Wright Anthony A
Department of Neurobiology and Anatomy, Medical School, University of Texas Health Center at Houston, P.O. Box 20708, Houston, TX 77225, USA.
Behav Processes. 2010 Oct;85(3):246-51. doi: 10.1016/j.beproc.2010.07.018. Epub 2010 Aug 20.
Pigeons, capuchin monkeys and rhesus monkeys were trained in nearly identical same/different tasks with an expanding 8-item training set and showed qualitatively similar functional relationships: increasing novel-stimulus transfer (i.e., concept learning) as a function of the training-set size and the level of transfer eventually becoming equivalent to baseline training performance. There were also some quantitative functional differences: pigeon transfer increases were more gradual and baseline-equivalent transfer occurred at a larger set size (256 items) than for monkeys (128 items). Other pigeon groups trained at 32 and 64-item initial set sizes showed improved transfer (relative to expanding the 8-item training set), equivalent to the monkey species' transfer at these same training set sizes. This finding of equivalent concept learning over a portion of the functional range (8, 32, and 64 items or 64-4096 training pairs) is discussed in terms of species differences: carryover effects from smaller-set training, evolved neural systems, cognitive and cortical modules, and general distributed learning systems for "higher-order" cognitive abilities.
鸽子、卷尾猴和恒河猴接受了几乎相同的相同/不同任务训练,训练集有8个项目且不断扩充,它们表现出了定性相似的功能关系:随着训练集规模的增大,新颖刺激转移(即概念学习)增加,最终转移水平与基线训练表现相当。也存在一些定量的功能差异:鸽子的转移增加更为渐进,与基线相当的转移出现在比猴子更大的集规模(256个项目)时(猴子为128个项目)。其他在初始集规模为32和64个项目时接受训练的鸽子组显示出转移改善(相对于扩充8个项目的训练集),相当于这些相同训练集规模下猴子的转移情况。在功能范围的一部分(8、32和64个项目或64 - 4096个训练对)上等效概念学习的这一发现,从物种差异方面进行了讨论:较小集训练的遗留效应、进化的神经系统、认知和皮层模块,以及用于“高阶”认知能力的一般分布式学习系统。
