potential, other environments of social innovation relevant actors and networks, technological innovations, etc Civil society and the social economy as
or â€oesafe environments, †where social innovation can occur, while regimes are the larger rules or practices that shape innovation.
 Financial/economic environment  Human resources  Legal/institutional environment  Political context  Social context
AN ECOSYSTEM FOR INNOVATIVE SOCIAL PURPOSE ORGANISATIONS OF INNOVATIVE GOODS AND SERVICES ENHANCING SUPPLY Â Campaigning and advocacy
 Financial/economic environment  Human resources  Legal/institutional environment  Political context  Social context
AN ECOSYSTEM FOR INNOVATIVE SOCIAL PURPOSE ORGANISATIONS OF INNOVATIVE GOODS AND SERVICES ENHANCING SUPPLY Â Campaigning and advocacy
and its innovative potential, other environments of social innovation, relevant actors and networks technological innovations, etc.
environments in which certain ones of such types have particularly high chances of success or about
were operating within a relatively protected environment they must now face the global forces of competition.
opportunities that SME can seize from its environment 2. 1. Internal factors bearing impact on innovation
environment related. Internal obstacles have to do with difï culties that are related to resources within the ï rm or
business environment, organizational issues, and availabil -ity of information about markets and technology. We ask
evolution in a complex environment. Research Policy 24, 521†542 Iyer, G r.,Laplaca, P. J.,Sharma, A.,2006.
Does competitive environment moderate the market orientation†performance relationship. Journal of Marketing 57, 46†55
Chinese business environment. Journal of Business Research 56 227†239 ARTICLE IN PRESS S. Radas, L. Bozë icâ'/Technovation 29 (2009) 438†450450
ensuring systemic and reinforced competitiveness in a global economic environment An interesting trend is that a vast majority of highly industrialised countries have set up so-called
innovative environment is a prerequisite of development. The aims of such innovation policies are to create jobs,
Our environment-including our belief and value systems-shapes the way we view the world around us and determines how we react to ongoing changes.
which is a radically different environment from the initial Internet based on physi -cal links. Data traffic for mobile broadband will double every year until 2014, in
Algorithms on the Federated Environment of Panlab...237 Christos Tranoris, Pierpaolo Giacomin, and Spyros Denazis
Testing End-to-end Self management in a Wireless Future Internet Environment 259 Apostolos Kousaridas George Katsikas, Nancy Alonistioti, Esa Piri
-forms, which have the aim to create a flexible environment for autonomic deployment and management of virtual networks and services as experimented with and validated
constituting the ICT environment, by means of the introduction of Semantic Virtual -ization Enablers. On the other hand, it aims at achieving an internetwork and inter
Preliminary test studies, realized in a home environment, confirm the potentialities of the proposed solution
-tion exchange and the dominant communication environment for business relations and social interactions. Billions of people all over the world use the Internet for find
applications like collaborative 3d immersive environments, new commercial and transactional applications, new location-based services and so on
and systems infrastructure and essential services in many critical environments such as healthcare, transportation, compliance with legal regulations, etc
Devices in environments such as sensor networks or even nano-networks/smart dust as well as in machine to machine-machine (M2m) envi
-ity/behavior as well as the environment/external conditions ii. Improper segmentation of data and control. The current Internet model segments
-forms, which have the aim to create a flexible environment for autonomic de -ployment and management of virtual networks and services as experimented
-ble environment for autonomic deployment and management of virtual networks and services as experimented with
•It enables secure but controlled execution environments •It allows an infrastructure that is aware of the impact on the existing services of a
such the Management Plane components will run on execution environments sup -ported by the virtual networks and systems,
environment for In-Network Clouds in Future Internet. They are described briefly here -with. Full design and implementation of all software platforms are presented in 10
environment. We have described also the management architectural and system model for our Future Internet, which were described with the help of five abstractions and
realisation of future communications environments in the future Internet 4 11 12 13. The Future Internet architecture must provide societal services and,
work environment, which enable services to self-adapt according the changes in the network context and environment.
