Fachbereich Elektrotechnik und Informationstechnik

AG Digitale Signalverarbeitung

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Dienstleister Audiolabor

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Veröffentlichungen

[52] M. Hilsamer, S. Herzog. A Semi-Parametric Polynomial Frequency Response Estimator for Identifcation of Weakly Non-Linear Systems Using Multi-Amplitude MLS Measurements - Part II: Extension and application of the Hp estimator. Signal Processing 2017. [ http://dx.doi.org/10.1016/j.sigpro.2017.01.006 ]
[51] S. Herzog, M. Hilsamer. A Semi-Parametric Polynomial Frequency Response Estimator for Identification of Weakly Non-Linear Systems Using Multi-Amplitude MLS Measurements. Signal Processing 2017. [ http://dx.doi.org/10.1016/j.sigpro.2016.12.026 ]
[50] A. Potchinkov. Simulation von Röhrenverstärkern mit SPICE : PC-Simulationen von Elektronenröhren in Audioverstärkern. ISBN-13: 978-3834814722. Springer Vieweg, 2. Auflage, 2015.
[49] M. Hilsamer, S. Herzog. A statistical approach to automated offline dynamic processing in the audio mastering process. Proc. of the 17th Int. Conf. on Digital Audio Effects (DAFx-14), 2014, Erlangen, Germany.
[48] S. Herzog, M. Hilsamer. Low frequency group delay equalization of vented boxes using digital correction filters. Proc. of the 17th Int. Conf. on Digital Audio Effects (DAFx-14), 2014, Erlangen, Germany.
[47] S. Herzog. Efficient DSP Implementation of Median Filtering for Real-Time Audio Noise Reduction. In: Proc. of the 16th Int. Conf. on Digital Audio Effects (DAFx-13), 37-42, 2013, Maynooth, Ireland.
[46] S. Herzog, A. Potchinkov. Audio Testing by Means of Families of Binary Correlation Sequences. In: Journal of the Audio Engineering Society, Vol. 60, No.11 : 913-925, Nov. 2012.
[45] A. Potchinkov. AUDIO ADC DYNAMIC RANGE MATCHING BY MEANS OF A DSP EQUALIZER AND DYNAMICS PROCESSOR COMBINATION. In: Proc. of the 15th Int. Conf. on Digital Audio Effects (DAFx-12), 2012, York, S. 233-240.
[44] A. Potchinkov. DSP-Audio-Kurs: Teil 8 - Digitaler Dynamikprozessor. In: Elektor, Elektor-Verlag, Aachen, 43. Jhg. 2012, Heft 494, S. 62-68.
[43] A. Potchinkov. DSP-Audio-Kurs: Teil 7 - Digitaler Aussteuerungsmesser. In: Elektor, Elektor-Verlag, Aachen, 43. Jhg. 2012, Heft 493, S. 58-64.
[42] A. Potchinkov. DSP-Audio-Kurs: Teil 6 - Digitaler Audiogenerator. In: Elektor, Elektor-Verlag, Aachen, 42. Jhg. 2011, Heft 492, S. 56-62.
[41] A. Potchinkov. DSP-Audio-Kurs: Teil 5 - Aufbau der DSP-Kursprogramme. In: Elektor, Elektor-Verlag, Aachen, 42. Jhg. 2011, Heft 491, S. 54-60.
[40] A. Potchinkov. DSP-Audio-Kurs: Teil 4 - Test der Hardware. In: Elektor, Elektor-Verlag, Aachen, 42. Jhg. 2011, Heft 490, S. 56-63.
[39] A. Potchinkov. DSP-Audio-Kurs: Teil 3 - Das Board. In: Elektor, Elektor-Verlag, Aachen, 42. Jhg. 2011, Heft 489, S. 62-68.
[38] A. Potchinkov. DSP-Audio-Kurs: Teil 2 - Programmierung. In: Elektor, Elektor-Verlag, Aachen, 42. Jhg. 2011, Heft 486, S. 50-54.
[37] A. Potchinkov. DSP-Audio-Kurs: Teil 1 - Ausiosignalverarbeitung mit einem DSP. In: Elektor, Elektor-Verlag, Aachen, 42. Jhg. 2011, Heft 485, S. 14-19.
[36] J. Hahn. Design approaches for psychoacoustical in-band noise shaping filters. In Proceedings of AES 126th Convention, Munich, 2009.
[35] S. Herzog. Investigations of the effects of nonlinear distortions on psychoacoustical measures. In Proceedings of AES 126th Convention, Munich, 2009.
[34] S. Herzog. Ein Beitrag zur Messung und psychoakustischen Bewertung nichtlinearer Verzerrungen von Audiogeräten. Cuvillier Verlag Göttingen, 2009.
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[33] A. Potchinkov. Simulation von Röhrenverstärkern mit SPICE : PC-Simulationen von Elektronenröhren in Audioverstärkern. Number 978-3-8348-0642-0. Vieweg + Teubner, Wiesbaden, 1 edition, 2009.
[32] J. Hahn. Filter Design for Psychoacoustical In-band Noise Shapers. In Proceedings of Joined 12th IEEE Signal Processing Algorithms, Architectures, Arrangements, and Applications Conference and 12th AES Symposium New Trends in Audio and Video, pages 137-142, Poznan, 2008.
[31] J. Hahn. Digital Filters for Minimal Audible Noise Shaping. In Proceedings of 25th Tonmeister Tagung, Leipzig, 2008.
[30] S. Herzog. The Audibility of Nonlinear Distortions and their Impact on Psychoacoustical Measures. In Proceedings of 25th Tonmeister Tagung, 2008.
[29] A. Potchinkov. Measurement of frequency responses of nonlinearly distorted SISO systems in noisy enviroments with generalized parameter frequency response estimators. Signal Processing, 86:2094-2114, 2006.
[28] A. Potchinkov. Digital signal processing methods of global nonparametric frequency domain audio testing. Signal Processing, 85(6):1225-1254, June 2005.
