SMART GLASSES (XJ2a-11)
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SMART GLASSES (XJ2a-11) Students: AARON, Sheshan Ryan YEOH, Da Qiang Supervisor: Prof. XU, Jiang Overview A wearable computing system is computing system that users wear as part of their apparel. Wearable computing systems have been around since the 1960s. Recent developments in computer technology might make wearable computers mainstream. Aims and Objectives Methodology Twitter PIN Entry-less Authentication Marker Detection for Hand-Framing Results Positive marker detection – if cursor over center of marker. Responsiveness – number of frames for cursor to come back to center of marker from a false detection. Interface Layout Virtual Keyboard Hand-Framing Status and photo uploaded Overall System Setup Color Markers Conclusion Overall, the system meets the deliverables and performs satisfactorily. However, more research needs to be carried to find algorithms that are low on computational intensity, are robust, provides better detection rates and improved responsiveness. A software program implemented on a wearable computer for use by a mobile twitter reporter, hence the name “Twiptor” for our application. Objectives: • Improved usability for wearable computers. • Natural user interaction. • Naturally integrated into the user’s environment. • Provide users with constant and easy access to computers anywhere and everywhere. Mouse Control Marker Photo taking markers
Transcript of SMART GLASSES (XJ2a-11)
SMART GLASSES (XJ2a-11)
Students: AARON, Sheshan Ryan
YEOH, Da Qiang
Supervisor: Prof. XU, Jiang
Overview A wearable computing system is computing system that users wear
as part of their apparel.
Wearable computing systems have been around since the 1960s.
Recent developments in computer technology might make wearable
computers mainstream.
Aims and Objectives
Methodology Twitter PIN Entry-less Authentication
Marker Detection for Hand-Framing
Results Positive marker detection – if cursor over center of marker.
Responsiveness – number of frames for cursor to come back to center of
marker from a false detection.
Interface Layout Virtual Keyboard
Hand-Framing Status and photo uploaded
Overall System Setup Color Markers
Conclusion Overall, the system meets the deliverables and performs satisfactorily.
However, more research needs to be carried to find algorithms that are low on
computational intensity, are robust, provides better detection rates and
improved responsiveness.
A software program implemented
on a wearable computer for use by
a mobile twitter reporter, hence the
name “Twiptor” for our
application.
Objectives:
• Improved usability for
wearable computers.
• Natural user interaction.
• Naturally integrated into the
user’s environment.
• Provide users with constant
and easy access to computers
anywhere and everywhere.
Mouse
Control
Marker
Photo taking
markers
