Intuitive Self-Inspection Techniques using Augmented Reality for construction, refurbishment and maintenance of energy-efficient buildings made of prefabricated components

This is a result from task T1.1, and it presents INSITER Methodology for existing buildings.

This is a result from task T6.1, which also includes a Learning Content Management System.

This is a result from task T5.2, which comprises the documentation and reports on the field validation. The report will show the final performance of the buildings and the positive impact of self-inspection addressing the following aspects: building physics analysis (e.g. U-value, sound insulation ); reliability of structure; preferred materials and their assembly demands; and indoor climate.

This is a result from task T5.2, which contains the description of the use cases for the purpose of field validation of the prototype INSITER Systems and Methodology.

This is a result from task T1.3, and it describes conceptual measurement protocols and quantitative method for self-inspection of MEP/HVAC components. It focuses on self-inspection of critical MEP/HVAC components that affect quality and energy performance in all phases of a building project.

This is a result from task T1.1, and it critically reviews the state-of-the-art procedures, and describes innovative ways for self-inspection, quality assurance and energy-performance check.

This is a result from task T6.3. The outlined and intended content are described in DoA addressing dissemination and exploitation intentions. The first version of the plans (public) will be delivered in M3, but they will continuously be updated until the project completion in M48. The final exploitation plan related to the business plan will be confidential (CO).

This is a result from task T6.1. Reflection will be made on existing guidelines and standards to extend the preliminary list. Targeted standardisation areas –including building engineering and energy, quality management, ICT and BIM, as well as procurement.

Including set-up and results of demonstration activities involving stakeholders at real cases. This is a combined deliverable of the original D5.5 and D5.6. The content and coverage remain the same.

This is a result from task T1.2, and it focuses on self-inspection of critical building components that affect quality and energy-performance.

This is a result from task T4.2, which will be developed in conjunction with the training modules in WP6/T6.1 –self-instructions for improvement of worker’ knowledge and skills.

This is a result from task T1.3, and it presents the practical measurement protocols supported by hardware and software tools for self-inspection of MEP/HVAC components. It presents practical techniques (protocols) supported by hardware and software for self-inspection in all phases of a building project.

This is a result from task T5.1, which will conclude the lab an virtual tests, and present recommendations for improvement and validation of the prototype INSITER Systems and Methodology.

This is a result from task T1.2, and it presents practical techniques using hardware and software tools for self-inspection of building components.

This is a result from task T1.1, and it presents INSITER Methodology for new buildings.

This deliverable also describes the industry’s views on practicality and affordability of INSITER tools and methods. After the original D5.6 is removed, this present deliverable will be the new D5.6.

This is a result from task T5.1, which will serve as guidelines to carry out the lab test activities and analysis of the findings.

This is a result from task T3.1, which will serve as the underpinning for further software development addressing planning and cost management.

This is a result from task T3.2, which will serve as the underpinning for further software development addressing building quality and energy performance.

This is a result from task T4.2, which address data inter-operability between different types of hardware instruments for measurement (incl. their firmware / middleware), software tools, and BIM.

This is a result from task T6.2. The types of dissemination items are described in the DoA as part of the preliminary dissemination plan. The first materials (e.g. leaflets, templates) will be available starting from M3, but the work will continue as new dissemination materials will be delivered and updated until the project completion in M48.

This is a result from task T6.2. The websites will be delivered and full-operational in M3. and they will be updated until the project completion in M48.

Author(s): Rizal Sebastian, Rosamaria Olivadese, Emanuele Piaia, Roberto Di Giulio, Peter Bonsma, Jan-Derrick Braun, Günther Riexinger
Published in: Proceedings, Issue 2/15, 2018, Page(s) 1153, ISSN 2504-3900
DOI: 10.3390/proceedings2151153

Author(s): Günther Riexinger, Andreas Kluth, Manuel Olbrich, Jan-Derrik Braun, Thomas Bauernhansl
Published in: Procedia CIRP, Issue 72, 2018, Page(s) 1124-1129, ISSN 2212-8271
DOI: 10.1016/j.procir.2018.03.160

Author(s): José L. Hernández, Pedro Martín Lerones, Peter Bonsma, Andrè van Delft, Richard Deighton, Jan-Derrick Braun
Published in: Buildings, Issue 8/2, 2018, Page(s) 32, ISSN 2075-5309
DOI: 10.3390/buildings8020032

Author(s): Revel, Gian Marco; Chiariotti, Paolo; Copertaro, Edoardo; Pandarese, Giuseppe
Published in: Proceedings of 13th Conference on Advanced Infrared Technology and Applications. (2016)., Issue 1, 2016

Author(s): G.M. Revel, E. Copertaro, P. Chiariotti, G. Pandarese, A. D'Antuono
Published in: Proceedings of the 2016 International Conference on Quantitative InfraRed Thermography, 2016
DOI: 10.21611/qirt.2016.025

Author(s): Corresponding Author: Dr Martin Roders MSc Consultant and Researcher DEMO Consultants Delft, the Netherlands Co-Author 1 Dr Arch Emanuele Piaia Ipostudio Architetti SRL Florence, Italy Co-Author 2 Dr Rizal Sebastian MSc DEMO Consultants Delft, the Netherlands
Published in: The Utrecht Sustainable Built Environment 16 Conference: Transition Zero, Issue 07-04-2016, 2016, Page(s) 33-42

Author(s): Rizal Sebastian, Ton Damen, André van Delft DEMO Consultants BV, Delft, The Netherlands Gian Marco Revel, Antonio D'Antuono Università Politecnica delle Marche, Ancona, Italy Milena Martarelli Università degli Studi e-Campus, Novedrate (CO), Italy
Published in: "Eighth International Conference on Construction in the 21st Century (CITC-VIII) ""Changing the Field: Recent Developments for Future Engineering and Construction"" May 27-30, 2015, Thessaloniki, Greece", Issue 30-06-2015, 2015, Page(s) 79-86

Author(s): Andrea Venanzoni, Laurent De Ryck, Jacques Cuenca
Published in: AIP Conference Proceedings volume 1740, 2016, Page(s) 040003
DOI: 10.1063/1.4952662