Taylor J G, Keverne E B
Department of Mathematics, King's College, London, United Kingdom.
Biol Cybern. 1991;64(4):301-5. doi: 10.1007/BF00199593.
Learning in the accessory olfactory bulb is modelled mathematically by means of a set of coupled oscillator equations to describe the ongoing activity. The modification of this activity by experience is shown to lead to a change of the transfer function of the AOB as an input-output device. This leads both to a test of the model and a means of discovering how the later stages of the brain may use the AOB output. Our discussion is limited to a specific form of learning in the mouse, but may have more general applicability.
通过一组耦合振荡器方程对副嗅球中的学习进行数学建模,以描述持续的活动。经验对这种活动的改变被证明会导致副嗅球作为输入输出装置的传递函数发生变化。这既对模型进行了检验,也提供了一种方法来发现大脑后期阶段可能如何利用副嗅球的输出。我们的讨论限于小鼠中一种特定形式的学习,但可能具有更广泛的适用性。