Ceballos Cantú José Pablo, Jobst Markus, Gartner Georg
{"title":"通过使用知识图谱来理解地图的相关性","authors":"Ceballos Cantú José Pablo, Jobst Markus, Gartner Georg","doi":"10.1080/23729333.2023.2257962","DOIUrl":null,"url":null,"abstract":"ABSTRACTThe relation between the ontological and spatial dimensions is not always evident. A tool called SeMaptics that connects the two domains has been developed to better understand this relation. Ontological mapping allows for discrete ontologies to be projected into the spatial field. Such ontologies are regularly seen in a continuous or overlapping layered format in the spatial dimension. However, integrating both spaces results in a novel method, which could add additional perspectives to the map-making process. The objective is to link and map both dimensions enabling user interactions and enhancing semantic probing. This exploration contains some criteria of geographical relevance. These criteria allow for better identification of high-interest areas within any given dataset. SeMaptics implements a graph structure to accommodate graph visualisations using D3js. In this work data from an isolated administrative unit in Austria is presented under both the ontological and spatial dimensions. In order to identify the criteria elements that comprise geographical relevance. Such criteria points are over-viewed in this style of mapping to better understand relevance when exploring spatial data from a semantic viewpoint.RÉSUMÉLes relations entre les dimensions ontologiques et spatiales non sont pas toujours évidentes. Un outil nommé SeMaptics qui connecte les deux domaines a été développé pour mieux comprendre ces relations. La cartographie ontologique permet de projeter les ontologies discrètes sur le champ spatial. De telles ontologies sont souvent vues dans un format en couche continue ou superposée à la dimension spatiale. Pourtant intégrer les deux dimensions aboutit à une nouvelle méthode qui pourrait apporter de nouvelles perspectives au processus de création de cartes. L'objectif est de lier et de cartographier les deux dimensions afin de faciliter les interactions utilisateurs et de mettre en valeur les vérifications sémantiques. Cette exploration contient certains critères de pertinence géographique. Ces critères permettent de mieux identifier les zones de grands intérêts dans un jeu de données. SeMaptics implémente une structure de graphe pour prendre en charge les visualisations de graphes avec D3js. Dans ce travail nous présentons des données d'une unité administrative en Autriche sous les dimensions ontologiques et spatiales afin d'identifier les éléments de critères qui constituent la pertinence géographique. Ces points de critères sont examinés dans ce style de cartographie afin de mieux comprendre leur pertinence lors de l'exploration des données spatiales d'un point de vue sémantique.KEYWORDS: Knowledge graphsgeographical relevanceontology Disclosure statementNo potential conflict of interest was reported by the author(s).Additional informationNotes on contributorsCeballos Cantú José PabloCeballos Cantú José Pablo is a software developer focusing on geospatial technologies at WIGeoGIS (Austria) and a researcher at the Technical University of Vienna. He holds graduate certifications in engineering from Mexico's Autonomous University [UNAM]. Master in Science in Cartography from the Technical University of Munich (TUM), Vienna University of Technology (TUW), and Technical University of Dresden (TUD) and Masters in Economics from Chinas Peking University (PKU - 北京大学), focusing on economic research through the use of geospatial technologies.Jobst MarkusJobst Markus studied geodesy in geo-information at the Vienna University of Technology (TUW). He then worked as a research assistant at the Institute for Geo-Information and Cartography at the Vienna University of Technology where he got his doctoral degree. Jobst received a post-doctoral research fellowship at the Hasso Plattner Institute University of Potsdam. He then joined the Federal Office of Metrology and Surveying in Vienna as a consultant, where he was appointed Chief Information Officer.Gartner GeorgGartner Georg is a Professor of Cartography and Geo-Mediatechniques at the Research Group of Cartography at the Vienna University of Technology. He holds graduate qualifications in geography and cartography from the University of Vienna and the Vienna University of Technology, including a habilitation. He served as Dean of Academic Affairs of the Faculty of Mathematics and Geoinformation of the Vienna University of Technology (TUW). He served as president of the International Cartographic Association (ICA).","PeriodicalId":36401,"journal":{"name":"International Journal of Cartography","volume":"32 1","pages":"0"},"PeriodicalIF":0.4000,"publicationDate":"2023-09-02","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Understanding relevance in maps through the use of knowledge graphs\",\"authors\":\"Ceballos Cantú José Pablo, Jobst Markus, Gartner Georg\",\"doi\":\"10.1080/23729333.2023.2257962\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"ABSTRACTThe relation