This article proposes a pragmatic approach to software composition based on matching criteria by mimicking integrated hardware counterpart. The tangible value of consumer goods as described by Cox instills this logical derivation of the proposed approach. As software gradually matures in component form, various software compositions can be systematically assembled from related existing software. Two application software are composed based on their functionality matching. Their composition complexities are measured by function point. The total effort unveils a noteworthy finding that high complexity software demands larger effort to deploy. Thus, the proposed software composition framework not only offers the freedom of development mandates to the development team, but also broadens the horizon of cost and project evaluations by arriving at the proper mix of constituent components in the software product.
This paper presents a straightforward solution to an existing internet service so as to enhance its reliability and safety. As the internet society proliferates, myriad of applications, services, and devices are added. Variations among these "things" become unmanageably incompatible. The advent of the Internet of Things or IoT has shed some light on the interoperability issue of these hodgepodges. The proposed framework thus rests on these IoT to achieve such objectives without having to reinvent the wheel or resort to any complex cost-ridden devices and software to operate. The principle is to set up an activity framework that integrates necessary devices to support the designated functionality. This in turn runs on mobile network to serve the internet community. A case study on taxi service apps, having CCTV, GPS, and other monitoring devices and software, is conducted to gauge the viability of the proposed framework. The survey result shows that users are concerned with a few reliability and IoT connectivity factors, namely, cost, schedule, delay, number of vehicles and their proximity. The prospect is promising to broaden the proposed framework in other means of transportation.
This research proposes a framework for social network scrum meeting that serves as an alternate means for work continuation under the COVID-19 pandemic. Conventional agile and scrum methods that require in-person meeting on daily basis, as well as scrum process become impractical under stringent ‘social lockdown’ mandates. To prevent any disruptive discontinuity, the proposed framework sets up an online meeting to replace the in-person stand-up meeting and scrum. Some supporting practices are also established to adjust both agile and scrum event flows that suit this online encounter. They are production development setup and social network meeting. The former offers industrial practices that are well entrenched and proven, while the latter has been used extensively in this digital age. The proposed method is tested with computer science student’s projects. Students are able to continue their meeting, discussion, and some outputs rather than being isolated with no fruitful outcome. The proposed method does establish some ground work to be explored for future software development environments that will suit to the imminent digital technological advancement.
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