Social inclusion of disabled performers in the performing arts: a case from Turkiye

Purpose The purpose of this paper is to develop an understanding for the social inclusion of disabled performers in a developing country to create awareness and improve policies/practices. Design/methodology/approach The study employed qualitative methodology, and data were collected through semi-structured interviews, site visits/observations and review of secondary data. Findings The data from different respondent groups showed the social inclusion should be reviewed at three levels: the state, society and individual. The review of existing policies revealed the neglect of the state regarding disabled people in general and even more so in performing arts due to the lack of enforcement of national and international agreements. Findings indicate that social inclusion of disabled performers is a minor issue, especially in a developing country where access to basic human rights and needs may be difficult. Amidst such difficulties, performing arts is not seen as a priority compared to other needs of disabled people and performers. Research limitations/implications Limitations include the limited number of disabled performers who could be identified and were willing to participate in the study. Those working in venues/public offices were also reluctant to participate. The greatest limitation was the broad lack of interest in disabled performers. Originality/value In Türkiye, studies on disabled people tend to focus on basic needs like health, education and employment. None, to best of researchers' knowledge, explore the social inclusion of disabled performers. This is an original study because it collects and discusses primary data on this topic, revealing the state-level negligence/oversight, the apathy of society and the degree to which an individual with disabilities must struggle to participate in performing arts. Consequently, this study shows the difficulty of developing social inclusion, equality and diversity in an emerging economy for disabled performers to raise awareness and present grounds for further legal enforcement. Moreover, implications allow for a global understanding of social inclusion that moves beyond a biased or privileged understanding/critique of disability centered on the developed world

Transformation of DEMO Metamodel into XML Schema

In this paper, we propose an approach to transform models derived by applying the Design and Engineering Methodology for Organizations (DEMO) into an exchangeable format. DEMO is based on a founded theory, the Ψ-theory, and satisfies the requirements to be a well defined domain modeling methodology. Having the DEMO models represented in an exchangeable format is beneficial for different types of applications supporting the information system development process. Applications used for the automatic analysis (simulation) of the DEMO models or for the identification of business components are just two examples to be mentioned

Identifying Suitable Representation Techniques for the Prioritization of Requirements and Their Interdependencies for Multiple Software Product Lines

Software requirements typically do not exist independently of each other, rather most requirements have some type of dependency on another requirement [4]. For companies developing software products, which depend on each other, in so-called multiple software product lines (SPLs), systematic requirements management, including consideration for prioritization and inter‐ dependencies, is a time-consuming and convoluted task. Representation techniques for complex requirements can convey critical requirements interdependency information to make prioritization of requirements quicker and more accurate [1]. Based on reviewing the foremost literature, this paper identifies the representation techniques for requirements management which are most suitable for multiple software product lines (SPLs

Enhancing Goal-based Requirements Consistency: an Argumentation-based Approach

International audienceRequirements engineering research has for long recognized the leading role of goals as requirement artifacts during the requirements engineering specification processes. Given the large number of artifacts created during the requirements specification and the continuous evolution of these artifacts, reasoning about them remains a challenging task. Moreover, the rising complexity of the target domain under consideration during the requirements engineering process as well as the growth of geographically distributed projects explain why the number of collected requirements as well as their complexity also increase. In this context, providing support to stakeholders in achieving a common understanding of a set of goal-based requirements, in consolidating them and keeping them consistent over time is another challenging task. In this paper, we propose an approach to detect consistent sets of goal-based requirements and maintain their consistency over time. Our approach relies on argumentation theory which allows to detect the conflicts among elements called arguments. In particular, we rely on meta-argumentation, which instantiates abstract argumentation frameworks, where requirements are represented as arguments and the standard Dung-like argumentation framework is extended with additional relations between goal-based requirements

A timing model for specifying multi clock automotive systems: The timing augmented description language V2

Precise timing constraint modeling and analysis is a key point for the correct development of automotive electronics. EAST-ADL and AUTOSAR has been adopted as standards in automotive industry. These standards have recently adopted TADL (Time Augmented Description Language), a timing model for expressing timing constraints. Its current use highlighted different issues, mainly concerning the integration of parameterized multi rate and multi-clock systems. This paper presents new extensions, aligned on AUTOSAR and EAST-ADL, to solve these issues: a support for symbolic timing expression including multi time base description and complex timing constraints. These extensions are applicable at different abstraction levels during design and enable precise modeling of the multi clock characteristics of distributed systems together with parameterized timing expressions. This work has been conducted in the ITEA TIMMO-2-USE project