Your search keyword '"Evangelidis, Konstantinos"' showing total 9 results

1. Mixed reality and the Internet of Things: Bridging the virtual with the real

Author

Papadopoulos, Theofilos, Evangelidis, Konstantinos, Evangelidis, Georgios, and Kaskalis, Theodore H.

Published

2023

2. 3D geospatial visualizations: Animation and motion effects on spatial objects

Author

Evangelidis, Konstantinos, Papadopoulos, Theofilos, Papatheodorou, Konstantinos, Mastorokostas, Paris, and Hilas, Constantinos

Published

2018

3. Geospatial services in the Cloud

Author

Evangelidis, Konstantinos, Ntouros, Konstantinos, Makridis, Stathis, and Papatheodorou, Constantine

Published

2014

4. 3D Documentation and Visualization of Cultural Heritage Buildings through the Application of Geospatial Technologies.

Author

Stylianidis, Efstratios, Evangelidis, Konstantinos, Vital, Rebeka, Dafiotis, Panagiotis, and Sylaiou, Stella

Subjects

*CULTURAL property, *POINT cloud, *TECHNOLOGICAL innovations, *MIXED reality, *DATA modeling, *DOCUMENTATION, *COMMUNITIES

Abstract

Architectural survey is an evolving field in architecture that has been affected during the past decade by the technological advancements in the field of 3D data acquisition. Some of these technological advancements include long-range laser scanning and photogrammetry. Laser scanning gives us an accurate documentation of the site, even in cases where parts of the building have collapsed. This paper aims to present two case studies of digital documentation through laser scanning and photogrammetry that led to the structural reinforcement and preservation of the first site and to a digital reconstruction and a mixed reality platform for the second site. The first site is an Ottoman Soap factory in Lod, Israel and the second one is an Ottoman Bathhouse in Apollonia, Greece. Both sites dealt with challenges during documentation due to a partial collapse of the building or due to dangerous structural conditions. The digital documentation methodologies allowed for a fast, accurate and comprehensive survey, as well as for a good understanding of the building and the areas which were concealed as a result of the collapse. At the same time, the digital documentation model gave the potential for the cultural heritage (CH) site to become part of the social, economic and cultural local community. [ABSTRACT FROM AUTHOR]

Published

2022

5. Interactions in Augmented and Mixed Reality: An Overview.

Author

Papadopoulos, Theofilos, Evangelidis, Konstantinos, Kaskalis, Theodore H., Evangelidis, Georgios, and Sylaiou, Stella

Subjects

MIXED reality, AUGMENTED reality, HUMAN-computer interaction, GEOGRAPHICAL perception, COMPUTER performance, 5G networks

Abstract

"Interaction" represents a critical term in the augmented and mixed reality ecosystem. Today, in mixed reality environments and applications, interaction occupies the joint space between any combination of humans, physical environment, and computers. Although interaction methods and techniques have been extensively examined in recent decades in the field of human-computer interaction, they still should be reidentified in the context of immersive realities. The latest technological advancements in sensors, processing power and technologies, including the internet of things and the 5G GSM network, led to innovative and advanced input methods and enforced computer environmental perception. For example, ubiquitous sensors under a high-speed GSM network may enhance mobile users' interactions with physical or virtual objects. As technological advancements emerge, researchers create umbrella terms to define their work, such as multimodal, tangible, and collaborative interactions. However, although they serve their purpose, various naming trends overlap in terminology, diverge in definitions, and lack modality and conceptual framework classifications. This paper presents a modality-based interaction-oriented diagram for researchers to position their work and defines taxonomy ground rules to expand and adjust this diagram when novel interaction approaches emerge. [ABSTRACT FROM AUTHOR]

Published

2021

6. Mixed Reality: A Reconsideration Based on Mixed Objects and Geospatial Modalities.

Author

Evangelidis, Konstantinos, Papadopoulos, Theofilos, Sylaiou, Stella, and Liarokapis, Fotis

Subjects

MIXED reality, GEOGRAPHIC information systems, IMAGE processing, SMARTPHONES, MODAL logic

Abstract

We put forward a conceptualization of Mixed Reality as a blend of digital objects with real ones that coexist and interact with each other and they are also spatially referenced so that they are properly perceived in space by an observer that could potentially be at any position any time. In accordance with this statement, we have adopted the concept of a Mixed Object which is composed of a set of physical properties linked with a set of digital ones. In our case, the physical properties are acquired by employing geospatial technologies such as photogrammetry, laser scanning, unmanned aerial vehicles and positioning systems and are further processed in order to be visually displayed by utilizing Geographical Information Systems and Geovisualization frameworks in combination with traditional image processing techniques. We show that the Mixed Object approach is in conformance with Microsoft's approach on Mixed Reality as the common space between humans, computers, and the environment and we further incorporate in these the Geospatial Linking Modalities. We finally provide an affordable MR experience as a proof of concept, by utilizing a smartphone for capturing and visualizing the environment, a visual tag for positioning purposes and freely available photogrammetrically mapped content and virtual objects to form a digital scene blended with the real environment. [ABSTRACT FROM AUTHOR]

