TY  - JOUR
Y1  - 2023///
EP  - 400
JF  - (IJACSA) International Journal of Advanced Computer Science and Applications
IS  - 12
KW  - Expert system; stroke; case-based reasoning; Minkowski Distance; jaccard coefficient; weighted cosine; threshold; accuracy; diagnosis
SP  - 394
TI  - COMPARISON OF THE APPLICATION OF WEIGHTED COSINE SIMILARITY AND MINKOWSKI DISTANCE SIMILARITY METHODS IN STROKE DIAGNOSTIC SYSTEMS
ID  - katalog9189
PB  - (IJACSA) International Journal of Advanced Computer Science and Applications
A1  - Joko Purwadi
A1  - Rosa Delima
A1  - Argo Wibowo
A1  - Angelina Rumuy
UR  - https://thesai.org/Publications/ViewIssue?volume=14&issue=12&code=IJACSA
SN  - 2156-5570
AV  - public
N2  - Stroke is a critical medical condition requiring prompt intervention due to its multifaceted symptoms and causes influenced by various factors, including psychological aspects and the patient's lifestyle or daily habits that impact risk factors. The recovery process involves consistent medical care and lifestyle adjustments tailored to the individual case. Expert Systems, a scientific field focused on studying and developing diagnostic systems, can employ the Case-based Reasoning method to identify the type of stroke based on similarities with prior patient cases, considering specific causes and symptoms. This study utilizes the Weighted Cosine, Jaccard Coefficient, and Minkowski Distance methods to assess the similarity of stroke cases. The evaluation is based on input data such as patient causes or symptoms and risk factors from medical records. The analysis of case similarity and solutions involves applying the Weighted Cosine, Jaccard Coefficient, and Minkowski Distance methods, with a defined threshold value. The highest similarity values from previous patient cases are selected for each method. The test outcomes suggest that employing the Minkowski Distance method with a threshold value of 75 and an r value of three or four yields the highest levels of accuracy, recall, and precision. The Minkowski Distance achieves an accuracy and recall rate of more than 88 percent with 100 percent precision.
VL  - 14
ER  -