Room Acoustics Calculator

Room Acoustics Calculator MCP Connector for Claude

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Predict room modes, Schroeder frequency, and RT60 decay for studio acoustics.

4 tools Official Updated Jun 28, 2026 Official Vinkius Partner

This MCP server provides specialized tools for acoustic engineers to analyze recording environments. Use get_room_modes to identify axial, tangential, and oblique standing waves. Determine the transition from discrete modes to a diffuse field with get_schroeder_frequency. Predict reverberation decay using estimate_reverberation_time based on surface materials like Acoustic Foam or Concrete. Finally, use identify_tretment_needs to pinpoint problematic low-frequency resonances that require bass traps.

acousticsstudioaudio-engineeringrt60room-modesreverberation

4 tools expose this connector's capabilities to your AI agent.

estimate_reverberation_time

Predict RT60 based on surface materials

get_room_modes

Identify all axial, tangential, and oblique resonant frequencies

get_schroeder_frequency

Determine the frequency boundary between discrete and diffuse fields

identify_treatment_needs

Pinpoint frequency ranges requiring absorption treatment

See how to talk to your AI agent using Room Acoustics Calculator.

What are the room modes for a studio that is 5m long, 4m wide, and 3m high?

The axial modes for your 5x4x3m room include frequencies such as 34.3Hz, 51.5Hz, and 68.6Hz.

Estimate the RT60 for a room (5x4x3m) where the floor is carpet and the ceiling is acoustic foam.

The estimated RT60 decay time for this configuration is approximately 0.45 seconds.

Does a 6x5x4m room need acoustic treatment?

Yes, the room has problematic frequencies at 17.2Hz and 34.3Hz that may require bass traps to manage resonance.

Room modes are standing waves that occur when sound reflects between parallel surfaces in a room, creating peaks and nulls at specific frequencies.

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