LegendarySenior

Terrence J. Sejnowski

Salk Institute for Biological Studies

ORCID OpenAlex

Core Metrics

Total Citations

113,111

H-Index

153

Publications

1,002

i10-Index

542

2-Year Citedness

8.6

avg citations per work

Ability Dimensions

Overall Score57

Prolific

Late Bloomer

Legend

Impact96%

113,111 citations, h=153

Momentum73%

2yr mean: 8.6

Output95%

1002 papers (17.9/year)

Efficiency78%

113 cites/paper

Novelty5%

2 unique research topics

Breadth40%

4 topic areas

Peak Power13%

Top 3 papers: 14% 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

Terrence J. Sejnowski is a legendary figure in the field with 100k+ citations in computational neuroscience, currently affiliated with Salk Institute for Biological Studies.

Over a 56-year academic career, published 1002 papers (averaging 17.9 per year), with 113,111 citations.

With an h-index of 153, one of the rare scholars to reach this level, indicating lasting and broad research impact.

Academic impact accumulated gradually: first 5 years account for only 0%, indicating later works are more influential.

Primary research areas include Bioenergetics, Bioenergetics, Bioenergetics.

Key Findings

Signature Work

"An Information-Maximization Approach to Blind Separation and Blind Deconvolution" is the most influential work, with 9,075 citations, published in 1995.

Consistent Output

Averaging 113 citations per paper, maintaining steady high-quality output.

Sustained Growth

Very low early citation share indicates influence built through long-term accumulation, with later works being more impactful.

Early Career Analysis (First 5 Years)

Career Start

1969 - 1973

Early Citations

Early Works

Early Impact %

Top Early Career Paper

The General Solution of the b_{n} Problem for Gaseous Nebulae

Publication Timeline

Research Topics

Bioenergetics47.1%

Bioenergetics46.2%

Bioenergetics55.8%

Commissure63.1%

Top Publications

11995• Neural Computation

An Information-Maximization Approach to Blind Separation and Blind Deconvolution

9,075

Citations

21985• Cognitive Science

A Learning Algorithm for Boltzmann Machines*

3,291

Citations

32000• Psychophysiology

Removing electroencephalographic artifacts by blind source separation

3,103

Citations

1999• Proceedings of the National Academy of Sciences

Running enhances neurogenesis, learning, and long-term potentiation in mice

2,859

Citations

1995• Science

Reliability of Spike Timing in Neocortical Neurons

1,969

Citations

Impact Classification

顶级影响力

总引用超过5万次，属于领域顶级学者

持续产出

h-index超过100，表明长期高质量产出

高产学者

发表超过1002篇论文，产出极为丰富