SYSTEMS
Fujitsu Collaborates with Indiana University on Optical Communications Research
Collaboration Results in Advanced Optical Innovation and Enhanced Opportunities for University and Corporate Researchers: Fujitsu Network Communications, a leading supplier of IT and wireline/wireless networking solutions, announced today that they are successfully collaborating with Indiana University (IU) on breakthrough research about the effects that Polarization Mode Dispersion (PMD) can have on specific wavelengths traveling at 40 Gbps or more. This collaboration experience between two leading research entities, which was facilitated by their active involvement with Internet2, will be the model for future research networking experiments between Fujitsu and other Research & Education (R&E) institutions. “Indiana University is constantly looking for ways to enrich the experiences of our research members with real-world experiments using cutting-edge technology,” said Brad Wheeler, vice president for information technology and CIO at Indiana University. “Our collaboration with Fujitsu has allowed us to interact with the scientists from one of the leading research entities in optical networking. Together, using advanced technology from Fujitsu, we were able to discover several optical characteristics that will have a profound implication on high speed networking across the globe. Our experience continues to be extremely positive, and we look forward to future research projects with Fujitsu.” The Global Research Network Operations Center (GRNOC) of IU is providing dark fiber between Indianapolis and Bloomington, Indiana, plus access to patch panels, electrical power, the Internet, and physical space to conduct the tests. Fujitsu and IU collaborated on the test plan to ensure that collected data can be used to influence future optical networking research and commercial products. Fujitsu researchers have conducted tests over a seven month period (with at least five more months of experiments planned), and IU is supporting the configuration changes during the testing phase. Fujitsu and IU are examining the test results, and have co-authored several technical papers about their findings, including one that was presented at the recent OFC/NFOEC conference and exhibition in San Diego, and one that will be presented at the OECC/ACOFT 2008 conference in Australia. Additional results will be presented at the upcoming Internet2 Joint Techs Workshop in July 2008. “The researchers we are working with at Indiana University are providing exceptional support for this experiment, and are demonstrating why the school is considered one of the best research institutions for higher learning in America,” said Takao Naito, director of Fujitsu Laboratories of America. “We greatly appreciate the generosity of the university, which is allowing us to conduct our research in a real-world setting during a variety of environmental changes. This experiment and the data we are obtaining as a result are proof that research collaboration between corporate and university entities can result in optical networking breakthroughs and an invaluable experience for university and corporate researchers. We will continue to look for opportunities to collaborate with R&E institutions through our active involvement with Internet2.”