Coordinated AI agents improve scientific inference from partial evidence in cross-domain tasks when single sources are incomplete, as demonstrated by AUROC gains in vector-borne disease and exoplanet benchmarks but tied performance in others.
Detecting the impact of temperature on transmission of Zika, dengue, and chikungunya using mechanistic models
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Experimentally derived mosquito extrinsic incubation period distributions delay and flatten dengue epidemic peaks, reduce peak intensity, and slightly prolong crisis duration compared to exponential assumptions, while leaving outbreak probability largely unchanged.
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Cross-domain benchmarks reveal when coordinated AI agents improve scientific inference from partial evidence
Coordinated AI agents improve scientific inference from partial evidence in cross-domain tasks when single sources are incomplete, as demonstrated by AUROC gains in vector-borne disease and exoplanet benchmarks but tied performance in others.
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From lab to outbreak: experimental mosquito extrinsic incubation period distributions shape dengue epidemic dynamics
Experimentally derived mosquito extrinsic incubation period distributions delay and flatten dengue epidemic peaks, reduce peak intensity, and slightly prolong crisis duration compared to exponential assumptions, while leaving outbreak probability largely unchanged.