在描述多任务系统时,支配型位置用来表示控制流,非支配型位置用来表示任务间通信、任务间相互作用。
When describing multi-task systems, dominating places are used to express the control flow and the undominating places to express the interaction of tasks and inter-task communication.
转换加工在工作记忆中体现为控制竞争同一认知资源的两项任务间相互转换的过程。
It was presented as controlling switching course between two tasks which compete the same cognitive resources in working memory.
由于二萘嵌苯的电子激发态与半导体导带能级间的强电子转移耦合,这一控制任务较电子激发态为目标态而言,更适合于实验研究。
Because of the strong coupling of the excited perylene state to the band continuum of TiO_2 this control task seems more appropriate for a study in the experiment.
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