adplus-dvertising
frame-decoration

Question

What problem-solving technique is relevant for evolving etalon genomes in the knowledge evolution ecosystem?

a.

Structural Dynamic Uni-directional Distributed (SDUD) alignment

b.

Genetic drift analysis

c.

Semantic context negotiation

d.

Temporal ontology reasoning

Posted under Big Data Computing

Answer: (a).Structural Dynamic Uni-directional Distributed (SDUD) alignment Explanation:The relevant problem-solving technique for evolving etalon genomes in the knowledge evolution ecosystem is Structural Dynamic Uni-directional Distributed (SDUD) alignment.

Engage with the Community - Add Your Comment

Confused About the Answer? Ask for Details Here.

Know the Explanation? Add it Here.

Q. What problem-solving technique is relevant for evolving etalon genomes in the knowledge evolution ecosystem?

Similar Questions

Discover Related MCQs

Q. What may cause a noticeable structural difference in individual genomes within a species in the knowledge evolution ecosystem?

Q. What may emerge if the group of KOs with drifted genomes reaches a critical mass in the knowledge evolution ecosystem?

Q. What type of extension is required for an ontology representation language to cope with evolutionary mechanisms in the knowledge evolution ecosystem?

Q. What is the primary objective of morphogenesis in a Knowledge Organism (KO) within the knowledge evolution ecosystem?

Q. How are assertions selected for consumption during the morphogenesis process in a KO?

Q. What can the ratio of mutagen ABox consumption in a KO be used for in the knowledge evolution ecosystem?

Q. How does a Knowledge Organism (KO) in the knowledge evolution ecosystem resolve a contradiction between an incoming mutagenic assertion and an existing assertion in its body?

Q. What metric can be used to assess the dominance of incoming assertions in the knowledge evolution ecosystem?

Q. What is the primary difference between morphogenesis and mutation in a Knowledge Organism (KO) within the knowledge evolution ecosystem?

Q. What is the main factor that determines whether a genome element in a Knowledge Organism (KO) will undergo mutation due to incoming influences?

Q. What type of genome elements is more likely to resist mutation in a Knowledge Organism (KO)?

Q. What happens to unused elements from an incoming knowledge token in the knowledge evolution ecosystem?

Q. How does mutation in a Knowledge Organism (KO) differ from morphogenesis in terms of its impact on the ontology?

Q. What kind of ontology alignment problem is associated with morphogenesis in the knowledge evolution ecosystem?

Q. What is the primary focus of structural ontology alignment in the context of mutation in a Knowledge Organism (KO)?

Q. What information needs to be preserved for future use in possible mutations of a Knowledge Organism (KO) in the knowledge evolution ecosystem?

Q. What triggers the mechanism of recombination in Knowledge Organisms (KOs) in the knowledge evolution ecosystem?

Q. How do KOs detect weaknesses in their genomes that may require recombination?

Q. What is the primary objective of recombination in Knowledge Organisms (KOs)?

Q. What additional functionality does a KO need in order to reason about the strengths and weaknesses of the elements in its genome for recombination?