Siirry päänavigointiin
Siirry hakuun
Siirry pääsisältöön
Tampereen yliopiston tutkimusportaali Etusivu
Tuki ja usein esitetyt kysymykset
English
Suomi
Etusivu
Profiilit
Tutkimusyksiköt
Tutkimustuotos
Aktiviteetit
Tietoaineistot
Tutkimusinfrastruktuurit
Lehtileikkeet
Palkinnot
Haku asiantuntemuksen, nimen tai kytköksen perusteella
Signal processing methods and information approach to systems biology
Julkaisun otsikon käännös
:
Signal processing methods and information approach to systems biology
M. Nykter
Tutkimustuotos
:
Väitöskirja
›
Collection of Articles
44
Lataukset (Pure)
Yleiskatsaus
Sormenjälki
Sormenjälki
Sukella tutkimusaiheisiin 'Signal processing methods and information approach to systems biology'. Ne muodostavat yhdessä ainutlaatuisen sormenjäljen.
Järjestys:
Painoarvo
Aakkosjärjestyksessä
Keyphrases
Signal Processing Techniques
100%
Systems Biology
100%
Information Processing
100%
Information Approach
100%
Processing Information
100%
Information Flow
60%
Microarray Data
60%
Living Systems
60%
Biological Systems
40%
System Level
40%
Structural Properties
20%
Measure Data
20%
Statistical Features
20%
Technological Progress
20%
Dynamical Properties
20%
Cell Population
20%
High-throughput
20%
Simulation Model
20%
Noise Source
20%
Microarray
20%
Information Theory
20%
Macrophages
20%
Noise Properties
20%
Information Measures
20%
System Response
20%
Unsupervised Method
20%
Class Label
20%
Reductionism
20%
Global System
20%
Biological Data
20%
Fluorescence-activated Cell Sorter
20%
New Signals
20%
Innate Immunity Cells
20%
Population Distribution
20%
Systems-level Properties
20%
Computational Analysis
20%
Kolmogorov Complexity
20%
Biological Characteristics
20%
Systems-based Approach
20%
Evolutionary Relationship
20%
Evolution Mechanism
20%
Mathematics
Living System
100%
Level System
100%
Signal Processing
100%
Biological System
66%
Statistical Characteristic
33%
System Response
33%
Level Property
33%
Information Measure
33%
Computational Analysis
33%
Activated Cell
33%
Real Data
33%
Class Label
33%
Simulation Model
33%
Kolmogorov Complexity
33%
Population Distribution
33%
Computer Science
Processing Method
100%
Information Processing
100%
Microarray Data
60%
Biological System
40%
Case Study
20%
Measurement Data
20%
Cell Population
20%
High Throughput
20%
Technological Advance
20%
Information Measure
20%
Kolmogorov Complexity
20%
System Response
20%
Individual Component
20%
Criticality
20%
Simulation Model
20%
Physics
Information Processing
100%
Signal Processing
100%