436 research outputs found
Shopping Discount Alert System
The Web technologies have been very advanced now. They are incorporated with RFID, GSM, and mobile technologies in enabling the Web functions be accessed more widely. Hence, the business functions are accelerated. This study takes the advantages of such the advancements in assisting marketing purposes. Consequently, a system that alerts users of sales in malls based on their locations is developed, and is named Shopping Discount Alert System (SDAS). UML and Java are used in designing and developing it from start to finish. It sends the advertisements to users' mobile phones, so that the information is pervasive. The Shopping discount alert system has been functionally tested, besides its interface. Results show that the Shopping discount alert system runs well as intended, besides ensuring that the users are happy with the idea. It is anticipated that the Shopping discount alert system could reduce the cost for promotions in a long run
A Low-Power CoAP for Contiki
Internet of Things devices will by and large
be battery-operated, but existing application protocols
have typically not been designed with power-efficiency in
mind. In low-power wireless systems, power-efficiency is
determined by the ability to maintain a low radio duty
cycle: keeping the radio off as much as possible. We
present an implementation of the IETF Constrained
Application Protocol (CoAP) for the Contiki operating system
that leverages the ContikiMAC low-power duty cycling
mechanism to provide power efficiency. We experimentally
evaluate our low-power CoAP, demonstrating that an
existing application layer protocol can be made power-efficient
through a generic radio duty cycling mechanism.
To the best of our knowledge, our CoAP implementation is
the first to provide power-efficient operation through radio
duty cycling. Our results question the need for specialized
low-power mechanisms at the application layer, instead
providing low-power operation only at the radio duty
cycling layer
Data management of nanometre scale CMOS device simulations
In this paper we discuss the problems arising in managing and curating the data generated by simulations of nanometre scale CMOS (Complementary Metal–Oxide Semiconductor) transistors, circuits and systems and describe the software and operational techniques we have adopted to address them. Such simulations pose a number of challenges including, inter alia, multiTByte data volumes, complex datasets with complex inter-relations between datasets, multi-institutional collaborations including multiple specialisms and a mixture of academic and industrial partners, and demanding security requirements driven by commercial imperatives. This work was undertaken as part of the NanoCMOS project. However, the problems, solutions and experience seem likely to be of wider relevance, both within the CMOS design community and more generally in other disciplines
Design Features for the Social Web: The Architecture of Deme
We characterize the "social Web" and argue for several features that are
desirable for users of socially oriented web applications. We describe the
architecture of Deme, a web content management system (WCMS) and extensible
framework, and show how it implements these desired features. We then compare
Deme on our desiderata with other web technologies: traditional HTML, previous
open source WCMSs (illustrated by Drupal), commercial Web 2.0 applications, and
open-source, object-oriented web application frameworks. The analysis suggests
that a WCMS can be well suited to building social websites if it makes more of
the features of object-oriented programming, such as polymorphism, and class
inheritance, available to non-programmers in an accessible vocabulary.Comment: Appeared in Luis Olsina, Oscar Pastor, Daniel Schwabe, Gustavo Rossi,
and Marco Winckler (Editors), Proceedings of the 8th International Workshop
on Web-Oriented Software Technologies (IWWOST 2009), CEUR Workshop
Proceedings, Volume 493, August 2009, pp. 40-51; 12 pages, 2 figures, 1 tabl
- …