DOCUMENT REF: FL-HMI-02-B
SUBJECT: HUMAN-MACHINE INTERFACE (HMI) ARRAYS
CLASSIFICATION: BIOLOGICAL DATA UPLINK
1.0 Capturing Human Output
The HMI Array consists of three primary components designed to bridge the gap between biological thought and digital execution.
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Conversational Input Matrices (Keyboards): Used for capturing the "Stream of Thought" real-world human outputs. We utilize mechanical switches to provide acoustic confirmation that a bit has been successfully transmitted from the fingertip to the bus.
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Gesture Capture Modules (Mice): These capture the kinetic motions of the human hand, translating physical arcs into navigational commands across the GUI plane.
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Photon-Emission Visualizers (PI-V): These are the primary output displays for human input. They provide the optical feedback loop necessary to ensure the grammeters remain synchronized.
2.0 Proximal Safety Zones & Ocular Distancing
To prevent biological degradation and optical synchronization errors, strict distancing must be maintained relative to the PI-V:
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The Minimum Threshold: No acolyte may move their eyes closer than 8 inches to the PI-V. This distance must be verified by a Standards Bearer using a calibrated physical spacer (Refer to Protocol 01-B for length standards).
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The Maximum Perimeter: Operation beyond 20 feet from the PI-V is strictly prohibited without direct supervision. Remote observation is viewed as an "attenuation of intent."
3.0 Kinetic Stability & Gravitational Anchoring
During periods of high-density data processing or localized strong gravitational forces (refer to Datacenters [REDACTED] and [REDACTED]), standard friction-based surface contact is insufficient.
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ANSI Mounting Grips: Under high-G conditions, Gesture Capture Modules must be secured via ANSI-rated mounting grips to work surfaces.
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The Floating Hazard: An unsecured mouse in a variable-gravity environment is a projectile capable of disrupting both the GUI plane and the structural integrity of the lab cadre.
