Outlines of lectures
| Modern Cryptography |
| Spring |
2-0-0 |
Prof. Wakaha OGATA |
|
Symmetric encryption, public key encryption (RSA, ElGamal, Rabin),
DH key exchange, MAC, A-code, signature, secret sharing,
zero-knowledge interactive proof system, etc.
|
| Advanced Information and Communication
Theory |
| Spring |
2-0-0 |
Prof. Isao YAMADA and Assoc. Prof. Kenta KASAI |
Prerequisite: Basic information theory and communication engineering in undergraduate
course.
Contents: Advanced theory on communication systems; design of optimum receiver,
method of types, universal data compression systems, universal channel coding,
error correcting coding, and signal processing. |
| Data Communication System |
| Autumun |
2-0-0 |
Lecturer Naoya OIKAWA, Lecturer Takashi NIWA and Lecturer Hiroyoshi Mori |
| Not available for International Graduate course. |
| Advanced Communication
System Engineering |
| Autumun |
2-0-0 |
Lecturer Hidenobu HARASAKI,
Lecturer Masato Tsukada, Lecturer hirofumi Aoki, Lecturer Tatsuji Moriyoshi,
Lecturer Osamu Houshuyama, Lecturer Masanori Kato, Lecturer Yasunori Futatsugi,
Lecturer Susumu KINOSHITA and Lecturer Yasuyuki OISHI |
| Not available for International
Graduate course. |
|
Advanced Coding Theory |
| Spring |
2-0-0 |
Assoc. Prof. Haruhiko KANEKO |
| Given in other graduate course. (Computer Science) |
|
Topics on Communication Systems Engineering |
| Spring |
2-0-0 |
Prof. Tomohiko UYEMATSU, Prof. Isao YAMADA, Prof. Kazuhiko FUKAWA and Assoc. Prof. Kenta KASAI |
Recent topics on communication systems engineering will be explained.
1. Digital modulation and error control coding
2. Adaptive signal processing for communication systems
3. Parameter estimation and communication systems
4. Mobile communication
|
| Advanced Topics in Mobile Communications |
| Autumn |
2-0-0 |
Prof. Kazuhiko FUKAWA |
|
Review of the mobile communication systems, and various mobile radio
transmission techniques from the viewpoints of spectrum efficient system
implementation.
Details on radio propagation models, modulation and demodulation techniques,
cell layout techniques, and advance topics such as adaptive equalization,
adaptive array, and CDMA systems.
|
|
Wireless Signal Processing |
| Autumn |
2-0-0 |
Prof. Kazuhiko FUKAWA |
|
The lecture focuses on applications of signal processing to wireless
digital communications, such as equalization, adaptive array antennas,
and interference cancellation.
In addition, adaptive algorithms, which estimate parameters of
these items, are detailed.
|
|
Quantum Information Processing |
| Spring |
2-0-0 |
Assoc. Prof. Ryutaro MATSUMOTO |
|
Applications of quantum mechanics to communication
and computation are explained. Topics will include
quantum teleportation, quantum cryptography, and
quantum algorithms. Prerequisite is linear algebra
only. I will explain mathematics and physics used
in the explanation of the above topics. The textbook
is "Quantum Computation and Quantum Information"
by M. A. Nielsen and I. L. Chuang (ISBN 0521635039),
from which homework is chosen.
|
|
Strategic ICT Policy Planning |
| Spring |
2-0-0 |
Visiting Prof. KUBOTA Shigeyuki |
|
Advanced study of ICT Policy Planning including the policy trend (international
strategies, research and development, standardization, improvement of infrastru
cture, competition policy, allocation of radio wave etc.), the overall condition
of ICT industries ( such as telecommunication business, broadcasting business,
CATV business, contents industry, and advertising business) and the law systems
that engineers are required. Lectures are based on the lecturer's experiences i
n Ministry of Internal Affairs and Communications over 30 years.
|
|
Mixed Signal systems and integrated circuits
|
| Autumun |
2-0-0 |
Prof. Akira MATSUZAWA |
| Given in other graduate course.
(Physical Electronics) |
|
Multidimensional information processing |
| Spring |
2-0-0 |
Lecturer Takamichi MIYATA |
Prerequisite: Basic knowledge on signal processing, such as
Frourier transform and digital signal processing.
Basic study for multidimensional information processing ranging from sampling
of multidimensional signal to various linear, non-linear processing algorithms.
As an example of multidimensional information processing, still/moving/3D
image processing and coding including JPEG and MPEG are lectured.
At the last part of the lecture, recent research
topics regarding multidimensional information processing will be overviewed.
|
| Analog Integrated Circuits |
| Spring |
2-0-0 |
Prof. Shigetaka TAKAGI |
Prerequisite: Advanced Electronic Circuits
Properties of integrated circuits and modelings of transistors. Analog integrated
filter synthesis on the basis of classic LC filter designs. Layouts peculiar
to analog circuits. |
| VLSI Design Methodologies |
| Spring |
2-0-0 |
Prof. Hiroaki KUNIEDA |
|
The design flow of Standard Cell Design for VLSI is discussed,
which includes RTL design, Logic design, Logic verification, Layout design
and Layout verification. In addition to that, FPGA design and
System level Soc design will also be described.
|
| VLSI System Design |
| Autumn |
2-0-0 |
Prof. Tsuyoshi ISSHIKI |
Prerequisite: VLSI design methodology or equivalent
Representation of Boolean function. Synthesis of two-level and multi-level combinational
circuits. Synthesis of sequential circuits. Test and synthesis for test ability.
Decomposition, allocation, assignment and scheduling in high-level synthesis. |
| VLSI Layout Design |
| Autumn |
2-0-0 |
Prof. Atsushi TAKAHASHI |
Prerequisite: Circuit design, Algorithm or equivalent
Recent advances in design methodologies and algorithms with theoretical background
for VLSI physical design as well as conventional results. Optimization of the
area, delay, and power of a circuit in partitioning, placement, and routing.
Interaction with high-level and logic synthesis. |
| Theory of Parallel and VLSI
Computation |
| Autumn |
2-0-0 |
Prof. Shuichi UENO |
Prerequisite : Graph Theory, Design and Analysis of Algorithms
Introduction to the theory of parallel and VLSI computation; models of
parallel computation, parallel algorithms and architectures, area-time
complexity for VLSI, and quantum computation.
|
|
Engineering of System LSI Design (System Design) |
| Spring |
2-0-1 |
Lecturer Katsuhiko SEO, Lecturer Masayasu YAMAMOTO, Lecturer Takeo HAYASE,
Lecturer Junshi ISHIKAWA,
Lecturer Yasuhisa SHIMAZAKI,
Lecturer Takashi MIYANO and
Lecturer Seiko SHIRASAKA
|
|
not available for international graudate course.
|
|
Engineering of System LSI Design (Embedded Software Design) |
| Autumn |
2-0-1 |
Lecturer Mitsuhiko HOSHI,
Lecturer Masayuki HIRAYAMA,
Lecturer Hirohiko ONO,Lecturer Haruo KAZAMI,
Lecturer Masato EDAHIRO, Lecturer Masakazu KOBAYASHI
and Lecturer Yuichi TUKADA
|
|
not available for international graudate course.
|
|
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