Visitor Address
Helmut-Schmidt-University
Building H1
Holstenhofweg 85
22043 Hamburg
Postal Address
Helmut-Schmidt-University
Faculty of Electrical Engineering
Signal Processing and Communications
Holstenhofweg 85
22043 Hamburg
Forschung:
- Virtual analog modeling of analog reference devices using system identification techniques
- The results of the 2017 guitar amp modeling project can be found here.
Teaching:
- Digital Audio Signal Processing (D.A.S.P.) – Exercise, Lab Exercise
- Information Technology Project – Lab Exercise
- Communication Systems – Lab Exercise
Publications:
- F. Eichas, U. Zölzer: „Virtual Analog Modeling of Guitar Amplifiers with Wiener-Hammerstein Models“, 44th Annual Convention on Acoustics (DAGA 2018), Munich, Germany, March 19-22, 2018
- F. Eichas, S. Möller, U. Zölzer: „Block-Oriented Gray Box Modeling of Guitar Amplifiers“, 20th International Conference on Digital Audio Effects (DAFx-17), Edinburgh, Scottland, September 5–8, 2017 [Best Paper Award]
- E. Gerat, F. Eichas, U. Zölzer, „Virtual Analog Modeling of a UREI 1176LN Dynamic Range Control System“, In Audio Engineering Society Convention 143 (AES 143), New York, NY, October 18-21, 2017
- F. Eichas, E. Gerat, U. Zölzer: „Virtual Analog Modeling of Dynamic Range Compression Systems“, In Audio Engineering Society Convention 142 (AES 142), Berlin, Germany, May 20-23, 2017
- F. Eichas, U. Zölzer: „Black-Box Modeling of Distortion Circuits with Block-Oriented Models“, 19th International Conference on Digital Audio Effects (DAFx-16), Brno, Czech Republic, September 5–9, 2016 – Hörbeispiele finden sich hier.
- F. Eichas, U. Zölzer: „Modeling of an Optocoupler-Based Audio Dynamic Range Control Circuit“, Proc. of SPIE Vol. 9948, 99480W-1, San Diego, USA – Accessed December 5, 2016.doi: 10.1117/12.2235686; Download Author Version
- F. Eichas, S. Möller, U. Zölzer: „Block-oriented modeling of distortion audio effects using iterative minimization“, 18th International Conference on Digital Audio Effects, Trondheim, Norway
- F. Eichas, M. Fink, U. Zölzer: „Feature design for the classification of audio effect units by input/output measurements“, 18th International Conference on Digital Audio Effects, Trondheim, Norway
- F. Eichas, M. Fink, M. Holters, U. Zölzer: „Physical Modeling of the MXR Phase 90 Guitar Effect Pedal“, 17th International Conference on Digital Audio Effects (DAFx-14), 1.-5. September 2014, Erlangen, Germany
Supervised Student Work:
- A. Delcey – „Finite Impulse Response Filter Approximation: Low Delay IIR Filter Design Using Prony Method“
- P. P. Santhini – „Block Oriented Modeling of the Marshall JCM-900 Guitar Preamplifier“
- E. Gerat – „Virtual Analog Modeling of a UREI 1176LN Analog Dynamic Range Control System“
- J. Thomas – „Modeling of nonlinearities in audio circuits“
- P. Segovia – „Input/Output Measurements on Guitar Effect Devices for Classification“
- V. Kumar – „System Identification and Digital Modelin of Different Distortion Guitar Effect Pedals“
- M. Kruk – „Analysis of multi-core utilisation on embedded systems for low-latency audio applications“
- C. Castel – „Classification of Audio Systems via Input/Output Measurements“
- X. Grignon – „Identification and modeling of non-linear guitar effect circuits“
- C. V. Alonso – „System Identification & digital modeling of the MXR distortion+ Guitar Effect Pedal“
Letzte Änderung: 22. Oktober 2019