AerVelum™️ by ModuScreen™️

SYSTEM DEFINITION

AerVelum™ is a vehicle-integrated environmental interface subsystem designed to regulate airflow and particulate exposure at the window interface during open-window operation.

It introduces a layered architecture that enables controlled interaction between vehicle occupants and external environments without requiring full cabin enclosure systems or structural vehicle redesign.

AerVelum™ functions as a modular subsystem intended for OEM integration across automotive, robotics, and mobility platforms operating in uncontrolled environments.

CATEGORY

Vehicle Environmental Interface Systems

AerVelum™ defines a new subsystem category focused on controlled environmental interaction at the boundary layer of mobility systems.

This category sits between:

• vehicle body systems
• cabin environmental control systems
• and external motion environments

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CORE PROBLEM

Open-window mobility remains fundamentally unengineered.

Current systems lack active control over environmental exposure at the window interface, resulting in:

• particulate and debris intrusion
• wind turbulence and instability
• inconsistent occupant comfort at speed
• limited adaptability across environments
• reliance on passive or fully enclosed alternatives

There is currently no dedicated subsystem managing the air-environment interface zone in mobility systems.

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CORE SYSTEM LOGIC

• Problem: Open-window mobility has no environmental control layer
• System: AerVelum™ introduces a modular interface subsystem at the window boundary

Outcome: Controlled airflow and exposure management without full enclosure systems

SYSTEM ARCHITECTURE

AerVelum™ operates as a layered subsystem architecture:

AER VELUM™ — SYSTEM LAYER

Defines environmental control logic at the mobility interface boundary.

• airflow regulation logic
• particulate exposure mitigation
• interface behavior definition

VEHICLE INTERFACE ZONE — INTEGRATION LAYER

Defines structural integration boundaries within existing systems.

• door frame assemblies
• window channel systems
• trim-adjacent interfaces

ENVIRONMENTAL CONTROL LAYER — FUNCTIONAL OUTPUT

The interaction layer between mobility system and external environment.

• airflow regulation
• debris filtering
• exposure moderation

INTENDED DEPLOYMENT CONTEXT

AerVelum™ is designed for integration across:

• automotive OEM platforms
• Tier-1 subsystem architectures
• autonomous mobility systems
• robotics platforms operating in uncontrolled environments
• fleet and specialty vehicle systems

SYSTEM BEHAVIOR

AerVelum™ enables:

• controlled airflow during open-window operation
• reduced particulate and environmental intrusion
• maintained occupant comfort without full enclosure systems
• compatibility with existing vehicle architectures
• scalable deployment across mobility classes

PLATFORM ECOSYSTEM

AerVelum™ functions as a multi-layer platform system:

• AerVelum™ — system architecture layer
• ModuScreen™ — deployment and configuration layer
• Vehicle integration layer — OEM interface boundary

ModuScreen™ enables scalable physical implementation of AerVelum™ across different mobility platforms and system

IP STATUS

• Patent-pending subsystem architecture
• Modular environmental interface system claims in development
• Cross-platform applicability (automotive + robotics + mobility systems)

APPLICATION ENVIRONMENTS

AerVelum™ is intended for use in:

• passenger vehicles
• autonomous mobility systems
• robotics platforms in uncontrolled environments
• fleet mobility systems
• specialty and utility vehicles

REQUEST SYSTEM & LICENSING BRIEF

AerVelum™ is currently engaging select OEM, Tier-1, and mobility platform partners for subsystem architecture review and licensing discussions.

Submit your inquiry to receive:

• OEM Integration Overview
• System Architecture Brief
• ModuScreen™ Deployment Summary

→ Submit Partnership Request