University of Limerick Institutional Repository

Browsing by Author "Thiel, Steffen"

DSpace/Manakin Repository

Browsing by Author "Thiel, Steffen"

Sort by: Order: Results:

  • O'Leary, Pádraig; Richardson, Ita; Thiel, Steffen (Department of Computer Science,Furtwangen University of Applied Sciences, 2010)
    The derivation of individual products from a software product line is still seen as a time-consuming and expensive activity in many organisations. Despite recognition that an effective derivation process could alleviate ...
  • Cawley, Ciarán; Nestor, Daren; PreuBner, André; Botterweck, Goetz; Thiel, Steffen (2008)
    Software Product Line engineering allows companies to realise significant improvements in time-to-market, cost, productivity, and system quality. One major difficulty with software product lines is that within industry ...
  • Mjeda, Anila; McElligott, Pat; Ryan, Kevin; Thiel, Steffen (SAE International, 2009)
    The ever increasing complexity of embedded automotive software is not matched by the current development and test processes of automotive embedded software and the latter have become the limiting factor. A model-based ...
  • Botterweck, Goetz; O'Brien, Liam; Thiel, Steffen (Association for Computing Machinery, 2007)
    Product Derivation is one of the central activities in Software Product Lines (SPL). One of the main challenges of the process of product derivation is dealing with complexity, which is caused by the large number of ...
  • Agerfalk, Par J.; Fitzgerald, Brian; Lings, Brian; O'Brien, Liam; Thiel, Steffen (2006)
  • O'Leary, Pádraig; Richardson, Ita; Mc Caffery, Fergal; Thiel, Steffen (2009)
    Software product lines (SPL) advocates the development of applications by reusing shared software assets across a set of related products. Current approaches to the derivation of products from a product line focuses on ...
  • O'Leary, Pádraig; Ali Babar, Muhammad; Thiel, Steffen; Richardson, Ita (2007)
    Software Product Lines (SPL) and Agile practices have emerged as new paradigms for developing software. Both approaches share common goals; this provides the motivation for exploring the possibilities of integrating ...
  • Cawley, Ciarán; Healy, Patrick; Botterweck, Goetz; Thiel, Steffen (VAMOS 2010, 2010)
    Configuring a large Software Product Line can be a complex and cognitively challenging task. The numerous relationships that can exist between different system elements such as features and their implementing artefacts can ...
  • Clarke, Siobhán; Fitzgerald, Brian; Nixon, Paddy; Pohl, Klaus; Ryan, Kevin; Sinclair, David; Thiel, Steffen (SAE International, 2008)
    The amount and complexity of software in automotive systems is constantly increasing. Today’s luxury cars include numerous electronic control units. A large part of the functionality of these units is driven by software. In ...
  • Thiel, Steffen; O'Brien, Liam; Ali Babar, Muhammad; Botterweck, Goetz (SAE, 2008)
    Product line approaches are well-known in many manufacturing industries, such as consumer electronics, medical systems and automotive [1]. In recent years, approaches with a similar background have rapidly emerged ...
  • O'Leary, Pádraig; Mc Caffery, Fergal; Richardson, Ita; Thiel, Steffen (2009)
    Software Product Lines (SPL) and Agile practices have emerged as new paradigms for developing software. Both approaches share common goals; such as improving productivity, reducing time to market, decreasing development ...
  • O'Leary, Pádraig; Thiel, Steffen; Botterweck, Goetz; Richardson, Ita (2008)
    Inefficient product derivation practices can greatly diminish the productivity gains expected from a software product line approach. As a foundation for systematic and efficient product derivation a better understanding ...
  • O'Leary, Pádraig (University of Limerick (Faculty of Science and Engineering), 2010)
    The derivation of individual products from a software product line is still seen as a timeconsuming and expensive activity in many organisations. Despite recognition that an effective derivation process could alleviate ...
  • Botterweck, Goetz; Nestor, Daren; PreuBner, André; Cawley, Ciarán; Thiel, Steffen (2007)
    Adopting a software product line approach allows companies to realise significant improvements in time-to-market, cost, productivity, and system quality. A fundamental problem in software product line engineering is the ...
  • Botterweck, Goetz; Thiel, Steffen; Crawley, Ciarán; Nestor, Daren; PreuBner, André (IEEE Computer Society, 2008)
    Software Product Line engineering has emerged as a viable and important software development paradigm in the automotive industry. It allows companies to realise significant improvements in time-to-market, cost, productivity, ...
  • Nestor, Daren; O'Malley, Luke; Quigley, Aaron; Sikora, Ernst; Thiel, Steffen (2007)
    Using a product line approach allows companies realize significant improvements in time-to-market, cost, productivity, and quality. One fundamental problem in software product line engineering is related to the fact ...
  • Nestor, Daren; O'Malley, Luke; Healy, Patrick; Quigley, Aaron; Thiel, Steffen (Associaton for Computing Machinery, 2007)
    Adopting a software product line approach al-lows companies to realise significant improve-ments in time-to-market, cost, productivity, and system quality. A fundamental problem in soft-ware product line engineering is the ...
  • Cawley, Ciarán; Thiel, Steffen; Botterweck, Goetz; Nestor, Daren (2009)
    Within Software Product Line (SPL) Engineering,feature modelling is a prevalent mechanism for managing variability but is insufficient for describing it as a whole and for relating its different aspects. Other modelling ...
  • Cawley, Ciarán; Thiel, Steffen; Healy, Patrick (2008)
    Software Product Line Engineering is a development paradigm that focuses on the identification and management of the commonalities and variability of a set of software products such that core assets can be developed and ...
  • Botterweck, Goetz; Thiel, Steffen; Nestor, Daren; Abid, Saad bin; Cawley, Ciarán (IEEE Computer Society, 2008)
    Software product lines of industrial size can easily incorporate thousands of variation points. This scale of variability can become extremely complex to manage resulting in a product development process that bears significant ...

Search DSpace

Browse

My Account