Deep Generation of Synthetic Training Data for the Automated Extraction of Semantic Knowledge from Historical Maps

Lukas Arzoumanidis; James Ormond Fethers; Sethmiya Herath Mudiyanselage; Youness Dehbi

doi:10.5194/ica-abs-7-7-2024

Deep Generation of Synthetic Training Data for the Automated Extraction of Semantic Knowledge from Historical Maps

Lukas Arzoumanidis^*, James Ormond Fethers, Sethmiya Herath Mudiyanselage, Youness Dehbi

^*Korrespondierende/r Autor/-in für diese Arbeit

Abstract

As a prerequisite for backtracking and monitoring environmental changes, historical maps are invaluable as they precisely
capture the spatial reality of the past (Chiang et al., 2019). To avoid further deterioration of useful information that could
unlock the possibility for spatio-temporal analysis, often a digitization is performed, which results in a large number
of scanned historical documents stored in digital archives (Wu et al., 2023). However, in this case scanned historical
documents, e.g., maps or plans, are not semantically enriched which makes the underlying spatial information unreachable
(Chiang et al., 2019). In this context, it is desired to digitize heterogeneous historical map corpora in a way that their
semantic knowledge can be automatically extracted by machines, recently demonstrated through semantic segmentation
using different Deep Learning techniques (Arzoumanidis et al., 2023, Wu et al., 2023, Petitpierre et al., 2021). After
analyzing, vectorization allows to store extracted semantic knowledge in a machine readable format which sets the basis
for an effective and intuitive comparison with current map features, e.g., in a spatio-temporal analysis (Wu et al., 2023).

Originalsprache	Englisch
Seitenumfang	2
DOIs	https://doi.org/10.5194/ica-abs-7-7-2024
Publikationsstatus	Veröffentlicht - 2024
Veranstaltung	European Cartographic Conference 2024 - TU Wien, Vienna, Österreich Dauer: 9 Sept. 2024 → 11 Sept. 2024

Tagung/Konferenz

Tagung/Konferenz	European Cartographic Conference 2024
Kurztitel	EuroCarto
Land/Gebiet	Österreich
Ort	Vienna
Zeitraum	9/09/24 → 11/09/24

Zugriff auf Dokument

10.5194/ica-abs-7-7-2024Lizenz: CC BY

Dieses zitieren

@conference{cd033cca14024a8d98c5d8b52fafcf0d,

title = "Deep Generation of Synthetic Training Data for the Automated Extraction of Semantic Knowledge from Historical Maps",

abstract = "As a prerequisite for backtracking and monitoring environmental changes, historical maps are invaluable as they precisely capture the spatial reality of the past (Chiang et al., 2019). To avoid further deterioration of useful information that could unlock the possibility for spatio-temporal analysis, often a digitization is performed, which results in a large number of scanned historical documents stored in digital archives (Wu et al., 2023). However, in this case scanned historical documents, e.g., maps or plans, are not semantically enriched which makes the underlying spatial information unreachable (Chiang et al., 2019). In this context, it is desired to digitize heterogeneous historical map corpora in a way that their semantic knowledge can be automatically extracted by machines, recently demonstrated through semantic segmentation using different Deep Learning techniques (Arzoumanidis et al., 2023, Wu et al., 2023, Petitpierre et al., 2021). After analyzing, vectorization allows to store extracted semantic knowledge in a machine readable format which sets the basis for an effective and intuitive comparison with current map features, e.g., in a spatio-temporal analysis (Wu et al., 2023). ",

keywords = "historical maps, generative adversarial networks, training data generation, cartographic heritage",

author = "Lukas Arzoumanidis and Fethers, \{James Ormond\} and Mudiyanselage, \{Sethmiya Herath\} and Youness Dehbi",

year = "2024",

doi = "10.5194/ica-abs-7-7-2024",

language = "English",

note = "European Cartographic Conference 2024, EuroCarto ; Conference date: 09-09-2024 Through 11-09-2024",

}

Deep Generation of Synthetic Training Data for the Automated Extraction of Semantic Knowledge from Historical Maps. / Arzoumanidis, Lukas; Fethers, James Ormond; Mudiyanselage, Sethmiya Herath et al.
2024. Abstract von European Cartographic Conference 2024, Vienna, Österreich.

Publikation: Andere Konferenzbeiträge › Meeting Abstract › Wissenschaftlicher Artikel/Beitrag

TY - CONF

T1 - Deep Generation of Synthetic Training Data for the Automated Extraction of Semantic Knowledge from Historical Maps

AU - Arzoumanidis, Lukas

AU - Fethers, James Ormond

AU - Mudiyanselage, Sethmiya Herath

AU - Dehbi, Youness

PY - 2024

Y1 - 2024

N2 - As a prerequisite for backtracking and monitoring environmental changes, historical maps are invaluable as they precisely capture the spatial reality of the past (Chiang et al., 2019). To avoid further deterioration of useful information that could unlock the possibility for spatio-temporal analysis, often a digitization is performed, which results in a large number of scanned historical documents stored in digital archives (Wu et al., 2023). However, in this case scanned historical documents, e.g., maps or plans, are not semantically enriched which makes the underlying spatial information unreachable (Chiang et al., 2019). In this context, it is desired to digitize heterogeneous historical map corpora in a way that their semantic knowledge can be automatically extracted by machines, recently demonstrated through semantic segmentation using different Deep Learning techniques (Arzoumanidis et al., 2023, Wu et al., 2023, Petitpierre et al., 2021). After analyzing, vectorization allows to store extracted semantic knowledge in a machine readable format which sets the basis for an effective and intuitive comparison with current map features, e.g., in a spatio-temporal analysis (Wu et al., 2023).

AB - As a prerequisite for backtracking and monitoring environmental changes, historical maps are invaluable as they precisely capture the spatial reality of the past (Chiang et al., 2019). To avoid further deterioration of useful information that could unlock the possibility for spatio-temporal analysis, often a digitization is performed, which results in a large number of scanned historical documents stored in digital archives (Wu et al., 2023). However, in this case scanned historical documents, e.g., maps or plans, are not semantically enriched which makes the underlying spatial information unreachable (Chiang et al., 2019). In this context, it is desired to digitize heterogeneous historical map corpora in a way that their semantic knowledge can be automatically extracted by machines, recently demonstrated through semantic segmentation using different Deep Learning techniques (Arzoumanidis et al., 2023, Wu et al., 2023, Petitpierre et al., 2021). After analyzing, vectorization allows to store extracted semantic knowledge in a machine readable format which sets the basis for an effective and intuitive comparison with current map features, e.g., in a spatio-temporal analysis (Wu et al., 2023).

KW - historical maps

KW - generative adversarial networks

KW - training data generation

KW - cartographic heritage

U2 - 10.5194/ica-abs-7-7-2024

DO - 10.5194/ica-abs-7-7-2024

M3 - Meeting Abstract

T2 - European Cartographic Conference 2024

Y2 - 9 September 2024 through 11 September 2024

ER -