Please use this identifier to cite or link to this item: https://hdl.handle.net/10356/45966
Title: Virtual puppet B
Authors: Wang, Chenyu
Keywords: DRNTU::Engineering::Electrical and electronic engineering::Computer hardware, software and systems
Issue Date: 2011
Abstract: Human computer interaction dominates today’s information technology research. Many people have devoted enormous time and effort on the projects that involves the use of Wiimote as a receiver of human movement. Wiimote is popular because of its accuracy, convenience and efficiency of detecting infrared signal. This thesis writes about how the Wiimote project Virtual Shadow Puppet tries to save the ancient art of shadow puppet play from extinction.
URI: http://hdl.handle.net/10356/45966
Rights: Nanyang Technological University
Fulltext Permission: restricted
Fulltext Availability: With Fulltext
Appears in Collections:EEE Student Reports (FYP/IA/PA/PI)

Files in This Item:
File Description SizeFormat 
eB3220-101.docx
  Restricted Access
Main Report Text Body82.22 kBMicrosoft WordView/Open
1.1.1.png
  Restricted Access
figure606.59 kBimage/pngView/Open
1.1.2.png
  Restricted Access
figure70.83 kBimage/pngView/Open
1.4.png
  Restricted Access
figure79.96 kBimage/pngView/Open
2.1.1.png
  Restricted Access
figure118.18 kBimage/pngView/Open
2.1.2.png
  Restricted Access
figure104.42 kBimage/pngView/Open
2.1.4.png
  Restricted Access
figure75.91 kBimage/pngView/Open
2.2.1.png
  Restricted Access
figure147.08 kBimage/pngView/Open
2.2.1a.png
  Restricted Access
figure132.98 kBimage/pngView/Open
3.1.1.1.png
  Restricted Access
figure205.55 kBimage/pngView/Open
3.1.1.1a.png
  Restricted Access
figure19.79 kBimage/pngView/Open
3.1.1.1b.png
  Restricted Access
figure14.38 kBimage/pngView/Open
3.1.1.1c.png
  Restricted Access
figure159.13 kBimage/pngView/Open
3.1.1.3.png
  Restricted Access
figure11.35 kBimage/pngView/Open
3.1.png
  Restricted Access
figure83.48 kBimage/pngView/Open
3.1a.png
  Restricted Access
figure325.81 kBimage/pngView/Open
3.1b.png
  Restricted Access
figure190.25 kBimage/pngView/Open
3.2.png
  Restricted Access
figure55.89 kBimage/pngView/Open
3.3.1a.png
  Restricted Access
figure104.25 kBimage/pngView/Open
3.3.1b.png
  Restricted Access
figure33.57 kBimage/pngView/Open
3.3.png
  Restricted Access
figure96.85 kBimage/pngView/Open
3.4.1.png
  Restricted Access
figure404.87 kBimage/pngView/Open
3.5.png
  Restricted Access
figure87.06 kBimage/pngView/Open
4.1.2.png
  Restricted Access
figure207.33 kBimage/pngView/Open
4.1.3.png
  Restricted Access
figure43.54 kBimage/pngView/Open
4.1.3a.png
  Restricted Access
figure43.23 kBimage/pngView/Open
4.1.4.1.png
  Restricted Access
figure177.97 kBimage/pngView/Open
4.1.4.2.png
  Restricted Access
figure104.61 kBimage/pngView/Open
4.1.4.2a.png
  Restricted Access
figure155.33 kBimage/pngView/Open
4.1.4.2b.png
  Restricted Access
figure152.72 kBimage/pngView/Open
4.1.4.2c.png
  Restricted Access
figure99.55 kBimage/pngView/Open
4.1.4.2d.png
  Restricted Access
figure237.25 kBimage/pngView/Open

Page view(s)

290
checked on Sep 30, 2020

Download(s)

41
checked on Sep 30, 2020

Google ScholarTM

Check

Items in DR-NTU are protected by copyright, with all rights reserved, unless otherwise indicated.