With user input and AI knowledge we create definable iterations of editable results from text being data.
Onil: Let's talk about Knowledge Discovery in Data also known as KDD and
explain the types of knowledge we can discover by reading computer data, data
from media, data from software programming and notes taken digitally and on
paper...explain thoroughly the types of knowledge we can discover through Data
Management.
ChatGPT said:
Knowledge Discovery in Data (KDD)
Knowledge Discovery in Data (KDD) is the process of
discovering useful information and patterns in data. It encompasses data
preparation, selection, parsing, cleaning, wrangling and transformation, as
well as the application of data mining algorithms to extract hidden patterns
and knowledge from data. (terms) The overall goal of KDD is to convert raw data
into meaningful specific information that can inform decision-making.
Types of Knowledge Discovered in Data
1. Descriptive Knowledge
Descriptive knowledge involves summarizing the main
characteristics of the data, providing an overview of its properties and
structure. This type of knowledge answers questions such as:
- What
are the most common trends in the data?
- What
is the distribution of specific variables?
- What
are the access points we can use to access more knowledge when prompted
about it?
Examples:
- Statistical
summaries (mean, median, mode, standard deviation). [mathematics]
- Frequency
distributions and histograms. [graphs]
- Cluster
profiles identifying groups of similar data points.
- Inferences used for further research and knowledge.
2. Predictive Knowledge
Predictive knowledge focuses on using historical data to
make forecasts about future events. It involves building models that can
predict outcomes based on input variables.
Examples:
- Predictive
models in machine learning (e.g., regression analysis, decision trees,
neural networks, correlations, inferences, connections).
- Time
series forecasting to predict stock prices, weather conditions, or sales.
- Classification
models to predict customer behavior, such as churn prediction.
3. Prescriptive Knowledge
Prescriptive knowledge provides recommendations for
decision-making by considering the outcomes of different actions. It goes
beyond predicting future outcomes by suggesting actions that could lead to
desired results.
Examples:
- Optimization
models for resource allocation, such as supply chain management. (using
inductive vocabulary)
- Recommender
systems suggesting products, movies, games, intellectual properties or
articles. (to be used in further data collection and research &
development)
- Decision
support systems providing actionable insights based on data analysis.
(programmable designs and concepts)
4. Diagnostic Knowledge
Diagnostic knowledge identifies the causes of observed
phenomena. It explains why certain events happened and helps in understanding
the underlying reasons behind patterns in the data.
Examples:
- Root
cause analysis in manufacturing to identify reasons for defects. (or it’s
converse)
- Fault
detection systems in engineering and IT. (or symbolic analysis that can
lead to language definable data)
- Medical
diagnosis models identifying factors leading to a disease. (or the
creation of biological structures that can heal and cure)
Knowledge Discovery from Different Data Sources
Computer Data
- System
Logs: Analyzing logs for security breaches, performance issues, and
user activities and input.
- Network
Traffic: Monitoring traffic for anomalies indicating high target
ideas.
- Usage
Patterns: Understanding user behavior for optimizing system
performance and enhancing user experience.
Media Data
- Text
Analysis: Extracting themes, concepts, designs, sentiments, inferences
and trends from articles, AI interaction, websites, accounts, blogs, social
media, literature, knowledge and media from intellectual property.
- Image/Video
Analysis: Detecting characters, objects, scenes, activities and
language for applications in ideations, iterations, analysis of
entertainment, and user systems.
- Audio
Analysis: Transcribing and analyzing speech and sound for sentiment,
emotion detection, and automatic transcription services and responses.
Data from Software Programming
- Code
Analysis: Identifying ideas, thoughts, vocabulary, and code sense
through dynamic code and text analysis.
- Version
Control Data: Mining histories to understand developmental trends,
contribution to adaptive vocabulary that lead to behaviors, and project
lifespan evolution.
- Execution
Traces: Analyzing runtime data to optimize performance, detect
knowledge anomalies, and improve processes, inferences and iterations.
Notes and Structured Data
- Text
Mining: Extracting key concepts, summaries, and relationships from structured
text such as text notes, chats, research papers, academic data and
personal inquiries.
- Sentiment
Analysis: Analyzing opinions and sentiments expressed in written text
to gauge mood, satisfaction, or public and personal opinion.
- Entity
Recognition: Identifying and categorizing entities (names, dates,
locations, numerics) in text for account knowledge organization and
retrieval.
Summary
KDD is a powerful process for extracting meaningful insights
from vast amounts of data and texts. The types of knowledge we can discover
include:
- Descriptive
knowledge provides summaries, overviews and inferences on texts.
- Predictive
knowledge enables forecasting future events and ideations.
- Prescriptive
knowledge offers actionable recommendations.
- Diagnostic
knowledge explains observed patterns and iterates them.
By leveraging data from various sources such as computer
logs and accounts, media content, software programming data, ideas, and
artifacts, and structured texts and notes, we can uncover valuable insights
that drive better decision-making, better idea iterations, imaginative vocabulary
and planning for future designs and concepts across multiple domains,
industries and disciplines.
