Keywords
Junior-class children
Spatial orientation cognition
Practical path
Submitted : 2026-05-04
Accepted : 2026-05-19
Published : 2026-06-03
Abstract
Spatial orientation perception is an important part of mathematical cognitive enlightenment and physical and mental development in preschool children. Based on the age characteristics of junior-class children and one-year teaching practice, this study deeply explores the effective role of unstructured (low-structure) materials in cultivating children’s sense of spatial orientation. The study points out that low-structure materials, with their open-ended, operable and life-based characteristics, can effectively stimulate children to independently explore, understand and apply spatial orientation concepts in specific situations. From three dimensions: material delivery strategies, teaching activity organization and teacher guidance methods, this paper systematically expounds the practical paths of how low-structure materials promote the development of spatial orientation cognition in junior-class children, and summarizes universally meaningful and replicable implementation suggestions, aiming to provide references for relevant education and teaching activities in kindergartens.
References
Zhang YJ, Yao LF, 2025, Paths to Create Space for Children’s Low-Structure Scientific Production Activities from the Perspective of Children’s Geography. Education Science Forum, (05): 56–62.
Xu WC, 2023, Practical Research on Effective Delivery of Low-Structure Materials in Junior-Class Art Area under the Concept of “Child-Oriented”. The 1st Smart Education Teaching and Development Forum, Shanghai.
Liu YL, 2025, Countermeasures for Cultivating Children’s Autonomous Learning Ability in Outdoor Activities — Taking the Outdoor Exploratory Regional Activity “Big Trees in Kindergarten” as an Example. Journal of National Universal Language Teaching and Research, (04): 185–187.
Xu XL, 2021, Cultivating Children’s Independent Innovation Ability Based on Low-Structure Material Delivery. Basic Education Forum, (10): 78 + 80.
Lei X, 2020, Research on the Distribution Strategy of Low-Structured Materials in Kindergarten Area Activities. Chinese Youth, 2020(9): 2.
Li YM, 2022, Practice and Exploration of Developing STEAM Education for Young Children Using Low-Structure Materials. Journal of Ningbo Institute of Education, 24(5): 16–19.
Hu RR, 2021, Practical Thoughts on Low-Structure Material Delivery in Kindergarten Outdoor Autonomous Games. Children, (4): 19–20.
Meng XQ. Research on the Strategy of Low-Structured Materials Input in Mixed-Age Activity Areas of Rural Kindergartens, thesis, Dali University.
Zhang YF, Zhang W, Li JH, 2022, Construction Strategies of Preschool Junior-Class Training Rooms Based on Low-Structure Materials. Guangdong Education (Vocational Education Edition), (2): 29–31.
Zhou HX, 2025, Research on Strategies for Cultivating Children’s Creative Thinking Relying on Low-Structure Materials. E-Dong Fashion, (12): 148–150.
Chen Y. Practical Research on the Application of Low-Structured Materials in Autonomous Play Scenarios in Kindergartens [J]. World Children, 2025(11):0164-0166.
Xie XQ, 2023, Practical Research on Improving Children’s Cooperation Ability with Low-Structure Materials in Art Area. Contemporary Family Education, (1): 68–71.
Jiang XQ, 2022, Exploring the Application of Low-Structure Materials in Kindergarten Outdoor Construction Games and Children’s Development. Love Marriage Family, (3): 0001–0002.
Fan WL, 2021, Effective Guidance Strategies for Low-Structure Material Delivery in Junior-Class Children’s Regional Activities. Legend Magazine (First Edition), 2021(02): 93–93.
Zhu F, 2025, Practical Research on the Development and Application of Low-Structure Game Materials from Children’s Perspective. Jiaoyujie, (07): 116–118.