between the ontological and spatial dimensions is not always evident. A tool called SeMaptics that connects the two domains has been developed to better understand this relation. Ontological mapping allows for discrete ontologies to be projected into the spatial field. Such ontologies are regularly seen in a continuous or overlapping layered format in the spatial dimension. However, integrating both spaces results in a novel method, which could add additional perspectives to the map-making process. The objective is to link and map both dimensions enabling user interactions and enhancing semantic probing. This exploration contains some criteria of geographical relevance. These criteria allow for better identification of high-interest areas within any given dataset. SeMaptics implements a graph structure to accommodate graph visualisations using D3js. In this work data from an isolated administrative unit in Austria is presented under both the ontological and spatial dimensions. In order to identify the criteria elements that comprise geographical relevance. Such criteria points are over-viewed in this style of mapping to better understand relevance when exploring spatial data from a semantic viewpoint.RÉSUMÉLes relations entre les dimensions ontologiques et spatiales non sont pas toujours évidentes. Un outil nommé SeMaptics qui connecte les deux domaines a été développé pour mieux comprendre ces relations. La cartographie ontologique permet de projeter les ontologies discrètes sur le champ spatial. De telles ontologies sont souvent vues dans un format en couche continue ou superposée à la dimension spatiale. Pourtant intégrer les deux dimensions aboutit à une nouvelle méthode qui pourrait apporter de nouvelles perspectives au processus de création de cartes. L'objectif est de lier et de cartographier les deux dimensions afin de faciliter les interactions utilisateurs et de mettre en valeur les vérifications sémantiques. Cette exploration contient certains critères de pertinence géographique. Ces critères permettent de mieux identifier les zones de grands intérêts dans un jeu de données. SeMaptics implémente une structure de graphe pour prendre en charge les visualisations de graphes avec D3js. Dans ce travail nous présentons des données d'une unité administrative en Autriche sous les dimensions ontologiques et spatiales afin d'identifier les éléments de critères qui constituent la pertinence géographique. Ces points de critères sont examinés dans ce style de cartographie afin de mieux comprendre leur pertinence lors de l'exploration des données spatiales d'un point de vue sémantique.KEYWORDS: Knowledge graphsgeographical relevanceontology Disclosure statementNo potential conflict of interest was reported by the author(s).Additional informationNotes on contributorsCeballos Cantú José PabloCeballos Cantú José Pablo is a software developer focusing on geospatial technologies at WIGeoGIS (Austria) and a researcher at the Technical University of Vienna. He holds graduate certifications in engineering from Mexico's Autonomous University [UNAM]. Master in Science in Cartography from the Technical University of Munich (TUM), Vienna University of Technology (TUW), and Technical University of Dresden (TUD) and Masters in Economics from Chinas Peking University (PKU - 北京大学), focusing on economic research through the use of geospatial technologies.Jobst MarkusJobst Markus studied geodesy in geo-information at the Vienna University of Technology (TUW). He then worked as a research assistant at the Institute for Geo-Information and Cartography at the Vienna University of Technology where he got his doctoral degree. Jobst received a post-doctoral research fellowship at the Hasso Plattner Institute University of Potsdam. He then joined the Federal Office of Metrology and Surveying in Vienna as a consultant, where he was appointed Chief Information Officer.Gartner GeorgGartner Georg is a Professor of Cartography and Geo-Mediatechniques at the Research Group of Cartography at the Vienna University of Technology. He holds graduate qualifications in geography and cartography from the University of Vienna and the Vienna University of Technology, including a habilitation. He served as Dean of Academic Affairs of the Faculty of Mathematics and Geoinformation of the Vienna University of Technology (TUW). 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引用次数: 0
摘要
摘要本体论维度与空间维度之间的关系并不总是明显的。为了更好地理解这种关系,已经开发了一种称为SeMaptics的工具来连接这两个领域。本体论映射允许离散的本体论被投射到空间场。这样的本体在空间维度中通常以连续或重叠的分层格式出现。然而,整合这两个空间产生了一种新的方法,可以为地图制作过程增加额外的视角。目标是链接和映射这两个维度,从而实现用户交互并增强语义探测。这一探索包含了一些与地理相关的标准。这些标准允许在任何给定的数据集中更好地识别高兴趣区域。SeMaptics使用D3js实现了一个图形结构,以适应图形可视化。在这项工作中,来自奥地利一个孤立的行政单位的数据在本体论和空间维度下呈现。为了确定构成地理相关性的标准要素。在这种类型的映射中概述了这些标准点,以便在从语义的角度探索空间数据时更好地理解相关性。RÉSUMÉLes关系中心是维度本体和空间,而不是过去的客体。在此之前,nomnome SeMaptics可以连接两个域,并且可以将两个域连接在一起。地图学本体允许对空间本体进行投影。在空间维度上,从空间维度上,从空间维度上,从空间维度上,从空间维度上,从空间维度上继续进行叠加。重要的是,在整个过程中,有两个维度是关于“一个新的交换器”的,即“交换器的新视角”和“交换器的过程”。我的目标是让我的制图师让我的二维空间变得更便利,让我的相互作用变得更实用,让我的米变得更有价值。在勘探过程中,有一定的标准要求具有一定的针对性。这两个准则是:在大的区域内渗透的识别符intérêts和在大的区域内的识别符。语义实现了一种图形结构,并在D3js中实现了图形的可视化。在这方面,有两个问题:一个是关于统一行政管理的不同维度的,一个是关于本体和空间的,另一个是关于标识符的,另一个是关于构成的,另一个是关于相关的。“标准点”是指在“综合”和“制图风格”的基础上,对“空间点”和“价值点”的研究。关键词:知识图谱;地理相关性;本体论披露声明作者未报告潜在利益冲突。其他信息关于贡献者的说明Cantú jos pabloeballos Cantú jos Pablo是WIGeoGIS(奥地利)的一名专注于地理空间技术的软件开发人员,也是维也纳技术大学的一名研究人员。他拥有墨西哥自治大学(UNAM)的工程学研究生证书。慕尼黑工业大学(TUM)、维也纳工业大学(TUW)和德累斯顿工业大学(TUD)地图学硕士,北京大学(北大)经济学硕士,专注于利用地理空间技术进行经济研究。Jobst Markus在维也纳科技大学(TUW)学习地理信息测量学。之后,他在维也纳科技大学地理信息与制图研究所担任研究助理,并在那里获得了博士学位。他获得了波茨坦大学哈索·普拉特纳研究所的博士后研究奖学金。随后,他加入维也纳联邦计量和测量局,担任顾问,并被任命为首席信息官。高德纳·乔治(Gartner george)是维也纳科技大学制图研究小组的制图学和地理媒体技术教授。他拥有维也纳大学(University of Vienna)和维也纳科技大学(Vienna University of Technology)地理学和制图学的研究生资格,包括一名实习医生。他曾担任维也纳理工大学数学与地理信息学院教务处主任。他曾担任国际制图协会(ICA)主席。
