Standard

High-Dimensional Explainable AI for Cancer Detection. / Zou, Jinying; Xu, Feiran; Zhang, Yuyi; Petrosian, Ovanes; Krinkin, Kirill.

в: International Journal of Artificial Intelligence, Том 19, № 2, 01.09.2021, стр. 195-217.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Zou, J, Xu, F, Zhang, Y, Petrosian, O & Krinkin, K 2021, 'High-Dimensional Explainable AI for Cancer Detection', International Journal of Artificial Intelligence, Том. 19, № 2, стр. 195-217.

APA

Zou, J., Xu, F., Zhang, Y., Petrosian, O., & Krinkin, K. (2021). High-Dimensional Explainable AI for Cancer Detection. International Journal of Artificial Intelligence, 19(2), 195-217.

Vancouver

Zou J, Xu F, Zhang Y, Petrosian O, Krinkin K. High-Dimensional Explainable AI for Cancer Detection. International Journal of Artificial Intelligence. 2021 Сент. 1;19(2):195-217.

Author

Zou, Jinying ; Xu, Feiran ; Zhang, Yuyi ; Petrosian, Ovanes ; Krinkin, Kirill. / High-Dimensional Explainable AI for Cancer Detection. в: International Journal of Artificial Intelligence. 2021 ; Том 19, № 2. стр. 195-217.

BibTeX

@article{8d42242559184c17bc5c2c1983df6db1,
title = "High-Dimensional Explainable AI for Cancer Detection",
abstract = "The real industrial problems are often influenced by many uncertain factors, leading to computing issues by AI solutions, such as using medical data to predict cancer. As a new field, explainable AI still faces many challenges, such as the high-dimension of features to ex-plain. This paper proposes two possible solutions to the high-dimension XAI problem. The first solution is the Bi-level approach based on the method from cooperative coalitional game theory. In order to solve the high-dimension problem, the features are clustered using the historical input data set. In particular, the euclidean metric and size-constrained k-means algorithm are used. The second approach is based on the sampling algorithm for calculating the Shapley value, which makes it possible to compute the approximation of the Shapley value without using the coalitional game theory and clustering approaches. This paper implements the XAI solution in cancer prediction algorithm based on a Sampling approach and Bi-level approach, which is new in XAI field.",
keywords = "Anomaly detection, Bi-level approach, Explainable AI, High-dimension, Sampling approach, Size-constrained clustering",
author = "Jinying Zou and Feiran Xu and Yuyi Zhang and Ovanes Petrosian and Kirill Krinkin",
note = "Publisher Copyright: {\textcopyright} 2021, Centre for Environment and Socio-Economic Research Publications. All rights reserved.",
year = "2021",
month = sep,
day = "1",
language = "English",
volume = "19",
pages = "195--217",
journal = "International Journal of Artificial Intelligence",
issn = "0974-0635",
publisher = "Indian Society for Development and Environment Research",
number = "2",

}

RIS

TY - JOUR

T1 - High-Dimensional Explainable AI for Cancer Detection

AU - Zou, Jinying

AU - Xu, Feiran

AU - Zhang, Yuyi

AU - Petrosian, Ovanes

AU - Krinkin, Kirill

N1 - Publisher Copyright: © 2021, Centre for Environment and Socio-Economic Research Publications. All rights reserved.

PY - 2021/9/1

Y1 - 2021/9/1

N2 - The real industrial problems are often influenced by many uncertain factors, leading to computing issues by AI solutions, such as using medical data to predict cancer. As a new field, explainable AI still faces many challenges, such as the high-dimension of features to ex-plain. This paper proposes two possible solutions to the high-dimension XAI problem. The first solution is the Bi-level approach based on the method from cooperative coalitional game theory. In order to solve the high-dimension problem, the features are clustered using the historical input data set. In particular, the euclidean metric and size-constrained k-means algorithm are used. The second approach is based on the sampling algorithm for calculating the Shapley value, which makes it possible to compute the approximation of the Shapley value without using the coalitional game theory and clustering approaches. This paper implements the XAI solution in cancer prediction algorithm based on a Sampling approach and Bi-level approach, which is new in XAI field.

AB - The real industrial problems are often influenced by many uncertain factors, leading to computing issues by AI solutions, such as using medical data to predict cancer. As a new field, explainable AI still faces many challenges, such as the high-dimension of features to ex-plain. This paper proposes two possible solutions to the high-dimension XAI problem. The first solution is the Bi-level approach based on the method from cooperative coalitional game theory. In order to solve the high-dimension problem, the features are clustered using the historical input data set. In particular, the euclidean metric and size-constrained k-means algorithm are used. The second approach is based on the sampling algorithm for calculating the Shapley value, which makes it possible to compute the approximation of the Shapley value without using the coalitional game theory and clustering approaches. This paper implements the XAI solution in cancer prediction algorithm based on a Sampling approach and Bi-level approach, which is new in XAI field.

KW - Anomaly detection

KW - Bi-level approach

KW - Explainable AI

KW - High-dimension

KW - Sampling approach

KW - Size-constrained clustering

UR - http://www.scopus.com/inward/record.url?scp=85123397845&partnerID=8YFLogxK

M3 - Article

AN - SCOPUS:85123397845

VL - 19

SP - 195

EP - 217

JO - International Journal of Artificial Intelligence

JF - International Journal of Artificial Intelligence

SN - 0974-0635

IS - 2

ER -

ID: 94745938