Fingerprint
The Elsevier Fingerprint Engine mines the text of the experts' scholarly documents - publication abstracts, awards, project summaries, patents, and other sources – to create an index of weighted terms which defines the text, known as a Fingerprint. By aggregating and comparing Fingerprints, the Elsevier Fingerprint Engine enables users to look beyond metadata and expose valuable connections among people, research units, publications, and ideas.
Engineering & Materials Science
Controllers
Communication
Data storage equipment
Feedback
Computer hardware
Sensors
Costs
Scheduling
Bandwidth
Experiments
Imaging techniques
Wireless networks
Network protocols
Networks (circuits)
Sampling
Trajectories
Throughput
Uncertainty
Graphics processing unit
Topology
Quality of service
Electric potential
Antennas
Robots
Sensor networks
Servers
Linear systems
Decoding
Detectors
Recovery
Semantics
Resource allocation
Dynamical systems
Semiconductor quantum dots
Set theory
Internet
Decomposition
Electrons
Acoustics
Machine learning
Statistics
Nonlinear systems
Program processors
Cameras
Entropy
Computer simulation
Testbeds
Testing
Monitoring
Parallel algorithms
Cyber Physical System
Image reconstruction
Simulators
Control systems
Field programmable gate arrays (FPGA)
Markov processes
Deep learning
Neural networks
Clocks
Scalability
Silicon
Cost functions
Deep neural networks
Synchronization
Switches
Classifiers
Polynomials
Unmanned aerial vehicles (UAV)
Scattering
Learning algorithms
Robotics
Ad hoc networks
Stabilization
Transmitters
Graphene
Particle accelerators
Phonons
Availability
Redundancy
Electric lines
Geometry
Signal processing
Acoustic waves
Agglomeration
Jamming
Glossaries
Motion estimation
Lasers
Degradation
Telecommunication networks
Labels
Fusion reactions
Routers
Magnetic resonance imaging
Access control
Maximum likelihood
Visualization
Signal to noise ratio
Motion planning
Fault tolerance
Mathematics
Performance
Design
Controller
Architecture
Communication
Model
Game
Simulation
Framework
Sensor
Attack
Learning
Decentralized
Real-time
Resources
Policy
Vertex of a graph
Costs
Strategy
Human
Demonstrate
Hardware
Modeling
Optimization
Output
Speech
Software
Routing
Vision
Scheduling
Nash Equilibrium
Observation
Coding
Receiver
Sensing
Experiment
Traffic
Motion
Throughput
Neural Networks
Evaluation
Class
Compiler
Energy
Trade-offs
Voltage
Optimal Control
Training
Wireless Networks
Object
Interaction
Sensor Networks
Target
Scenarios
Safety
High Performance
Decoding
Distributed Algorithms
Dependability
Computing
Trajectory
Mean Field
Distributed Systems
Uncertainty
Bandwidth
Language
Cache
Control System
Interference
Infrastructure
Discrete-time
Robot
Synthesis
Disturbance
Standards
Unknown
Hybrid Systems
Encoder
Social Networks
Context
Formulation
Estimate
Requirements
Methodology
Path
Nonlinear Systems
Adaptive Control
Switched Systems
Simulator
Prediction
Graph in graph theory
Switched Linear Systems
Latency
Experimental Results
Scalability
Configuration
Collision Avoidance
Robustness
Workload
Physics & Astronomy
simulation
scattering
quantum dots
electrons
acoustics
phonons
estimates
performance
lasers
electronics
quantum wires
silicon
ionospheres
methodology
electromagnetism
radar
quantum wells
carbon nanotubes
scanning tunneling microscopy
graphene
F region
ultrasonics
gravity waves
excitation
energy
field effect transistors
augmentation
tomography
plasma bubbles
airglow
ions
bandwidth
approximation
thermosphere
transmission lines
echoes
charging
coefficients
scanning
temperature
incoherent scatter radar
hydrogen
optimization
impedance
learning
geometry
characterization
sensors
modulation
Green's functions
molecules
predictions
electric potential
wavelengths
microscopes
atoms
transistors
pulses
statistics
mesosphere
formulations
antennas
filters
electric fields
tumors
high resolution
spread F
matrices
irregularities
resources
cells
interactions
estimating
radar tracking
attenuation
decomposition
profiles
machine learning