Vol. 21 No. 4/2017
Issue Topic: Software testing and quality
QAaaS in a Cloud IoT Ecosystem
Bogdan GHILIC-MICU, Marinela MIRCEA, Marian STOICA 5
The current transition state of the global society, both from economic and
(mostly) technological perspective, goes – again – into overtime. Borrowed from
fundamental domains and applied into science and research, the latest
technological developments are built on graphene, silicene, phosphorene and
stanene. The fourth industrial revolution changes perceptions and redefines the
status of the individual, transforming him from con-sumer into pro-sumer of
energy. Spintronics stimulates the production of accessories specific to the
Internet of Things (IoT), like smart clothes connected to internet and
implanted phones. Additionally, technology influences software development
methodologies facing us with paradigms that transcend philosophies like green,
grid, cloud computing and advance toward a superior manifestation of computer
programming: Fog Computing (with the next level being presumably Rainbow
Computing). Within this avalanche of transformations, technologies and
paradigms, one aspect that has to evolve continuously is the quality assurance
(QA). Hidden under various concept or methodology encapsulations, quality
assurance in all fields and mostly in technological development and software
paradigm play a key role. In an ecosystem defined by the context of Cloud IoT,
quality assurance as service becomes a real challenge. In this paper we
highlight the ways the ecosystem engages in its development not only things,
beings, energies, sensors or objects but also technologies. One such popular
technology is cloud computing which, in the context of IoT, sees a spectacular
development of its own cluster of services, a potential such service being
QAaaS.
Keywords: Quality Assurance, Cloud Computing, Internet of
Things, Cloud Services Cluster, the Technological Ecosystem, Crowdsourcing.
Interoperability of
SME Databases from the Project Management Point of View
Eugen Ştefan Dorel COJOACA 15
The term "Information Society" describes an economy and a society in which
access, acquisition, storage, processing, transmission, dissemination and use
of knowledge and information play a decisive role. The Information Society
implies changes in all areas: administration (e-government), business
(e-commerce), education (distance learning), culture (multimedia centres and
virtual libraries) and working (the remote work). At the heart of these
transformations is the use of the Internet. The Internet influences how we
live, how business is done, how the work is done, how to study, how people
interact and how to spend their free time [1], [2]. In this context, this paper
purpose is to present the implementation of a project developed by the Ministry
of Communication and Social Information from European funds in the sphere of
project management, which is different than the management of other IT
projects.
Keywords: Project Management, Interoperability, eServices,
eGovernment, eBusiness.
Privacy and Security in Connected Vehicles Ecosystems
Marius POPA, Cristian TOMA, Cătălin BOJA, Alin ZAMFIROIU 29
Modern vehicles could not be figured out without Internet connections in
order to provide customers a wide range of services in the vehicle:
infotainment platforms, third-party support, on-board and online monitor and
maintenance, business analytics for car fleets. Exposure of the vehicles to the
Internet turns them into targets for viruses, worms, Trojans, DoS and lot of
other threats for connected vehicle security. Beside the classic threats of the
Internet exposure, other new threats are introduced by the Internet of Things
(IoT) new technologies that are poor regulated or undefined yet from the
security point of view. Also, the large variety of the IoT technologies not
being standardized yet contribute to security issues in this area of the
automotive industry. This paper provides an overview of the connected vehicle
environment, considering the main components of such kind of system and the
main security challenges to be considered for building reliable secure online
systems for connected vehicles.
Keywords: IoT, Connected Vehicle Security, Embedded Systems.
An
Educational Data Mining Approach to Concept Map Construction for Web based
Learning
Anal ACHARYA, Devadatta SINHA 41
This aim of this article is to study the use of Educational Data Mining
(EDM) techniques in constructing concept maps for organizing knowledge in web
based learning systems whereby studying their synergistic effects in enhancing
learning. This article first provides a tutorial based introduction to EDM. The
applicability of web based learning systems in enhancing the efficiency of EDM
techniques in real time environment is investigated. Web based learning systems
often use a tool for organizing knowledge. This article explores the use of one
such tool called concept map for this purpose. The pioneering works by various
researchers who proposed web based learning systems in personalized and
collaborative environment in this arena are next presented. A set of parameters
are proposed based on which personalized and collaborative learning
applications may be generalized and their performances compared. It is found
that personalized learning environment uses EDM techniques more exhaustively
compared to collaborative learning for concept map construction in web based
environment. This article can be used as a starting point for freshers who
would like to use EDM techniques for concept map construction for web based
learning purposes.
Keywords: Educational Data Mining (EDM), Web
based Learning, Concept Map, Personalized Learning, Collaborative Learning.
Internet of Things, Challenges for Demand Side Management
Simona OPREA, Bogdan George TUDORICA, Anda BELCIU, Iuliana BOTHA 59
The adoption of any new product means also the apparition of new issues and
challenges, and this is especially true when we talk about a mass adoption. The
advent of Internet of Things (IoT) devices will be, in the authors of this
paper opinion, the largest and the fastest product adoption yet to be seen, as
several early sources were predicting a volume of 50 billion IoT devices to be
active by 2020 [1][2]. While later forecasts reduced the predicted amount to
about 20-30 billion devices [3], even for such “reduced” number, demand side
management issues are foreseeable, for the potential economic impact of IoT
applications in 2025 will be between 3.9 and $11.1 trillion USD [4]. Not only
that new patterns will emerge in energy consumption and Internet traffic, but
we predict that the sheer amount of data produced by this quantity of IoT
devices will give birth to a new sort of demand side management, the demand
side management of IoT data. How will this work is yet to be seen but, at the
current moment, one can at least identify the bits and pieces that will
constitute it. This paper is intended to serve as short guide regarding the
possible challenges raised by the adoption of IoT devices. The data types and
structures, lifecycle and patterns will be briefly discussed throughout the
following article.
Keywords: Internet of Things, Structured Data, Semi-structured
Data, NoSQL, Demand Side Management
Deep Learning for
Distribution Channels' Management
Sabina-Cristiana NECULA 73
This paper presents an experiment of using deep learning models for
distribution channel management. We present an approach that combines
self-organizing maps with artificial neural network with multiple hidden layers
in order to identify the potential sales that might be addressed for channel
distribution change/ management. Our study aims to highlight the evolution of
techniques from simple features/learners to more complex learners and feature
engineering or sampling techniques. This paper will allow researchers to choose
best suited techniques and features to prepare their churn prediction models.
Keywords: Artificial Neural Network,
Distribution Channel, Self-Organizing Maps, Deep Learning
Project Management
Tools for Agile Teams
Alexandra MIHALACHE 85
The 21st century started as the era of agile methods and technologies which
combine adaptable and highly flexible methods designed to help teams to develop
applications faster and safer. The challenge is to adapt just enough technology
to enhance the performance of teams which are using agile methods and to avoid
going back to weak workflow ideas of the industrial era. In this paper, I will
present some relevant agile tools that could improve every software development
project and I will also mention the features and criteria used for evaluating
currently existing tools. Finally, I will propose a classification model to the
appropriate agile tool selection, but keep in mind that in order to be
successful, organizations and teams do need to deal first with the issues that
accompany product complexity and growing teams.
Keywords: Project Assessment, Agile Tools Classification,
Unpredictable Situations Control
The 17th
International Conference on Informatics in Economy, IE 2018 94
Publishing Guide for
Authors 95
INFOREC
Association 97
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