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publicationDate: 2024

46,231 to 46,240 of 46,397 Results

EMA-mean.tab Jan 16, 2024 - Replication Data for: Anisotropic Damping and Stiffness of laminated steel parts using adhesive bonding - an empirical influence study Tabular Data - 728 B - 8 Variables, 8 Observations - UNF:6:GbNy/8btdt8Y1JpQnvNDgQ== data in csv format representing EMA-mean tab in .xslx file
EMA.tab Jan 16, 2024 - Replication Data for: Anisotropic Damping and Stiffness of laminated steel parts using adhesive bonding - an empirical influence study Tabular Data - 2.1 KB - 11 Variables, 22 Observations - UNF:6:ni9nWxNNxmIaU76aVccGiQ== data in csv format representing EMA tab in .xslx file
ratios normal-parallel.tab Jan 16, 2024 - Replication Data for: Anisotropic Damping and Stiffness of laminated steel parts using adhesive bonding - an empirical influence study Tabular Data - 2.1 KB - 9 Variables, 21 Observations - UNF:6:c0OahPDoAH+UndYuONFS0A== data in csv format representing ratios normal-parallel tab in .xslx file
Technical specifications and details of the muscle-driven biorobotic arm ATARO Jan 16, 2024 - Institute for Modelling and Simulation of Biomechanical Systems Nadler, Tobias; Wolfen, Simon; Häufle, Daniel F. B.; Schmitt, Syn, 2024, "Technical specifications and details of the muscle-driven biorobotic arm ATARO", https://doi.org/10.18419/DARUS-3813, DaRUS, V1 ATARO is a bio-inspired arm robot with two degrees of freedom. Five artificial muscle-spring units (MSUs) are used for actuation. The MSUs, each consisting of a pneumatic artificial muscle (PAM) and a spring in series, mimic the characteristics of the human muscle-tendon complex. Five proportional control valves actuate the PAMs. To mimic biologica...
Active compliance.mov Jan 16, 2024 - Technical specifications and details of the muscle-driven biorobotic arm ATARO Quicktime Video - 28.9 MB - MD5: 5af7c69cc432d453c087c660cdf55b57 Active compliance
Ball contact.mov Jan 16, 2024 - Technical specifications and details of the muscle-driven biorobotic arm ATARO Quicktime Video - 15.7 MB - MD5: 1d02d0f3e1f8b79ed776eed9c8f8666b Ball contact
Electronic supplementary material Ataro.pdf Jan 16, 2024 - Technical specifications and details of the muscle-driven biorobotic arm ATARO Adobe PDF - 2.8 MB - MD5: 24817d682904b5399f676064e2023ee8
Finger following.mov Jan 16, 2024 - Technical specifications and details of the muscle-driven biorobotic arm ATARO Quicktime Video - 12.6 MB - MD5: 9d378037b2238d6c3b3a6cbb54f8fc29 Finger following
Point-to-point reaching.mov Jan 16, 2024 - Technical specifications and details of the muscle-driven biorobotic arm ATARO Quicktime Video - 31.8 MB - MD5: fe958759f8b69be7d1293445cf0555bb Point-to-point reaching
Supplementary videos for PhD thesis: Laminar-to-turbulent transition in airfoil boundary layer flows at oscillating inflow conditions Jan 15, 2024 - Institute of Aerodynamics and Gas Dynamics Ohno, Duncan, 2024, "Supplementary videos for PhD thesis: Laminar-to-turbulent transition in airfoil boundary layer flows at oscillating inflow conditions", https://doi.org/10.18419/DARUS-3862, DaRUS, V1 Videos from direct numerical simulations (DNS) of the laminar-to-turbulent transition under unsteady inflow conditions. The flow visualizations correspond to the results of section 3.4 of the PhD thesis "Laminar-to-turbulent transition in airfoil boundary layer flows at oscillating inflow conditions", see Related Publication below.

EMA-mean.tab

Jan 16, 2024 - Replication Data for: Anisotropic Damping and Stiffness of laminated steel parts using adhesive bonding - an empirical influence study

Tabular Data - 728 B - 8 Variables, 8 Observations -

data in csv format representing EMA-mean tab in .xslx file

EMA.tab

Jan 16, 2024 - Replication Data for: Anisotropic Damping and Stiffness of laminated steel parts using adhesive bonding - an empirical influence study

Tabular Data - 2.1 KB - 11 Variables, 22 Observations -

data in csv format representing EMA tab in .xslx file

ratios normal-parallel.tab

Jan 16, 2024 - Replication Data for: Anisotropic Damping and Stiffness of laminated steel parts using adhesive bonding - an empirical influence study

Tabular Data - 2.1 KB - 9 Variables, 21 Observations -

data in csv format representing ratios normal-parallel tab in .xslx file

Technical specifications and details of the muscle-driven biorobotic arm ATARO

Jan 16, 2024 - Institute for Modelling and Simulation of Biomechanical Systems

Nadler, Tobias; Wolfen, Simon; Häufle, Daniel F. B.; Schmitt, Syn, 2024, "Technical specifications and details of the muscle-driven biorobotic arm ATARO", https://doi.org/10.18419/DARUS-3813, DaRUS, V1

ATARO is a bio-inspired arm robot with two degrees of freedom. Five artificial muscle-spring units (MSUs) are used for actuation. The MSUs, each consisting of a pneumatic artificial muscle (PAM) and a spring in series, mimic the characteristics of the human muscle-tendon complex. Five proportional control valves actuate the PAMs. To mimic biologica...

Active compliance.mov

Jan 16, 2024 - Technical specifications and details of the muscle-driven biorobotic arm ATARO

Quicktime Video - 28.9 MB -

Active compliance

Ball contact.mov

Jan 16, 2024 - Technical specifications and details of the muscle-driven biorobotic arm ATARO

Quicktime Video - 15.7 MB -

Ball contact

Electronic supplementary material Ataro.pdf

Jan 16, 2024 - Technical specifications and details of the muscle-driven biorobotic arm ATARO

Adobe PDF - 2.8 MB -

Finger following.mov

Jan 16, 2024 - Technical specifications and details of the muscle-driven biorobotic arm ATARO

Quicktime Video - 12.6 MB -

Finger following

Point-to-point reaching.mov

Jan 16, 2024 - Technical specifications and details of the muscle-driven biorobotic arm ATARO

Quicktime Video - 31.8 MB -

Point-to-point reaching

Supplementary videos for PhD thesis: Laminar-to-turbulent transition in airfoil boundary layer flows at oscillating inflow conditions

Jan 15, 2024 - Institute of Aerodynamics and Gas Dynamics

Ohno, Duncan, 2024, "Supplementary videos for PhD thesis: Laminar-to-turbulent transition in airfoil boundary layer flows at oscillating inflow conditions", https://doi.org/10.18419/DARUS-3862, DaRUS, V1

Videos from direct numerical simulations (DNS) of the laminar-to-turbulent transition under unsteady inflow conditions. The flow visualizations correspond to the results of section 3.4 of the PhD thesis "Laminar-to-turbulent transition in airfoil boundary layer flows at oscillating inflow conditions", see Related Publication below.

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