Subjects: Information Science and Systems Science >> Other Disciplines of Information Science and Systems Science submitted time 2022-03-09
Abstract: 目的 论述建构信息系统动力学的必要性和基础,介绍其基本结构和应用前景。 方法 根据信息模型、性质和度量的数学基础理论以及信息系统的框架结构,建立信息系统的度量功效和动力构型,运用实例说明信息系统动力学的应用成前景。 结果 证明了信息模型、性质和度量定义符合一系列经典信息科技原理,基于信息系统的十一种度量功效和八种典型动力构型,构成了具有普遍意义的信息系统动力学基础理论体系。 局限 相关理论方法需要在其它行业领域复杂信息系统体系中得到应用验证。 结论 基于客观信息论的信息系统动力学能够支持复杂信息系统体系的分析和评价。
Peer Review Status:Awaiting Review
Subjects: Physics >> Condensed Matter: Electronic Structure, Electrical, Magnetic, and Optical Properties Subjects: Physics >> Interdisciplinary Physics and Related Areas of Science and Technology submitted time 2021-02-02
Abstract:The past decade has witnessed a surge of interest in exploring emergent particles in condensed matter systems. Novel particles, emerged as excitations around exotic band degeneracy points, continue to be reported in real materials and artificially engineered systems, but so far, we do not have a complete picture on all possible types of particles that can be achieved. Here, via systematic symmetry analysis and modeling, we accomplish a complete list of all possible particles in time reversal-invariant systems. This includes both spinful particles such as electron quasiparticles in solids, and spinless particles such as phonons or even excitations in electric-circuit and mechanical networks. We establish detailed correspondence between the particle, the symmetry condition, the effective model, and the topological character. This obtained encyclopedia concludes the search for novel emergent particles and provides concrete guidance to achieve them in physical systems.
Peer Review Status:Awaiting Review
Subjects: Psychology >> Educational Psychology Subjects: Psychology >> Developmental Psychology submitted time 2020-11-12
Abstract: Creativity is an interwoven system, encompassing individuals, groups, society, culture, etc. Since creativity is a system, the cultivation of creativity should also be systematic. We integrated some creativity-relevant theories to generate practical advice on the challenges of supporting creativity within the classroom. Based on earlier research on creativity, we put forth the “Butterfly Theory of Nurturing Creativity” to give a bird’s eye view of nurturing creativity. In this theory, the core and premise of being creative are to have creative impulses or creative dynamics (i.e., dynamic systems). We summarized the conditions supporting the dynamic systems into “two forewings” named capability and vitality (i.e., the support system). At the level of capability, creativity calls for general cognitive ability, multimethod enlightenment, attention to metacognition, and efficient knowledge information management. At the level of vitality, creative dynamics also relies on the satisfaction of basic psychological needs, the healthy development of personal traits, and reasonably supportive social interaction in an inclusively social and cultural environment. Besides, if an individual wants to fly freely in a creative life, he also needs “two hindwings” (conducting daily creative thinking and problem solving; forming creative habits and a creative personality) that are constantly improved in daily life to adjust the balance (i.e., regulating system). People who are creative show motivation to make novel and appropriate products for their domains of interest. Creativity cannot be taught unless teachers find ways to intrigue their students’ creative impulses. Intrinsic motivation, like interest, is the greatest autonomous motivator. The key topics of this paper are to find what the essence of interest or fun is and how to raise it. Combining theory with practice, this paper also shows a general way to activate fun or interest in the classroom.