Arun Gopalakrishnan scite author profile

Arun Gopalakrishnan

3Publications

0Citation Statements Received

12Citation Statements Given

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Affiliations

Centre for Development of Advanced Computing, University of California, Irvine

Publications

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Multiplexed 24 channel bus architecture for multichannel high speed networked acoustic sensor system

Vineeth

Shibu

Gopalakrishnan

2014

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This paper presents a FPGA and DSP based high-speed multiplexed 24 channel bus architecture. The new bus architecture is a modified version of the existing multi-core processor architecture and distributed architecture to meet multichannel and multi processor requirement. Design includes implementation of constrained multiplexing, controlling and routing algorithm for packet data transfer at the rate of 256Mbps using external FIFO. The system uses a simplified time division multiplexing and data interleaving for high speed data congestion avoidance and error correction and incorporate an adaptive architecture for switching between FPGA and DSP for data transfer using a single shared high speed parallel bus (signed fixed point) and distributed control lines. Communication control for FPGA data processing is via DSP utilizing serial interface. The architecture reduces global clocking resources for FPGA implementation making the system simple and reduces dynamic power consumption. The design blocks are modeled using VHDL and implemented in Spartan 3A DSP FPGA using finite state machine, improving data path timing to manage high speed data traffic and to achieve error free data communication with external systems.

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A Performance Evaluation of H.264 FGS Sequences over Hybrid Networks

Gopalakrishnan

Yousefi'zadeh

Jafarkhani

2008

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In this article, we study the performance of transmitting H.264 video sequences over hybrid networks formed by a collection of wired and wireless links. We use the Gilbert-Elliott error model to simulate the wireless transmission channel. Taking the effects of fading into consideration, our numerical results show that the quality of the reconstructed video sequences is seriously degraded. We then investigate how the addition of FEC techniques like the Reed-Solomon codes and the use of MIMO techniques help improve the performance of wireless links and consequently the quality of reconstructed video transmitted over such links.

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High performance computing for sound wave using multi channel digital I/Q demodulator

Shibu

Gopalakrishnan

2013

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