Trading system intelligentes
Smart grids need to balance the fluctuating power generated with renewable energy and the actual consumption. This involves a shift from the conventional "consumption-based power generation" to "production-based consumption". Information and communication technology will play a central role in connecting the components in the energy systems. It will facilitate the monitoring and optimisation of the interlinked components. The aim is to ensure the power supply on the basis of an efficient and reliable operation of the system.
The concept of the "smart grid" describes the communicative connection of the actors in the energy supply system to the power supply grid, from power generation, transmission, storage and distribution through to the consumption of the electricity. This creates an integrated data and energy grid with completely new structures and functions. The conventional electricity meters will soon be replaced by modern smart measurement systems "smart meters".
They will be valuable assistants in the "smart grid" which will not only measure the power consumption or the electricity fed into the grid for accounting purposes, but will also record voltage failures and provide the grid operators with important information so that the power generation, grid loads and consumption can largely be adjusted automatically. Even the smart control of power consumption and storage devices in households can be made possible with smart measurement systems. Chipsand More is a global distributor of franchised and non-franchised electronic components, with a growing customer base of over OEMs, CEMs, Distributors and Traders throughout our worldwide network.
With offering all kind of active, passive and emec electronic components, customer-specific procurement solutions, just-in-time-services, state-of-the-art software development and a growing inventory, they evolved into a global distributor. Since the beginning in , their sales growth is matched only by their commitment to talented team members that extend the most value to their customers.
With their defined commitment to excellence and the opening of a branch structure back in January , Chipsand More established strategic global partnerships and grew into an innovative partner for the entire electronics industry. Currently, ChipsandMore - in collaboration with IIS - develops an intelligent sales support solution to become even more beneficial for their customers. Dies erfolgt vorerst im Bereich Elektro-Elektronik.
Weiterhin sollen intelligente Mechanismen bei der Einsatzplanung der Techniker implementiert werden. The goal of RISE was to provide a comprehensive solution for the reuse of products, methods, models, and experiences in s oftware e ngineering. The starting point for this development was how defects are dealt with in software development. This results in a process for practicable software engineering that is particularly tailored to SMEs.
Beyond that, such a process can be the starting point for further software engineering activities. This defect management is seamlessly integrated into the respective SME's feature- and configuration management.
The goal of the indiGo project was the development of an integrated solution for process-oriented k nowledge m anagement in a software engineering environment. TOOLIP's Tools and Methods for IP main goal is to address the complexity of current system design in networking, high-speed links, multimedia and automotive domains by using system-level modeling and verification techniques, applying design reuse with qualified and parametric IP cores, and providing a seamless design flow integrating existing and emerging tools.
The close cooperation of IP users, IP providers, designers and research institutes constitutes one of the major potentials of the consortium. TOOLIP will be crucial to the positioning of European industry, since the IP-based system-level modeling and simulation design methodology represents a breakthrough in current design methodology, which would lead to a strong impact on competitiveness and standardization.
By establishing a team with the required know-how, TOOLIP will also present new business opportunities, which would facilitate the creation of spin-off companies. Software engineering processes are highly creative and therefore prone to frequent changes through both, the planning phase and process enactment.
Software projects often extend over a long period of time making it impossible to plan the project in detail before process execution starts.
Information necessary to complete the plan may not be available at the planning stage but is gathered as part of the process itself. Due to the long project duration, and to the fact that experience with a particular kind of software project is often gained only while executing this project, project plans often turn out to be inadequate. Further, products of the software process are seldom correct "at first try". Usually, several rework circles have to be done, with changes made to products, which in turn necessitate more changes to keep products consistent with each other.
In large, distributed software projects, these changes can easily lead to problems: The goal of this project was to improve case-based reasoning methods for classification tasks, developed at the University of Kaiserslautern, particularly in the INRECA project, for their practical industrial use.
The project contributed to the development of methods and tools for modelling the required knowledge of an application area, the development of tools for case acquisition, the development of a CBR server Web server, the development of an enhanced consultation system.
Within this project, the prototype of the of the CBR -Works tool was developed and an evaluation copy was distributed to more than people world-wide via the internet. Since May , tecInno GmbH now: Inreca's basic technologies are inductive and case-based reasoning. Induction extracts decision knowledge from case databases.