Understanding relevance in maps through the use of knowledge graphs
ABSTRACTThe relation between the ontological and spatial dimensions is not always evident. A tool called SeMaptics that connects the two domains has been developed to better understand this relation. Ontological mapping allows for discrete ontologies to be projected into the spatial field. Such ontologies are regularly seen in a continuous or overlapping layered format in the spatial dimension. However, integrating both spaces results in a novel method, which could add additional perspectives to the map-making process. The objective is to link and map both dimensions enabling user interactions and enhancing semantic probing. This exploration contains some criteria of geographical relevance. These criteria allow for better identification of high-interest areas within any given dataset. SeMaptics implements a graph structure to accommodate graph visualisations using D3js. In this work data from an isolated administrative unit in Austria is presented under both the ontological and spatial dimensions. In order to identify the criteria elements that comprise geographical relevance. Such criteria points are over-viewed in this style of mapping to better understand relevance when exploring spatial data from a semantic viewpoint.RÉSUMÉLes relations entre les dimensions ontologiques et spatiales non sont pas toujours évidentes. Un outil nommé SeMaptics qui connecte les deux domaines a été développé pour mieux comprendre ces relations. La cartographie ontologique permet de projeter les ontologies discrètes sur le champ spatial. De telles ontologies sont souvent vues dans un format en couche continue ou superposée à la dimension spatiale. Pourtant intégrer les deux dimensions aboutit à une nouvelle méthode qui pourrait apporter de nouvelles perspectives au processus de création de cartes. L'objectif est de lier et de cartographier les deux dimensions afin de faciliter les interactions utilisateurs et de mettre en valeur les vérifications sémantiques. Cette exploration contient certains critères de pertinence géographique. Ces critères permettent de mieux identifier les zones de grands intérêts dans un jeu de données. SeMaptics implémente une structure de graphe pour prendre en charge les visualisations de graphes avec D3js. Dans ce travail nous présentons des données d'une unité administrative en Autriche sous les dimensions ontologiques et spatiales afin d'identifier les éléments de critères qui constituent la pertinence géographique. Ces points de critères sont examinés dans ce style de cartographie afin de mieux comprendre leur pertinence lors de l'exploration des données spatiales d'un point de vue sémantique.KEYWORDS: Knowledge graphsgeographical relevanceontology Disclosure statementNo potential conflict of interest was reported by the author(s).Additional informationNotes on contributorsCeballos Cantú José PabloCeballos Cantú José Pablo is a software developer focusing on geospatial technologies at WIGeoGIS (Austria) and a researcher at the Technical University of Vienna. He holds graduate certifications in engineering from Mexico's Autonomous University [UNAM]. Master in Science in Cartography from the Technical University of Munich (TUM), Vienna University of Technology (TUW), and Technical University of Dresden (TUD) and Masters in Economics from Chinas Peking University (PKU - 北京大学), focusing on economic research through the use of geospatial technologies.Jobst MarkusJobst Markus studied geodesy in geo-information at the Vienna University of Technology (TUW). He then worked as a research assistant at the Institute for Geo-Information and Cartography at the Vienna University of Technology where he got his doctoral degree. Jobst received a post-doctoral research fellowship at the Hasso Plattner Institute University of Potsdam. He then joined the Federal Office of Metrology and Surveying in Vienna as a consultant, where he was appointed Chief Information Officer.Gartner GeorgGartner Georg is a Professor of Cartography and Geo-Mediatechniques at the Research Group of Cartography at the Vienna University of Technology. He holds graduate qualifications in geography and cartography from the University of Vienna and the Vienna University of Technology, including a habilitation. He served as Dean of Academic Affairs of the Faculty of Mathematics and Geoinformation of the Vienna University of Technology (TUW). He served as president of the International Cartographic Association (ICA).