TITLE:
The Bosnian Pyramid of the Dragon: A GIS-Based Spatial Analysis of Alignments, Triangular Configurations, Fibonacci Structures, and Network Centrality
AUTHORS:
Sam Osmanagich
KEYWORDS:
Bosnian Pyramid of the Dragon, Bosnian Valley of the Pyramids, GIS, LiDAR, Spatial Analysis, Geometric Alignment, Triangular Geometry, Fibonacci Geometry, Network Centrality, Robustness Analysis, Cultural Landscape
JOURNAL NAME:
International Journal of Geosciences,
Vol.17 No.7,
July
6,
2026
ABSTRACT: The Bosnian Pyramid of the Dragon represents one of the principal topographic features within the Bosnian Valley of the Pyramids near Visoko, Bosnia and Herzegovina. While previous studies have examined individual geometric relationships among major features of the valley, the present study investigates whether the Bosnian Pyramid of the Dragon occupies a central position within the broader spatial geometry of a predefined landscape dataset. Using geodetic coordinates, LiDAR-derived digital elevation models, topographic datasets, and Geographic Information System (GIS) analyses, eleven summit and landscape locations selected prior to geometric evaluation were analyzed. The investigation included linear alignments, triangular configurations, logarithmic geometric models based on Fibonacci proportions, geometric centrality measures, combinatorial ranking analyses, predictive geometry assessments, and network robustness tests. Particular attention was given to the role of the Bosnian Pyramid of the Dragon within recurrent geometric structures identified across the study area. The results reveal that the Bosnian Pyramid of the Dragon participates in the principal linear alignment connecting the Bosnian Pyramid of the Moon and the Temple of Mother Earth, forms one vertex of a highly regular Sun-Moon-Dragon triangle, and serves as a defining node in multiple logarithmic geometric models. Combinatorial analyses indicate that these relationships rank among the strongest geometric configurations identified within the selected summit network. Motif participation and peak-removal robustness analyses further indicate that the Bosnian Pyramid of the Dragon serves as the most connected geometric node in the analyzed network, resulting in the greatest reduction in network connectivity when removed from the dataset. The observed convergence of linear, triangular, and logarithmic geometries on the Bosnian Pyramid of the Dragon suggests that this location occupies a distinctive structural position within the spatial organization of the analyzed landscape dataset. The study demonstrates how GIS-based geometric network analysis can be applied to investigate complex spatial relationships among prominent landscape features and provides a quantitative framework for evaluating large-scale geometric patterns in cultural landscapes. The results should be interpreted as spatial observations derived from a predefined analytical dataset and do not, by themselves, establish intentional design, chronology, cultural agency, or anthropogenic origin.