A succinct graphical user interface programming model for low-end embedded devices

Adapting graphical user interface, or GUI, is a promising way for low-end embedded devices to accommodate ever-increasing functions within limited space and to make them accessible for users. However, most of existing GUI tool kits are not suitable for this purpose because their intended targets are...

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Vydané v:2009 IEEE 13th International Symposium on Consumer Electronics s. 920 - 921
Hlavný autor: Yoshida, M.
Médium: Konferenčný príspevok..
Jazyk:English
Vydavateľské údaje: IEEE 01.05.2009
Predmet:
Application software
Computer applications
Consumer electronics
Dynamic programming
Embedded computing
Embedded system
Graphical user interfaces
Read-write memory
Runtime environment
Yarn
ISBN:1424429757, 9781424429752
ISSN:0747-668X
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Popis
Shrnutí:Adapting graphical user interface, or GUI, is a promising way for low-end embedded devices to accommodate ever-increasing functions within limited space and to make them accessible for users. However, most of existing GUI tool kits are not suitable for this purpose because their intended targets are desktop computer applications, not embedded systems. Since the user interaction model and resource restrictions of low-end embedded devices are totally different from those of desktop applications, we propose a succinct GUI programming model as an alternative to the one for desktop computers. The proposed model mainly addresses three design issues: conforming to the appropriate interaction model, resource-conscience, and adaptation to crude run-time environments. We implemented MGT, an experimental GUI toolkit based on the proposed programming model, to evaluate the effectiveness of our model.
ISBN:1424429757
9781424429752
ISSN:0747-668X
DOI:10.1109/ISCE.2009.5157055