INTEGRATING MULTIMEDIA DOCUMENTS IN 3D CITY MODELS FOR A BETTER UNDERSTANDING OF TERRITORIES

International audienceAbstract. Digital 3D representations of urban areas, through their growing availability, are a helpful tool to better understand a territory. However, they lack contextual information about, for example, the history or functionality of buildings. On another side, multimedia documents like images, videos or texts usually contain such information. Crossing these two types of data can therefore help in the analysis and understanding of the organization of our cities. This could also be used to develop document search based on spatial navigation, instead of the classical textual query. In this paper, we propose four approaches to integrate multimedia documents in a 3D urban scene, allowing to contextualize the scene with any type of media. We combine these integration approaches with user guidance modes that allows to guide the user through the consumption of these media and support its understanding of the territory. We demonstrate the usefulness of these techniques in the context of different projects within the Lyon area (France). The use of multimedia documents integrated into a digital tour allows, for example, the iconic buildings to be contextualised or to understand the evolution of a territory through time

Representation of urban geometry evolution through space-time cube

International audienceVisualizing and understanding the evolution of neighbourhoods in cities is crucial to the understanding of urban areas. While data exists to document the evolution of the urban places, we lack methods to clearly visualize the evolution of a city or a neighbourhood in time. We propose a new representation of the city that integrates 3D urban data with time, inspired by the Space-Time Cube concept. Our representation allows the visualization and comparison of different versions of the city in a single interactive 3D space, based on a graph model of the data. In addition to displaying the 3D geometry, we also integrate a direct visualization of the type of changes between each version and provide several ways to interact with the visualization. We apply our visualization technique on real urban data and show that it allows quickly apprehending the evolution of a neighbourhood

CREATING CONTEXTUAL VIEW OF CMMS ASSETS USING GEOSPATIAL 2D/3D DATA

International audienceAbstract. Computerized maintenance management systems (CMMS) aim to assist administration and maintenance agents in their asset maintenance tasks (e.g., building, network, air conditioning, faucets maintenance). In this context, geospatial data can help to have a better understanding of the assets they represent by providing additional information: spatial, thematic, temporal, or inter-object relationships. Using such information often leads to interoperability issues as different domains describe them with different data models, like Building Information Modeling (using the Industry Foundation Classes format) and Geographic Information System (using the CityGML format). Spatial information, and particularly 2D or 3D geometry, are stored using heterogeneous representations (e.g., triangle soup, boundary representation, sweep volume, composite solids). Visualization and navigation in the information provided by multiple data sources remain a problem, as there is a need to understand the domains, languages, and models used to describe them. Furthermore, there is a need for solutions to integrate geometric data to manage and visualize existing 2D or 3D representations of assets in geospatial data stores while being able to retrieve additional information using semantic data stores. We propose, in this paper, a methodology to integrate heterogeneous geospatial data in the same viewer by transforming geometric data to a standardized format while keeping a link to sources, in order to navigate in the context of an asset by visualizing its spatial and thematic information

Activation of protein kinase C or cAMP-dependent protein kinase increases phosphorylation of the c-erbA-encoded thyroid hormone receptor and of the v-erbA-encoded protein.

The c-erbA proto-oncogene encodes a nuclear receptor for thyroid hormone (T3), which is believed to stimulate transcription from specific target promoters upon binding to cis-acting DNA sequence elements. The v-erbA oncogene of avian erythroblastosis virus (AEV) encodes a ligand-independent version of this nuclear receptor. The v-erbA product inhibits terminal differentiation of avian erythroblasts, presumably by affecting the transcription of specific genes. We show here that the c-erbA-encoded nuclear receptor (p46c-erbA) is phosphorylated on serine residues on two distinct sites. One of these sites, defined by the limit tryptic phosphopeptide 28SSQCLVK, is retained on the v-erbA-encoded P75gag-v-erbA protein. This site is located in the amino-terminal domain of these molecules, 21 amino acids upstream of the DNA-binding region. Phosphorylation of this site in both p46c-erbA and P75gag-v-erbA is enhanced 10-fold following treatment of cells with activators of either protein kinase C or cAMP-dependent protein kinase. Since cAMP-dependent protein kinase phosphorylates both p46c-erbA and P75gag-v-erbA in vitro at the same site as that observed in vivo, at least part of the cAMP-dependent phosphorylation of erbA molecules in cells could result from direct phosphorylation by this enzyme. The possible role phosphorylation may play in the function of the erbA-encoded transcriptional factors is discussed

A New 3D Shape Reconstruction Method for celestial bodies: Multi-Resolution Stereophotoclinometry by Deformation

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