本文论述应用生物电方法在模拟航天环境和信息处理系统中发现的脑功能的一系列对抗现象。生物电对抗现象发生于超重和低动力效应之间,红光和绿蓝光刺激之间、苯丙氨和五羟色氨作用之间、以及学习记忆中高效率与低效率之间。对抗关系以不同配对方式出现于时间域、频率域和空间域。文中着重分析了诱发电位负波与正波之间的对抗关系(n/P)、额叶和枕叶对抗(F/O)及脑电频功谱结构中的对抗现象。也注意到在θ段和单频反应中分析相位关系,观察相位同步(w波)、相位突变(m波)和相位对抗现象。 实验结果有力表明神经对抗是脑功能组织的一个重要原则。本文就此对多层神经对抗系统进行了讨论,强调了神经对抗原则在航天脑研究中应用的可能性。 This article discusses a series of confrontations of brain function found using the bioelectrical method in a simulated space environment and information processing system. Bioelectrical confrontation occurs between overweight and low power effects, between red and green light stimuli, between the action of amphetamine and serotonin, and between high efficiency and low efficiency in learning and memory. The antagonistic relations appear in the time domain, the frequency domain and the space domain in different pairing ways. In this paper, we mainly analyze the confrontational relationship (n / P) between the negative and positive waves of the evoked potential, the confrontation between the frontal lobe and occipital lobe (F / O) and the EEG frequency spectrum. It is also noted that the phase relationship is analyzed in the θ segment and the single-frequency response to observe the phase synchronization (w-wave), the phase-mutation (m-wave) and the phase countermeasure. The experimental results strongly suggest that neurological confrontation is an important principle of brain functional tissue. In this paper, the multi-layer neural antagonistic system is discussed, emphasizing the possibility of the application of neural antagonism in aerospace brain research.