Dielectric waveguides: Attenuation, wavelength dispersion, modes, fields.
Light sources and optical amplifiers: Semiconductor laser, light-emitting diode, rate equations, output power, modulation response, chirp, noise, optical amplifiers.
Detectors: PIN-diode, avalanche diode, responsivity, bandwidth, noise.
Transmission systems: Optical links, direct detection systems, soliton systems, coherent systems, multilevel signaling, dispersion limitations, attenuation limitations, additive noise, signal dependent noise, bit error rate, optical networks, simulation and design
FIO3656 Fiber-Optic Communication 9.0 credits
This course has been discontinued.
Decision to discontinue this course:
No information inserted
Information per course offering
Course offerings are missing for current or upcoming semesters.
Course syllabus as PDF
Please note: all information from the Course syllabus is available on this page in an accessible format.
Course syllabus FIO3656 (Autumn 2014–)Headings with content from the Course syllabus FIO3656 (Autumn 2014–) are denoted with an asterisk ( )
Content and learning outcomes
Course contents
Intended learning outcomes
Knowledge of fiber-optical components and systems with applications to communications. Parameters of devices that are relevant for the system performance are derived from physical descriptions, and form the input parameters for the design of fiber-optic links.
After a completed course, the participants should be able to:
- understand, describe, analyse, and compare the most important devices: optical transmitters, optical fibers, and optical detectors
- design digital fiber-optic links.
- simulate a multilevel coherent fiber-optic communication system using computer software
Literature and preparations
Specific prerequisites
PhD student
It is anticipated that the students are acquainted with:
- Waveguides: Wave equation and the concept of modes.
- Solid-state electronics: p-n-junction
- Circuit theory: Impulse response, convolution, transfer function of linear systems.
- Signal theory: Auto correlation function, power spectral density
Literature
Fibre-Optic Communication Systems by Govind Agrawal, 4th edition, Wiley
Additional course material is possible to download from course webpage
Although 4th edition of the course book is recommended, also third edition of the book is possible to use
Examination and completion
Grading scale
G
Examination
Based on recommendation from KTH’s coordinator for disabilities, the examiner will decide how to adapt an examination for students with documented disability.
The examiner may apply another examination format when re-examining individual students.
If the course is discontinued, students may request to be examined during the following two academic years.
The written examination is graded A-F. At least a grade C is necessary in this graduate course to get a passing grade on the exam. Calculator, mathematic handbook, the course book and the lecture notes (but NOT exercise notes) are allowed and recommended aids.
Other requirements for final grade
To pass the entire course, at least a C is needed on the examination and a passing grade on the laborations and the project assignment.
Examiner
No information inserted
Ethical approach
- All members of a group are responsible for the group's work.
- In any assessment, every student shall honestly disclose any help received and sources used.
- In an oral assessment, every student shall be able to present and answer questions about the entire assignment and solution.
Further information
Course room in Canvas
Registered students find further information about the implementation of the course in the course room in Canvas. A link to the course room can be found under the tab Studies in the Personal menu at the start of the course.
Offered by
Education cycle
Third cycle