Integration of infrared thermography and photogrammetric surveying of built landscape

The thermal analysis of buildings represents a key-step for reduction of energy consumption, also in the case of Cultural Heritage. Here the complexity of the constructions and the adopted materials might require special analysis and tailored solutions. Infrared Thermography (IRT) is an important non-destructive investigation technique that may aid in the thermal analysis of buildings. The paper reports the application of IRT on a listed building, belonging to the Cultural Heritage and to a residential one, as a demonstration that IRT is a suitable and convenient tool for analysing the existing buildings. The purposes of the analysis are the assessment of the damages and energy efficiency of the building envelope. Since in many cases the complex geometry of historic constructions may involve the thermal analysis, the integration of IRT and accurate 3D models were developed during the latest years. Here authors propose a solution based on the up-to-date photogrammetric solutions for purely image-based 3D modelling, including automatic image orientation/sensor calibration using Structure-from-Motion and dense matching. Thus, an almost fully automatic pipeline for the generation of accurate 3D models showing the temperatures on a building skin in a realistic manner is described, where the only manual task is given by the measurement of a few common points for co-registration of RGB and IR photogrammetric projects.Xunta de Galicia | Ref. ED481B 2016/079-

MAPPING EVOLVING HISTORICAL LANDSCAPE SYSTEMS

Landscape is not a sum of elements to be juxtaposed in a paper or a digital space. It is a complex system of relationships among components that have evolved over time. It is not a sum of material permanencies, more or less recognizable and placeable in space, but an interweaving of economic, social, religious and political meanings that link permanencies and give them value.How to represent these relationships from existing geographic or historical databases? How can we illustrate the co-evolution between nature and culture that has given form to today’s landscape? And how to allow at the same time to update data and their relationships?Through the comparison among examples taken from local participative experiences (ecomuseum community maps) and others directly managed and produced by the Authors (itinerary maps), the contribution reflects on these main critical issues: landscape representation problems, data collecting and updating, information sharing. The main results show that the data digitalization and georeferencing can help to illustrate and understand tangible and intangible characteristics of landscape and overcome the gaps from a sharing mapping procedure with a bottom-up approach and the point of view by the experts with a top-down approach. On the contrary, the digital representation of landscape data shows another set of problems that currently are mainly solved in traditional ways. The paper will also deal with these aspects.</p

Integration of infrared thermography &amp; photogrammetric surveying of built landscape

The thermal analysis of buildings represents a key-step for reduction of energy consumption, also in the case of Cultural Heritage. Here the complexity of the constructions and the adopted materials might require special analysis and tailored solutions. Infrared Thermography (IRT) is an important non-destructive investigation technique that may aid in the thermal analysis of buildings. The paper reports the application of IRT on a listed building, belonging to the Cultural Heritage and to a residential one, as a demonstration that IRT is a suitable and convenient tool for analysing the existing buildings. The purposes of the analysis are the assessment of the damages and energy efficiency of the building envelope. Since in many cases the complex geometry of historic constructions may involve the thermal analysis, the integration of IRT and accurate 3D models were developed during the latest years. Here authors propose a solution based on the up-To-date photogrammetric solutions for purely image-based 3D modelling, including automatic image orientation/sensor calibration using Structure-from-Motion and dense matching. Thus, an almost fully automatic pipeline for the generation of accurate 3D models showing the temperatures on a building skin in a realistic manner is described, where the only manual task is given by the measurement of a few common points for co-registration of RGB and IR photogrammetric projects.OLD Department of GIS Technolog

Analysis and Characterization of the Mechanical Structure for the I-Tracker of the Mu2e Experiment

The design of a tracking detector for electrons in a magnetic field consisting of a drift chamber is discussed. The chosen materials for its construction must be light to minimize the effects of the subatomic particles interactions with the chamber walls. Low-density materials and very thin wall thicknesses are therefore needed. From a mechanical engineering point of view, it is important to analyse the drift chamber structure and define the conditions to which it is subject in terms of both mechanical loads and geometric constraints. The analysis of the structural response of the drift chamber has been performed through the Finite Element Method (FEM) as implemented in the commercial software ANSYS and (Ansys Composite Pre/Post)