Refine
Year of publication
- 2016 (277) (remove)
Institute
- Fachbereich Medizintechnik und Technomathematik (54)
- Fachbereich Chemie und Biotechnologie (44)
- Fachbereich Bauingenieurwesen (35)
- Fachbereich Elektrotechnik und Informationstechnik (35)
- IfB - Institut für Bioengineering (35)
- Fachbereich Wirtschaftswissenschaften (31)
- Fachbereich Luft- und Raumfahrttechnik (28)
- Fachbereich Maschinenbau und Mechatronik (25)
- Fachbereich Energietechnik (17)
- INB - Institut für Nano- und Biotechnologien (15)
Document Type
- Article (116)
- Conference Proceeding (81)
- Part of a Book (27)
- Book (23)
- Other (10)
- Conference: Meeting Abstract (8)
- Report (5)
- Doctoral Thesis (3)
- Part of a Periodical (2)
- Patent (1)
Keywords
- Technical Operations Research (2)
- Additive Manufacturing (1)
- Annulus Fibrosus (1)
- Assessment (1)
- Asymptotic efficiency (1)
- Bacillus atrophaeus (1)
- Balance (1)
- Balanced hypergraph (1)
- Brandfall (1)
- Building Systems (1)
- Business Simulations (1)
- Cardiac myocytes (1)
- Cardiac tissue (1)
- CellDrum (1)
- Censored data (1)
- Co-managed care (1)
- Collaborative robot (1)
- Computational biomechanics (1)
- Controller Parameter (1)
- DNA biosensor (1)
- Designpraxis (1)
- Disc Degeneration (1)
- Diversity (1)
- Drinking Water Supply (1)
- Drug simulation (1)
- Duality (1)
- EN 1993-1-2 (1)
- Effizienz (1)
- Einbetten in das Internet der Dinge (1)
- Elderly (1)
- Electromechanical modeling (1)
- Engineering Education (1)
- Eutectic Silver Copper alloy (1)
- External knee adduction moments (1)
- Fall prevention (1)
- Field effect (1)
- Forschung, pränormativ (1)
- Frequency adaption (1)
- Gamification (1)
- Gender (1)
- Ground-level falls (1)
- Hall’s Theorem (1)
- Heart tissue culture (1)
- Higher Education (1)
- Hodgkin–Huxley models (1)
- Homogenization (1)
- Human-Robot interaction (1)
- Hypergraph (1)
- Hypothesentests (1)
- Induced pluripotent stem cells (1)
- Inotropic compounds (1)
- Intervertebral Disc (1)
- Intradiscal Pressure (1)
- Inverse dynamic problem (1)
- Inverse kinematic problem (1)
- Ion channels (1)
- Koenig’s Theorem (1)
- LAPS (1)
- Label-free detection (1)
- Layer-by-layer adsorption (1)
- Level Control System (1)
- Manipulated variables (1)
- Matching (1)
- Minimal-Ansatz für Embedded-Systeme (1)
- Mixed Integer Programming (1)
- Mixed-Integer Nonlinear Optimisation (1)
- Mobility (1)
- Mobility tests (1)
- Musculoskeletal model (1)
- Nucleus Pulposus (1)
- Optimal Closed Loop (1)
- Optimal Topology (1)
- Optimization (1)
- Parametric Design (1)
- Parametric Modelling (1)
- Path planning (1)
- Pharmacology (1)
- Poly(allylamine hydrochloride) (1)
- Porositat (1)
- Product-integration (1)
- Reference Process Model (1)
- Referenzmodellierung (1)
- Response Surface Method (1)
- SLM (1)
- Safety concept (1)
- Semi-parametric random censorship model (1)
- Serious Games (1)
- Solver Per- formance (1)
- Structuralist Architecture (1)
- Subject-oriented Business Process Management (1)
- Survival analysis (1)
- System Design (1)
- System Design Problem (1)
- TM Forum (1)
- TTIP (1)
- Technical Operation Research (1)
- Telecommunications Industry. (1)
- Tinetti test (1)
- Tragwerksbemessung (1)
- Unternehmensarchitektur (1)
- Unternehmenstransformation (1)
- Vergleich von Experimenten (1)
- Vertex cover (1)
- Volterra integral equation (1)
- Workspace monitoring (1)
- biosensors (1)
- building industry (1)
- chemical sensor (1)
- diversity (1)
- eTOM (1)
- efficiency (1)
- electronic communications markets (1)
- endospores (1)
- energy disspation (1)
- engineering education (1)
- enhanced Telecom Operations Map (eTOM) (1)
- friction (1)
- hiPS cardiomyocytes (1)
- immobilization (1)
- impulsive effects (1)
- industrial research (1)
- ingot (1)
- innovation (1)
- iron and steel industry (1)
- liberalisation (1)
- light-addressable potentiometric sensor (1)
- liquid-storage tank (1)
- liquid-structure interaction (1)
- materials technology (1)
- metal structure (1)
- organosilanes (1)
- plug-based microfluidic device (1)
- regulation (1)
- research project (1)
- research report (1)
- resistance of materials (1)
- seismic response (1)
- silanization (1)
- social responsible engineering (1)
- steel (1)
- structural design (1)
- structure-soil-structure interaction (1)
- testing hypotheses (1)
- wave run-up (1)
The structure of the female pelvic floor (PF) is an inter-related system of bony pelvis,muscles, pelvic organs, fascias, ligaments, and nerves with multiple functions. Mechanically, thepelvic organ support system are of two types: (I) supporting system of the levator ani (LA) muscle,and (II) the suspension system of the endopelvic fascia condensation [1], [2]. Significantdenervation injury to the pelvic musculature, depolimerization of the collagen fibrils of the softvaginal hammock, cervical ring and ligaments during pregnancy and vaginal delivery weakens thenormal functions of the pelvic floor. Pelvic organ prolapse, incontinence, sexual dysfunction aresome of the dysfunctions which increases progressively with age and menopause due toweakened support system according to the Integral theory [3]. An improved 3D finite elementmodel of the female pelvic floor as shown in Fig. 1 is constructed that: (I) considers the realisticsupport of the organs to the pelvic side walls, (II) employs the improvement of our previous FEmodel [4], [5] along with the patient based geometries, (III) incorporates the realistic anatomy andboundary conditions of the endopelvic (pubocervical and rectovaginal) fascia, and (IV) considersvarying stiffness of the endopelvic fascia in the craniocaudal direction [3]. Several computationsare carried out on the presented computational model with healthy and damaged supportingtissues, and comparisons are made to understand the physiopathology of the female PF disorders.
