Schumm Michael, Cruse Holk
Faculty of Biology, University of Bielefeld, Postfach 100131, 33501 Bielefeld, Germany.
J Comp Physiol A Neuroethol Sens Neural Behav Physiol. 2006 Oct;192(10):1147-64. doi: 10.1007/s00359-006-0147-0. Epub 2006 Jul 8.
Stick insects were studied while walking on different substrates. The trajectories of swing movements are recorded. The starting position of a swing movement is varied in vertical direction and in the direction parallel to body long axis. The trajectories found cannot be predicted by an ANN (Swingnet1) proposed earlier to describe swing movements. However, a modified network (Swingnet2) allows for a satisfying description of the behavioral results. Walking on a narrow treadwheel leads to different swing trajectories compared to walking on a broad treadwheel. These trajectories cannot be described by Swingnet1, too. The form of the swing trajectory may depend on the direction of the force vector by which the leg acts on the ground in the preceding stance. Based on this assumption, an alternative hypothesis (Swingnet3) is proposed that can quantitatively describe all results of our experiment. When stick insects walk from a wide to a narrow substrate, transition between different swing trajectories does not change gradually over time. Rather, the form of the trajectory is determined by the current sensory input of the leg on a step-to-step basis. Finally, four different avoidance reflexes and their implementation into swing movements are investigated and described by a quantitative simulation.
研究了竹节虫在不同基质上行走时的情况。记录了摆动运动的轨迹。摆动运动的起始位置在垂直方向以及与身体长轴平行的方向上有所变化。先前提出的用于描述摆动运动的人工神经网络(Swingnet1)无法预测所发现的轨迹。然而,一个经过改进的网络(Swingnet2)能够对行为结果进行令人满意的描述。与在宽踏板上行走相比,在窄踏板上行走会导致不同的摆动轨迹。这些轨迹同样也无法用Swingnet1来描述。摆动轨迹的形式可能取决于腿部在前一支撑阶段作用于地面的力矢量方向。基于这一假设,提出了一个替代假设(Swingnet3),它能够定量描述我们实验的所有结果。当竹节虫从宽基质走到窄基质时,不同摆动轨迹之间的转变并非随时间逐渐变化。相反,轨迹的形式是由腿部在每一步的当前感觉输入决定的。最后,研究了四种不同的回避反射及其在摆动运动中的实现方式,并通过定量模拟进行了描述。
