Loading...
hidden

View Mobile version

Meta navigation

Startseite – Hochschule Luzern

Language selection and important links

  • Contents
  • Contact
  • Login
  • Sitemap
  • De
  • En
Search

Main navigation

School navigation

  • Engineering and Architecture
  • Business
  • Computer Science
  • Social Work
  • Art and Design
  • Music

Sub-navigation

  • Degree Programmes
  • Continuing Education
  • Research
  • International
  • Campus
  • About us
  • News

Sub-navigation

Breadcrumbs

  1. Lucerne University of Applied Sciences and Arts Lucerne University of Applied Sciences and Arts
  2. Research Research
  3. High Resolution Complex Glazing Library High Resolution Complex Glazing Library

High Resolution Complex Glazing Library

Complex fenestration systems are optically characterized by gonio-photometric measurements. Data-driven simulation models of high resolution will be compiled into a novel model-library.

Brief information

School:

Engineering and Architecture

Status:

Completed

Period:

01.01.2016 - 31.07.2018

Overview

The project will provide models of complex glazing products to foster their application in high performance buildings. 15 products shall be characterized by gonio-photometric measurements. Data-driven models of high directional resolution as supported by the daylight simulation software Radiance shall accurately replicate selectivity and directionality. Derived low-resolution models will be included into the Complex Glazing Database.

hidden

Facts

Type of project

Forschung

Internal organisations involved
  • CC Building Envelope
  • CC Building Envelopes and Civil Engineering
External project partner
  • Lawrence Berkeley National Laboratory
  • Siteco Beleuchtungstechnik GmbH
  • Hella Storen AG
  • Pelllini SpA
  • EURAC Accademia Europea Bolzano
  • Transsolar Energietechnik GmbH
  • HZDS AG
  • Reflexion AG
  • Preluce AG
  • Relux Informatik AG
Funding
  • BFE
  • Private / Stiftungen
hidden

Links

  • Blog

hidden

Persons involved: internal

Project manager
  • Lars Oliver Grobe
Member of project team
  • Roland Schregle
  • Stephen Wittkopf

Publications

  • Article, review; peer reviewed (4)

    • Ward, Gregory J; Wang, Taoning; Geisler-Moroder, David; Lee, Eleanor; Grobe, Lars Oliver; Wienold, Jan & Jonsson, Jacob C (2021). Modeling specular transmission of complex fenestration systems with data-driven BSDFs. Building and Environment, 196(107774), doi: 10.1016/j.buildenv.2021.107774

    • Grobe, Lars Oliver (2018). Characterization and data-driven modeling of a retro-reflective coating in Radiance. Energy and Buildings, 162, 121-133. doi: 10.1016/J.ENBUILD.2017.12.029

    • Grobe, Lars Oliver (2017). Computational combination of the optical properties of fenestration layers at high directional resolution. Buildings, 7(1), 1-19. doi: 10.3390/buildings7010022

    • Grobe, Lars Oliver; Wittkopf, Stephen & Kazanasmaz, Zehra Tuğçe (2017). High-resolution data-driven models of daylight redirection components. Journal of Façade Design and Engineering, 5(2), 103-116. doi: 10.7480/jfde.2017.2.1743

  • Chapter/legal commentary/lexicon article (1)

    • Grobe, Lars Oliver; Wittkopf, Stephen & Kazanasmaz, Zehra Tuğçe (2017). High-resolution data-driven models of daylight redirecting components. In Aslıhan Tavil; Oğuz Cem Çelik (Hrsg.), ICBEST Istanbul: Interdisciplinary Perspectives for future building envelopes (S. 84-93). Istanbul: Istanbul Technical University.

  • Presentation (conference/report/lectures) (6)

    • Lee, Eleanor; Wang, Taoning; Jonsson, Jacob; Ward, Gregory; Grobe, Lars Oliver; Wienold, Jan & Geisler-Moroder, David (03.09.2018). Generating high-resolution BSDFs for the direct beam component. 2018 International Radiance Workshop, Loughborough, UK.

    • Grobe, Lars Oliver (21.03.2018). High Resolution Complex Glazing Library BIMSOL. Marktplatz Energieforschung an der Hochschule Luzern Technik & Architektur, Horw.

    • Grobe, Lars Oliver; Wittkopf, Stephen & Kazanasmaz, Zehra Tuğçe (15.05.2017). High-resolution data-driven models of daylight redirecting components. ICBEST Istanbul 2017: Interdisciplinary Perspectives for future building envelopes, Istanbul.

    • Grobe, Lars Oliver (24.10.2016). BSDF characterizing components of high-performance building envelopes: Complex fenestration systems and architecture integrated photovoltaics. Workshop IEA SHC Task Definition Phase "Integrated solutions for daylight and electric lighting", Fraunhofer Institut für Bauphysik IBP, Stuttgart.

    • Papaiz, Luca; Grobe, Lars Oliver & De Michele, Giuseppe (29.08.2016). Modeling and measuring of solar shading with retro-reflection microstructure. 15th International Radiance Workshop, Padua.

    • Grobe, Lars Oliver (25.08.2016). BSDF measurements to characterize components of high-performance building envelopes: Complex Fenestration Systems and Architecture Integrated Photovoltaics. Workshop Current state of the art and the future of BSDF measurements and simulation, Aldrans.

Brief information

School:

Engineering and Architecture

Status:

Completed

Period:

01/01/2016 - 07/31/2018

Project Head

Dr. Lars Oliver Grobe

Senior Research Associate

+41 41 349 36 32

Show email

Footer(s)

Social media links

  •  Facebook
  •  Instagram
  •  Twitter
  •  LinkedIn
  •  YouTube
  •  Flickr

Contact

Logo Lucerne University of Applied Sciences and Arts

Lucerne University of Applied Sciences and Arts


Werftestrasse 4
CH- 6002 Luzern

+41 41 228 42 42

info@hslu.ch

Direct entry

  • A bachelor's degree –
  • A master's degree –
  • Prospective Students (Continuing & Executive Programmes)
  • Unternehmen & Institutionen
  • Media Relations
  • For Students
  • For Members of Staff

Quick link

  • People Finder
  • University Buildings & Campus Locations
  • News
  • Libraries
  • Events
  • Job vacancies
  • Home
  • Hiring Rooms

Static links

  • Newsletter
  • Data protection notice
  • Publishing Acknowledgements
Logo swissuniversities

QrCode

QrCode
FH Zentralschweiz
We use cookies on this site to give you the best browsing experience. By continuing to navigate this site or closing this banner you accept this use of cookies. For more information please visit our privacy policy.
OK