Machine Reasoning
- Overview
Machine reasoning is a type of artificial intelligence (AI) that uses logic and rules to make inferences. It's a subset of AI that allows machines to act with agility and relevance based on learned data.
Machine reasoning uses concepts and ideas coded as symbols, and then draws logical conclusions to try to resemble common sense. It can be seen as an attempt to implement abstract thinking as a computational system.
Machine reasoning can:
- Lead a machine through the steps of a complex process.
- Adapt to real-time change.
- Execute functions.
- Enable machines to act with agility and relevancy according to learned data.
- Enable a computer to work through complex processes that would normally require a human.
- Deliver explainable recommendations.
Machine reasoning research aims to build inter-predictable AI systems that can solve problems or draw conclusions from what they are told and already know.
- Main Types of Reasoning in AI
Reasoning is a key component of machine learning (ML). It's the process of drawing logical conclusions from given information. In AI, reasoning is the ability of a computer to make deductions based on data and knowledge.
Machine reasoning can be seen as an attempt to implement abstract thinking as a computational system. It applies human-like common sense to analyze and translate vast knowledge and learned network data into clear explainable insights.
For example, a machine reasoning system can be fed an email that is potentially phishing, and draw its conclusions about whether the author is in fact suspicious.
Here are some types of reasoning used in AI:
- Deductive reasoning
- Inductive reasoning
- Abductive reasoning
- Common sense reasoning
- Monotonic reasoning
- Non-monotonic reasoning
ML uses two types of techniques:
- Supervised learning: Trains a model on known input and output data so that it can predict future outputs.
- Unsupervised learning: Finds hidden patterns or intrinsic structures in input data.
Other ML techniques include: Regression, Classification, Clustering, Decision tree, Neural networks, Anomaly detection.
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