International Journal of Electrical Communication Engineering

Abstract:
In here we will be discussing a concise introduction to a portion of the principle ideas of Digital signal
processing, which is an innovation generally used to take care of current open issues. Digital signal
processing is one of the primary devices in present day innovation since it depends on the quick creating
advanced coordinated circuit innovation which thus takes into consideration elite registering machines at
generally minimal effort. Every idea talked about is trailed by its application in the examination,
amalgamation and upgrade of clinical signs. The right investigation of estimated signals from a patient
depends on the expulsion of defilement from clinically significant signals and right proportions of
boundaries identified with these signs. In different cases, analyzed debilitations of a patient can be repaid
by appropriately formed signs combined by means of outer types of gear. As of now numerous gadgets
types of gear in a wide assortment of use fields use Digital signal processing innovation.
Keywords: Converter, Digital Signal Processing,Filter ,Frequeny,Speech Signal.

References:

H. Nyquist (1928) Certain Topics in Telegraph Transmission Theory. Trans. AIEE, vol. 47, pp. 617-644.

A. Antoniou. (1993) Digital Filters: Analysis, Design and Applications. New York, NY: McGraw-Hill, 2nd

Edition.

L. B. Jackson. (1996) Digital Filters and Signal Processing. Boston, MA: Kluwer, 3rd Edition.

A. V. Oppenheim, and R. W. Schafer (1989). Discrete-Time Signal Processing. Englewood Cliffs, NJ:

Prentice Hall.

S. K. Mitra. (2001) Digital Signal Processing: A Computer-Based Approach. New York, NY: McGraw-

Hill, 2nd Edition.

P. S. R. Diniz, E. A. B. da Silva, and S. L. Netto. (2002) Digital Signal Processing: System Analysis and

Design.

Cambridge, UK: Cambridge University Press.

H. Stark and J. W. Woods. (2002) Probability and Random Processes with Applications to Signal

Processing. Upper

Saddle River, NJ: Prentice Hall, 3rd Edition.

P. S. R. Diniz. (2002) Adaptive Filtering: Algorithms and Practical Implementation. Boston, MA: Kluwer,

nd Edition.

Karplus, Kevin, and Alex Strong. “Digital Synthesis of Plucked-String and Drum Timbres.” Computer

Music Journal,

V: 7, I: 2, PP: 43-55, 1983.

Jacobson BH, Johnson A, Grywalski C, “The Voice Handicap Index (VHI): Development and

Validation”, V: 6, PP:

American Journal of Speech-Language Pathology, 66–70, 1997.

Mitra, Sanjit K., Gordana Jovanovic-Dolecek, and Mikhail K. Tchobanou. "On the Design of One-

Dimensional

Sparse Arrays with Apodized End Elements." IEEE Conference on Signal Processing, PP: 2239-2242,

Verdolini K., Rosen C., & Branski R., “Classification Manual for Voice Disorders-I”, Psychology Press,

Vol. I, 2006.

Patricia Henríquez, “Characterization of Healthy and Pathological Voice Through Measures Based on

Nonlinear

Dynamics”, IEEE Transactions On Audio, Speech And Language Processing, V: 17, I: 6, 2009.

Lotfi Salhi, Talbi Mourad, and Adnene Cherif, “Voice Disorders Identification Using Multilayer Neural

Network”,

The International Arab Journal of Information Technology, V: 7, I: 2, 2010.