Splošni cilj raziskovalnega programa je zagotoviti nova znanja
s področja na naravi temelječih rešitev, zlasti z uporabo lesa, ki spodbujajo
in pospešujejo sprejemanje regenerativne trajnosti, z:
• napredkom
na področju razvoja materialov in njihove obdelave za optimizacijo
učinkovitosti in pridobivanje znanja,
• inženirskimi
živimi materiali, ki izkoriščajo delovanje in zmožnosti živih organizmov,
• oblikovalskimi
rešitvami za izboljšanje zdravja in trajnostnosti, ki temeljijo na
restorativnem okoljskem in ergonomskem oblikovanju (REED).
Napredek na teh področjih bo prispeval k večji trajnostnosti
gozdov, bolj zdravem grajenem okolju in rasti v gozdarstvu in lesarstvu. To bo
dosegla multidisciplinarna ekipa, ki bo zagotovila napredek v znanosti o lesu,
v razvoju inženirskih živih materialov in vodila do novih interdisciplinarnih
raziskav, ki bodo pospešile razvoj lesnih konstrukcijskih sistemov.
Raziskovalni program sestavlja pet delovnih skupin: materiali, napredne
proizvodnje tehnologije, stavbe, obdelava informacij ter zdravje.Te skupine
bodo sodelovale in skupaj prispevale nova znanja ter dosegle znanstveno,
razvojno in inovacijsko odličnost (z odlično interdisciplinarno znanostjo) na
naslednjih področjih:
• Razvoj
novih lesnih kompozitov na podlagi podatkov o zdravju ljudi, teoretičnem znanju
o biomaterialih in napovednem modeliranju materialne funkcionalnosti.
• Celovit
razvoj novih in ocenjevanje obstoječih in novih lesenih gradbenih proizvodov in
sistemov z novimi gradbenimi proizvodi in metodami, uvajanje sodobnih spoznanj
o vidikih zdravja ljudi in uporaba najnovejših metod analize.
• Novo
razumevanje fizioloških in psiholoških vplivov človekove interakcije z lesom in
lesnimi materiali, kot so lesni kompoziti.
• Podatkovno
usmerjene inteligentne rešitve naslednje generacije senzorskih omrežij za
trajnostne zgradbe, računalniško zasnovano oblikovanje biomaterialov in
optimizacija procesov za proizvodnjo obnovljivih materialov.The overall objective of the research programme is to provide
new knowledge in the field of nature-based solutions, in particular using wood,
that support and accelerate the adoption of regenerative sustainability
through:
• Material
and processing advances to optimise efficiency and generate knowledge,
• Engineered
living materials to bring the function and capabilities of living organisms,
• Design
solutions for health and sustainability based on Restorative Environmental and
Ergonomic Design (REED).
Advances in these areas will contribute to greater forest
sustainability, a healthier built environment and growth in forestry and
woodworking. This will be achieved by a multidisciplinary team that will ensure
progress in wood science, in the development of engineered living materials and
lead to new interdisciplinary research that will accelerate the development of
wood structural systems. The research program consists of five working groups:
materials, advanced manufacturing technologies, buildings, information
processing, and health. These groups will collaborate and jointly contribute
new knowledge and achieve scientific, development and innovation excellence
(with excellent interdisciplinary science) in the following areas:
• Development of new wood composites based on human health
data, theoretical knowledge of biomaterials and predictive modeling of material
functionality.
• Comprehensive
development of new and evaluation of existing and new wood construction
products and systems with new construction products and methods, introducing
modern insights into human health aspects and using the latest analysis
methods.
• New
understanding of the physiological and psychological impacts of human interaction
with wood and wood-based materials, such as wood composites.
• Data-driven
intelligent solutions for next-generation sensor networks for sustainable
buildings, computationally-based design of biomaterials and optimization of
processes for the production of renewable materials.