[27] A. Potchinkov. Ein Beitrag zur Optimierung im Filterentwurf. dissertation.de - Verlag im Internet GmbH, 2005.
[26] A. Potchinkov. Low-crest-factor multitone test signals for audio testing. Journal of the Audio Engineering Society, 50(9):681-694, September 2002.
[25] A. Potchinkov and R. Reemtsen. Bicriterial design of digital filters. Optimization and Engineering, 3:5-29, 2002.
[24] S. Görner, A. Potchinkov, and R. Reemtsen. The direct solution of nonconvex nonlinear FIR filter design problems by a SIP method. Optimization and Engineering, 1:123-154, 2000.
[23] A. Potchinkov. A new 24-bit digital audio analyzer based on advanced statistical system modeling and data processing. In 106th Convention of Audio Engineering Society, pages 1-15, May 1999.
[22] A. Potchinkov. The design of FIR filters via nonlinear semi-infinite optimization. In Proceedings IEEE Nordic Signal Processing Symposium 1998 (NORSIG 98), pages 149-152, Vigso, Denmark, June 1998.
[21] A. Potchinkov. The design of nonrecursive digital filters via convex optimization. In R. Reemtsen and J.-J. Rückmann, editors, Semi-Infinite Programming. Kluwer Academic Publishers, Boston/Dordrecht/London, 1998.
[20] A. Potchinkov. Frequency-domain equalization of audio systems using digital filters, Part 1: Basics of filter design. Journal of the Audio Engineering Society, 46:977-987, 1998.
[19] A. Potchinkov. Frequency-domain equalization of audio systems using digital filters, Part 2: Examples of equalization. Journal of the Audio Engineering Society, 46:1092-1108, 1998.
[18] P. Nagel. Approximation von Wirkungsfunktionen mit dem Orthogonalfilter. ntz Archiv, 9(8):211-214, 1997.
[17] A. Potchinkov. Design of optimal linear phase FIR filters by a semi-infinite programming technique. Signal Processing, 58:165-180, 1997.
[16] A. Potchinkov. Entwurf minimalphasiger nichtrekursiver digitaler Filter mit verfahren der nichtlinearen Optimierung. Frequenz, 51:132-137, 1997.
[15] A. Potchinkov and R. Reemtsen. The simultaneous approximation of magnitude and phase by FIR digital filters. I. A new approach. International Journal Circuit Theory Application, 25:167-177, 1997.
[14] A. Potchinkov and R. Reemtsen. The simultaneous approximation of magnitude and phase by FIR digital filters. II. Methods and examples. International Journal Circuit Theory Application, 25:179-197, 1997.
[13] P. Nagel. Cepstral synthesis of minimum-phase FIR and IIR digital filters. In Proceedings of the 1996 European Signal Processing Conference (EUSIPCO '96), pages 1765-1768, Trieste, Italy, September 1996.
[12] A. Potchinkov. Kurze Einführung in den restriktionsbasierten Entwurf arbitrarer digitaler FIR-Filter. In 2. ITG Diskussionssitzung Neue Anwendungen theoretischer Konzepte in der Elektrotechnik, pages 87-92, Berlin, 1996.
[11] R. Reemtsen and A. Potchinkov. FIR filter design in regard to frequency response, magnitude, and phase by semi-infinite programming. In J. Guddat et. al., editor, Parametric Optimization and Related Topics IV, pages 299-314. Peter Lang, Frankfurt, 1996.
[10] A. Potchinkov. Praxis teildigitaler frequenzbereichsentzerrter Antialiasingfilter. In DSP Deutschland 1995, pages 29-38. Magna-Media Verlag, Haar bei München, 1996.
[9] A. Potchinkov. Teildigitale frequenzbereichsentzerrte Antialiasingfilter. Frequenz, 49:275-282, 1995.
[8] A. Potchinkov and R. Reemtsen. The design of FIR filters in the complex plane by convex optimization. Signal Processing, 46:127-146, 1995.
[7] A. Potchinkov. Der Entwurf digitaler FIR-Filter mit Methoden der semiinfiniten konvexen Optimierung. PhD thesis, Technische Universität Berlin, Berlin, 1994.
[6] A. Potchinkov and R. Reemtsen. FIR filter design in the complex domain by a semi-infinite programming technique. I. the method. Archiv für Elektronik und Übertragungstechnik (AEÜ), 48:135-144, 1994.
[5] A. Potchinkov and R. Reemtsen. FIR filter design in the complex domain by a semi-infinite programming technique. II. numerical results. Archiv für Elektronik und Übertragungstechnik (AEÜ), 48:200-209, 1994.
[4] A. Potchinkov and R. Reemtsen. A globally most violated cutting plane method for complex minimax problems with application to digital filter design. Numerical Algorithms J.C. Baltzer AG, 5:611-620, 1993.
[3] P. Nagel. Non-causal complementary filters. Signal Processing, 29:151-164, 1992.
[2] P. Nagel. A transform method for designing digital filters with equiripple or maximally flat behaviour in both magnitude and phase response. Signal Processing, 17:343-352, 1989.
[1] P. Nagel. Computergesteuertes Orthogonalfilter in Schalter-Kondensator-Technik. Elektronik, 24:85-88, 1986.