Subject: Technologies for magnetic and optical information storage (17.DE517 )
Native organizations units: Department of Power, Electronic and Telecommunication Engineering
Study programmes of the course:
| Type of studies | Title |
|---|---|
| Doctoral Academic Studies | Power, Electronic and Telecommunication Engineering (Year: 2, Semester: Winter) |
The necessity that the growing amount of information and data have to be stored and preserved, has led to the development of technology of magnetic and optical data storage. The objective of this course is introduction and training of young colleagues for independent scientific and research work in the field and improvement of existing and development of new technologies for magnetic and optical data storage.
The outcome of education of young colleagues is to enhance theirs knowledge and skills, through independent and team work, for development and improvement of techniques for channel modeling and equalization, error-correcting and modulation encoding/decoding in appropriate channels for magnetic and optical data storage. Through the scientific and research work in the field of construction of new storage media, then coding and detection techniques, colleagues will be able to make significant technological contribution in order to achieve high-density recording, and thus for further increase of capacity of memory devices for these two data storage technologies.
This course is intended to present some of existing knowledge in areas relevant to the technologies of magnetic and optical data storage. It is planned to cover the following areas: 1. Selected chapters on physical properties of magnetic and optical media, 2. Modeling and equalization of channels in information storage systems, 3. Selected chapters of the technologies of magnetic storage techniques • longitudinal and perpendicular magnetic recording, magnetic storage in systems with multiple tracks (multi-track systems), • HAMR technology • TDMR technology, 4. Selected chapters about modulation codes, 5. Selected chapters on error-correcting codes, 6. Iterative decoding techniques. It is planned that part of course takes place by engaging colleagues in independent study and research work in the subject area. This work would include active monitoring of primary scientific sources, organization and conduct experiments, as well as writing a scientific paper on this issue.
During the course the following methods apply: 1 lectures - presentation of the theoretical part is followed by examples, contributing to a better understanding and eventual clarification of certain parts of the material, 2 Consultation - besides lectures consultation are held regularly, 3 assistance with laboratory work and 4 study research – by studying scientific journals and other literature colleagues will be able to deepen by self the presented lectures.
| Authors | Title | Year | Publisher | Language |
|---|---|---|---|---|
| Ivan Djordjevic, William Ryan i Bane Vasic | 2010 | Springer | English | |
| Bane Vasić i Erozan Kurtas | 2005 | CRC Press | English |
| Course activity | Pre-examination | Obligations | Number of points |
|---|---|---|---|
| Oral part of the exam | No | Yes | 50.00 |
| Term paper | Yes | Yes | 50.00 |
Prof. Đurić Nikola
Full Professor
Lectures
Faculty of Technical Sciences
© 2024. Faculty of Technical Sciences.
Contact:
Address: Trg Dositeja Obradovića 6, 21102 Novi Sad
© 2024. Faculty of Technical Sciences.