| 其他摘要 |
This research mainly examined the influence of visual position representation of characters within a word on the Chinese character order encoding. The character order encoding is defined as the process of the brain acquiring the relative order information of characters within a word. For a long time, character order encoding has always been equated with the visual position representation of characters within a word. However, character order encoding is not identical to the visual position representation of characters. There is some evidence that, at least for Chinese readers, when Chinese text is presented in a non-conventional typography, for example, right-to-left format or upto-down typography, Chinese readers could still recognize the word. It suggests that Chinese readers could rely on the cue of reading direction to accomplish the encoding of Chinese character order, even when the visual information does not accord with the existing visual position representation in the brain.
Since Chinese readers could still encode character order when they only depend on reading direction, then it raise a question: whether character visual position representation has an independent contribution to character order encoding? To investigate this question, an eye-movement experiment (Experiment 1) was conducted. In Experiment 1, we manipulated two text presentation conditions where reading was from right to left. In one condition, both word order and character order were presented from right to left. In the other condition, the word order was presented from right to left, but the character order within a word was in a left-to-right format. The results showed that the latter condition had significantly shorter reading time, faster reading speed and less fixations. These results preliminarily tells us that character visual position representation within a word makes an independent contribution to character order encoding.
Given that all the character order within a word in the latter condition of Experiment 1 were always contrary to the text reading direction, which had high regularity, readers might develop some reading strategies during the experiment. Therefore, to further test the conclusion of Experiment1, only the target word in each sentence was manipulated in Experiment 2. In addition, the normal reading direction (left-to-right) were included as controls. We explored how reading directions, including LR (reading from left to right) and RL (reading from right to left), and the presentation type, which includes normal character order and reversed character order, influence reading times on the target words. The results showed that the RL condition had significantly longer fixation times than the LR condition, and the reversed character order presentation condition had significantly longer reading time than the normal character order presentation condition. What’s more, the interaction of the two factors was significant: the reversed character order presentation condition had significantly longer fixation times than the normal character order presentation condition in the direction of reading form left to right; however, when reading from right to left, the two presentation condition had no significant difference, and the reversed character order presentation condition had a tendency to read faster. Again, it suggests that character visual position representation within a word has an independent contribution to the processing of Chinese character order coding.
In conclusion, the two experiments suggest that character visual position representation within a word is automated processing during reading, thus affecting the Chinese character order encoding. |
修改评论