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1. Advanced Methods for Connectome-Based Predictive Modeling of Human Intelligence: A Novel Approach Based on Individual Differences in Cortical Topography

Author

Anderson, Evan D., Wilcox, Ramsey, Nayak, Anuj, Zwilling, Christopher, Robles-Granda, Pablo, Kim, Been, Varshney, Lav R., and Barbey, Aron K.

Subjects
Quantitative Biology - Neurons and Cognition
Abstract

Individual differences in human intelligence can be modeled and predicted from in vivo neurobiological connectivity. Many established modeling frameworks for predicting intelligence, however, discard higher-order information about individual differences in brain network topology, and show only moderate performance when generalized to make predictions in out-of-sample subjects. In this paper, we propose that connectome-based predictive modeling, a common predictive modeling framework for neuroscience data, can be productively modified to incorporate information about brain network topology and individual differences via the incorporation of bagged decision trees and the network based statistic. These modifications produce a novel predictive modeling framework that leverages individual differences in cortical tractography to generate accurate regression predictions of intelligence scores. Network topology-based feature selection provides for natively interpretable networks as input features, increasing the model's explainability. Investigating the proposed modeling framework's efficacy, we find that advanced connectome-based predictive modeling generates neuroscience predictions that account for a significantly greater proportion of variance in general intelligence scores than previously established methods, advancing our scientific understanding of the network architecture that underlies human intelligence., Comment: 6 pages, 2 figures, workshop paper at NeurIPS 2021 AI for Science Workshop

Published
2022

4. Investigating cognitive neuroscience theories of human intelligence: A connectome‐based predictive modeling approach.

Author

Anderson, Evan D. and Barbey, Aron K.

Subjects
*COGNITIVE neuroscience, *PREDICTION models, *PREFRONTAL cortex, *FUNCTIONAL connectivity, *GENERAL factor (Psychology), *FUNCTIONAL magnetic resonance imaging
Abstract

Central to modern neuroscientific theories of human intelligence is the notion that general intelligence depends on a primary brain region or network, engaging spatially localized (rather than global) neural representations. Recent findings in network neuroscience, however, challenge this assumption, providing evidence that general intelligence may depend on system‐wide network mechanisms, suggesting that local representations are necessary but not sufficient to account for the neural architecture of human intelligence. Despite the importance of this key theoretical distinction, prior research has not systematically investigated the role of local versus global neural representations in predicting general intelligence. We conducted a large‐scale connectome‐based predictive modeling study (N = 297), administering resting‐state fMRI and a comprehensive cognitive battery to evaluate the efficacy of modern neuroscientific theories of human intelligence, including spatially localized theories (Lateral Prefrontal Cortex Theory, Parieto‐Frontal Integration Theory, and Multiple Demand Theory) and recent global accounts (Process Overlap Theory and Network Neuroscience Theory). The results of our study demonstrate that general intelligence can be predicted by local functional connectivity profiles but is most robustly explained by global profiles of whole‐brain connectivity. Our findings further suggest that the improved efficacy of global theories is not reducible to a greater strength or number of connections, but instead results from considering both strong and weak connections that provide the basis for intelligence (as predicted by the Network Neuroscience Theory). Our results highlight the importance of considering local neural representations in the context of a global information‐processing architecture, suggesting future directions for theory‐driven research on system‐wide network mechanisms underlying general intelligence. [ABSTRACT FROM AUTHOR]

Published
2023
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6. Racial disparities in injection-related HIV: a case study of toxic law.

Author

Burris, Scott C., Anderson, Evan D., Craigg, Ave, Davis, Corey S., and Case, Patricia

Subjects
Race discrimination -- Laws, regulations and rules, Discrimination against AIDS virus carriers -- Laws, regulations and rules, Discrimination in medical care -- Laws, regulations and rules, Intravenous drug abuse -- Laws, regulations and rules, Government regulation
Published
2010

8. Department of Defense In-House RDT/E Activities

Author

OFFICE OF THE DIRECTOR OF DEFENSE RESEARCH AND ENGINEERING WASHINGTON DC OFFICE FOR LAB MANAGEMENT, Anderson, Evan D., OFFICE OF THE DIRECTOR OF DEFENSE RESEARCH AND ENGINEERING WASHINGTON DC OFFICE FOR LAB MANAGEMENT, and Anderson, Evan D.

Abstract

The Departments of the Army, the Navy and the Air Force provide comprehensive data on the finances, manpower and facilities of their organizations that perform research, development, test and evaluation (RDT+E). Individual missions, current important programs, and their functions and equipment capabilities are described. The statistical data relate to the past and current fiscal years, i.e., 1970 and 1971. This edition is the fifth of a series that started in 1966. All information was submitted on key-punched cards and the report's preparation was thus entirely automated, with some manual correction of typographical errors and clarification of obscure abbreviations and contractions. The computer that produced the printed pages had no ampersand (+) and, instead, usually printed a plus sign (+) for the work 'and'. All current DoD RDT+E activities are indexed in Appendix 1A. Some new organizational names appear in this issue, and others have been changed since last year; for this information, see Appendix 1B. Appendix 11 containes the definitions given in DoD Instruction 7700.9 and employed as the basis for these data. Appendix 111 lists selected standard abbreviations and acronyms.

Published
1970

9. DEPARTMENT OF DEFENSE IN-HOUSE R AND D LABORATORIES.

Author

OFFICE OF THE DIRECTOR OF DEFENSE RESEARCH AND ENGINEERING WASHINGTON DC OFF ICE FOR LAB MANAGEMENT, Anderson, Evan D., OFFICE OF THE DIRECTOR OF DEFENSE RESEARCH AND ENGINEERING WASHINGTON DC OFF ICE FOR LAB MANAGEMENT, and Anderson, Evan D.

Abstract

Those Defense organizations judged to be in-house laboratories performing research and development in the commonly accepted sense were selected and summarized. This report covers 78 laboratories, of which 36 are Army, 26 are Navy, and 16 are Air Force installations.

Published
1966

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