Optimised feature selection for early cancer detection
Global Cancer Incidence, Mortality and Prevalence (GLOBOCAN) status report for the year of 2020, suggests the occurrence of 10.0 million cancer deaths and 19.3 million new cancer cases. Clearly, cancer incidence and mortality are rapidly growing worldwide. Also, the leading causes of cancer deaths a...
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| Veröffentlicht in: | Genetika (Beograd) 2021, Vol.53 (3), p.1297-1309 |
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| container_title | Genetika (Beograd) |
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| creator | Uthayan, K.R. Mohanavalli, S. Nivetha, B. Dhivya, S. |
| description | Global Cancer Incidence, Mortality and Prevalence (GLOBOCAN) status report
for the year of 2020, suggests the occurrence of 10.0 million cancer deaths
and 19.3 million new cancer cases. Clearly, cancer incidence and mortality
are rapidly growing worldwide. Also, the leading causes of cancer deaths are
found to be lung cancer and breast cancer. Cancer cells are having the
probability of spreading to other parts of the body too. Most chronic
cancers are not curable, but some can be controlled for a few months or
years. Also, there is a possibility of high rate of relapse of the disease.
These remissions can be partial or complete. But, if detected early, certain
cancers can be treated by surgery, chemotherapy, and radiation therapy. This
research work focuses on detecting cancer in its early stage so that right
measures can be taken to combat the disease. In this attempt to create a
beneficial working model, the combination of Artificial Neural Network
(ANN), Convolution Neural Network, Graph based Neural Network with Genetic
Algorithm (GA) have proven to be successful. As a proof of concept, we
present a combination of feature selection techniques that can effectively
reduce the feature set and optimize the classification techniques. The
proposed method, when applied on a benchmark dataset, gave a higher accuracy
by selecting most relevant 7 features out of 10 with an accuracy of 95.7%.
Using Convolution Neural Network, the accuracy improved to 98.3% with
optimal hyperparameter tuning. |
| doi_str_mv | 10.2298/GENSR2103297U |
| format | Article |
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for the year of 2020, suggests the occurrence of 10.0 million cancer deaths
and 19.3 million new cancer cases. Clearly, cancer incidence and mortality
are rapidly growing worldwide. Also, the leading causes of cancer deaths are
found to be lung cancer and breast cancer. Cancer cells are having the
probability of spreading to other parts of the body too. Most chronic
cancers are not curable, but some can be controlled for a few months or
years. Also, there is a possibility of high rate of relapse of the disease.
These remissions can be partial or complete. But, if detected early, certain
cancers can be treated by surgery, chemotherapy, and radiation therapy. This
research work focuses on detecting cancer in its early stage so that right
measures can be taken to combat the disease. In this attempt to create a
beneficial working model, the combination of Artificial Neural Network
(ANN), Convolution Neural Network, Graph based Neural Network with Genetic
Algorithm (GA) have proven to be successful. As a proof of concept, we
present a combination of feature selection techniques that can effectively
reduce the feature set and optimize the classification techniques. The
proposed method, when applied on a benchmark dataset, gave a higher accuracy
by selecting most relevant 7 features out of 10 with an accuracy of 95.7%.
Using Convolution Neural Network, the accuracy improved to 98.3% with
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for the year of 2020, suggests the occurrence of 10.0 million cancer deaths
and 19.3 million new cancer cases. Clearly, cancer incidence and mortality
are rapidly growing worldwide. Also, the leading causes of cancer deaths are
found to be lung cancer and breast cancer. Cancer cells are having the
probability of spreading to other parts of the body too. Most chronic
cancers are not curable, but some can be controlled for a few months or
years. Also, there is a possibility of high rate of relapse of the disease.
These remissions can be partial or complete. But, if detected early, certain
cancers can be treated by surgery, chemotherapy, and radiation therapy. This
research work focuses on detecting cancer in its early stage so that right
measures can be taken to combat the disease. In this attempt to create a
beneficial working model, the combination of Artificial Neural Network
(ANN), Convolution Neural Network, Graph based Neural Network with Genetic
Algorithm (GA) have proven to be successful. As a proof of concept, we
present a combination of feature selection techniques that can effectively
reduce the feature set and optimize the classification techniques. The
proposed method, when applied on a benchmark dataset, gave a higher accuracy
by selecting most relevant 7 features out of 10 with an accuracy of 95.7%.
Using Convolution Neural Network, the accuracy improved to 98.3% with
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for the year of 2020, suggests the occurrence of 10.0 million cancer deaths
and 19.3 million new cancer cases. Clearly, cancer incidence and mortality
are rapidly growing worldwide. Also, the leading causes of cancer deaths are
found to be lung cancer and breast cancer. Cancer cells are having the
probability of spreading to other parts of the body too. Most chronic
cancers are not curable, but some can be controlled for a few months or
years. Also, there is a possibility of high rate of relapse of the disease.
These remissions can be partial or complete. But, if detected early, certain
cancers can be treated by surgery, chemotherapy, and radiation therapy. This
research work focuses on detecting cancer in its early stage so that right
measures can be taken to combat the disease. In this attempt to create a
beneficial working model, the combination of Artificial Neural Network
(ANN), Convolution Neural Network, Graph based Neural Network with Genetic
Algorithm (GA) have proven to be successful. As a proof of concept, we
present a combination of feature selection techniques that can effectively
reduce the feature set and optimize the classification techniques. The
proposed method, when applied on a benchmark dataset, gave a higher accuracy
by selecting most relevant 7 features out of 10 with an accuracy of 95.7%.
Using Convolution Neural Network, the accuracy improved to 98.3% with
optimal hyperparameter tuning.</abstract><doi>10.2298/GENSR2103297U</doi><tpages>13</tpages><oa>free_for_read</oa></addata></record> |
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| language | eng |
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| source | Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals |
| title | Optimised feature selection for early cancer detection |
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