So only full paper submission should be considered for possible publication...[Read More] IJSPS aims to provide a high profile, leading edge forum for academic researchers, industrial professionals, engineers, consultants, managers, educators and policy makers working in the field to contribute and disseminate innovative new work on Signal Processing Systems.
These resources offer students abundant opportunities to engage in cutting-edge research with DSP's world-renowned faculty.
ECE's DSP group receives research support from a variety of funding sources including the Georgia Research Alliance, the National Science Foundation, the Defense Advanced Research Projects Agency, the U. Army Research Office, the Ballistic Missile Defense Organization, the National Aeronautical and Space Administration, John and Mary Franklin Foundation, Hewlett Packard, Texas Instruments, IBM, Analog Devices, Intel, NCR, Lanier Worldwide, COMPASS Design Automation, Kodak, and the Region of Lorraine, France.
Digital Signal Processing research falls within the following major areas: ECE offers the largest undergraduate and graduate DSP academic programs in the country.
These programs provide a strong foundation in all aspects of digital signal processing from which students can continue graduate studies, work in industry, or enter schools of medicine, business or law.
Allocation of FPGA DSP-macros in multi-process high-level synthesis download Allocation of FPGA DSP-Macros in Multi-Process High-Level Synthesis Systems Benjamin Carrion Schafer total design Area 7 Page 8.
FPGAs DSP-macros High-end FPGAs have large number of DSP-macros, but cannot be used for consumer products Modelling and Realisation of a Three-Level PWM Inverter Using a DSP Controllerfree download ABSTRACT To overcome the limitations in voltage and power conventional two-level inverters and in order to improve the spectrum of the output voltage, multilevel inverters are being widely used.
This so called software power can be reduced in many ways.
By Implementation of Cascaded H-Bridge Multilevel Inverter using MATLAB-DSP (ez DSP28335) Interfacingfree download ABSTRACT This study demonstrates, the generation of triggering signals using SPWM technique for a seven level H-Bridge cascaded inverter with the help of MATLAB-DSP interfacing without using EPWM block and presents the final output of the Advanced DSP Techniques Enabling High Spectral Efficiency and Flexible Transmissionsfree download Over the past decade, advances in optical hardware such as external modulators, narrow- linewidth lasers and 90 hybrids have enabled DSP algorithms from wireless/copper-wire communications to be applied in coherent optical communication systems.