Abstract
The Tower of London Test (TOL) used to assess executive functions was inspired in Artificial Intelligence tasks used to test problem-solving algorithms. In this study, we compare the performance of humans and of exploration algorithms. Instead of absolute execution times, we focus on how the execution time varies with the tasks and/or the number of moves. This approach used in Algorithmic Complexity provides a fair comparison between humans and computers, although humans are several orders of magnitude slower. On easy tasks (1 to 5 moves), healthy elderly persons performed like exploration algorithms using bounded memory resources, i.e., the execution time grew exponentially with the number of moves. This result was replicated with a group of healthy young participants. However, for difficult tasks (5 to 8 moves) the execution time of young participants did not increase significantly, whereas for exploration algorithms, the execution time keeps on increasing exponentially. A pre-and post-test control task showed a 25% improvement of visuo-motor skills but this was insufficient to explain this result. The findings suggest that naive participants used systematic exploration to solve the problem but under the effect of practice, they developed markedly more efficient strategies using the information acquired during the test.
Highlights
The Tower of London (TOL) [1] was designed to assess deficits of planning in patients with lesions of the frontal lobe
Participants - performance curve The execution time T as a function of the task is presented in Figure 3 with the algorithmic indexes
The differences were so important that a task of 3 moves took on average longer than some tasks of 4 moves and the same occurred with some tasks of 4 and 5 moves
Summary
The Tower of London (TOL) [1] was designed to assess deficits of planning in patients with lesions of the frontal lobe. In Shallice’s rationale, these lesions damage the Supervisory Attentional System (SAS) responsible for the non-routine selection of action schemes. In the TOL, ‘‘the subject must construct a stack of objects from a starting configuration in series of individual moves’’ Three beads placed on three rods are moved one by one in order to reach a given configuration. The subject performs twelve tasks requiring between 2 and 5 moves. With four moves or more, the SAS is presumably engaged, deficits are expected in patients with frontal lesions. The PubMed database contains 53 articles on the TOL (March 20, 2009; keywords ‘‘Tower London’’ and/or ‘‘TOL’’ in title; irrelevant references removed manually)
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