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can be measured (finding papers that are "about" the same thing even if they use different keywords).
One of the most persistent headaches in bibliometrics is . If three different "J. Smith"s publish in physics, how do we know which one is the expert in quantum mechanics? The researchers introduced advanced algorithms to: [51-98]
A comparison of or other academic databases. can be measured (finding papers that are "about"
As we move toward more AI-driven research, datasets like the enhanced MAKG will serve as the "brain" behind the next generation of scientific discovery. [51-98]
by analyzing co-author networks and citation patterns. Link disparate profiles that belong to the same person.
We can better track how public funding leads to scientific results.
can be measured (finding papers that are "about" the same thing even if they use different keywords).
One of the most persistent headaches in bibliometrics is . If three different "J. Smith"s publish in physics, how do we know which one is the expert in quantum mechanics? The researchers introduced advanced algorithms to:
A comparison of or other academic databases.
As we move toward more AI-driven research, datasets like the enhanced MAKG will serve as the "brain" behind the next generation of scientific discovery.
by analyzing co-author networks and citation patterns. Link disparate profiles that belong to the same person.
We can better track how public funding leads to scientific results.