Title: WP2: Survivability, traffic engineering, techno- and socio-economic studies and evaluations
1WP2 Survivability, traffic engineering, techno-
and socio-economic studies and evaluations
AGH University of Science and Technology
- WP2 Objectives (Technical Annex, Chapter 8.6)
- Survivability case studies considering both
protection/resiliency in multilayer networks
6 MMs - Traffic engineering studies 16 MMs
- Techno-economic case studies in order to find
efficient network solutions and evaluate their
economic viability considering both CAPEX and
OPEX costs 13 MMs - Socio-economic feasibility studies 5 MMs
2WP2 Survivability, traffic engineering, techno-
and socio-economic studies and evaluations
AGH University of Science and Technology
- WP2 Activities (Technical Annex, Chapter 9.1)
- A2.1 - Investigation of advanced survivability
concepts for multi-service / multi-layer /
multi-domain networks - A2.2 - Study of traffic engineering concepts for
end-to-end broadband services for all - A2.3 - Techno-economic analysis of network
solutions and evaluation of their economic
viability - A2.4 - Socio-economic feasibility studies for
investigating and assessing new social and
economic opportunities - A2.5 - Definition and assessment of different
business models for the solutions proposed by
NOBEL
3AGH University of Science and Technology
4AGH University of Science and Technology
5AGH University of Science and Technology
6AGH University of Science and Technology
WP2 - A2.1 AGH Task 3 Investigation of
resilience features of RPR
- Enhanced resilience using built-in mechanisms of
RPR - Multi-ring architectures and its usage in a case
of traffic differentiating (i.e. supporting QoS), - Interworking of RPR with other layers/protocols,
impact on traffic engineering and resilience - upper layer MPLS (IP),
- lower layer (OTN),
7WP2 Survivability, traffic engineering, techno-
and socio-economic studies and evaluations
AGH University of Science and Technology
- WP2 Activities (Technical Annex, Chapter 9.1)
- A2.1 - Investigation of advanced survivability
concepts for multi-service / multi-layer /
multi-domain networks - A2.2 - Study of traffic engineering concepts for
end-to-end broadband services for all - A2.3 - Techno-economic analysis of network
solutions and evaluation of their economic
viability - A2.4 - Socio-economic feasibility studies for
investigating and assessing new social and
economic opportunities - A2.5 - Definition and assessment of different
business models for the solutions proposed by
NOBEL
8AGH University of Science and Technology
9AGH University of Science and Technology
10AGH University of Science and Technology
11AGH University of Science and Technology
12AGH University of Science and Technology
13AGH University of Science and Technology
14WP2 Survivability, traffic engineering, techno-
and socio-economic studies and evaluations
AGH University of Science and Technology
- WP2 Activities (Technical Annex, Chapter 9.1)
- A2.1 - Investigation of advanced survivability
concepts for multi-service / multi-layer /
multi-domain networks - A2.2 - Study of traffic engineering concepts for
end-to-end broadband services for all - A2.3 Techno-economic analysis of network
solutions and evaluation of their economic
viability (13 MMs) - A2.4 - Socio-economic feasibility studies for
investigating and assessing new social and
economic opportunities - A2.5 - Definition and assessment of different
business models for the solutions proposed by
NOBEL
15AGH University of Science and Technology
16AGH University of Science and Technology
17AGH University of Science and Technology
18AGH University of Science and Technology
19WP2 Survivability, traffic engineering, techno-
and socio-economic studies and evaluations
AGH University of Science and Technology
- WP2 Activities (Technical Annex, Chapter 9.1)
- A2.1 - Investigation of advanced survivability
concepts for multi-service / multi-layer /
multi-domain networks - A2.2 - Study of traffic engineering concepts for
end-to-end broadband services for all - A2.3 - Techno-economic analysis of network
solutions and evaluation of their economic
viability - A2.4 - Socio-economic feasibility studies for
investigating and assessing new social and
economic opportunities - A2.5 - Definition and assessment of different
business models for the solutions proposed by
NOBEL
20AGH University of Science and Technology
21AGH University of Science and Technology
22Annex AGH contributions to WP2 deliverables
23WP2 Survivability, traffic engineering, techno-
and socio-economic studies and evaluations
AGH University of Science and Technology
- WP2 Deliverables (Technical Annex, Chapter 8.6)
- D12 Overview of social impact and economic
opportunities generated by NOBEL concepts (M10) - D15 Preliminary report on advanced network
planning techniques and business case migration
scenarios (M12) Deliverable Editor - D17 Preliminary report on new methods for route
management (intra- and inter-domain), and
accurate statistical models for evaluating the
impact on QoS (M13) - D27 Final report on Traffic engineering
resilience strategies for NOBEL solutions (M22) - D31 Business models for NOBEL solutions and
their impact on future broadband demand (M24)
24AGH University of Science and Technology
- Charging models
- Identification and specification of usage
metering parameters - Definition of charging model for transport
services -
25AGH University of Science and Technology
- Techno-economic evaluation of converging
metro/core optical networks - Cost model for optical metro/core networks
- Techno-economic evaluation of the selected
metro/core case studies based on the cost model
intermediate results - Definition of near, mid and long term migration
scenarios for metro/core optical networks
26WP2 relationships
WP3
WP1
WP4
WP2
A 2.2
A 2.1
A 2.5
WP7
A 2.3
A 2.4
D12
D15
D27
D17
D31
27AGH University of Science and Technology
- Traffic modelling
- Aggregated traffic characterization and
modelling using non-linear dynamical systems
28AGH University of Science and Technology
- Consideration of chaotic control methods of
networks withself-similar traffic in order to
optimise resources usage - Traffic grooming methods for network resource
optimisation - Methods for assuring QoS in multilayer,
multiservice networks - Definition and evaluation of QoP measures for
defined network cases
29AGH University of Science and Technology
- Multilayer charging approach
- Charging schemes
- Architecture of measurement and charging system
- Techno-economic evaluation of the selected
metro/core case studies based on the cost model
final results - Evaluation of near, mid and long term migration
scenarios for metro/core optical networks final
results -
30AGH University of Science and Technology
31WP2 - A2.3 Techno-economic analysis of network
solutions and evaluation of their economic
viability
- Preliminary work organisation
- Definition of areas of interest
- Network Planning and optimisation
- Techno-economical evaluations
- Migration scenarios
- Task groups/ Task force
- To define unified work-plan for such areas
- Specific tasks, eg.
- CAPEX, OPEX evaluation
- Cost model