A5050654511- Art History and Market Analysis
- Aviation Industry Analysis and Trends
- Air Traffic Management and Optimization
- Digital Transformation in Industry
- Architecture and Computational Design
- Semantic Web and Ontologies
- Evaluation and Performance Assessment
- Complex Systems and Decision Making
- Cultural Industries and Urban Development
- Transportation Planning and Optimization
- Advanced Aircraft Design and Technologies
- Technology's Impact on Media
- Design Education and Practice
- Transportation and Mobility Innovations
- Urban Planning and Landscape Design
- Creativity in Education and Neuroscience
- Refrigeration and Air Conditioning Technologies
- Architecture, Art, Education
- Aerospace and Aviation Technology
- Digital Innovation in Industries
- Smart Cities and Technologies
- Human Resource Development and Performance Evaluation
- Construction Project Management and Performance
- Art, Technology, and Culture
- Architecture, Modernity, and Design
Bauhaus Luftfahrt
2018-2023
University of Arts and Industrial Design Linz
2009-2018
A battery thermal management system (BTMS) for a hybrid electric aircraft is designed. Hot-day takeoff conditions are assumed, resulting in an ambient temperature higher than the allowed temperature. Thus, heat pump has to be employed BTMS. All available technologies assessed and compared. In qualitative downselection process, thermoelectric cooling chosen as technology. computational model of modules (TEMs), well finned ram air exchanger with puller fan (HEX) sink, simple pipe acquisition...
Novel electric propulsion technology has given rise to thinking about urban air mobility in a new way with its expected high degree of operational flexibility. The designs vertical takeoff and landing configurations are determined by their mission profile, which we found be oversimplified at many points the current scientific literature. There is gap understanding how profiles impact travel time energy demand. In this paper, review various designs, formulate five-segment flight profile...
Making semantics available to software applications in formats that support automated reasoning, requires many analytical and modeling steps: from acquiring appropriate knowledge sources, extracting the required knowledge, modeling, formalizing manipulating extracted combining such with existing semantic structures, as taxonomies or ontologies. This paper describes challenges of equipping a multilingual application for Industry 4.0 right quality quantity methodology sustain effort.
In the context of Industry 4.0 Smart Factory is enabled by automation physical production activities. The intellectual pre-production activities enables what here dubbed “Smart Studio”. A key-element Studio Semantic Technology. While prototyping an ontology-based recommendation system for technical content about case-study aviation industry, problem readiness level Technology became apparent. This led to formulation a Modeling and Tagging Methodology. evaluation both prototype methodology...