New Computational Method Uncovers Surprising Variability in Neolithic Building Practices

18 December, 2024
New Computational Method Uncovers Surprising Variability  in Neolithic Building Practices

This study reveals that the early architectural development in the Near East was far more complex than previously thought, challenging the traditional narrative of a straightforward transition from round to rectangular structures during the Neolithic period. The research introduces a novel computational approach to analyze architectural remains, providing an objective and repeatable method for examining building outlines. This methodology uncovers insights that qualitative methods might overlook, including quantification of defined angles in structures as early as the Natufian period, suggesting advanced building techniques were in use earlier than believed. The study also highlights the architectural diversity during the Natufian and early Neolithic period, suggesting that building codes and more standard practices had not yet emerged. These findings provide new insights into the social and technological changes accompanying the rise of permanent settlements and agricultural economies. 


 

A recent study led by researchers from the Institute of Archaeology at the Hebrew University—Hadas Goldgeier, Dr. Antoine Muller, and Prof. Leore Grosman—introduces a new computational method to analyze the architectural development of early settlements. By offering an objective and repeatable approach to examining architectural remains, the study gives a new perspective on the transition from round to rectangular structures during the Neolithic period in the Near East.

Architectural forms have long been tied to societal shifts such as changes in social organization, demographics, and economic strategies. However, traditional interpretations of early architecture have relied on qualitative methods, which may oversimplify complex trends. This study provides a fresh perspective by digitizing building outlines and employing computational tools to objectively quantify their two-dimensional morphology. Using measures like the directionality of normal vectors and minimum angles, the team analyzed 118 structures from 23 sites across the Mediterranean region and Jordan Valley, dating from the Natufian culture to the early Neolithic (15,000–8,500 years ago).

The results revealed a far more nuanced picture than the conventional “round-to-rectangular” narrative suggests. Structures with right angles, previously associated with later architectural phases, were found as early as the Natufian period, reflecting significant advances in building technology at an earlier stage than previously thought. Moreover, the variability in structure shapes was highest during the Natufian and early Neolithic periods, reflecting a lack of formalized conventions. Later in the Neolithic, however, architectural forms showed greater uniformity, potentially signaling the emergence of codified building traditions.

This study not only challenges traditional interpretations but also highlights the social and technological changes accompanying the transition to permanent settlements and agricultural economies. The computational methodology offers an innovative lens to understand architectural history, demonstrating how quantitative analyses can uncover trends that remain hidden in qualitative approaches.

By emphasizing the dynamic variability and technological ingenuity of early builders, this research sheds new light on the inception of architecture in the Levant and underscores the importance of integrating modern analytical tools into archaeological studies. 

The research paper titled “A computational perspective on the dynamics of early architecture” is now available in Archaeological Research in Asia and can be accessed at https://doi.org/10.1016/j.ara.2024.100571

Researchers:
Hadas Goldgeier1, Antoine Muller1,2, Leore Grosman1

Institutions:
1)    The Computational Archaeology Laboratory, The Institute of Archaeology, The Hebrew University of Jerusalem, Israel 
2)    SFF Centre for Early Sapiens Behaviour (SapienCE), University of Bergen, Bergen, Norway

 

Photo: 

Aerial photograph of structures at the Natufian site of Nahal Ein Gev II, demonstrating the variety of shapes. (Credit - Naftali Hilger)

 

 

 

The Hebrew University of Jerusalem is Israel’s premier academic and research institution. With over 23,000 students from 90 countries, it is a hub for advancing scientific knowledge and holds a significant role in Israel’s civilian scientific research output, accounting for nearly 40% of it and has registered over 11,000 patents. The university’s faculty and alumni have earned eight Nobel Prizes, two Turing Awards a Fields Medal, underscoring their contributions to ground-breaking discoveries. In the global arena, the Hebrew University ranks 81st according to the Shanghai Ranking. To learn more about the university’s academic programs, research initiatives, and achievements, visit the official website at http://new.huji.ac.il/en