It also means that services are executed both and managed within network execution environments and that both the services and the
network resources can be managed uniformly in an integrated way. Uniform man -agement allows services and networks to harmonize their decisions and actions 14
Future Internet environments consist of heterogeneous administrative domains each providing a set of different services. In such complex environment, there is no
single central authority; rather, each provider has at least one (and usually multiple separate resources and/or services that must be shared
both themselves and their environment, so that they can self-govern their behaviour within the constraints of the business goals that they collectively seek to achieve
-munications environments to effectively provide complex services (interoperable boundaries) and, in doing so, support and sustain service offering between various
-eration and integrated management of outer edge network environments; delegation of management authority to network management systems and decentralised assur
the physical environment that is instrumented with machine readable identification tags, sensors, actuators and processing elements organized in domain specific islands
environment of elderly people. The system is based on the OSGI service middleware and consists of two main sub systems:
currently influenced in enterprise IT environment and in the Web2. 0 mashup culture showing the importance of flexibly reusing service components to build efficient appli
-ing the ICT environment, by means of the introduction of Semantic Virtualiza -tion Enablers, in charge of virtualizing the heterogeneous entities interfacing
studies, realized in a home environment, confirm the potentialities of the pro -posed solution Keywords:
GENI 6 (Global Environment for Network Innovations) is a virtual labo -ratory for at scale experimentation of network science, based on a 40 Gbps real infra
-tion coming from the whole environment (i e.,, users, contents, services, network re -sources, computing resources, device characteristics) via virtualization and data min
Furthermore, in each specific environment, the Cognitive Framework functional -ities have to be distributed properly in the various network entities (e g.
for hosting the Cognitive Managers have to be selected environment by envi -ronment. Moreover, the Cognitive Managers functionalities (and, in particular
Elaboration functionalities have to be selected carefully environment-by -environment, trading-off the advantages achieved in terms of efficiency with the
entailed additional SW/HW/computation complexity 7) Thanks to the flexibility degrees offered by issues (4)-(6), the Cognitive Manag
-sidered environment is performed, the proposed architecture can actually scale from environments characterized by few network entities provided with high
processing capabilities, to ones with plenty of network entities provided with low processing (e g. Internet of things 8) The above-mentioned flexibility issues favours a smooth migration towards the
Of course, careful, environment-by -environment selection of the Cognitive Manager functionalities and of the network
entities in which such functionalities have to be embedded, is essential in order to allow scalability and to achieve efficiency advantages
approach to different environments aiming at assessing, in a quantitative way, the actual achieved advantages in terms of flexibilty (scalability) and efficiency;
used to identify with no ambiguity the ASO in an OSI environment, consists of AP-title (Application Process title) which, by nature, addresses the applications
Global Environment for Network Innovation Program. National Science Foundation, http://www. geni. net (2011 15 Gruber, T.:
(7) The investigation of the physical environment of e-services in terms of availability, worldwide vs. highly focused (cities),
well-being, subject to restrictions imposed by the environment and the actions of others 6. Similarly, game-theoretic models that aim at finding
-puting, for instance, is built on shared resources and computing environments, offer -ing virtualized environments to individual tenants or groups of tenants, while execut
-ing them on shared physical storage and computation resources. The concept of Plat -form-as-a-Service provides joint development and execution environments for soft
-ware and services, with common framework features and easy integration of func -tionality offered by third parties.
-rity support in programming and execution environments for services, and suggest using rigorous models through all phases of the SDLC, from requirements engineer
-trial-scale process modeling and execution environments. The two chapters demon -strate the way towards rigorous security and trust assurance in the future Internet
in a hostile environment, where a large number of users are assumed to collude against the network and other users.
so threats in the environment may change along the time and some reconï guration may be required to adapt to that changes
4 Security Support in Programming Environments Security Support in Programming Environments is not new; still it remains a
grand challenge, especially in the context of Future Internet (FI) Services. Secur -ing Future Internet Service is inherently a matter of secure software and systems
speciï c service architectures will be used, that (2) new types of environments will be exploited, ranging from small embedded devices (â€oethingsâ€) to service in
The search for security support in programming environments has to take this context in account.
-quired as well for many of the typical FI service environments. Next we further elaborate on the needs and the objectives of community wide research activities
Obviously the security support in programming environments that must be delivered will be essential to incept a transverse methodology that
to service or component substitution, evolving environments, evolving security requirements, etc. both during system development and operation.
for preserving privacy in ubiquitous environments. In: Proc. of the Workshop on Ubiquitous Knowledge Discovery for Users at ECML/PKDD, pp. 51†64 (2006
technology and run in diï €erent environments, yet interact and may interfere with each other 8 Such as model checking with constraints, approaches based on SAT (i e.,
representing the execution of the service under scrutiny in a hostile environment †enjoys the security properties speciï ed by a given formula.
