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Towards an Open, Secure, Decentralized and Coordinated Fog-to-Cloud Management Ecosystem

Deliverables

D5.1.1 mF2C reference architecture (integration IT-1)

This document will provide the description of the proposed architecture and management processes for each iteration where all the blocks work together in optimized fashion. For each iteration, the system is ready for the test trials and validation process.

D4.1.1 Security and privacy aspects for the mF2C Gearbox block (IT-1)

This deliverable will describe the security and privacy aspects required to design the F2C Gearbox block. An internal version of this deliverable in M20 will be used to feed into the WP4 tasks taking over the Gearbox block design for IT-2.

D3.3.2 mF2C Agent Controller Block integration (IT-2)

This deliverable includes the final integrated system, hence constituting the final outcome of WP3. An internal report in M26 will be used for the IT-2 implementation.

D4.3.2 mF2C Platform Manager blocks and microagents integration (IT-2)

This deliverable presents in month 33 the final integrated system, hence constituting the final outcome of WP4.

D2.3.1mF2C Architecture (IT-1)

This deliverable is the mF2C architecture as it gets defined and updated and redefined during the project life time. A preliminary version in M6 will be used to deploy PoC IT-1 in WP3 and WP4 and a final version in M25 will constitute the final mF2C architectural design.

D3.1.2 Security and privacy aspects for the mF2C Agent Controller Block (IT-2)

This deliverable is an update for iteration 2, and will describe the security/privacy aspects required to design the mF2C Agent Controller Block. An internal version of this deliverable in M20 will be used to feed into the WP3 tasks, taking over the Agent Controller Block design for IT-2.

D3.1.1 Security and privacy aspects for the mF2C Controller Block (IT-1)

This deliverable will describe the security/privacy aspects required to design the mF2C Controller Block. An internal version of this deliverable in M20 will be used to feed into the WP3 tasks, taking over the Controller Block design for IT-2.

D4.1.2 Security and privacy aspects for the mF2C Platform Manager block (IT-2)

This deliverable is an update for IT-2 will describe the security and privacy aspects required to design the F2C Platform Manager block. An internal version of this deliverable in M20 will be used to feed into the WP4 tasks taking over the Platform Manager block design for IT-2.

D6.1 Dissemination strategy and plan

This deliverable presents the dissemination strategy plan, the web-site structure, and an analysis of potential new market opportunities.

D2.2.2 mF2C Security/Privacy Requirements and Features (IT-2)

This report in an update for IT-2,so mF2C reports on security features as they evolve and get integrated into the framework for each iteration. This deliverable will contain aspects of security related activities carried out during the project for IT-2 in M24 as final Task 2.2 outcome. An internal report is proposed in M20 to feed into WP3 and WP4 for the IT-2 PoC design.

D4.4.2 mF2C Interfaces (IT-2)

This is the improved version for IT-2 and in M33 that contains the final interfaces implementation.

D6.2.2 mF2C annual report on dissemination and standardization (Year 2)

This deliverable contains all dissemination, standardization and exploitation activities carried out during the 2nd project year.

D3.3.1 mF2C Agent Controller Block integration (IT-1)

This deliverable presents in M12 the preliminary feedback obtained from the integration tasks for IT-1, and is used by Task 5.1 in WP5 to start the overall integration. Later, at M32, this deliverable includes the final integrated system, hence constituting the final outcome of WP3. An internal report in M26 will be used for the IT-2 implementation.

D2.3.2 mF2C Architecture (IT-2)

This deliverable is the mF2C architecture as it gets defined and updated and redefined during the project life time.This final version in M25 will constitute the final mF2C architectural design.

D1.1.2 Project Plan (IT-2)

This is an update from previous iteration, for iteration 2,the document is an overall plan and vision for all activities happening in the project for each of the project’s iterations. It will aggregate WP level roadmaps and provide an overview of technical and business activities. Each WP will elaborate project plans according to the two main project iterations. In addition, it will contain each iteration of the Data management plan as described in section 2.2.7 including policies, mechanisms and strategies for standards, privacy issues, open access guarantees, among others.

D5.1.2 mF2C reference architecture (integration IT-2)

This document will provide an updated description of the proposed architecture and management processes for iteration 2 (in M36) where all the blocks work together in optimized fashion. For each iteration, the system is ready for the test trials and validation process.

