lab-intro-English2013

wonderfuldistinctAI and Robotics

Oct 16, 2013 (3 years and 8 months ago)

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Computer Science

Low
-
Power

䡩杨
-
P敲e潲浡湣e

䑥灥D摡dl攠
䍯浰畴敲s


Next Generation Accelerators


New Material Computers

Computing Architecture

Dependable System

core

core

core

core

L1

L1

L1

L1

L2

Distributed Algorithm

Parallel Algorithm

Highly Reliable

VLSI Design

VLSI Design and Test

The laboratory considers
dependability

at every level

from algorithm to hardware
.

1

Computer Science

Applied Algorithmics


Coding Technology


Efficient Codes for Flash Memory


High Density 2D Barcode


Automated


Analysis and Verification


XML Database Theory


Information Flow Analysis


Information Security


Trans
-
organizational Access
Control


Sensor Network Security


Bioinformatics


RNA Sequence Analysis

Ubiquitous Computing Systems

Realizing next
-
generation cyber systems
through integration of sensors and
networking technologies

Ubiquitous
Simulation

Mobile Networking

Support system

for emergency rescue

Indoor
localization

using light
-
intensity

Support system

for cleaning rooms

Wireless LAN

optimization

Context
Recognition &
Sensing

Ubiquitous
Navigation

2

Computer Science


Division for foundations of software led by
Professor Minoru Ito is engaged in research
areas of intelligent transportation systems
(ITS), cloud computing, and mobile
computing, in order to realize efficient
algorithms truly useful in the real world.


Research Topics



Intelligent Transportation System (ITS)


Cloud and Grid Computing, Peer to Peer


Mobile Computing



Wireless Sensor Network

Foundations of Software

Visual Analytics

to Software Development

Research topics:


-

Software Data Mining


-

Open Source Software Engineering


-

Software Security

Software Engineering

TaskPit: Software Development
Task Measurement System

3

Computer Science

Software Design and Analysis


Software development
process


Modeling and analyzing
activities for software
development (e.g., requirement
analysis, design, coding, and
test)



Software analysis and reverse
engineering


Code clone analysis


Design pattern analysis



Support for knowledge
engineering


Groupware


Global software engineering

Support for planning
development

Support for
learning from
past
development
archives

Support for
understanding
software product

We study techniques for the development of

“useful, safe, and maintainable”
software.

Testbed Federation

Software Defined Network

Mobility

Traffic / Malware Analysis

Scalability

Mobile Cloud Services

BGP

Emulation

P2P Overlay

Core Network Technology

DTN

Security

Internet Engineering

As a part of the social infrastructure, we study on
fundamental technologies for achieving sophisticated
Internet, and conduct research and education on
technology transfer about academic research to industry.

4

Computer Science

Internet Architecture and Systems

4K stream transmission

Cryptographic hardware

GPGPU

Overlay Sensor Network

Cloud Computing, Virtualization

We study on fundamental technologies,
operational technologies and internet
applications for
the

Internet as social
infrastructure. We also conduct research and
education on
ICT systems
.

5

Media Informatics

Fundamental Technologies

for Language Processing

Opinion Mining

Language Education

Applications of

Language Processing

Machine Translation

Text Mining / Link
Analysis

Language
Analysis

Morphological Analyser, ChaSen

Dependency Parser, CaboCha

Coreference / Argument Structure

Analysis

Knowledge
Acquisition from
Corpus

Machine
Learning

Enhancement of
Language Processing

Corpus Management Tool, ChaKi

Semantic Dictionary

Dictionary Development:

Japanese, Chinese, English

Common
-
sense Knowledge Acquisition

Reading Assistance

Question Answering

System

Language
Resource

Computational Linguistics

6

Network Systems

We are studying on radio sensors and
wireless technologies for reliable
broadband


communication systems

ICT

for

medical

and

disaster

relief

mobile

communications,

digital

broadcasting

Electromagnetic

theory,

Signal

processing,

Embedded

system

Media Informatics

Research fields of this laboratory are
Computer Vision
,
Virtual Reality

and
Mixed Reality
.


Vision and Media Computing

Computer Vision

Virtual Reality

Mixed Reality

Information Media


Camera position and orientation estimation

for Augmented Reality and 3D modeling


Telepresence using omnidirectional camera


Image, video, 3D inpainting, etc.


Our laboratory is studying about not only the
future interactive media itself but also
human
-
computer interaction
,
data engineering
and
media technologies
which are needed to
create innovative interactive media.

Interactive Media Design

7

Media Informatics

Augmented Human Communication

Voice QoL

Voice Conversion

Speech Synthesis

Brain

Analysis

for human

communication

Spoken

Dialog

Why don’t
you join
our lab!

Persona

Modeling

Speech Translation

Big Data

Analysis

8

Ambient Intelligence

Sensing

Environment / human

measurement and
analyzing

Realization of a safe, secure and comfortable life
space for all members of society through the
application of
ambient intelligence
.

Knowledge

Structuring


䡵浡H 慣瑩a楴礯

敮癩牯湭敮n

浯摥汩湧

Interaction


Human Robot

Interaction

䡒I



䅵杭A湴ed

R敡汩瑹(䅒)

Applied Informatics


Real
-
time sensing technologies

e.g. robot vision, tactile sensing


Intelligent systems integration

e.g. interactive robot, mobile robot,


service robot, power assist system,


haptic interface, …




Systems Control Theory



Sensing &

Signal Processing



Learning Theory for Control

Power Assist Technology

Modeling & Control of

Artificial Muscle

Visual Sensing & Control

Machine
Learning for


Robot Motor
Skills

9

Applied Informatics

Machine Learning Theory

Adaptive Systems

Solution by Mathematical Model

Multi
-
scale neural
simulations

animal experiments & neural recording

10

Our research is aimed at developing mathematical
modeling and simulation techniques for design, control
and architecture of large
-
scale systems, with which the
resulting systems achieve high performance, low
vulnerability and highly efficient energy saving.

Network Analytics

Cloud Scheduling

Call
-
Center Management

Service Science

Applied Informatics

http://kanaya.naist.jp/KNApSAcK_Family/

Advanced technologies in genome
scinece

becomes
more important to get the significant information
between elements in the cell by integrating several
omics

data, such as genome,
transcriptome
,
metabolome

and
interactome
. To attain, we aim to
develop new methods and contribute to the
understanding of biological systems.

Multi
-
scale neural
simulations

animal experiments & neural recording

adaptive robots

Our goal


to build brain
-
like learning system




to record/analyze
in
-
vivo

brain activity




to understand
brain
•fs

computation as a system.

Development of informatic tools for
neural simulation

11

Example of Collaborative Labs

Network Orchestration

A collaborative lab by NICT

with Internet Engineering Lab.


Technology of Radiological Science

A collaborative lab by NCVC

with Biomedical Imaging Lab.

We study on network virtualization, next /new
generation network technologies, network
orchestration, testbed federation. We also conduct
various field tests with collaboration among
academic, government and industry with using a
nation
-
wide network testbed “
JGN
-
X
” and a large
scale network emulation testbed “
StarBED
”.

We study and develop new photographic
diagnosis technologies, especially for brain
disease and heart disease.

12