Litcius/Paper detail

Geographic Disparity in Machine Intelligence Approaches for Archaeological Remote Sensing Research

Dylan S. Davis

2020Remote Sensing28 citationsDOIOpen Access PDF

Abstract

A vast majority of the archaeological record, globally, is understudied and increasingly threatened by climate change, economic and political instability, and violent conflict. Archaeological data are crucial for understanding the past, and as such, documentation of this information is imperative. The development of machine intelligence approaches (including machine learning, artificial intelligence, and other automated processes) has resulted in massive gains in archaeological knowledge, as such computational methods have expedited the rate of archaeological survey and discovery via remote sensing instruments. Nevertheless, the progression of automated computational approaches is limited by distinct geographic imbalances in where these techniques are developed and applied. Here, I investigate the degree of this disparity and some potential reasons for this imbalance. Analyses from Web of Science and Microsoft Academic searches reveal that there is a substantial difference between the Global North and South in the output of machine intelligence remote sensing archaeology literature. There are also regional imbalances. I argue that one solution is to increase collaborations between research institutions in addition to data sharing efforts.

Topics & Concepts

DocumentationComputer scienceThreatened speciesData sciencePolitical instabilityArchaeologyClimate changeRemote sensingGeographyPoliticsGeologyPolitical scienceEcologyLawHabitatBiologyProgramming languageOceanographyArchaeological Research and ProtectionArchaeology and ancient environmental studies3D Surveying and Cultural Heritage
Geographic Disparity in Machine Intelligence Approaches for Archaeological Remote Sensing Research | Litcius