ScienceOpen:
research and publishing network
For Publishers
Discovery
Metadata
Peer review
Hosting
Publishing
For Researchers
Join
Publish
Review
Collect
My ScienceOpen
Sign in
Register
Dashboard
Blog
About
Search
Advanced search
My ScienceOpen
Sign in
Register
Dashboard
Search
Search
Advanced search
For Publishers
Discovery
Metadata
Peer review
Hosting
Publishing
For Researchers
Join
Publish
Review
Collect
Blog
About
37
views
0
references
Top references
cited by
49
Cite as...
0 reviews
Review
0
comments
Comment
0
recommends
+1
Recommend
0
collections
Add to
0
shares
Share
Twitter
Sina Weibo
Facebook
Email
3,078
similar
All similar
Record
: found
Abstract
: not found
Book
: not found
Neurodynamics: An Exploration in Mesoscopic Brain Dynamics
other
Author(s):
Walter J. Freeman
Publication date
(Print):
2000
Publisher:
Springer London
Read this book at
Publisher
Buy book
Review
Review book
Invite someone to review
Bookmark
Cite as...
There is no author summary for this book yet. Authors can add summaries to their books on ScienceOpen to make them more accessible to a non-specialist audience.
Related collections
Collective Dynamics
Author and book information
Book
ISBN (Print):
978-1-85233-616-5
ISBN (Electronic):
978-1-4471-0371-4
Publication date (Print):
2000
DOI:
10.1007/978-1-4471-0371-4
SO-VID:
83ed01bb-a237-40e3-8216-acbbd43fa97f
License:
http://www.springer.com/tdm
History
Data availability:
Comments
Comment on this book
Sign in to comment
Book chapters
pp. 1
Prolog
pp. 27
Spatial Mapping of Evoked Brain Potentials and EEGs to Define Population State Variables
pp. 51
Linear Models of Impulse Inputs and Linear Basis Functions for Measuring Impulse Responses
pp. 69
Rational Approximations in the Complex Plane for Laplace Transforms of Transcendental Linear Operators
pp. 91
Root Locus Analysis of Piecewise Linearized Models with Multiple Feedback Loops and Unilateral or Bilateral Saturation
pp. 125
Opening Feedback Loops with Surgery and Anesthesia; Closing the Loops with Noise
pp. 141
Three Degrees of Freedom in Neural Populations: Arousal, Learning, and Bistability
pp. 165
Analog Computation to Model Responses Based on Linear Integration, Modifiable Synapses, and Nonlinear Trigger Zones
pp. 177
Stability Analysis to Derive and Regulate Homeostatic Set Points for Negative Feedback Loops
pp. 211
Multichannel Recording to Reveal the “Code” of the Cortex: Spatial Patterns of Amplitude Modulation (AM) of Mesoscopic Carrier Waves
pp. 241
Relations Between Microscopic and Mesoscopic Levels Shown by Calculating Pulse Probability Conditional on EEG Amplitude, Giving the Asymmetric Sigmoid Function
pp. 265
The Use of Euclidean Distance in 64-space and Behavioral Correlates to Optimize Filters for Gamma AM Pattern Classification
pp. 291
Simulating Gamma Waveforms, AM Patterns and 1/f α Spectra by Means of Mesoscopic Chaotic Neurodynamics
pp. 313
Tuning Curves to Optimize Temporal Segmentation and Parameter Evaluation of Adaptive Filters for Neocortical EEG
pp. 351
Stochastic Differential Equations and Random Number Generators Minimize Numerical Instabilities in Digital Simulations
pp. 369
Links Between Microscopic Neurons and Mesoscopic Neural Assemblies
Similar content
3,078
Efficient hole-conductor-free, fully printable mesoscopic perovskite solar cells with carbon electrode based on ultrathin graphite
Authors:
Miao Duan
,
Yaoguang Rong
,
Anyi Mei
…
Boron-Doped Graphite for High Work Function Carbon Electrode in Printable Hole-Conductor-Free Mesoscopic Perovskite Solar Cells.
Authors:
Miao Duan
,
Chengbo Tian
,
Yue Hu
…
Depairing critical current density of a mesoscopic square superconductor
Authors:
Edson Sardella
,
T. M. Oliveira
See all similar
Cited by
47
AUTAPSE TURNS NEURON INTO OSCILLATOR
Authors:
CHRISTOPH HERRMANN
,
Andreas Klaus
Modeling habits as self-sustaining patterns of sensorimotor behavior
Authors:
Matthew Egbert
,
Xabier E. Barandiaran
Metabolic basis of brain-like electrical signalling in bacterial communities
Authors:
Rosa Martinez-Corral
,
Jintao Liu
,
Arthur Prindle
…
See all cited by