You might be interested in the following questions: 

v      How to extend fairness to multi-service flows and how to achieve end-to-end QoS in the Internet.

o        Self-Tuning End-to-end QoS Internet

o        Multi-Service Flow Control and Fairness for All  

o        A New Scalable End-to-End QoS Guaranteed Architecture for IP Multicast and Unicast.

o        Distributed Rate Control of Prioritized Flows with End-to-End Delay and Rate Constraints

v      Is the golden ratio useful in communication networks?

o        Packet scheduling in multiple access channels: case 1

o        Packet scheduling in multiple access channels: case 2

o        Packet routing: case 1

o        Packet routing: case 2

o        Multi-base-station packet radio networks

o        Cell multiplexing in ATM 

v      How much could the linear minimum mean square error (MMSE) MUD be better than the conventional matched filter in DS-CDMA? 

o        Asymptotically optimal capacity with transmission power and rate control  

v      Does Erlang Fixed Point (EFP) solution yield good approximation beyond circuit switched loss network?

o        Optical Burst Switching (OBS) networks with full wavelength conversion

o        OBS networks with limited wavelength conversion

o        Packet delay in optical circuit switched networks    

v      Can you write a distributed program whose execution tasks be split between every PC in the Internet as easy as you write a program for your own PC?

o        A Java broker provides a transparent solution

o        Software    

v      Should content delivery networks (CDN) be an open architecture affordable to anyone with a native support in every web-server?

o        A simple (unpatented) solution    

 

 

 

 

Mailing Address:  CISRO ICT Centre

                          PO Box 76 

                          Epping NSW 1710,

                          Sydney, Australia

 

Email:                 rosberg@fairflows.com

 

Tel:                    +61 2 9372 4180

 

Fax:                   +61 2 9372 4585

 

Zvi Rosberg received the B.Sc., M.A. and Ph.D. degrees from the Hebrew University of Jerusalem.

 

During his advanced studies from 1972 to 1978, he was a senior system analyst in the Central Computing Bureau of the Israeli government, where he was one of the chief designers of a new on-line Israeli population registration system. From 1978 to 1979 he held a research fellowship at the Center of Operation Research and Econometric (C.O.R.E.), Catholic University of Louvain, Belgium. From 1979 to 1980 he was a visiting assistant professor at the department of Business Administration, University of Illinois, and during 1980 to 1990, he was with the Computer Science department, Technion, Israel. During 1985 to 1987 he was a visiting scientist in IBM Thomas J. Watson Research Center, Yorktown Heights, USA. From 1990 to 1999 he was with the Haifa Research Laboratory, Science and Technology, IBM Israel, holding a position of a Program Manager of Communication Networks. From 2000 to 2001 he was with Radware Ltd., holding the chief scientist position. During the year of 2002 he was visiting at the ARC Special Research Center for Ultra-Broadband Information Networks (CUBIN), University of Melbourne. From 2003 to 2006 he was with the Department of Communication Systems Engineering, Ben Gurion University, Israel. Currently he is the networking science leader in CSIRO ICT Centre at Sydney.

 

Since 1980 he held summer research positions in IBM Thomas J. Watson Research Center, Yorktown Heights, Department of Electrical and Computer Engineering, University of Massachusetts, Amherst, Department of Electrical Engineering and Computer Science, University of California, Berkeley, the Radio Communication Systems, Royal Institute of Technology, the ARC Special Research Center for Ultra-Broadband Information Networks (CUBIN), University of Melbourne, and the Department of EEE, City University, Hong Kong.

 

Presently, he is serving on the editorial board of the Wireless Networks (WINET) and the International Journal of Communication Systems.

 

His research interest include:

 

v      Narrowband and spread spectrum wireless communication

v      Radio resource allocation and planning in cellular networks

v      Sensor Networks

v      Scheduling in wireless networks

v      Optical and ultra high speed networks

v      Flow & congestion control in the Internet

v      Control in queueing networks

v      Analysis of algorithms in communication and computing systems