Alignment of requirements and services with user feedback

University of Technology Sydney. Faculty of Engineering and Information Technology.It is widely acknowledged that software reuse reduces the cost and effort of software development. Over the years many solutions have emerged that propose methodologies to support software reusability. Service oriented software engineering (SOSE) advocates software reuse while aiming to achieve better alignment of software solutions to business requirements. Service orientation has evolved from Object Oriented Analysis and Design (OOAD) and Component Based Software Development (CBSD), the major difference being that reusable artefacts are in the form of services rather than objects or packaged components. Although SOSE is considered a new architectural style of software development that addresses some of the shortcomings of previous approaches, it has also inherited some of the challenges of CBSD, and OOAD, in particular in the requirements engineering process. In Service Oriented Requirements Engineering (SORE) an analyst has an additional challenging task of aligning requirements and services to select the optimally matched service from an increasingly large set of available online services. Much of the existing empirical research in SORE has focused mainly on the technical aspects while the human related issues are yet to be fully explored and addressed. The lack of empirical evidence to investigate the human related issues in SORE provides the overall motivation for the research covered in this thesis. User involvement in software development has been the focus of significant research and has been intuitively and axiomatically accepted to play a positive role in users’ satisfaction thus leading to system success. More recently, past users’ feedback, reviews and comments from online sources are considered a form of user involvement. These offer valuable information to assist analysts in increasing their knowledge for making more informed decision for service selection. In service oriented paradigm the full extent of the benefits of this form of user involvement has not been empirically investigated. This thesis addresses three important high level research goals: (1) to investigate and identify the most important challenges of SORE, (2) to design an innovative and flexible method to address the top challenge of SORE, focusing specifically on the important relationship between user involvement and system success, and (3) to evaluate the applicability and effectiveness of the proposed method in an empirical study. This thesis presents research conducted in three parts for achieving each of the stated goals respectively: problem analysis, solution analysis and implementation analysis. For problem analysis a mixed method approach is used, i.e. literature review, quantitative online survey, and qualitative industrial interview study. For solution analysis a Systematic Literature Review (SLR) is conducted to analyse the existing empirical studies about the relationship between user involvement and system success. Inspired by the results of this SLR, I designed the ARISE (Alignment of RequIrement and SErvices) method, following Situational Method Engineering to make it flexible for adoption in various project contexts. The ARISE method aims to exploit the benefits of experiences of past users for service selection. For implementation analysis, the ARISE method was instantiated in a case study with real life data with two objectives in mind: (1) validation of the effectiveness of ARISE in overcoming the challenges of alignment, and (2) improvement and refinement of the ARISE method. Analysis of the results of this validation revealed the need for automated tool support for the ARISE method. This automation is achieved through the design and implementation of software tools created for supporting the analysts in service selection. The systematic and mixed method research approach of the problem analysis phase identified that alignment of requirements and services was the top challenge for practitioners in SORE. It also increased our understanding of why this alignment is considered the most challenging task. The findings of the SLR confirmed that the effective user involvement in software development in general, and in requirements engineering in particular could lead to system success. In SORE, the past users of services can be involved through their feedback and sentiments about the services from online sources. These concepts were the basis for the design of the ARISE method. The results of the case study complemented by the experimentation with the automated tools revealed that past users’ feedback and sentiments are indeed valuable sources of information that can assist analysts in overcoming the challenges of alignment between requirements and services thus making a more informed decision in service selection

A situational approach for the definition and tailoring of a data-driven software evolution method

Successful software evolution heavily depends on the selection of the right features to be included in the next release. Such selection is difficult, and companies often report bad experiences about user acceptance. To overcome this challenge, there is an increasing number of approaches that propose intensive use of data to drive evolution. This trend has motivated the SUPERSEDE method, which proposes the collection and analysis of user feedback and monitoring data as the baseline to elicit and prioritize requirements, which are then used to plan the next release. However, every company may be interested in tailoring this method depending on factors like project size, scope, etc. In order to provide a systematic approach, we propose the use of Situational Method Engineering to describe SUPERSEDE and guide its tailoring to a particular context.Peer ReviewedPostprint (author's final draft

A requirements engineering framework for integrated systems development for the construction industry

