基于能级跃迁的创新转型激发模型

The Energy Level Jumping Model for the Innovation Transformation of a System

将创新转型比作量子受激跃迁过程,结合创新转型演进特点,将创新转型的演进节点划分为5种状态:原始封闭状态、模仿状态、创新式模仿状态、模仿式创新状态、自主创新状态,并运用量子跃迁模型模拟创新转型的状态演进。当受到外界创新刺激因素的刺激足够时,便会诱发创新状态的跃迁,且跃迁概率由外界创新刺激因素的作用强度和时间共同决定。结果显示,可充分运用不同的外界刺激因素组合获得最佳创新转型效果。

The innovation transformation, similar to the quantum stimulated transition, combining with the characteristics of innovation transformation evolution, could be divided into five evolution nodes, i. e. , the original closed state, imitation state, innovative imitation state, imitative innovation state and independent innovation state, and then the state evolution of innovation transformation could be simulated applying the quantum leap model. It was concluded that the innovation state could be induced under an enough stimulation of innovation incentives, and the transition probability is decided by the innovation incentive intensity and duration. It suggests that the best effect of innovation transformation could be got by some combination of the external stimulation factors.