Tracking is an experimental paradigm that can be used to study information processing in continuous movements involving accurate, ongoing control of motor performance. The purpose of this study was to identify the effects of knee tracking performance. Six patients with hemiplegia and six age-matched controls participated in the study. The tracking test was administrated. It was composed with regular ranges of to and randomized range .2 to .4 Hz. Using the Mann-Whitney U test, a comparison was made between subjects who had suffered from stroke and subjects who were well coordinated. The Wilcoxon Matched Pairs Signed Ranks Test was used to compare and analyze the paretic and nonparetic sides of the stroke patients. The results of study were as follows: accuracy index of the tracking test was significantly higher on the control side than paretic and nonparetic sides. Accuracy index scores were significantly higher for nonparetic sides with stroke compared with paretic sides with stroke. This study shows tracking is impaired in paretic and nonparetic knee of subjects with stroke.
This thesis investigates the feasibility and advantages of establishing a more efficient distribution system utilizing new technologies such as the internet and radio frequency identification (RFID). Introducing and promoting the diffusion of commodity traceability (the ability to trace the distribution route of products and materials) is necessary in order to make distribution and logistics more efficient, to clarify the safety of foods and daily necessities, to prevent theft and to monitor the dealing of stolen or imitation goods. This thesis focuses especially on a commodity (products) traceability system to enhance transparency for consumers. The expected effects of RFID can be summarized as follows. - Substantial improvement in logistics efficiency. - Higher consumer safety, quality management, and security for foods, drugs, and goods (clothes, books, electric appliances, automobiles, etc.) through improved traceability.