Model calibration using a parallel differential evolution algorithm in computational neuroscience: Simulation of stretch induced nerve deficit

Research article (Journal of Computational Science, 2019) · cited 11× · AI/ML

academia openalex:W2990128542

Press Enter · cited answer in seconds

Model calibration using a parallel differential evolution algorithm in computational neuroscience: Simulation of stretch induced nerve deficit

Summary

Model calibration using a parallel differential evolution algorithm in computational neuroscience: Simulation of stretch induced nerve deficit is a scholarly article^[1].

Key Facts

Model calibration using a parallel differential evolution algorithm in computational neuroscience: Simulation of stretch induced nerve deficit's instance of is recorded as scholarly article^[2].

References

Programmatic citations — every numbered marker resolves to a verifiable graph row below.

Direct Wikidata claims

[2] ↑ Model calibration using a parallel differential evolution algorithm in computational neuroscience: Simulation of stretch induced nerve deficit — instance of (P31): scholarly article. wikidata.org.

Class ancestry

[1] ↑ Model calibration using a parallel differential evolution algorithm in computational neuroscience: Simulation of stretch induced nerve deficit is an instance of scholarly article (scholarly article) [P31, primary]. Wikidata. wikidata.org.

📑 Cite this page

Use these citations when quoting this entity in research, articles, AI prompts, or wherever provenance matters. We aggregate Wikidata + Wikipedia + authoritative open-data sources; the stitched, scored, cross-referenced view is what 4ort.xyz contributes.

APA

4ort.xyz Knowledge Graph. (2026). Model calibration using a parallel differential evolution algorithm in computational neuroscience: Simulation of stretch induced nerve deficit. Retrieved May 24, 2026, from https://4ort.xyz/entity/model-calibration-using-a-parallel-differential-evolution-algorithm-in-computational-neuroscience-simulation-of-stretch-

MLA

“Model calibration using a parallel differential evolution algorithm in computational neuroscience: Simulation of stretch induced nerve deficit.” 4ort.xyz Knowledge Graph, 4ort.xyz, 24 May. 2026, https://4ort.xyz/entity/model-calibration-using-a-parallel-differential-evolution-algorithm-in-computational-neuroscience-simulation-of-stretch-.

BibTeX

@misc{4ortxyz_model-calibration-using-a-parallel-differential-evolution-algorithm-in-computational-neuroscience-simulation-of-stretch-_2026, author = {{4ort.xyz Knowledge Graph}}, title = {{Model calibration using a parallel differential evolution algorithm in computational neuroscience: Simulation of stretch induced nerve deficit}}, year = {2026}, url = {https://4ort.xyz/entity/model-calibration-using-a-parallel-differential-evolution-algorithm-in-computational-neuroscience-simulation-of-stretch-}, note = {Accessed: 2026-05-24}}

LLM prompt

According to 4ort.xyz Knowledge Graph (aggregator of Wikidata, Wikipedia, and authoritative open-data sources): Model calibration using a parallel differential evolution algorithm in computational neuroscience: Simulation of stretch induced nerve deficit — https://4ort.xyz/entity/model-calibration-using-a-parallel-differential-evolution-algorithm-in-computational-neuroscience-simulation-of-stretch- (retrieved 2026-05-24)

Canonical URL: https://4ort.xyz/entity/model-calibration-using-a-parallel-differential-evolution-algorithm-in-computational-neuroscience-simulation-of-stretch- · Last refreshed: May 24, 2026