-ing assumptions on the service and/or on its execution environment that prevent their applicability in some important cases.
to implement and assess in such environments. To ease the analysis, it is neces -sary to factor out the access control policies and meta-policies from the possible
to the SAP environment. Two valuable migration activities have been carried out by building contacts with core business units.
Cloud environments aim at eï ciencies of scale by increased sharing resources between multiple customers.
In order to mitigate this risk in a cloud computing environment, multi-tenant isolation ensures customer isolation. A principle to structure isolation manage
cloud environment or recover from software and hardware failures For building such resilient systems, important tools are data replication
to continue operating a secure environment. This means that security infrastruc -ture and systems within the cloud such as intrusion detection, event handling
The vision of the Future Internet heralds a new environment where users, services and devices transparently and seamlessly exchange
This environment enables both incremental and disruptive approaches, supports multi-disciplinary research that goes beyond
Environment of Panlab†reports on experiments needing to directly interact with the environment during runtime,
and introduced requirements and solutions for a signifi -cant upgrade of the federated testbed environment that was used.
The chapter by Zseby et al. entitled â€oemultipath Routing Experiments in Federated Testbeds†demon -strates the practical usefulness of federation and virtualisation in heterogeneous testbeds
they would be not have been possible without the ability to create environments across multiple administrative domains using the concepts of federation, in particular their
Environment of Panlab Christos Tranoris, Pierpaolo Giacomin, and Spyros Denazis Electrical and Computer engineering department, University of Patras
-vices, a visual Creation Environment which is called â€oevirtual Customer Testbed VCT) tool†where a customer can define requested services, a repository which
moving a designed algorithm from a simulating environment to near production best -effort environment and ii) to exploit the framework in such a way that will allow the
system under test to directly request or release resources that it uses. The latter indi -cates that the experiment needs access to the whole framework after the provisioning
Furthermore it can be deployed in a virtualized environment using Xen server technology, which allows regulating system resources such as CPU
3 Technical Environment, Testbed Implementation and Deployment From the requirements of the use case, it is evident that it would benefit from a test
in order to manage and configure various environment parameters or to get status of the resources Fig. 5. Designing the algorithm to operate resources during execution
the designed algorithms from simulating environments to near production environ -ments. What is really attractive is that such algorithms can be tested in a best-effort
environment with real connectivity issues that cannot be performed easily in simula -tion environments. The presented use case example demonstrated the usage of exist
-ing experimental facilities in this case by exploiting the Panlab framework. The inter -esting of this experiment is that it extends the framework to allow the system under
from simulating environments to near production environments. Using the existing deployed RUBIS facility makes the setup and scaling up of such a testbed much easier
hosting the RUBIS environment. We expect to make more resources available as demand increases Acknowledgments.
In such an environment federation and virtualization of resources are key features that should be supported in a future Internet.
-erated environments with measurement functions, federation has also further challenges. The control and veriï cation of service level agreements (SLAS) be
-sults by experiments in large-scale highly distributed environments and under real network conditions The experimental facilities as provide by the the European FIRE program 1
generate a much better controllable environment. We can install and use arbitrary software on the G-Lab nodes.
GENI-Global Environment for Network Innovations (2006 Information available at http://www. geni. net /11.
Future Internet Environment Apostolos Kousaridas1, George Katsikas1, Nancy Alonistioti1, Esa Piri2 Marko Palola2, and Jussi Makinen3
network environment. The monitoring and configuration capabilities that differ -ent administrative domains provide has been exploited in order to test network
environment and exploiting monitoring and configuration capabilities that different administrative domains provide (i e. access network and service layer).
