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Copyright © 2012 Nara Institute of Science and Technology
International Program in IS
Internship program between KU and NAIST
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Copyright © 2008 Nara Institute of Science and Technology / Osaka UniversityCopyright © 2012 Nara Institute of Science and Technology
Internship program between KU and NAIST
Based on an agreement of academic exchanges and a memorandum of student internship. Fields of study in NAIST
(Empirical) software engineering Software design Applied algorithm Computer architecture …
Period: 9 – 10 weeks from the middle of March. Aims
To know each other through the study To try to write a research paper based on the study and
then submit it to international conference.
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Copyright © 2008 Nara Institute of Science and Technology / Osaka UniversityCopyright © 2012 Nara Institute of Science and Technology
Internship
Accommodation and more…
NAIST guest house (1 min. walk to laboratories) No charge for internship students
Nice access to Osaka and Kyoto (1 hour by train)
Best season to see Sakura (cherry blossom)
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Copyright © 2008 Nara Institute of Science and Technology / Osaka UniversityCopyright © 2012 Nara Institute of Science and Technology
Internship
Season 1 (March 28 – May 24, 2010)
NAIST accepted 5 students from Dept. of Computer Engineering, KU Mr. Kamalas Udomlamlert (>>> Osaka University) Mr. Passakorn Phannachitta (>>> NAIST) Mr. Pijak Jirapiwong Mr. Tanaphol Suebchua Mr. Tossaporn Daovichitr
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Copyright © 2008 Nara Institute of Science and Technology / Osaka UniversityCopyright © 2012 Nara Institute of Science and Technology
Internship
Season 1 (March 28 – May 24, 2010)
Studies with Japanese students @ Software Engineering Laboratory Open source software analysis
Mining software repository to better understand and support OSS development and communities
Collaborative information retrieval Community-based search engine
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Copyright © 2008 Nara Institute of Science and Technology / Osaka UniversityCopyright © 2012 Nara Institute of Science and Technology
Internship
Season 2 (March 29 – May 26, 2011)
NAIST accepted 5 students from Dept. of Computer Engineering, KU Mr. Nut Sornchumni Mr. Yuttakon Yuttakonkit Mr. Chakkrit Tantithamthavorn Ms. Patanamon Thongtanunam Mr. Anakorn Jongyindee
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Copyright © 2008 Nara Institute of Science and Technology / Osaka UniversityCopyright © 2012 Nara Institute of Science and Technology
Internship
Season 2 (March 29 – May 26, 2011)
Studies @ 4 laboratories Software Engineering Laboratory (Prof. Matsumoto)
Analysis of committers in OSS communities Development of a crowd-sourcing system
Software Design Laboratory (Prof. Iida) Android application for wireless control of
LEGO robot Applied Algorithmic Laboratory (Prof. Seki)
RNA Secondary Structure Predictionwith Dynamic Programming
Computing Architecture Laboratory (Prof. Nakashima)
Design and verification of a basic pipelined processor with FPGA
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Copyright © 2008 Nara Institute of Science and Technology / Osaka UniversityCopyright © 2012 Nara Institute of Science and Technology
Internship
Achievements of seasons 1 & 2
8 intl. conference/workshop papers (accepted)! 3 journal papers (submitted)!
6th International Conference on Software Process and Product Measurement 2011 (Mensura 2011), Nov. 2011.P. Phannachitta, P. Jirapiwong, et al.,
An Analysis of Gradual Patch Application - A Better Explanation of Patch Acceptance
A. Jongyindee, et al.,Good Or Bad Committers? A Case Study of Committers’ Cautiousness and the Consequences on the Bug Fixing Process in the Eclipse Project (best student paper award!!!)
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Copyright © 2008 Nara Institute of Science and Technology / Osaka UniversityCopyright © 2012 Nara Institute of Science and Technology
Internship 2012
Season 3 will start!!!
6 students from Dept. of Computer Engineering, KU. ( April. 2012 – May 2012)
Studies @ 6 laboratories Software Engineering Lab (Prof. Matsumoto) Software Design Lab (Prof. Iida) Applied Algorithmic Lab (Prof. Seki) Computing Architecture Lab (Prof. Nakashima) Dependable System Lab (Prof. Inoue) Qbiquitous Computing Systems Lab (Prof. Yasumoto)
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Copyright © 2008 Nara Institute of Science and Technology / Osaka UniversityCopyright © 2012 Nara Institute of Science and Technology
Software Engineering Lab
Task1: Can you find the codes with the bug using the text of the bug report?
