@inproceedings{GurdetSalzbrunnKubinger, author = {Gurdet, Elisabeth and Salzbrunn, Benedikt and Kubinger, Wilfried}, title = {Empfehlungen f{\"u}r die Gestaltung von Human Machine Interfaces zur Wildtiererkennung w{\"a}hrend der Fr{\"u}hjahrsmahd}, series = {Tagungsband des 21. Arbeitswissenschaftlichen Kolloquiums}, booktitle = {Tagungsband des 21. Arbeitswissenschaftlichen Kolloquiums}, pages = {222 -- 232}, subject = {Detection}, language = {de} } @misc{GurdetSalzbrunnKubinger, author = {Gurdet, Elisabeth and Salzbrunn, Benedikt and Kubinger, Wilfried}, title = {Empfehlungen f{\"u}r die Gestaltung von Human Machine Interfaces zur Wildtiererkennung w{\"a}hrend der Fr{\"u}hjahrsmahd}, subject = {Detection}, language = {de} } @inproceedings{MarkisPapaKaselautzkeetal., author = {Markis, Alexandra and Papa, Maximilian and Kaselautzke, David and Rathmair, Michael and Sattinger, Vinzenz and Brandst{\"o}tter, Mathias}, title = {Safety of Mobile Robot Systems in Industrial Applications}, series = {Proceedings of the Joint ARW \& OAGM Workshop 2019}, booktitle = {Proceedings of the Joint ARW \& OAGM Workshop 2019}, subject = {Robotics}, language = {en} } @inproceedings{PapaKaselautzkeStujaetal., author = {Papa, Maximilian and Kaselautzke, David and Stuja, Kemajl and W{\"o}lfel, Walter}, title = {Different safety certifiable concepts for mobile robots in industrial environments}, series = {29TH DAAAM INTERNATIONAL SYMPOSIUM ON INTELLIGENT MANUFACTURING AND AUTOMATION}, booktitle = {29TH DAAAM INTERNATIONAL SYMPOSIUM ON INTELLIGENT MANUFACTURING AND AUTOMATION}, subject = {Mobile Robot}, language = {en} } @inproceedings{BenederLechnerSchmitt, author = {Beneder, Roman and Lechner, Markus and Schmitt, Patrick}, title = {Development of a Signal-Toolkit to Increase the Availability of Measurement Equipment at Courses Dedicated to Technical Sciences}, series = {Proceedings of the IEEE Global Engineering Education Conference (EDUCON2018), 17-20 April 2018, Santa Cruz de Tenerife, Spain}, booktitle = {Proceedings of the IEEE Global Engineering Education Conference (EDUCON2018), 17-20 April 2018, Santa Cruz de Tenerife, Spain}, pages = {373 -- 383}, subject = {Open-Source Tool}, language = {en} } @article{KlausAignerVeigl, author = {Klaus, Benjamin and Aigner, Benjamin and Veigl, Christoph}, title = {AsTeRICS Grid - a flexible web-based application for Alternative Communication (AAC), environmental and computer control}, series = {Technology and Disability}, volume = {Vol. 31}, journal = {Technology and Disability}, number = {No. s1}, pages = {143 -- 144}, subject = {AAC}, language = {en} } @article{WenzlMerzdovnikUllrichetal., author = {Wenzl, Matthias and Merzdovnik, Georg and Ullrich, Johann and Weippl, Edgar}, title = {From Hack to Elaborate Technique - A Survey on Binary Rewriting}, series = {ACM Computing Surveys (CSUR)}, volume = {Volume 52}, journal = {ACM Computing Surveys (CSUR)}, number = {Number 3 (2019)}, pages = {49:1 -- 49:37}, subject = {Binary rewriting}, language = {en} } @inproceedings{BenederLechnerSchmitt, author = {Beneder, Roman and Lechner, Markus and Schmitt, Patrick}, title = {Development of a Signal Generator for Study Programs Dedicated to Electronic Engineering}, series = {Proceedings of the IEEE Global Engineering Education Conference (EDUCON2018), 17-20 April 2018, Santa Cruz de Tenerife, Spain}, booktitle = {Proceedings of the IEEE Global Engineering Education Conference (EDUCON2018), 17-20 April 2018, Santa Cruz de Tenerife, Spain}, pages = {369 -- 372}, subject = {Open-Source Tool}, language = {en} } @misc{BenederLechnerSchmitt, author = {Beneder, Roman and Lechner, Markus and Schmitt, Patrick}, title = {Development of a Signal-Toolkit to Increase the Availability of Measurement Equipment at Courses Dedicated to Technical Sciences}, subject = {Open-Source Tool}, language = {en} } @misc{BenederLechnerSchmitt, author = {Beneder, Roman and Lechner, Markus and Schmitt, Patrick}, title = {Development of a Signal Generator for Study Programs Dedicated to Electronic Engineering}, subject = {Open-Source Tool}, language = {en} } @article{VeiglMiesenberger, author = {Veigl, Christoph and Miesenberger, Klaus}, title = {A toolkit for user-centered design of assistive technology solutions}, series = {Journal on Technology \& Persons with Disabilities}, volume = {6}, journal = {Journal on Technology \& Persons with Disabilities}, pages = {43 -- 61}, subject = {Assistive Technology}, language = {en} } @misc{Klaus, author = {Klaus, Benjamin}, title = {AsTeRICS Ergo - Umgebungssteuerung: intuitiv, individuell \& kosteng{\"u}nstig}, subject = {Environmental Control}, language = {de} } @misc{VeiglDavid, author = {Veigl, Christoph and David, Veronika}, title = {AsTeRICS und FlipMouse: Flexible Eingabesysteme und kosteng{\"u}nstige L{\"o}sungen f{\"u}r Kommunikation und Umgebungssteuerung f{\"u}r Menschen mit Behinderung}, subject = {Communication}, language = {de} } @article{NuernbergerSchneiderKeibletal., author = {N{\"u}rnberger, S. and Schneider, C. and Keibl, C. and Sch{\"a}dl, Barbara and Heimel, P. and Monforte, X. and Teuschl, A. H. and Nalbach, M. and Thurner, P. J. and Grillari, J. and Redl, Heinz and Wolbank, S.}, title = {Repopulation of decellularised articular cartilage by laser-based matrix engraving}, series = {EBioMedicine.}, volume = {64}, journal = {EBioMedicine.}, number = {103196.}, abstract = {Background: In spite of advances in the treatment of cartilage defects using cell and scaffold-based therapeutic strategies, the long-term outcome is still not satisfying since clinical scores decline years after treatment. Scaffold materials currently used in clinical settings have shown limitations in providing suitable biomechanical properties and an authentic and protective environment for regenerative cells. To tackle this problem, we developed a scaffold material based on decellularised human articular cartilage. Methods: Human articular cartilage matrix was engraved using a CO2 laser and treated for decellularisation and glycosaminoglycan removal. Characterisation of the resulting scaffold was performed via mechanical testing, DNA and GAG quantification and in vitro cultivation with adipose-derived stromal cells (ASC). Cell vitality, adhesion and chondrogenic differentiation were assessed. An ectopic, unloaded mouse model was used for the assessment of the in vivo performance of the scaffold in combination with ASC and human as well as bovine chondrocytes. The novel scaffold was compared to a commercial collagen type I/III scaffold. Findings: Crossed line engravings of the matrix allowed for a most regular and ubiquitous distribution of cells and chemical as well as enzymatic matrix treatment was performed to increase cell adhesion. The biomechanical characteristics of this novel scaffold that we term CartiScaff were found to be superior to those of commercially available materials. Neo-tissue was integrated excellently into the scaffold matrix and new collagen fibres were guided by the laser incisions towards a vertical alignment, a typical feature of native cartilage important for nutrition and biomechanics. In an ectopic, unloaded in vivo model, chondrocytes and mesenchymal stromal cells differentiated within the incisions despite the lack of growth factors and load, indicating a strong chondrogenic microenvironment within the scaffold incisions. Cells, most noticeably bone marrow-derived cells, were able to repopulate the empty chondrocyte lacunae inside the scaffold matrix. Interpretation: Due to the better load-bearing, its chondrogenic effect and the ability to guide matrix-deposition, CartiScaff is a promising biomaterial to accelerate rehabilitation and to improve long term clinical success of cartilage defect treatment. Funding: Austrian Research Promotion Agency FFG ("CartiScaff" \#842455), Lorenz B{\"o}hler Fonds (16/13), City of Vienna Competence Team Project Signaltissue (MA23, \#18-08). Keywords: Cartilage regeneration; Decellularisation; Ectopic animal model; Laser engraving; Mechanical testing; Repopulation.}, subject = {Tissue Engineering}, language = {en} }