Projekty badawcze realizowane przez KT:
Projects realized by KT:


The Broadband Trial Integration (BTI) project is dealing with the general topic of IPv6 over Asynchronous Transfer Mode (ATM) integration, in particulr for services, wher IPv6 multicast is required for efficient content delivery.

The objectives of BTI are:
* to demonstrate integration of IPv6 and ATM services,
* to interconnect field trials in three European countries:  Denmark, Portugal and Poland,
* to deliver multimedia services to residential users over passive optical access network (PON).

The main goal of the IST Project LION was to design, develop and assess an ASON/GMPLS network carrying multiple formats of the client data. The project main activities of the AGH Department of Telecommunications regarded the definition of the requirements of an integrated multi-layered network; proposed network evolution scenarios, the analysis of OAM concepts in an integrated optical network; the definition of effective resilience strategies for IP over optical networks.

The aim of the project is to develop a prototype of Chronic Care Support System - SWOP, whose main task is the telemonitoring of patients with chronic diseases. SWOP functionality corresponds to the modern model of care based on flexible access to medical services and differentiating the intensity of interaction with medical institutions, depending on the severity of symptoms and the patient's needs.

Euro-NF was a European project on the Network of the Future, formed by 35 institutions (from the academia and industry) from 16 countries. Its main target was to integrate the research effort of the partners to be a source of innovation and a think tank on possible scientific, technological and socio-economic trajectories towards the network of the future.

Euro-NF was a Network of Excellence supported by the theme "Information and Communication Technologies (ICT)" under the 7th Framework Programme of the European Community for RTD.

The main objective was to design and establish a framework (shell) for an intelligent global research network consisting of connected local (national) working and research networks. This framework will consist of distributed co-operating expertsystems (Intelligent Base Systems) with decision support modules for research management and intelligent knowledge retrieval provided by applied multi-agent systems. For the prototype the local research networks and workingspaces will be realised as Intranets in 5 different European countries (Germany, Finland, Hungary, Poland, Bulgaria).

The project aims at development and implementation of a complex information system for comprehensive detection and identification of risks and the monitoring and identification of moving targets. This objective can be presented in three mutually correlated, and the integrated groups of tasks:

Leveraging all results obtained in phase 1, NOBEL phase 2 considered the medium-term, long-term and extended long-term scenarios, focusing in particular on the last two, and faced with two major challenges. The first is the evolution of the data plane technology in order to reach an 'optimum techno-economic balance between optical/electrical and circuit/packet routing and switching. The second is the evolution of the network control plane towards an unified control plane that is able of improving the seamless end-to-end network service capabilities in a flexible and scalable way.

The main goal of the IST Integrated Project NOBEL (FP6-506760) was to carry out analysis, feasibility studies and experimental activities on innovative architectures, technologies and solutions for core and metro networks supporting broadband services. NOBEL contributed to the 6th FP IST strategic objective 'Broadband for All' enhancing European competitiveness in the development of IP/Optics core and metro optical networks.

The aim of the project is to specify, simulate and finally develop a device which will realize the concept of FAMTAR: Flow-Aware Multi-Topology Adaptive Routing. This is the applicants idea to realize the routing in the IP networks. FAMTAR is possible due to the popularity of flow-aware traffic management and constantly increasing available computational power in network devices. In FAMTAR, alternative routes are created dynamically, as needed.

CARMEN, CARrier grade MEsh Networks, aims at studying and specifying a wireless mesh network supporting carrier grade triple-play services in future heterogeneous mobile/fixed network operators environments. Based on the assumption that future mobile operator networks will be comprised of a common core network and several access networks, the CARMEN access network will complement existing access technologies by exploiting low costs mesh networking techniques.