Excerpt from the Proceedings of the Nineteenth Annual Acquisition Research SymposiumThis research has the explicit goal of proposing a reusable, extensible, adaptable, and comprehensive advanced analytical modeling process to help the U.S. Navy in quantifying, modeling, valuing, and optimizing a set of nascent Artificial Intelligence and Machine Learning (AI/ML) applications in the aerospace, automotive and transportation industries and developing a framework with a hierarchy of functions by technology category and developing a unique-to-Navy-ship construct that, based on weighted criteria, scores the return on investment of developing naval AI/ML applications that enhance warfighting capabilities. This current research proposes to create a...
MBA Professional ReportThe use of artificial intelligence systems is ready to transition from basic ...
NPS NRP Executive SummaryThis study will explore the needs and requirements for battle management ai...
The article of record as published may be located at https://doi.org/10.1609/aimag.v40i1.2852Artific...
Excerpt from the Proceedings of the Nineteenth Annual Acquisition Research SymposiumThis research ha...
The acquisition of artificial intelligence (AI) systems is a relatively new challenge for the U.S. D...
This study aims to measure the technology transition performance of 252 small firms that won the U.S...
Acquisition Research Program Sponsored Report SeriesSponsored Acquisition Research & Technical Repor...
Many examples of task automation using artificial intelligence exist in private industry. The U.S. m...
News Stories ArchiveA challenge in defense acquisition can be the ability to keep up with the speed ...
The U.S. Department of Defense has issued a policy directing agencies to adopt artificial-intelligen...
Today's warfighters are bombarded with information and faced with challenging decision spaces as tec...
The private sector continuously harvests and curates key data and its sources so as to ensure the su...
This thesis seeks to study artificial intelligence (AI) technologies that can improve decision-makin...
The Navy is taking advantage of advances in computational technologies and data analytic methods to ...
Navy ships are complex enterprises comprised of multiple organizations that must interact smoothly a...
MBA Professional ReportThe use of artificial intelligence systems is ready to transition from basic ...
NPS NRP Executive SummaryThis study will explore the needs and requirements for battle management ai...
The article of record as published may be located at https://doi.org/10.1609/aimag.v40i1.2852Artific...
Excerpt from the Proceedings of the Nineteenth Annual Acquisition Research SymposiumThis research ha...
The acquisition of artificial intelligence (AI) systems is a relatively new challenge for the U.S. D...
This study aims to measure the technology transition performance of 252 small firms that won the U.S...
Acquisition Research Program Sponsored Report SeriesSponsored Acquisition Research & Technical Repor...
Many examples of task automation using artificial intelligence exist in private industry. The U.S. m...
News Stories ArchiveA challenge in defense acquisition can be the ability to keep up with the speed ...
The U.S. Department of Defense has issued a policy directing agencies to adopt artificial-intelligen...
Today's warfighters are bombarded with information and faced with challenging decision spaces as tec...
The private sector continuously harvests and curates key data and its sources so as to ensure the su...
This thesis seeks to study artificial intelligence (AI) technologies that can improve decision-makin...
The Navy is taking advantage of advances in computational technologies and data analytic methods to ...
Navy ships are complex enterprises comprised of multiple organizations that must interact smoothly a...
MBA Professional ReportThe use of artificial intelligence systems is ready to transition from basic ...
NPS NRP Executive SummaryThis study will explore the needs and requirements for battle management ai...
The article of record as published may be located at https://doi.org/10.1609/aimag.v40i1.2852Artific...