Professor Kazovsky and his research group are investigating green energy-efficient networks. The focus of their research is on access and in-building networks and on hybrid optical / wireless networks.
Prof. Kazovsky's research group is also conducting research on next-generation Internet architectures and novel zero-energy photonic components.
Last modified Thu, 14 Mar, 2013 at 16:58
| Title | Author(s) | Journal | Date |
|---|---|---|---|
| Hybrid Architecture and Optimal Routing in a Scalable Optical-Wireless Network | W. Shaw, S.-W. Wong, N. Cheng, X. Zhu, K. Balasubramanian, M. Maier, and L. G. Kazovsky | IEEE/OSA J. of Lightwave Technology | 10-2007 |
| Next-Generation Broadband Optical Access Networks | L. G. Kazovsky; W.-T. Shaw; D. Gutierrez; N. Cheng; S.-W. Wong | IEEE/OSA Journal of Lightwave technology (JLT) | 01-2007 |
Fellow of IEEE; Fellow of OSA; Winner of two Okawa Foundation awards; Winner of the Chair of Exellence Award at the University of Madrid; Member of program committees of numerous journals and conferences.
This project seeks to a next-generation Internet architecture that would gracefully integrate both current IP networks and addition higher-performance flow networks optimized for large transactions.
This is a joint project between my group at Stanford (PNRL), MIT and UTD.
This project seeks to design green energy-efficient access and in-home networks for residential access, with a particular focus on customer premises equipment where much of the energy is consumed.
This project is investigating next-generation broadband access networks.
This projects seeks to design novel devices for future green networks. Our devices don't consume any energy in the steady state, and only a minimum energy during reconfiguration.
To meet the demands of next generation access networks, a flexible and scalable deployment will be necessary. GROW-NET plans to achieve this by providing blanketed broadband access in metropolitan areas using a hybrid optical and wireless network. The capacity of optical networks and flexibility of wireless networks provide for a symbiotic relationship that allows for economic and scalable deployment.
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