Javascript must be enabled to continue!

Guiding principles for technical infrastructure to support computable biomedical knowledge

AbstractOver the past 4 years, the authors have participated as members of the Mobilizing Computable Biomedical Knowledge Technical Infrastructure working group and focused on conceptualizing the infrastructure required to use computable biomedical knowledge. Here, we summarize our thoughts and lay the foundation for future work in the development of CBK infrastructure, including: explaining the difference between computable knowledge and data, and contextualizing the conversation with the Learning Health Systems and the FAIR principles. Specifically, we provide three guiding principles to advance the development of CBK infrastructure: (a) Promote interoperable systems for data and knowledge to be findable, accessible, interoperable, and reusable. (b) Enable stable, trustworthy knowledge representations that are human and machine readable. (c) Computable knowledge resources should, when possible, be open. Standards supporting computable knowledge infrastructures must be open.

Wiley

Jamie McCusker Leslie D. McIntosh Chris Shaffer Peter Boisvert James Ryan Vivek Navale Umit Topaloglu Rachel L. Richesson

Learning Health Systems

2022

Title: Guiding principles for technical infrastructure to support computable biomedical knowledge

Description:

Here, we summarize our thoughts and lay the foundation for future work in the development of CBK infrastructure, including: explaining the difference between computable knowledge and data, and contextualizing the conversation with the Learning Health Systems and the FAIR principles.

Specifically, we provide three guiding principles to advance the development of CBK infrastructure: (a) Promote interoperable systems for data and knowledge to be findable, accessible, interoperable, and reusable.

(b) Enable stable, trustworthy knowledge representations that are human and machine readable.

Standards supporting computable knowledge infrastructures must be open.

Back

Related Results

A Critique of Principlism

Photo by Towfiqu barbhuiya on Unsplash INTRODUCTION Bioethics does not have an explicitly stated and agreed upon means of resolving conflicts between normative theories. As such, b...

Ontologies for natural language processing

AbstractRapid technological improvements of biomedical computational semantics and natural language processing (NLP) are leading to a profound transformation in the reuse of knowle...

The most effective proof that there exists a non-computable function from N to N

For n∈N, f(n) denotes the smallest b∈N such that if a system of equations S⊆{1=x_k, x_i+x_j=x_k, x_i·x_j=x_k: i,j,k∈{0,...,n}} has a solution in N^{n+1}, then S has a solution in {...

The Geography of Cyberspace

The Virtual and the Physical The structure of virtual space is a product of the Internet’s geography and technology. Debates around the nature of the virtual — culture, s...

Implementation of biomedical and social support for people affected by multidrug resistant tuberculosis in guinea

Aims and objectives: In 2016, Guinea had an estimated notification rate of 177 new tuberculosis (TB) cases per 100.000 population, with 360 estimated-number of rifampic...

A NICE perspective on computable biomedical knowledge

Introduction The National Institute for Health and Care Excellence (NICE) plays a central role in the NHS. We distill knowledge of best practice from the best ava...

Big Data as the Foundation of a Novel Training Platform for Biomedical Researchers in Qatar

BackgroundTechnological breakthroughs witnessed over the past decade have led to an explosive increase in molecular profiling capabilities. This has ushered a new “data-rich era” f...

A Characterization of Strongly Computable Finite Factorization Domains

Abstract In [4], Mileti and others study the prime and irreducible elements of strong finite factoriza-tion domains. The authors define the class of Strongly Computable Str...

Email:
Password:

Email: