Fingerprint Dive into the research topics where Section of Measurement and Control Engineering is active. These topic labels come from the works of this organisation's members. Together they form a unique fingerprint.

Engineering & Materials Science

Critical currents
Magnetic fields
Tapes
Model predictive control
Neural networks
Reinforcement learning
Ion beam assisted deposition
Thin films
Microscopic examination
Pulsed laser deposition
Superconducting materials
Scanning
Fluxes
Temperature
Flux pinning
Transport properties
Controllers
Electric fields
Current density
Magnetometers
Superconducting tapes
Derivatives
Epitaxial films
Superconducting films
Control systems
Robust control
Radial basis function networks
Nonlinear systems
Vortex flow
Glass
Magnets
Learning algorithms
Creep
Evolutionary algorithms
Merging
Substrates
Magnetization
Current voltage characteristics
Classifiers
SQUIDs
Genetic algorithms
Inductance
Solar radiation
Automobiles
Defects
Large scale systems
Scaling laws
Trajectories
Liquids
Tunnel diode oscillators
Temperature distribution
Magnetic flux
Superconducting cables
Hybrid vehicles
Chaos theory
Wire
Time delay
Fuel economy
Vector quantization
Lasers
Computer simulation
State feedback
Superconducting transition temperature
Superconducting devices
Dynamical systems
Electric potential
Simulators
Nonlinear control systems
Electric power distribution
Poles
Microscopes
Learning systems
Fabrication
Metals
Collision avoidance
Silver
Multi agent systems
Single crystals
Statistics
Microstructure
Penetration depth (superconductivity)
Multilayer neural networks
Bias currents
Anisotropy
Cranes
Binary trees
Neurons
Relaxation oscillators
Supervised learning
Electromagnets
Self organizing maps
Imaging techniques
Superconductivity
Buffer layers
Multiobjective optimization
Decision making
Energy management
Liquid nitrogen
Metal coatings
Surface resistance

Physics & Astronomy

Physics

conductors
current density
transport properties
current distribution
temperature
electric potential
temperature distribution
high temperature superconductors
critical temperature
transition temperature
magnetic flux
flux density
ion beams

Engineering

critical current
scanning
pulsed laser deposition
flux pinning
inductance
alternating current
direct current
fabrication
electrical resistivity
tunnel diodes
superconducting devices
laser microscopy
magnet coils
metal coatings

General

tapes
thin films
coils
microscopy
electric fields
magnetometers
probes
scaling
homogeneity
vortices
magnetization
defects
penetration
curves
filaments
microscopes
cables
dissipation
metals
microstructure
inhomogeneity
electric power
high field magnets
templates
hardware-in-the-loop simulation
evaluation
oscillators
magnetic probes
augmentation
single crystals
temperature dependence

Aerospace Sciences

magnetic fields
plumes

Chemistry and Materials

glass
wire
liquids
cuprates
silver

Social and Information Sciences

scaling laws

Mathematical and Computer Sciences

finite element method

Chemical Compounds

Critical currents
Magnetic fields
Tapes
Ion beam assisted deposition
Microscopic examination
Scanning
Superconducting materials
Fluxes
Transport properties
Temperature
Flux pinning
Thin films
Electric fields
Pulsed laser deposition
Current density
Superconducting tapes
Epitaxial films
Magnetometers
Glass
Vortex flow
Creep
Trifluoroacetic Acid
Substrates
Metals
Liquids
Scaling laws
Superconducting films
Magnets
Current voltage characteristics
Wire
Magnetization
Tunnel diode oscillators
Defects
Temperature distribution
Lasers
Superconducting devices
Silver
SQUIDs
Microscopes
Model predictive control
Fabrication
Microstructure
Penetration depth (superconductivity)
Inductance
Imaging techniques
Single crystals
Magnetic flux
Buffer layers
Superconducting cables
Heavy Ions
Liquid nitrogen
Electric potential
Metal coatings
Surface resistance
Anisotropy