Data & Decision

with a Claude’s Help
This diagram illustrates the process of converting real-world analog values into actionable decisions through digital systems:

1. Input Data Characteristics

• Metric Value: Represents real-world analog values that are continuous variables with high precision. While these can include very fine digital measurements, they are often too complex for direct system processing.
• Examples: Temperature, velocity, pressure, and other physical measurements

2. Data Transformation Process

• Through ‘Sampling & Analysis’, continuous Metric Values are transformed into meaningful State Values.
• This represents the process of simplifying and digitalizing complex analog signals.

3. State Value Characteristics and Usage

• Converts to discrete variables with high readability
• Examples: Temperature becomes ‘High/Normal/Low’, speed becomes ‘Over/Normal/Under’
• These State values are much more programmable and easier to process in systems

4. Decision Making and Execution

• The simplified State values enable clear decision-making (Easy to Decision)
• These decisions can be readily implemented through Programmatic Works
• Leads to automated execution (represented by “DO IT!”)

The key concept here is the transformation of complex real-world measurements into clear, discrete states that systems can understand and process. This conversion facilitates automated decision-making and execution. The diagram emphasizes that while Metric Values provide high precision, State Values are more practical for programmatic implementation and decision-making processes.

The flow shows how we bridge the gap between analog reality and digital decision-making by converting precise but complex measurements into actionable, programmable states. This transformation is essential for creating reliable and automated decision-making systems.