Publications & Research

Academic Profile

Google Scholar Profile: https://scholar.google.com/citations?user=GinaT0wAAAAJ&hl=en

Visit my Google Scholar profile for the most up-to-date list of publications, citation metrics, and research impact.

Research Areas

My research contributions span several key areas in hardware-software co-design and signal processing:

FPGA Algorithm Deployment

  • Efficient mapping of complex algorithms to FPGA architectures
  • Performance optimization techniques for reconfigurable computing
  • Resource utilization optimization in FPGA implementations
  • Algorithm-hardware co-design methodologies

High Level Synthesis (HLS)

  • Matlab to HLS conversion methodologies
  • Optimization techniques for HLS-generated hardware
  • Design space exploration for algorithm implementations
  • Automated hardware generation from high-level descriptions

Wireless Communications Systems

  • Signal processing algorithms for wireless systems
  • Hardware implementations of communication protocols
  • Real-time processing for wireless applications
  • FPGA-based communication system prototyping

Image Processing & Computer Vision

  • Hardware-accelerated image processing algorithms
  • Real-time image analysis systems
  • Efficient implementations of computer vision algorithms
  • FPGA-based image processing pipelines

Research Focus

My current research at the University of Technology Sydney focuses on:

  • Efficient FPGA Implementation: Developing methodologies to deploy complex algorithms on FPGAs with optimal performance
  • Algorithm-Hardware Co-design: Creating design flows that consider both algorithmic and hardware constraints
  • HLS Optimization: Improving the efficiency of high-level synthesis tools for better hardware generation
  • Real-time Processing: Enabling real-time execution of computationally intensive algorithms

International Collaboration

I have established research collaborations through:

  • Visiting Scholar position at UCLA (2014-2016)
  • International conference presentations and publications
  • Cross-institutional research projects
  • Academic exchange programs

Research Impact

My work contributes to making complex computational algorithms more accessible through efficient hardware implementation, enabling real-world applications in:

  • Wireless communication systems
  • Image and signal processing
  • Real-time embedded systems
  • High-performance computing

For detailed publication lists, citation metrics, and research impact, please visit my Google Scholar profile.