CNNFuture Scopes Conclusion
Outline
Today's Discussion
Deep Learning is an inevitable branch of Artificial Intelligence technology. In which, Convolutional Neural Network is a modern approach to visualize the images with high performance. These networks help for high performance in the recognition and categorization of images. It has found applications in
the modern science sectors such as Healthcare, Bioinformatics,Pharmaceuticals, etc. for Meta-analysis Writing Services.
In-Brief
IntroductionThe growth of massive datasets creates a need for more advanced tools for analysis.
CNN is such a tool that is mainly for analyzingthe images.
Currently, in healthcare and clinical management, it is used for diabetic retinopathy screening, skin lesion classification, and lymph node metastasis detection for meta-analysis research.
Contd..
Radiology is a scientific front used in the healthcare sector for diagnosing various types of diseases via different imaging techniques like ultrasound, X-ray radiography, MRI.
Therefore, CNN and Radiology find a mutual relationship in m eta-analysis paper writing
Convolutional Neural Network (CNN) Convolution Neural Network is also known
as Convents.
CNN is an in-depth learning approach that was inspired by the animal visual cortex.
The design is to adapt and learn low to high- level patterns.
Contd..
In this, there are specific terms used, each defining certain things –
(i) Parameter: A variable that is automatically learning process with the meta- analysis experts
(ii) Hyperparameter: A variable that needs to be performed before training
(iii) Kernel: A set of learnable parameters.
Architecture of CNN
W riting a meta-analysis paper about the network comprises three blocks – Convolution, pooling, connected blocks.
The initial two layers perform feature extraction, and the final one produces the output.
A typical convolution layer contains a stack of these layers in a repeated order.
Convolution layer is the fundamental layer of CNN that consists of a combination of linear and nonlinear operations.
Contd..
The main feature of convolution operation is weight sharing.
The output of the convolution layer passes through the nonlinear activation function.
Pooling layers reduce the dimensionality and combine the outputs of the previous layers into a single neuron present in the next layer.
Max pooling is the popular pooling operation which utilizes maximum neuron clusters.
Contd..
Connected layers connect all neurons in a line.
It works by abiding the principle of Multi-Layer Perceptron.
Every fully connected layer follows a nonlinear function.
While analyzing the medical images, classification takes place by targeting the lesions and tumours.
Other categories of those are into two or more classes.
Many training data is there for better type using CNN.
After the classification process, the segmentation process takes place.
Segmentation of organs is the crucial role in image processing techniques.
Contd..
Applications in Radiology
Segmentation is a time-consuming process.
Instead of manual segmentation, CNN can be applied for segmenting the organs.
To train the network for the segmentation process, medical images of the organs and those segmentation results are used.
CNN classifier is used for segmentation to calculate the probability of finding the organs.
In this, firstly, a probability map of the organs using CNN is done, later, global context of images and other probability maps by c onducting a meta-analysis.
Contd..
After all these, the abnormalities within the medical images must be detected.
In previous studies, 2D-CNN is used for detecting TB on chest radiographs.
For develop the detection system and evaluate its performance, the dataset of 1007 chest radiographs performs well.
About 40 million mammography examinations are done every year in the USA.
Those were made mainly to screen programs aiming to detect breast cancer at early stages by the meta-analysis in quantitative studies
Advantages of CNN
Currently, specific techniques like texture analysis, conventional machine learning classifiers like random forests and support vector machines are useful.
Howbeit, CNN posses its advantages.
It does not need hand-made feature extraction.
Then, the architecture of CNN does not requiresegmentation of parts like differentiating tumors and organs.
Contd..
Future Scopes
There are several methods to facilitate deep learning.
But, well-annotated medical datasets in huge size are required to accomplish the perspectives of deep understanding.
This kind of dedicated pre-trained networks can be used tofoster the advancement of medical diagnosis.
The vulnerability of deep neural networks in medical imaging is crucial since the clinical application requires robustness for eventual applications compared to other non-medical systems.
ConclusionMore datasets are produced in both medical and non-medical fields.
It has become obvious to apply more deep learning to ease analyzing and recognizing them.
CNN's and other deep learning techniques are helpful in healthcare and health risk management guided by the help of Pubrica and giving Meta-a nalysis Writing Services.
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