Stephen J. Ferguson: Catalogue data in Spring Semester 2019

Award: The Golden Owl
Name Prof. Dr. Stephen J. Ferguson
FieldBiomechanics
Address
Institut für Biomechanik
ETH Zürich, GLC H 15.2
Gloriastrasse 37/ 39
8092 Zürich
SWITZERLAND
Telephone+41 44 633 93 30
E-mailsferguson@ethz.ch
DepartmentHealth Sciences and Technology
RelationshipFull Professor

NumberTitleECTSHoursLecturers
376-1150-00LClinical Challenges in Musculoskeletal Disorders Restricted registration - show details 2 credits2GM. Leunig, S. J. Ferguson, A. Müller
AbstractThis course reviews musculoskeletal disorders focusing on the clinical presentation, current treatment approaches and future challenges and opportunities to overcome failures.
ObjectiveAppreciation of the surgical and technical challenges, and future perspectives offered through advances in surgical technique, new biomaterials and advanced medical device construction methods.
ContentFoot deformities, knee injuries, knee OA, hip disorders in the child and adolescent, hip OA, spine deformities, degenerative spine disease, shoulder in-stability, hand, rheumatoid diseases, neuromuscular diseases, sport injuries and prevention
376-1712-00LFinite Element Analysis in Biomedical Engineering Information 3 credits2VS. J. Ferguson, B. Helgason
AbstractThis course provides an introduction to finite element analysis, with a specific focus on problems and applications from biomedical engineering.
ObjectiveFinite element analysis is a powerful simulation method for the (approximate) solution of boundary value problems. While its traditional roots are in the realm of structural engineering, the methods have found wide use in the biomedical engineering domain for the simulation of the mechanical response of the human body and medical devices. This course provides an introduction to finite element analysis, with a specific focus on problems and applications from biomedical engineering. This domain offers many unique challenges, including multi-scale problems, multi-physics simulation, complex and non-linear material behaviour, rate-dependent response, dynamic processes and fluid-solid interactions. Theories taught are reinforced through practical applications in self-programmed and commercial simulation software, using e.g. MATLAB, ANSYS, FEBIO.
Content(Theory) The Finite Element and Finite Difference methods
Gallerkin, weighted residuals, discretization

(Theory) Mechanical analysis of structures
Trusses, beams, solids and shells, DOFs, hand calculations of simple FE problems, underlying PDEs

(Application) Mechanical analysis of structures
Truss systems, beam systems, 2D solids, meshing, organ level analysis of bones

(Theory and Application) Mechanical analysis of structures
Micro- and multi-scale analysis, voxel models, solver limitations, large scale solvers

(Theory) Non-linear mechanical analysis of structures
Large strain, Newton-Rhapson, plasticity

(Application) Non-linear mechanical analysis of structures
Plasticity (bone), hyperelasticity, viscoelasticity

(Theory and Application) Contact analysis
Friction, bonding, rough contact, implants, bone-cement composites, pushout tests

(Theory) Flow in Porous Media
Potential problems, Terzhagi's consolidation

(Application) Flow in Porous Media
Confined and unconfined compression of cartilage

(Theory) Heat Transfer and Mass Transport
Diffusion, conduction and convection, equivalency of equations

(Application) Heat Transfer and Mass Transport
Sequentially-coupled poroelastic and transport models for solute transport

(Theory) Computational Biofluid Dynamics
Newtonian vs. Non-Newtonian fluid, potential flow

(Application) Computational Biofluid Dynamics
Flow between micro-rough parallel plates
Lecture notesHandouts consisting of (i) lecturers' script, (ii) selected excerpts from relevant textbooks, (iii) selected excerpts from theory manuals of commercial simulation software, (iv) relevant scientific publications.
Prerequisites / NoticeFamiliarity with basic numerical methods.
Programming experience with MATLAB.
376-1974-00LColloquium in Biomechanics Information 2 credits2KB. Helgason, S. J. Ferguson, R. Müller, J. G. Snedeker, W. R. Taylor, K. Würtz-Kozak, M. Zenobi-Wong
AbstractCurrent topics in biomechanics presented by speakers from academia and industry.
ObjectiveGetting insight into actual areas and problems of biomechanics.