Task2: How many related codes should we check for fixing bugs?
Large software development project get many bug reports to fix bugs from users and developers. Then, the developers have to identify source codes which should be fixed.
Goal: Automatically identify source codes which developers should fix using text mining
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Laboratory for Software Design and Analysis ©2012
Development of Android application to control LEGO robots using OSS development support tools
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The goal of this project is to gain knowledge and skill for management of software development using typical support tools
Design and implementation of integrated application such as Android application for wireless control of LEGO robotOr you may propose different applications!
Tools to be usedSubversion (configuration management)Redmine (project management)Eclipse (coding and building)
Lecture about tools are given at the beginningNo programming lecture - basic Java/C#
programming skill is neededInformation and references for Android
programming are provided for self study(self-learning is another issue of this class)
Redine: web-based issue tracking/project management system
Developing in team is better for learning project
management
A Robot & application developed in 2011 class
Laboratory for Software Design and Analysis
analysis of error-correcting LDPC codes
LDPC code ... powerful ECC of the next generationadopted in WiMAX, digital broadcasting, and moreit does work, but its structure is not understood yet
Throughout this project, we determine...the number of codewords with small Hamming weights.
write a program, and find codewords in the “core” subsetcompare codewords, and discover hidden mathematical rulesuse a closure property, and determine the # of codewords
Applied Algorithmic Lab
32bit-ARM OS & Application
2011/11/4
32bit-ARMEmulator
ARM 32bit System using a combination ofA Tiny 8bit Computer and A Software Emulator
8bit Small CPUw/ minimal hardware
The goal of this internship is to learn the structure of emulators which is generally used to realize a computer system with other architecture, and to run ARM Linux on a tiny 8bit computer. This topic leads to an innovative computer system based on some next generation new materials.
Computing Architecture Lab
2011/11/4
A Software Framework for Next Generation Low-Power Accelerators
Our research targets next generation accelerators. In contrast to blakbox GPGPUs, this accelerator is drived by some translated codes generated from Intel instructions. The goal of this internship is to learn the GCC vectorizer and to develop a code translator with lex/yacc for new accelerators. Required skills: Basic operation in UNIX environment and C programming.
Computing Architecture Lab
You will study a flow of VLSI design and test and understand how to optimize performance, area and test coverage of VLSI using several CAD tools.
Introduction to VLSI Design & Test
You
area optimized design
performance optimized design
testability optimized design
architecture
CAD tools
specification
coding(VHDL / Verilog)elsif clk'event and clk = '1' then case ps is when s0 => ps <= s1; rega <= ain; regb <= bin; rdy <= '0'; when s1 => if rega >= regb then ps <= s2; else rega <= regb; regb <= rega; ps <= s2;
Internship@Dependable System Lab, NAIST
As VLSI device is miniaturized, defects causing timing failure are becoming crucial problem on VLSI dependability.
You will study design for testability(DFT) and test generation for delay faults.
High Quality Test Generation for Delay Faults
good(fault-free)
bad (faulty)
You
design
DFT+
patterns
0100100100010111010100000011
0100100100010111010100000011
0100100100010111010100000011
Internship@Dependable System Lab, NAIST
Ubiquitous Computing Systems Lab.Implementing Smart Environment using Wireless Sensors
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Goal: Understand smart environment, context-aware systems, UPnP (universal plug and play), and home network
Mission: Construct a virtual smart home with UbiREAL simulator Assemble a wireless sensor node Construct a context-aware-system with the sensor node
UbiREAL simulator
Wireless Sensor Node
• Arduino (with ZigBee)
• Breadboard• Sensors
ZigBee
シリアル接続SunSPOT(BaseStation)
XBee module
赤外線ZigBee
SunSPOT(Client)
家電制御情報
ルールベース家電制御
infrared rays
Run rule-basedevice control scenario
Construct a system for controlling appliances depending on sensor values
Ubiquitous Computing Systems Lab.Investigating 802.11-based Mobile Networks Using Network Simulator
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Goal: Understand how to improve network performance of 802.11-based mobile networks using network simulator ns-3 (http://www.nsnam.org/).
Mission: Implement and evaluate optimization methods for 802.11-
based networks utilizing access point selection, channel assignment, and data rate control mechanisms.
Overloaded 802.11 network Optimized 802.11 network
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Copyright © 2008 Nara Institute of Science and Technology / Osaka UniversityCopyright © 2012 Nara Institute of Science and Technology
Questions?