is shown in Fig. 1. The Wimax network environment consists of Airspan Micro -MAX base station (BS) 7
Octopus testbed at Oulu 4. The BS and SS operate in a laboratory environment with
Testing End-to-end Self management in a Wireless Future Internet Environment 261 Fig. 1. Octopus testbed Wimax and Self-NET software federation
environments We implemented A BS control software (i e. NECM) to allow dynamically collect Wimax link information from the BS
For the test environment provisioning, the IP tunneling (IPIP) and routing was setup at both ends,
Testing End-to-end Self management in a Wireless Future Internet Environment 263 Fig. 3. Network topology and IPIP tunneling
Testing End-to-end Self management in a Wireless Future Internet Environment 265 Fig. 4. Decision-making algorithm for configuration action selection †Simple
Testing End-to-end Self management in a Wireless Future Internet Environment 267 increase rate is not linear
Testing End-to-end Self management in a Wireless Future Internet Environment 269 Table 6. Qos features improvement after partial (70%)Voip codec change from G. 711.1 to
the Octopus wireless network environment prove both the feasibility of the proposed architecture and the Qos improvement (e g.,
An experimental path towards Self management for Future Internet Environments. In Tselentis, G.,Galis, A.,Gavras, A.,Krco, S.,Lotz, V.,Simperl, E.,Stiller, B. eds.
adapted to changing environments, and; learn the desired behaviour over time. As self-organizing and self-managing systems have a considerable market impact, we
be adapted dynamically to changing environments, and; learn the desired behaviour over time, based on the original context of the Self-NET
executed and managed within network execution environments and that both services and network resources can be managed uniformly in an integrated way.
adapts dynamically to changing environments, and; learns the desired behaviour over time. The effective design of monitoring protocols so as to
risks currently present in network environments request for immediate attention. This could be achieved by building trustworthy network environments to assure security
levels and manage threats in interoperable frameworks for autonomous monitoring 1. 2 The Vision of a Modern Self-Managing Network
In such an evolving environment, it is required the network itself to help detect, di -agnose and repair failures,
include management (especially in self-organized wireless environments), resilience and robustness, automated re-allocation of resources, operations†abstractions in the
service capability across heterogeneous environments. Besides, the introduction of cognition in networks can contribute towards overcoming structural limitations of
Cognitive capabilities can enable the perception of the NES environment and the decision upon the necessary action (e g. configuration, healing, protection measures
having as a main goal the efficient handling of complexity towards FI environments This, combined with the introduction of cognitive functionalities at all layers, can
network environment can ease network composition and network planning procedures and can ensure the automatic adaptation of networks/services to capabilities of the
service environment, to sustain high Qos, to recover from faults and to maximize the overall network performance, especially when congestion phenomena appear
In the proposed test-bed, a heterogeneous wireless network environment has been deployed, consisting of several IEEE 802.11 Soekris access points (AP) 33 and an
The NECM periodically monitored its internal state and local environment by measur -ing specific parameters,
are common to corporate environments and, especially to those that can occasionally host numerous nomadic end-users
at a more distributed environment both in terms of management and operational ac -tivities. To this aim, cognitive networks with self-aware functionalities introduce a
-shop on Modelling Autonomic Communications Environments (2006 25. Strassner, J.:Policy-Based Network Management. Morgan Kaufmann Publishers, San
in a certain environment will be able to create a communication network. Challenges such as the infrastructure coverage extension or the infrastructure capacity extension
observed radio environment, the node capabilities, the network operator policies and the user profiles, the outcome of this phase will be to decide
lifetime to changing environment conditions (e g. context, operator†s policies, user profiles). ) In order to achieve this, after the successful completion of the creation
-Monitoring of radio environment parameters prior the creation of the ON Creation Maintenance -ON monitoring and
Network Environment (ONE) 14,15 An indicative network topology of 60 total participant nonmoving nodes is illus
Management environments. Chapters 4-7 cover the respective use cases and evalua -tion results and Chapter 8 concludes the overall discussion
Internet, a management environment consisting of SLA and Service Managers can be set up in different flavours.
-nents in multiple instances), the actual scalability in a target environment depends on the number of interrelations between different artefacts.
-tional efficiency decisions within the environment. These decisions maximise the value from the infrastructure investment.
in heterogeneous environment to the devices mobility in 4g networks handovers using the DOHAND (Domain Ontology for Handover.