Published

2021

7. Mergin' Mode: Mixed Reality and Geoinformatics for Monument Demonstration.

Author

Evangelidis, Konstantinos, Sylaiou, Stella, and Papadopoulos, Theofilos

Subjects

MIXED reality, WIRELESS Internet, GEOINFORMATICS, GEOGRAPHIC information systems, LOCATION-based services, HISTORIC sites, MONUMENTS

Abstract

Featured Application: "Mergin' Mode," the application featured in this article, takes advantage of traditional geospatial functionalities and 3D visualization frameworks to support the creation of custom virtual geospatial worlds. These may then be served via location-based services in applications utilizing augmented and mixed reality technologies with the aim of promoting cultural-touristic resources. The system relies solely on the Open Geospatial Consortium (OGC) standards for geospatial data and services and was developed on top of JavaScript APIs. It comprises an authoring tool and an end-user app, and its vision is to utilize the "web of cultural data" that will be activated on mobile smart devices in a way akin to Google Maps. The application will be accessible at GitHub. Since smart devices are becoming the primary technological means for daily human activities related to user-location, location-based services constitute a crucial component of the related smart applications. Meanwhile, traditional geospatial tools such as geographic information systems (GIS) in conjunction with photogrammetric techniques and 3D visualization frameworks can achieve immersive virtual reality over custom virtual geospatial worlds. In such environments, 3D scenes with virtual beings and monuments with the assistance of storytelling techniques may reconstruct historical sites and "revive" historical events. Boosting of Internet and wireless network speeds and mixed reality (MR) capabilities generate great opportunities for the development of location-based smart applications with cultural heritage content. This paper presents the MR authoring tool of "Mergin' Mode" project, aimed at monument demonstration through the merging of the real with the virtual, assisted by geoinformatics technologies. The project does not aim at simply producing an MR solution, but more importantly, an open source platform that relies on location-based data and services, exploiting geospatial functionalities. In the long term, it aspires to contribute to the development of open cultural data repositories and the incorporation of cultural data in location-based services and smart guides, to enable the web of open cultural data, thereby adding extra value to the existing cultural-tourism ecosystem. [ABSTRACT FROM AUTHOR]

Published

2020

8. ESTIMATING AND VISUALISING FACTORS AFFECTING TRAFFIC NOISE PROPAGATION, BY USE OF ADVANCED GIS TECHNIQUES.

Author

Evangelidis, Konstantinos E., Konstantinidis, Alexandros P., and Nikolaou, Konstantinos I.

Abstract

This paper proposes a methodology through which advanced Geographic Information Systems' (GIS) techniques are applied in the study of environmental traffic-related noise. The spatial nature of the factors affecting traffic noise propagation necessitates the use of GIS, a field of applications offering by default specialised analytical tools and functionalities for managing spatial information. In this respect contemporary GIS tools have been employed in order to estimate and visualise the impacts of the above factors, on the noise generated by road traffic. GIS capabilities such as spatial analysis and geographical processing, were integrated with proven methods used for calculating road traffic noise, with the aim to enhance the study of factors such as distance from the noise source, screening form intervening obstacles and reflections from buildings facade. Separate maps representing the impacts of each individual factor, on the basic noise level were produced providing a comprehensive view of traffic noise propagation. All of the analysis was based on splitting the study area into a high-density grid, where each grid-cell corresponded to a reception point By combining each individual factor's contribution for every separate grid-cell, yielded to the global traffic noise sound field of the entire study area. [ABSTRACT FROM AUTHOR]

Published

2005

9. A Javascript GIS Platform Based on Invocable Geospatial Web Services.

Author

Evangelidis, Konstantinos and Papadopoulos, Theofilos

Subjects

JAVASCRIPT programming language, GEOGRAPHIC information systems, SEMANTIC Web, GEOSPATIAL data, SPATIAL data infrastructures

Abstract

Semantic Web technologies are being increasingly adopted by the geospatial community during last decade through the utilization of open standards for expressing and serving geospatial data. This was also dramatically assisted by the ever-increasing access and usage of geographic mapping and location-based services via smart devices in people’s daily activities. In this paper, we explore the developmental framework of a pure JavaScript client-side GIS platform exclusively based on invocable geospatial Web services. We also extend JavaScript utilization on the server side by deploying a node server acting as a bridge between open source WPS libraries and popular geoprocessing engines. The vehicle for such an exploration is a cross platform Web browser capable of interpreting JavaScript commands to achieve interaction with geospatial providers. The tool is a generic Web interface providing capabilities of acquiring spatial datasets, composing layouts and applying geospatial processes. In an ideal form the end-user will have to identify those services, which satisfy a geo-related need and put them in the appropriate row. The final output may act as a potential collector of freely available geospatial web services. Its server-side components may exploit geospatial processing suppliers composing that way a light-weight fully transparent open Web GIS platform. [ABSTRACT FROM AUTHOR]

Published

2018