3,008 research outputs found
The Conditions for Repository Knowledge Management System Success in New Product Development
To address the challenges of knowledge sharing in new product development (NPD) processes, many companies implement knowledge management systems (KMSs). KMS projects are, however, often not successful, and the literature disagrees on which factors affect their success. To advance this knowledge, the present study investigates the conditions for KMS success in NPD processes through a series of interviews with NPD professionals. This process identifies 43 concepts, organized under 17 dimensions, influencing the success of repository KMSs. Through the identification of relationships between these dimensions, a conceptual model describing the conditions for KMS success is developed. The study hereby provides two main overall contributions. First, as compared to existing models, the present model provides a more detailed and complete account of the factors that influence KMS success. Second, the study identifies four main characteristics that set KMS projects apart from other enterprise information system projects
Identifying the IT Readiness of Small and Medium Sized Enterprises
Several studies show that often IT projects are not successful in being on-time, on-budget and include full functionality. There can be multiple causes for this, and an important factor in this context is the extent to which a company is ready for an IT project. To help understand this aspect, this paper presents a framework for analyzing the \u27IT readiness\u27 in SMEs (small and medium sized enterprises). The framework defines IT readiness with a basis in three overall dimensions (company, management, and employees), which are subdivided into different characteristics. To illustrate the framework a case study of a Danish SME is presented. Furthermore, the paper discusses how to improve the IT readiness of a company
On simulation of local fluxes in molecular junctions
We present a pedagogical review of current density simulation in molecular
junction models indicating its advantages and deficiencies in analysis of local
junction transport characteristics. In particular, we argue that current
density is a universal tool which provides more information than traditionally
simulated bond currents, especially when discussing inelastic processes.
However, current density simulations are sensitive to choice of basis and
electronic structure method. We note that discussing local current conservation
in junctions one has to account for source term caused by open character of the
system and intra-molecular interactions. Our considerations are illustrated
with numerical simulations of a benzenedithiol molecular junction.Comment: 10 pages, 6 figure
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