CS-Report: Web Based Developed Reporting Tool
(Tubitak - Teydeb)
CS-Report: Between specialities of Web-Based Developed Reporting Tool; aims like easily integrate to development stages and applications in use, to support the various reporting methods like dynamic reporting, list reports, cross reports, sub reports, to produce output to file formats which are using frequently nowadays, to use easily and represent report planning interface.
On this way, it is aimed to develope domestic product which enables Turkish planning and user interface, able to work over Web, based on the data transportation and data storage possibility on XML technology and decreasing the cost of the projects by this product.
XSPEED (CELTIC)
XSPEED will revolutionise XML processing for Service Oriented Computing (SOC) applications by defining, implementing and evaluating an interface to enable these applications to take advantage of XML processing hardware sub-systems currently in existence or likely to emerge in the future.
SOC uses XML messages to transfer information between web services over the enterprise service bus (ESB). A significant barrier to the adoption of SOC is the computing resource required to deliver effective, efficient and secure solutions in XML processing. IBM and Intel have stated recently that this requires special purpose hardware. Cybersoft will deploy the technology in a financial services application to be tested in a real-life situation within the Turkish Central Registry Agency (MKK).
(Tubitak - Teydeb)
CS-Report: Between specialities of Web-Based Developed Reporting Tool; aims like easily integrate to development stages and applications in use, to support the various reporting methods like dynamic reporting, list reports, cross reports, sub reports, to produce output to file formats which are using frequently nowadays, to use easily and represent report planning interface.
On this way, it is aimed to develope domestic product which enables Turkish planning and user interface, able to work over Web, based on the data transportation and data storage possibility on XML technology and decreasing the cost of the projects by this product.
XSPEED (CELTIC)
XSPEED will revolutionise XML processing for Service Oriented Computing (SOC) applications by defining, implementing and evaluating an interface to enable these applications to take advantage of XML processing hardware sub-systems currently in existence or likely to emerge in the future.
SOC uses XML messages to transfer information between web services over the enterprise service bus (ESB). A significant barrier to the adoption of SOC is the computing resource required to deliver effective, efficient and secure solutions in XML processing. IBM and Intel have stated recently that this requires special purpose hardware. Cybersoft will deploy the technology in a financial services application to be tested in a real-life situation within the Turkish Central Registry Agency (MKK).
ReDSeeDS (FP6 )
Software development industry, while being the key driver of modern economy has an unacceptably high level of failures, caused to large extent by high complexity (interdependencies and variability) of require-ments. Software development industry has significant problems with managing this complexity - with keep-ing track of changes and reusing knowledge from previous projects. The main barrier in overcoming these problems is lack of widely accepted and easy to apply mechanisms for expressing and reusing coherent so-lutions to problems formulated as user requirements
The main objective of the project is thus to create an open framework consisting of a scenario-driven development method (precise specification language and process for the "how-to"), a repository for reuse and tool support throughout. The basic reuse approach will be case-based, where a reusable case is a complete set of closely linked (through mappings or transformations) software development technical artefacts (models and code), leading from the initial user's needs to the resulting executable application. A new problem description in the form of a requirements model can be matched with previous requirements models. The solution information (models and code) of the most similar problem can then be taken for reuse and adapted to even only partially developed requirements. Unlike for other approaches, the effort associated with preparing reusable solutions with this framework is kept to the mini-mum.
To develop the ReDSeeDS framework, the project will combine and enhance state of the art in the areas of requirements engineering, meta-modelling, model transformation and querying and inference techniques. This combination, while innovative by itself, will enable a completely new approach to software development based on this form of case-based reuse.
Such approach should be an enabling factor for starting a true reuse-oriented software development community, based on openly available case query engines and solutions validated in practice.
Software development industry, while being the key driver of modern economy has an unacceptably high level of failures, caused to large extent by high complexity (interdependencies and variability) of require-ments. Software development industry has significant problems with managing this complexity - with keep-ing track of changes and reusing knowledge from previous projects. The main barrier in overcoming these problems is lack of widely accepted and easy to apply mechanisms for expressing and reusing coherent so-lutions to problems formulated as user requirements
The main objective of the project is thus to create an open framework consisting of a scenario-driven development method (precise specification language and process for the "how-to"), a repository for reuse and tool support throughout. The basic reuse approach will be case-based, where a reusable case is a complete set of closely linked (through mappings or transformations) software development technical artefacts (models and code), leading from the initial user's needs to the resulting executable application. A new problem description in the form of a requirements model can be matched with previous requirements models. The solution information (models and code) of the most similar problem can then be taken for reuse and adapted to even only partially developed requirements. Unlike for other approaches, the effort associated with preparing reusable solutions with this framework is kept to the mini-mum.
To develop the ReDSeeDS framework, the project will combine and enhance state of the art in the areas of requirements engineering, meta-modelling, model transformation and querying and inference techniques. This combination, while innovative by itself, will enable a completely new approach to software development based on this form of case-based reuse.
Such approach should be an enabling factor for starting a true reuse-oriented software development community, based on openly available case query engines and solutions validated in practice.
