Performance assessment on the Korean Computerized Neurobehavioral Test using a mobile device and a conventional computer: an experimental study
10.1186/s40557-018-0264-6
- Author:
Young Seok BYUN
1
;
Sung Kyu PARK
;
Joon SAKONG
;
Man Joong JEON
Author Information
1. Department of Occupational and Environmental Medicine, Yeungnam University Hospital, 3rd floor, Yeong-ui-gwan, 170, Hyeonchung-ro, Namgu, Daegu, 42415 Republic of Korea. mjoongjeon@gmail.com.
- Publication Type:Original Article
- Keywords:
Korean computerized neurobehavioral test;
Mobile device;
Desktop computer;
Assessment
- MeSH:
Education;
Fingers;
Korea;
Reaction Time;
Recognition (Psychology)
- From:Annals of Occupational and Environmental Medicine
2018;30(1):55-
- CountryRepublic of Korea
- Language:English
-
Abstract:
BACKGROUND: The Korean Computerized Neurobehavioral Test (KCNT) is a psychological assessment tool used as part of Workers’ Special Health Examinations in Korea. Due to the spread of mobile technology, this study aimed to compare results of the KCNT administered on a tablet PC versus a desktop computer, and, therefore, assess the clinical applicability of mobile devices. METHODS: A total of 72 participants enrolled in this study. Their age, sex, and years of formal education were collected during an interview, as well as their typing speed. The test battery comprised five subtests: Simple Reaction Time test, Choice Reaction Time test, Digit Addition test, Symbol-Digit Substitution test, and Finger Tapping Speed test. Participants repeated the KCNT test battery in a randomly assigned order using four different testing systems: a desktop computer equipped with a conventional 106-key keyboard (System 1), a desktop computer equipped with a simplified keyboard (System 2), a tablet PC with a simplified 17-key on-screen keyboard (System 3), and a tablet PC equipped with a simplified keyboard (System 4). RESULTS: Results of the Digit Addition test did not differ significantly for different testing systems. In contrast, results of the Simple Reaction Time test, Choice Reaction Time test, Symbol-Digit Substitution test, and Finger Tapping test were lower for the tablet PC (Systems 3 and 4) compared to the desktop computer (Systems 1 and 2). Systems 1 and 2 did not show significantly different results. Performance on System 3 was inferior to that on System 4, only for the Choice Reaction Time test and Finger Tapping Speed test. There were also significant differences in performance by computer familiarity when adjusted for age and education; however, the performance of each group on the test systems showed similar patterns. CONCLUSIONS: It is not recommended to use a tablet PC to administer the KCNT to evaluate neurobehavioral performance for the Simple Reaction Time test and Choice Reaction Time test; however, tablet PCs with an on-screen keyboard may be used to perform the Digit Addition test, and the Symbol-Digit Substitution test and Finger Tapping Speed test to a limited degree.