Michael Speerschneider

Optical Components Standardization

Thesis Abstract

The future of the communications industry depends on its ability to provide better services and higher reliability. At some point, the upward curve of communications demand will require a strong optical components industry to support the industry. If the current stagnation continues, and the manufacturers fail, the economic pillar that is communications will suffer.

This thesis examines the current state of the optoelectronic manufacturing industry and the causes of the decline. The primary focus is the rampant proliferation of optical transceiver designs resulting from abnormal market conditions during the "boom years" of the 1990s. The transceiver provides send/receiver capabilities and is the major component of optical networks. Convergence, or standardization, could potentially allow the industry to reach its full potential. System Dynamics is used to analyze transceiver standardization as a potential solution to the industry's lackluster growth. To support the findings of the System Dynamics model, historical examples are explored to better understand the behavior of the industry and the potential effects of standardization.

The industry currently offers literally hundreds of transceiver varieties. One major challenge to standardization is the development of a reasonable platform for the standard. This thesis will also examine the technical requirements of a transceiver platform and then provide a basic example of a platform before finishing with proposed policy measures that could guide the industry as it takes its first steps down the path to standardization. Read More...

Other CTR Related Publications by Michael Speerschneider:

Technology and Policy Drivers for Standardization

Next Generation Transceivers Strategies for Growth: Convergence vs Divergence