When a student completes this course, he/she should be able to: Understand the functionality of each of the components that comprise a fiber-optic communication system: transmitter, fiber, amplifier, ...

First we present the motivations for using optical communication, such as the physical differences and capacity advantages between electrical and optical signaling formats. Then we will review the ...

It begins by describing important issues in optical wireless theory, including coding and modulation techniques for optical wireless, wireless optical CDMA communication systems, equalization and ...

Fiber optic cables have long been the backbone of global communications, enabling the high-speed Internet that connects ...

Using fundamentals of communication theory, thermodynamics, information theory and propagation theory, this book explains the universal principles underlying a diverse range of electro-optical systems ...

In a development that reshapes the landscape of modern communication, researchers have successfully demonstrated quantum ...

Quantum teleportation breakthrough: scientists prove that quantum and classical signals can peacefully coexist on fiber optic ...

IBM’s co-packaged optics offers 6X the beachfront density thanks to the use of smaller fibers with an 18-µm pitch.

In the late 1970s and early 1980s, telephone companies began to use fibers extensively to rebuild their communications infrastructure. According to KMI Corporation, specialists in fiber optic ...

In today’s interconnected world, network security is more critical than ever, especially for industries that manage sensitive ...

Faculty study light-based systems, light-based components, and the underlying physical behavior of light. At a fundamental level, these faculty research basic physical processes of light, including ...