-sive environments including sensorial experiences beyond video and audio (engaging all the human senses including smell,
content-awareness to the network environment, network-and user context -awareness to the service environment,
and adapted services/content to the end user for his best service experience possible, taking the role of a consumer
-tionalities for efficient cooperation between entities of various environments so as to finally provide the end user with the best and most complete service experience via a
Media Ecosystem, aiming to provide content-awareness to the network environment network-and user context-awareness to the service environment, and adapted ser
-vices/content to the end user†s Environment 2 Background Numerous events and studies are dedicated currently to (re) define the directions
which the Future Internet development should follow. Among other issues, a higher coupling between application and network layers are investigated,
These environments are •User Environment (UE), to which the end users belong •Service Environment (SE), to which the service and content providers belong
•Network Environment (NE), to which the network providers belong By Environment, it is understood a generic and comprehensive name to emphasize a
grouping of functions defined around the same functional goal and possibly spanning vertically, one or more several architectural (sub-)layers.
It characterizes a broader scope with respect to the term layer. By Service, if not specified differently, we un
-derstand here high level services, as seen at application/service layer 372 H. Koumaras et al
The ALICANTE architecture contains vertically several environments/layers and can be spanned horizontally over multiple network domains
The User Environment (UE) includes all functions related to the discovery, sub -scription, consumption of the services by the EUS. At the Service Environment (SE
the Service Provider (SP) entity is the main coordinator. The architecture can support both synchronous communications or publish/subscribed ones.
The Network Environment (NE) comprises the virtual CAN layer (on top) and the traditional network infrastructure layer (at the bottom.
These parameters are gathered from every environment using dedicated user profile management and/or monitoring entities/subsystems
In this environment, the main business actors/entities envis -aged (as shown in Figure 3) are the following
Each of the previously described environments is present in today actual deploy -ments, but there is a profound limitation of collaboration among them.
-tion between entities of the various environments to provide the end-user with the best service experience while preserving the fundamental principle of network neutrality
Network Environments. ALICANTE, No248652 (last accessed: March 2011)( 2011 http://www. ict-alicante. eu /2. Borcoci, E.,Negru, D.,Timmerer, C.:
-cient and personalized way through dynamic and heterogeneous environments in Future Internet. Scalable Video Coding (SVC) and Multiple Description
-neous environments. Multimedia content over internet are becoming a well-liked application due to users'growing demand of multimedia content and extraordinary
in academic and industrial environments. With respect to conventional approaches, a major advantage in using P2p is that each peer involved in a content delivery contrib
vibrant environments while maximizing not only Quality of Service (Qos) but also Quality of Experience (Qoe) of the users.
In such urban environments, people, companies and public authorities experience specific needs and demands regarding domains such as healthcare, media, energy and
the environment, safety, and public services. These domains are enabled increasingly and facilitated by Internet-based applications and infrastructures based on common
Therefore, cities and urban environments are facing challenges to maintain and upgrade the required infrastructures
-works for Open Innovation†elaborates the concept of â€oesmart cities†as environments of open and user driven innovation for experimenting
-vation environments, to achieve ambitious city development goals. This approach re -quires sustainable partnerships and cooperation strategies among the main stakeholders
Internet of things and Enterprise Environments (DG Infso. The report claims that we are close to a significant transformation in the enterprise systems, where (i
environments, specifically conceived to be used directly by business experts. Such development environments will be based on an evolution of MDA,
Fig. 3. FINES design environment 5. 2 A Cloud-Based Architecture for FINERS Runtime Once a FINES has been assembled
see Fig. 1), a runtime environment will recognise, connect, and support the execution and collaboration of the FINER
Fig. 4. FINES Runtime Environment Future Internet Enterprise Systems 417 The runtime architecture of Fig. 4 is described in a sketchy way,
environment from which to derive best practices and guidelines to follow when build -ing low carbon networks.
Rising energy costs, working in an austerity based environment which has dynami -cally changing business requirements has raised the focus of the community to control
that provide running environment enabling cloud computing and networking capabili -ties to GSN services. The Cloud Middleware plane corresponds to the User-level
i) Setting up a new environment (i e.,, a new data center) for hosting the application with
servers and network devices in a multi-domain environment Fig. 4. Iaas Framework Architecture Overview
environments. Effectively sharing these common resources for the purpose of establishing urban and regional innovation ecosystems requires sustainable
health, inclusion, environment and business 1. Therefore the issue arises of how cities, surrounding regions and rural areas can evolve towards sustainable open and
vation and adoption in real-life environments. This paper pays particular attention to collaboration frameworks which integrate elements such as Future Internet testbeds
and Living Lab environments that establish and foster such innovation ecosystems The point of departure is the definition
-lenges, such as energy efficiency, environment and health Whereas until now the role of cities and regions in ICT-based innovation mostly
step, the potential role of cities as innovation environments is gaining recognition 4 The current European commission programmes FP7-ICT and CIP ICT-PSP stimulate
environments. The implicit aim of such initiatives is to mobilise cities and urban areas as well as rural and regional environments as agents for change, and as environments
of â€oedemocratic innovation†5. Increasingly, cities and urban areas are considered not only as the object of innovation but also as innovation ecosystems empowering the
Pilot environments Technologies Urban policy framework Organisational assets Development plans Living lab facilities methodologies & tools
-vation environments for exploiting the opportunities provided by Future Internet technologies. Three perspectives are addressed in this paper
-ies and urban areas provide a potentially attractive testing and validating environment However, a wide gap exists between the technology orientation of Future Internet re
The most urgent challenge of smart city environments is to address the problems and development priorities of cities within a global and innovation-led world.
