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Digital Signal Processing System-Level Design Using LabVIEW

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ISBN-10: 075067914X

ISBN-13: 9780750679145

Edition: 2005

Authors: Nasser Kehtarnavaz, Namjin Kim

List price: $59.95
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LabVIEW (Laboratory Virtual Instrumentation Engineering Workbench) is a graphical programming environment, developed by National Instruments (NI), which allows a user-friendly graphical approach to system level design. This will be a LabVIEW-based book providing the teaching materials for DSP (Digital Signal Processing) lab or project courses, industry short-courses, and self-study for practitioners interested in using LabVIEW for system-level design with DSPs such as the TMS320C6000. Such lab or project courses are currently being offered at many universities, both at undergraduate and graduate levels, as a follow-up to DSP theory courses. The programming used in DSP lab courses is either Matlab, C or assembly language. Currently, there is not a DSP laboratory book using system-level graphical programming. Such a programming approach allows students/engineers easily to design DSP systems without the need to become involved or get bogged down in low-level programming issues. Growing numbers of users of LabVIEW in both academia and industry will benefit by having in one place the information they need to perform high-level design of DSP systems. * A graphical programming approach (LabVIEW) to DSP system-level design * DSP implementation of appropriate components of a LabVIEW designed system * Providing system-level, hands-on experiments for DSP lab or project courses
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Book details

List price: $59.95
Copyright year: 2005
Publisher: Elsevier Science & Technology Books
Publication date: 6/15/2005
Binding: Paperback
Pages: 304
Size: 7.25" wide x 9.00" long x 0.75" tall
Weight: 1.430
Language: English

Rob Oshana has over 25 years of experience in the real-time embedded industry, in both embedded application development as well as embedded tools development. He is currently director of engineering for the Development Technology group at Freescale Semiconductor. Rob is also a Senior Member of IEEE and an adjunct at Southern Methodist University. He can be contacted at An S&P 500 company with annual revenues over $2 billion, headquartered in Norwood, MA, an industry leader in analog, digital, and mixed signal processing technology. Steve Winder specializes in designing circuits for telecommunications applications, but has experience in a number of fields. As the current European Applications Engineer for Supertex Inc. Steve works alongside design engineers throughout Europe to design circuits using components made by Supertex, a U.S. based manufacturer of high voltage MOSFETs, CMOS integrated circuits and ASICs. Prior to joining Supertex, Steve was for many years a team leader for a group of analogue and digital design engineers at British Telecom's research and development laboratories, now known as Adastral Park, based near Ipswich, UK. Here, Steve applied his analytical skills to many technical areas but specialized in wideband analogue and digital transmission systems using copper pairs and optical fibre. In this role, Steve's strength was in radio frequency design, low-power design, low-noise design and systems engineering.

LabVIEW Programming Environment
Getting Familiar with LabVIEW:Part 1
Getting Familiar with LabVIEW:Part 2
Analog-to-Digital Signal Conversion
Sampling, Quantization, and Reconstruction
Digital Filtering
FIR/IIR Filtering System Design
Fixed-Point vs. Floating-Point
Data Type and Scaling
Adaptive Filtering
Adaptive Filtering Systems
Frequency Domain Processing
DSP Implementation Platform: TMS320C6x Architecture and Software Tools
Getting Familiar with Code Composer Studio
LabVIEW DSP Integration
DSP Integration Examples
DSP System Design: Dual Tone Multi Frequency (DTMF) Signaling
Dual Tone Multi Frequency
DSP System Design: Software-Defined Radio
Building a 4-QAM Modem
DSP System Design: MP3 Player
Implementation of MP3 Player in LabVIEW