Leitung und Konzeption: Thomas Tünnemann, Professor für Gestalten, FB Architektur, FH Aachen:
Mit Beiträgen von
Miriam Azzab, Larissa Rohr, Janna Steinhart, Felix Reymann, Kevin Osterkamp, Mark Kieckhefer, Pia Bienert, Sarah Schuhmann, Hermann Stuzmann, Silvana Hecklinger, Thorsten, Köllen, Jesse Dilworth, Silke Wanders, Tomas Tünnemann und Jan Waschinzki
Rubber materials filled with reinforcing fillers display nonlinear rheological behavior at small strain amplitudes below γ0 < 0.1. Nevertheless, rheological data are analyzed mostly in terms of linear parameters, such as shear moduli (G′, G″), which loose their physical meaning in the nonlinear regime. In this work styrene butadiene rubber filled with carbon black (CB) under large amplitude oscillatory shear (LAOS) is analyzed in terms of the nonlinear parameter I3/1. Three different CB grades are used and the filler load is varied between 0 and 70 phr. It is found that I3/1(φ) is most sensitive to changes of the total accessible filler surface area at low strain amplitudes (γ0 = 0.32). The addition of up to 70 phr CB leads to an increase of I3/1(φ) by a factor of more than ten. The influence of the measurement temperature on I3/1 is pronounced for CB levels above the percolation threshold.
In order to efficiently convert lignocellulose, it is often necessary to conduct a pretreatment. The biomass considered in this study typically comprises of agricultural and horticultural residues, as well as beechwood. A very environmentally friendly method, namely, fungal pretreatment using white-rot fungi, leads to an enhanced enzymatic hydrolysis. In contrast to other processes presented, the energy input is extremely low. However, the fungal growth on the lignocellulosic substrates takes several weeks at least in order to be effective. Thus, the reduction of chemicals and energy for thermal processing is a target of our current research. Liquid hot water (LHW) and solvent-based pretreatment (OrganoSolv) require more complex equipment, as they depend on high temperatures (160 – 180 °C) and enhanced pressure (up to 20 bar). However, they prove to be promising processes in regard to the fractioning of lignocellulose. For optimal lignin recovery the parameters differ from those established in cellulose extraction. A novel screening system scaled down to a reaction volume of 100 mL has been developed and successfully tested for this purpose.
We study the novel possibilities computer aided design and production open up for the design of building systems. Such systems today can, via individualized mass production, consist of a larger number and more complex parts than previously and therefore be assembled into more complex wholes. This opens up the possibility of designing specialized systems specifically for single buildings. The common order of starting with a building system and designing a building using this system can be reversed to designing a building first and then developing a system specifically for that building. We present and discuss research that incorporates students design projects into research work and fosters links between research and teaching.
In the last decades, several hundred exoplanets could be detected thanks to space-based observatories, namely CNES’ COROT and NASA’s Kepler. To expand this quest ESA plans to launch CHEOPS as the f irst small class mission in the cosmic visions program (S1) and PLATO as the 3rd medium class mission, so called M3 . PLATO’s primary objective is the detection of Earth like Exoplanets orbiting solar type stars in the habitable zone and characterisation of their bulk properties. This is possible by precise lightcurve measurement via 34 cameras. That said it becomes obvious that accurate pointing is key to achieve the required signal to noise ratio for positive transit detection. The paper will start with a comprehensive overview of PLATO’s mission objectives and mission architecture. Hereafter, special focus will be devoted to PLATO’s pointing requirements. Understanding the very nature of PLATO’s pointing requirements is essential to derive a design baseline to achieve the required performance. The PLATO frequency domain is of particular interest, ranging from 40 mHz to 3 Hz. Due to the very different time-scales involved, the spectral pointing requirement is decomposed into a high frequency part dominated by the attitude control system and the low frequency part dominated by the thermo-elastic properties of the spacecraft’s configuration. Both pose stringent constraints on the overall design as well as technology properties to comply with the derived requirements and thus assure a successful mission.