Abstract
Reading research uses different tasks to investigate different levels of the reading process, such as word recognition, syntactic parsing, or semantic integration. It seems to be tacitly assumed that the underlying cognitive process that constitute reading are stable across those tasks. However, nothing is known about what happens when readers switch from one reading task to another. The stability assumptions of the reading process suggest that the cognitive system resolves this switching between two tasks quickly. Here, we present an alternative language-game hypothesis (LGH) of reading that begins by treating reading as a softly-assembled process and that assumes, instead of stability, context-sensitive flexibility of the reading process. LGH predicts that switching between two reading tasks leads to longer lasting phase-transition like patterns in the reading process. Using the nonlinear-dynamical tool of recurrence quantification analysis, we test these predictions by examining series of individual word reading times in self-paced reading tasks where native (L1) and second language readers (L2) transition between random word and ordered text reading tasks. We find consistent evidence for phase-transitions in the reading times when readers switch from ordered text to random-word reading, but we find mixed evidence when readers transition from random-word to ordered-text reading. In the latter case, L2 readers show moderately stronger signs for phase-transitions compared to L1 readers, suggesting that familiarity with a language influences whether and how such transitions occur. The results provide evidence for LGH and suggest that the cognitive processes underlying reading are not fully stable across tasks but exhibit soft-assembly in the interaction between task and reader characteristics.
Highlights
Research on reading has identified multiple levels at which the reading process operates, from the perceptual front-end to the integration and processing of higher-level semantic information
That the dynamics of the Lorenz system are better captured by measures that quantify diagonal lines on the recurrence plot (RP), while the reading time data that we are interested in modelling are better captured by the vertical line measures that we described above
Even though contemporary theories are silent on what would be expected to happen at the switch-point from one reading task to another, the above summary suggests that switching from random word list reading to connected text reading is quickly resolved by the cognitive system
Summary
Research on reading has identified multiple levels at which the reading process operates, from the perceptual front-end to the integration and processing of higher-level semantic information. While we define reading as an activity that is about meaning, our conceptions of what drives the reading process are at odds with what we would require of a meaningful language Beside these conceptual considerations, empirical evidence casts a shadow over Fregean stability for the sake of Fregean composability: the most basic of these text-characteristic predictors at the word level (e.g., word length and word frequency) are not stable across the duration of different reading tasks [13,14], and situation-model dimensions from discourse-level theories fail to show consistent effects when applied to long texts [8]. This is so because sequences of reading times do not exhibit well-defined trajectories as the Lorenz system, whose recurrences appear as diagonal line structures on an RP (see Fig 3B), but rather exhibit a clustering of adjacent recurrence points, evident as patches of recurrence on the RP (see Fig 4 below)
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