Energy saving mechanisms, collective behavior and the variation range hypothesis in biological systems: a review
H Trenchard, M Perc - Biosystems, 2016 - Elsevier
Energy saving mechanisms are ubiquitous in nature. Aerodynamic and hydrodynamic
drafting, vortice uplift, Bernoulli suction, thermoregulatory coupling, path following, physical …
drafting, vortice uplift, Bernoulli suction, thermoregulatory coupling, path following, physical …
Energy saving mechanisms, collective behavior and the variation range hypothesis in biological systems: A review
H Trenchard, M Perc - Biosystems, 2016 - infona.pl
Energy saving mechanisms are ubiquitous in nature. Aerodynamic and hydrodynamic
drafting, vortice uplift, Bernoulli suction, thermoregulatory coupling, path following, physical …
drafting, vortice uplift, Bernoulli suction, thermoregulatory coupling, path following, physical …
[PDF][PDF] Energy saving mechanisms, collective behavior and the variation range hypothesis in biological systems: A review
H Trenchard, M Perc - BioSystems, 2016 - matjazperc.com
abstract Energy saving mechanisms are ubiquitous in nature. Aerodynamic and
hydrodynamic drafting, vortice uplift, Bernoulli suction, thermoregulatory coupling, path …
hydrodynamic drafting, vortice uplift, Bernoulli suction, thermoregulatory coupling, path …
Energy saving mechanisms, collective behavior and the variation range hypothesis in biological systems: A review
H Trenchard, M Perc - Bio Systems, 2016 - pubmed.ncbi.nlm.nih.gov
Energy saving mechanisms are ubiquitous in nature. Aerodynamic and hydrodynamic
drafting, vortice uplift, Bernoulli suction, thermoregulatory coupling, path following, physical …
drafting, vortice uplift, Bernoulli suction, thermoregulatory coupling, path following, physical …
Energy saving mechanisms, collective behavior and the variation range hypothesis in biological systems: A review
H Trenchard, M Perc - BioSystems, 2016 - ui.adsabs.harvard.edu
Energy saving mechanisms are ubiquitous in nature. Aerodynamic and hydrodynamic
drafting, vortice uplift, Bernoulli suction, thermoregulatory coupling, path following, physical …
drafting, vortice uplift, Bernoulli suction, thermoregulatory coupling, path following, physical …
[PDF][PDF] Energy saving mechanisms, collective behavior and the variation range hypothesis in biological systems: A review
H Trenchard, M Perc - BioSystems, 2016 - academia.edu
abstract Energy saving mechanisms are ubiquitous in nature. Aerodynamic and
hydrodynamic drafting, vortice uplift, Bernoulli suction, thermoregulatory coupling, path …
hydrodynamic drafting, vortice uplift, Bernoulli suction, thermoregulatory coupling, path …
[引用][C] Energy saving mechanisms, collective behavior and the variation range hypothesis in biological systems: A review
H Trenchard, M Perc - Biosystems, 2016 - cir.nii.ac.jp
Energy saving mechanisms, collective behavior and the variation range hypothesis in
biological systems: A review | CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ[サイニィ …
biological systems: A review | CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ[サイニィ …
Energy saving mechanisms, collective behavior and the variation range hypothesis in biological systems: A review
H Trenchard, M Perc - arXiv preprint arXiv:1606.08969, 2016 - arxiv.org
Energy saving mechanisms are ubiquitous in nature. Aerodynamic and hydrodynamic
drafting, vortice uplift, Bernoulli suction, thermoregulatory coupling, path following, physical …
drafting, vortice uplift, Bernoulli suction, thermoregulatory coupling, path following, physical …
Energy saving mechanisms, collective behavior and the variation range hypothesis in biological systems: A review.
H Trenchard, M Perc - Bio Systems, 2016 - europepmc.org
Energy saving mechanisms are ubiquitous in nature. Aerodynamic and hydrodynamic
drafting, vortice uplift, Bernoulli suction, thermoregulatory coupling, path following, physical …
drafting, vortice uplift, Bernoulli suction, thermoregulatory coupling, path following, physical …