Work Packages

Work Packages


WP1: Management
I. Main objectives
1. Μonitoring tasks, deliverables, and milestones
2. Οrganizing and coordinating events
3. Μanaging resources, IPR, quality control
4. Ηandling DC recruitment process, and project’s internal conflicts
II.Deliverables
1. NEWTON website
2. Supervisory Board of the network
3. Data management plan
4. Progress Report
5. Career Development Plans
III. WP1 Leader: IQUADRAT		WP2: Training
I. Main objectives
1. To design, organize and implement the NEWTON training programme
2. Arrange the network-wide training events
3. Provide the suitable training platforms/tools
4. Establish the necessary feedback channels for quality assurance on training
II.Deliverables
1. Training activities Y1-Y2
2. Training activities Y3
III. WP2 Leader: KU Leuven
WP3: Dissemination, communication and standardization
I. Main objectives
1. To coordinate all the activities that are related to the dissemination of the research achievements of the project
2. To ensure the visibility of the results to specialized and
no specialized communities
3. Promote the discernibility of standardization groups
II.Deliverables
1. Plan for the dissemination and exploitation of results, including
communication activities
2. Updated plan for the dissemination and exploitation of results, including communication activities
III. WP3 Leader: NVIDIA
WP4: Radio-edge solutions for 6G networks
I. Main objectives
1. State-of-the-art assessment of radio-edge technologies
2. Design of data-driven models for CF
3. Design of distributed estimation of CSI
4. Design of optical precoding/decoding weights
5. Design of neuromorphic solutions for
dimensionality reduction
II.Deliverables
1. Recent advances on radio-edge technologies
2. Design of radio-edge solutions for 6G networks
3. Performance evaluation of the designed radio-edge solutions for 6G
networks
III. WP4 Leader: UWA

WP5: Regional-edge solutions for 6G networks
I. Main objectives
1. State-of-the-Art assessment and acquisition of tools for analysis and optimization of the regional-edge solutions
2. Design of XL-MIMO antennas
3. Design of a scalable DC interconnection solution
4. Design/optimization of optical X-haul network
II.Deliverables
1. Recent advances on regional-edge technologies
2. Design of regional-edge solutions for 6G networks
3. Performance evaluation of the designed regional-edge solutions for 6G networks
III. WP5 Leader: ISRD

WP6: Network management for 6G networks
I. Main objectives
1. State-of-the-Art assessment and acquisition of tools for analysis and optimization of network management innovations
2. Design of radio and of computational scheduling algorithms and joint resource management
3. Evaluation and optimization of the developed solutions
II.Deliverables
1. Recent advances on network management solutions
2. Design of network management solutions for 6G networks
3. Performance evaluation of the designed network management solutions
III. WP6 Leader: ISI/ATH