EstablishedSenior

P. A. Robinson

The University of Sydney

ORCID OpenAlex

Core Metrics

Total Citations

19,362

H-Index

Publications

597

i10-Index

334

2-Year Citedness

23.9

avg citations per work

Ability Dimensions

Overall Score53

Prolific

Late Bloomer

Impact67%

19,362 citations, h=66

Momentum89%

2yr mean: 23.9

Output87%

597 papers (9.8/year)

Efficiency11%

32 cites/paper

Novelty61%

4 unique research topics

Breadth50%

5 topic areas

Peak Power9%

Top 3 papers: 11% of citations

* Percentile scores are calculated relative to all scholars in the computational neuroscience dataset. Tags are assigned based on dimension combinations. Hover over the radar chart for details.

Scholar Profile Analysis

P. A. Robinson is a established scholar with 10k+ citations in computational neuroscience, currently affiliated with The University of Sydney.

Over a 61-year academic career, published 597 papers (averaging 9.8 per year), with 19,362 citations.

An h-index of 66, well above field average, indicates a substantial body of highly-cited work.

Academic impact accumulated gradually: first 5 years account for only 0.1%, indicating later works are more influential.

Primary research areas include Spatial frequency, Glymphatic system, Interdependent networks.

Key Findings

Signature Work

"The Dynamic Brain: From Spiking Neurons to Neural Masses and Cortical Fields" is the most influential work, with 1,085 citations, published in 2008.

Sustained Impact

Two-year mean citedness of 23.9 indicates research continues to generate significant impact.

Early Career Analysis (First 5 Years)

Career Start

1964 - 1968

Early Citations

Early Works

Early Impact %

0.1%

Top Early Career Paper

AN ANAMNESTIC-LIKE REACTION ELICITED BY TUBERCULIN.

Publication Timeline

Research Topics

Spatial frequency54.4%

Glymphatic system72.9%

Interdependent networks41.6%

Saddle-node bifurcation45.1%

Saddle-node bifurcation42.6%

Top Publications

12008• PLoS Computational Biology

The Dynamic Brain: From Spiking Neurons to Neural Masses and Cortical Fields

1,085

Citations

21997• Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics

Propagation and stability of waves of electrical activity in the cerebral cortex

489

Citations

32005• Cerebral Cortex

A Unifying Explanation of Primary Generalized Seizures Through Nonlinear Brain Modeling and Bifurcation Analysis

470

Citations

2007• NeuroImage

Comparing hemodynamic models with DCM

466

Citations

2002• Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics

Dynamics of large-scale brain activity in normal arousal states and epileptic seizures

466

Citations

1997• Reviews of Modern Physics

Nonlinear wave collapse and strong turbulence

401

Citations

2008• Space Science Reviews

S/WAVES: The Radio and Plasma Wave Investigation on the STEREO Mission

391

Citations

2001• Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics

Prediction of electroencephalographic spectra from neurophysiology

360

Citations

2023• Nature

Geometric constraints on human brain function

349

Citations

2011• Journal of Neuroscience

Biophysical Mechanisms of Multistability in Resting-State Cortical Rhythms

315

Citations

Impact Classification

中高影响力

总引用超过1万次，在特定方向具有显著影响

稳定产出

h-index超过50，具有持续的学术产出能力

高产学者

发表超过597篇论文，产出极为丰富