-take initiatives and strategies that create the physical-digital environment of smart cities, actualising useful applications and e-services,
as content and context fusion, immersive multi-sensory environments, location-based content dependent on user location and context, augmented reality applications, open
To date, the environment for applications and their business models has been very complex, with limited solutions available †off the
co-creation of wellbeing, logistics and environment Iot-based services A comparison of the role of users in FIRE facilities projects compared to Living
technology platforms such as Future Internet technology environments involving large enterprises and SMES as well as academia from different disciplines.
environment that is dynamically configured (run-time) to bring together testbeds, ap -plets, services, and whatever is relevant, available and configured for integration at
of urban environments Fig. 2. Genoa smart city experiments on Smart Museum and Smart Park
In this paper we explored the concept of â€oesmart cities†as environments of open and user driven innovation for experimenting
of †smartness†were identified (economy, people, governance, mobility, environment and living As the upsurge of information and communication technologies (ICT) has become
-cal environment and human behavior, and supporting smart applications of societal importance†4. Thus the FI can transform a Smart City into an open innovation
-change information about themselves and their social context and environment At this point, it is important to highlight a bidirectional relationship between the FI
experimental environment for the development, experimentation and testing of com -mon FI service enablers required to achieve †smartness†in a variety of application
aspects are related closely (e g. environment and traffic, both of them to health, etc Smart Cities at the Forefront of the Future Internet 453
Smart City environments. Through a set of basic functionalities it will support differ -ent types of Smart City services in multiple application areas
thus allowing federation with different service creation environments and different business processes 3. 2 USN Architecture for Urban Iot Platforms
specifications from the OMA Service Environment (OSE) 27 enablers (such as presence, call conferencing, transcoding, billing, etc..
environment to discover which of the different instances of the entities is the one performing the request a user might be interested In for example, in an architec
The resulting scale and heterogeneity of the environment makes it an ideal environment for enabling the above mentioned broad range of experi
-Smart Cities at the Forefront of the Future Internet 457 mentation needs. Furthermore, a city can serve as an excellent catalyst for Iot research
application domains (such as vertical solutions for the environment control and safety horizontal application to test network layers, content delivery networks, etc..
"This will enable city environments to become"smarter",as more adaptive and supportive environment, for people as well as organizations
Interconnecting Infrastructure WISEBED SENSEI New Colour scheme Telco2. 0 (TID Common Testbed/Gateway Testbed management Testbed Access
-tion and testing in a real-world environment. The infrastructure will be mainly de -ployed in Santander in the North of Spain, with nodes in Guildford, UK;
mentation and testing limited to small domain-specific environments or application specific deployments. While those may suffice as proof-of-concepts,
environment is been carried. Nontechnical aspects are also of a big importance. The cardinality of the different stakeholders involved in the smart city business is so big
OMA Service Environment Archive, http://www. openmobilealliance. org /technical/release program/ose archive. aspx 28. Oulu Smart City, http://www. ubiprogram. fi
Security Support in Programming Environments Secure Service Composition Secure Service Programming Platform Support for Security Enforcement
A Use-Case on Testing Adaptive Admission Control and Resource Allocation Algorithms on the Federated Environment of Panlab
Technical Environment, Testbed Implementation and Deployment Running and Operating the Experiment Conclusions References Multipath Routing Slice Experiments in Federated Testbeds
Testing End-to-end Self management in a Wireless Future Internet Environment Introduction Experimental Facilities Decription Mechanism for Service-Aware Network Self management
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