Computer Integrated Construction (CIC) systems are computer environments through which collaborative working can be undertaken. Although many CIC systems have been developed to demonstrate the communication and collaboration within the construction projects, the uptake of CICs by the industry is still inadequate. This is mainly due to the fact that research methodologies of the CIC development projects are incomplete to bridge the technology transfer gap. Therefore, defining comprehensive methodologies for the development of these systems and their effective implementation on real construction projects is vital. Requirements Engineering (RE) can contribute to the effective uptake of these systems because it drives the systems development for the targeted audience. This paper proposes a requirements engineering approach for industry driven CIC systems development. While some CIC systems are investigated to build a broad and deep contextual knowledge in the area, the EU funded research project, DIVERCITY (Distributed Virtual Workspace for Enhancing Communication within the Construction Industry), is analysed as the main case study project because its requirements engineering approach has the potential to determine a framework for the adaptation of requirements engineering in order to contribute towards the uptake of CIC systems

Using mobile RE tools to give end-users their own voice

Researchers highlight end-user involvement in system design as an important concept for developing useful and usable solutions. However, end-user involvement in software engineering is still an open-ended topic. Novel paradigms such as service-oriented computing strengthen the need for more active end-user involvement in order to provide systems that are tailored to individual end-user needs. Our work is based on the fact that the majority of end-users are familiar with mobile devices and use an increasing number of mobile applications. A mobile tool enabling end-user led requirements elicitation could be just one of many applications installed on end-users' mobile devices. In this paper, we present a framework of end-user involvement in requirements elicitation which motivates our research. The main contribution of our research is a tool-supported requirements elicitation approach allowing end-users to document needs in situ. Furthermore, we present first evaluation results to highlight the feasibility of on-site end-user led requirements elicitation

Stakeholder involvement, motivation, responsibility, communication: How to design usable security in e-Science

e-Science projects face a difficult challenge in providing access to valuable computational resources, data and software to large communities of distributed users. Oil the one hand, the raison d'etre of the projects is to encourage members of their research communities to use the resources provided. Oil the other hand, the threats to these resources from online attacks require robust and effective Security to mitigate the risks faced. This raises two issues: ensuring that (I) the security mechanisms put in place are usable by the different users of the system, and (2) the security of the overall system satisfies the security needs of all its different stakeholders. A failure to address either of these issues call seriously jeopardise the success of e-Science projects.The aim of this paper is to firstly provide a detailed understanding of how these challenges call present themselves in practice in the development of e-Science applications. Secondly, this paper examines the steps that projects can undertake to ensure that security requirements are correctly identified, and security measures are usable by the intended research community. The research presented in this paper is based Oil four case studies of c-Science projects. Security design traditionally uses expert analysis of risks to the technology and deploys appropriate countermeasures to deal with them. However, these case studies highlight the importance of involving all stakeholders in the process of identifying security needs and designing secure and usable systems.For each case study, transcripts of the security analysis and design sessions were analysed to gain insight into the issues and factors that surround the design of usable security. The analysis concludes with a model explaining the relationships between the most important factors identified. This includes a detailed examination of the roles of responsibility, motivation and communication of stakeholders in the ongoing process of designing usable secure socio-technical systems such as e-Science. (C) 2007 Elsevier Ltd. All rights reserved

Agile Requirements Engineering: A systematic literature review

Nowadays, Agile Software Development (ASD) is used to cope with increasing complexity in system development. Hybrid development models, with the integration of User-Centered Design (UCD), are applied with the aim to deliver competitive products with a suitable User Experience (UX). Therefore, stakeholder and user involvement during Requirements Engineering (RE) are essential in order to establish a collaborative environment with constant feedback loops. The aim of this study is to capture the current state of the art of the literature related to Agile RE with focus on stakeholder and user involvement. In particular, we investigate what approaches exist to involve stakeholder in the process, which methodologies are commonly used to present the user perspective and how requirements management is been carried out. We conduct a Systematic Literature Review (SLR) with an extensive quality assessment of the included studies. We identified 27 relevant papers. After analyzing them in detail, we derive deep insights to the following aspects of Agile RE: stakeholder and user involvement, data gathering, user perspective, integrated methodologies, shared understanding, artifacts, documentation and Non-Functional Requirements (NFR). Agile RE is a complex research field with cross-functional influences. This study will contribute to the software development body of knowledge by assessing the involvement of stakeholder and user in Agile RE, providing methodologies that make ASD more human-centric and giving an overview of requirements management in ASD.Ministerio de Economía y Competitividad TIN2013-46928-C3-3-RMinisterio de Economía y Competitividad TIN2015-71938-RED