AES Journal Forum

A Multi-channel Anechoic Orchestra Recording of Beethoven's Symphony No. 8 op. 93

Document Thumbnail

For the quality of model-based, virtual acoustic environments, not only the room acoustic simulation but also the quality and suitability of the source material play an important role. An optimal recording of real sound sources is characterized by an anechoic production and a high signal-to-noise ratio and crosstalk attenuation between the different recording channels. Furthermore a recording in the far field of the source is necessary to use correct directivities for room acoustic simulations. From an artistic point of view, the recording situation with its technical boundary conditions must be designed in a way that the musical or vocal rendering of professional performers is impaired as little as possible. To provide a high-quality source signal for acoustic simulations of orchestral content, a professional symphony orchestra was recorded in the anechoic chamber of TU Berlin performing the 8th Symphony of L. v. Beethoven. Through a combination of groupwise and sequential recordings with individual monitor mixes via headphones and video recordings of the conductor and concertmaster, an optimal compromise was sought with regard to artistic and technical aspects. The article presents the recording process and processing chain as well as the results achieved with respect to technical and artistical quality criteria.

Open Access


JAES Volume 68 Issue 12 pp. 977-984; December 2020
Publication Date:

Download Now (571 KB)

This paper is Open Access which means you can download it for free.

No AES members have commented on this report yet.

Subscribe to this discussion

RSS Feed To be notified of new comments on this report you can subscribe to this RSS feed. Forum users should login to see additional options.

Start a discussion!

If you would like to start a discussion about this report and are an AES member then you can login here:

If you are not yet an AES member and have something important to say about this report then we urge you to join the AES today and make your voice heard. You can join online today by clicking here.

AES - Audio Engineering Society