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<title>Fifteenth International Conference On Computer Applications (ICCA 2017)</title>
<link href="https://onlineresource.ucsy.edu.mm/handle/123456789/23" rel="alternate"/>
<subtitle/>
<id>https://onlineresource.ucsy.edu.mm/handle/123456789/23</id>
<updated>2026-07-18T01:51:47Z</updated>
<dc:date>2026-07-18T01:51:47Z</dc:date>
<entry>
<title>Table of Contents of ICCA 2017</title>
<link href="https://onlineresource.ucsy.edu.mm/handle/123456789/2548" rel="alternate"/>
<author>
<name>UCSY</name>
</author>
<id>https://onlineresource.ucsy.edu.mm/handle/123456789/2548</id>
<updated>2021-01-31T14:10:51Z</updated>
<published>2017-02-01T00:00:00Z</published>
<summary type="text">Table of Contents of ICCA 2017
UCSY
Presents the table of contents page of the proceedings of&#13;
the 15th International Conference on Computer Applications 2017
</summary>
<dc:date>2017-02-01T00:00:00Z</dc:date>
</entry>
<entry>
<title>Detection the Urban Change Areas of Yangon City Using Landsat Time series Images</title>
<link href="https://onlineresource.ucsy.edu.mm/handle/123456789/2534" rel="alternate"/>
<author>
<name>Aung, Thida</name>
</author>
<author>
<name>Sein, Myint Myint</name>
</author>
<id>https://onlineresource.ucsy.edu.mm/handle/123456789/2534</id>
<updated>2020-12-30T10:13:44Z</updated>
<published>2017-02-17T00:00:00Z</published>
<summary type="text">Detection the Urban Change Areas of Yangon City Using Landsat Time series Images
Aung, Thida; Sein, Myint Myint
Urban growth is the critical task for city&#13;
planning of the developing country. It can&#13;
estimate to know the increasing rate of the&#13;
building area of the certain township during the&#13;
specific year. The system proposes a method&#13;
combining the Morphological Building Index&#13;
(MBI) and Slow Feature Analysis (SFA). It can&#13;
find the urban changing areas of the Yangon city&#13;
using the Landsat 7 ETM+ time series images from&#13;
2003 to 2015. In MBI, it leads to a number of false&#13;
alarms involving non-building urban structures&#13;
such as soil and roads. In SFA, it alone is not&#13;
suitable for building change detection since it&#13;
provides high commission error. The purposed&#13;
system combines these two method to overcome&#13;
the weakness of MBI and SFA. The experimental&#13;
result shows the comparative accuracies of MBI&#13;
and SFA method only with the proposed method.
</summary>
<dc:date>2017-02-17T00:00:00Z</dc:date>
</entry>
<entry>
<title>Robot Language Acquisition Based on Sequence-to-Sequence Learning</title>
<link href="https://onlineresource.ucsy.edu.mm/handle/123456789/897" rel="alternate"/>
<author>
<name>Thu, Ye Kyaw</name>
</author>
<author>
<name>Takabuchi, Kenta</name>
</author>
<author>
<name>Fukai, Kaisei</name>
</author>
<author>
<name>Iwahashi, Naoto</name>
</author>
<author>
<name>Kunishima, Takeo</name>
</author>
<id>https://onlineresource.ucsy.edu.mm/handle/123456789/897</id>
<updated>2019-12-02T05:14:20Z</updated>
<published>2017-02-16T00:00:00Z</published>
<summary type="text">Robot Language Acquisition Based on Sequence-to-Sequence Learning
Thu, Ye Kyaw; Takabuchi, Kenta; Fukai, Kaisei; Iwahashi, Naoto; Kunishima, Takeo
Language acquisition for robot is a challenging topic&#13;
in the artificial intelligence research area and essential&#13;
for natural communication between robot and human.&#13;
In this paper, we proposed language acquisition directly&#13;
from motion video and user’s utterance with multimodal&#13;
machine learnings without prior knowledge of linguistic&#13;
or language specific information. Translation between&#13;
acquired conceptual structure and syllable sequences of&#13;
a human language (e.g. Japanese language) was carried&#13;
out by applying machine translation methodologies&#13;
including sequence-to-sequence learning. Experiments&#13;
on language acquisition with 500 videos show Encoder-&#13;
Decoder, Encoder-Decoder with Attention models are&#13;
able to achieve equal translation performance of baselines&#13;
that was prepared manually.
This work was supported by JSPS KAKENHI (grant&#13;
number 15K00244) and JST CREST (“Symbol Emergence&#13;
in Robotics for Future Human-Machine Collaboration”).
</summary>
<dc:date>2017-02-16T00:00:00Z</dc:date>
</entry>
<entry>
<title>Cross-modal Sentiment Information Expression of Voice Source Characteristics using Image Texture Features</title>
<link href="https://onlineresource.ucsy.edu.mm/handle/123456789/896" rel="alternate"/>
<author>
<name>Kyaw, Win Thuzar</name>
</author>
<author>
<name>SAGISAKA, Yoshinori</name>
</author>
<id>https://onlineresource.ucsy.edu.mm/handle/123456789/896</id>
<updated>2019-12-02T05:14:20Z</updated>
<published>2017-02-16T00:00:00Z</published>
<summary type="text">Cross-modal Sentiment Information Expression of Voice Source Characteristics using Image Texture Features
Kyaw, Win Thuzar; SAGISAKA, Yoshinori
Following the successful findings of high&#13;
correlations between speech and color such as F0 and&#13;
Value, Loudness and Saturation and Spectrum and&#13;
Hue, we analyzed the correlations between voice&#13;
source characteristics and the image parameters&#13;
showing textural differences in this paper for better&#13;
scientific understanding of their correlations and&#13;
effective use in visualization of speech information.&#13;
Through sentiment association experiments, we could&#13;
have observed high positive correlations between H1*-&#13;
H2* (amplitude difference between first and second&#13;
harmonics corrected for vocal tract effects), H1-A1&#13;
(amplitude difference between first harmonic and first&#13;
formant) and Contrast, high negative correlations&#13;
between H1*-H2*, H1-A1, H1-A2, H1-A3, Harmonicto-&#13;
Noise Ratio (HNR) in 0 to 3500Hz frequency band&#13;
and Variance, Prominence and negative correlations&#13;
between H1*-A3*, HNR in 0 to 500 Hz and&#13;
Prominence. These results show the possibility of&#13;
direct visualization of speech characteristics which&#13;
cannot be effectively carried out by conventional&#13;
mapping using discrete language expressions.
This work was partly supported by Grand-inaid&#13;
for Science Research B, NO. 23320091 of&#13;
JSPS.
</summary>
<dc:date>2017-02-16T00:00:00Z</dc:date>
</entry>
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