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Full-Text Articles in Engineering
A Training Sample Sequence Planning Method For Pattern Recognition Problems, Chen-Wen Yen, Chieh-Neng Young, Mark L. Nagurka
A Training Sample Sequence Planning Method For Pattern Recognition Problems, Chen-Wen Yen, Chieh-Neng Young, Mark L. Nagurka
Mechanical Engineering Faculty Research and Publications
In solving pattern recognition problems, many classification methods, such as the nearest-neighbor (NN) rule, need to determine prototypes from a training set. To improve the performance of these classifiers in finding an efficient set of prototypes, this paper introduces a training sample sequence planning method. In particular, by estimating the relative nearness of the training samples to the decision boundary, the approach proposed here incrementally increases the number of prototypes until the desired classification accuracy has been reached. This approach has been tested with a NN classification method and a neural network training approach. Studies based on both artificial and …
Working Postures Of Dentists And Dental Hygienists, Richard W. Marklin, Kevin Cherney
Working Postures Of Dentists And Dental Hygienists, Richard W. Marklin, Kevin Cherney
Mechanical Engineering Faculty Research and Publications
A joint study was conducted by a manufacturer of dental stools in the Midwest of the United
States and Marquette University to measure the occupational postures of dentists and dental hygienists. The postures of 10 dentists and 10 dental hygienists were assessed using work sampling and video techniques. Postura! data of the neck, shoulders and lower back were recorded from video and categorized into 30-degree intervals: O (neutral posture of respective joint), 30, 60 and 90 degrees. Each subject's postures were observed while they were treating patients during a four-hour period, during which 100 observations of postures were recorded at …
A Mass-Spring-Damper Model Of A Bouncing Ball (Conference Proceeding), Mark L. Nagurka, Shuguang Huang
A Mass-Spring-Damper Model Of A Bouncing Ball (Conference Proceeding), Mark L. Nagurka, Shuguang Huang
Mechanical Engineering Faculty Research and Publications
The mechanical properties of a vertically dropped ball, represented by an equivalent mass-spring-damper model, are related to the coefficient of restitution and the time of contact of the ball during one bounce with the impacting surface. In addition, it is shown that the coefficient of restitution and contact time of a single bounce are related to the total number of bounces and the total time elapsing between dropping the ball and the ball coming to rest. For a ball with significant bounce, approximate expressions for model parameters, i.e., stiffness and damping or equivalently natural frequency and damping ratio, are developed. …