D6.2.3 mF2C annual report on dissemination and standardization (Year 3)

This deliverable contains all dissemination, standardization and exploitation activities carried out during the 3rd and final project year.

D4.3.1 mF2C Platform Manager blocks and microagents integration (IT-1)

This deliverable presents in M12 the preliminary feedback obtained from the integration tasks for IT-1 and is used by WP4 design activities to fine tune their designs, leading into IT-2 (an internal report in M26). Later, in month 32, this deliverable includes the final integrated system, hence constituting the final outcome of WP4.

D3.2.1 Design of the mF2C Controller Block (IT-1)

This deliverable reports in M9 on the preliminary results coming from the design of the Controller Block for IT-1 that will in turn feed into the integration activities in Task 3.6. The final version in M30 constitutes the final report, describing the definitive Controller Blocks design. An internal version in M22 will be used to deploy IT-2 PoC.

D2.1.3 Tracking Scientific, Technology and Business Trends (Version 3)

This deliverable gives a final overview of all relevant scientific technology and business trends of which the awareness is necessary for the project, and for the proposed area of research at large. Reporting is in M33 including a global reporting on technology, business models and scientific trends.

D4.2.2 Design of the mF2C Platform Manager block components and microagents (IT-2)

The final version in M30 constitutes the final report describing the definitive Platform Manager Block and microagents design. An internal version is D4.2.1-2 used for IT-2.

D4.4.2 mF2C Interfaces (IT-1)

This deliverable reports in M12 the first results for the implementation of the interfaces to be integrated into the mF2C PoC in IT-1 in WP5, an improved version for IT-2 will be produced in M32 for the final interfaces implementation.

D4.2.1 Design of the mF2C Platform block components and microagents (IT-1)

This deliverable reports in M9 the IT-1 results coming from the design of the Platform Blocks and microagents that will feed into the integration activities in WP4. The final version in M30 constitutes the final report describing the definitive Platform Block and microagents design. An internal version is used for IT-2.

D2.2.1 mF2C Security/Privacy Requirements and Features (IT-1)

mF2C reports on security features as they evolve and get integrated into the framework for each iteration. These deliverables will contain aspects of security related activities carried out during the project for IT-1 in M4 and as final Task 2.2 outcome. An internal report is proposed in M20 to feed into WP3 and WP4 for the IT-2 PoC design.

D3.2.2 Design of the mF2C Agent Controller Block (IT-2)

The final version in M30 constitutes the final report, describing the definitive Agent Controller Blocks design. An internal version in M22 will be used to deploy IT-2 PoC.

D2.1.1 Tracking Scientific, Technology and Business Trends (Version 1)

This deliverable gives a generic overview of all relevant scientific technology and business trends of which the awareness is necessary for the project, and for the proposed area of research at large. Reporting is in M4 and M22 aligned to IT-1 and IT-2 respectively and in M334 including a global reporting on technology, business models and scientific trends.

D2.1.2 Tracking Scientific, Technology and Business Trends (Version 2)

This deliverable in an update for IT-2, and gives a generic overview of all relevant scientific technology and business trends of which the awareness is necessary for the project, and for the proposed area of research at large. Reporting is in M3 and M21 aligned to IT-1 and IT-2 respectively and in M33 including a global reporting on technology, business models and scientific trends.

D6.2.1 mF2C annual report on dissemination and standardization (Year 1)

This deliverable contains all dissemination, standardization and exploitation activities carried out during the 1st project year.

D1.1.1 Project Plan (IT-1)

Overall plan and vision for all activities happening in the project for each of the project’s iterations. It will aggregate WP level roadmaps and provide an overview of technical and business activities. Each WP will elaborate project plans according to the two main project iterations. In addition, it will contain each iteration of the Data management plan as described in section 2.2.7 including policies, mechanisms and strategies for standards, privacy issues, open access guarantees, among others.

D5.2.2 mF2C solution demonstration and field trial results (validation IT-2)

This document includes the final design, implementation and evaluation of the proposed mF2C management system, based on the proposed tests in each use case scenario, for each iteration.

D5.2.1 mF2C solution demonstration and field trial results (validation IT-1)

This document includes the design, implementation and evaluation of the proposed mF2C management system, based on the proposed tests in each use case scenario, for each iteration.

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Publications

Towards a proper service placement in combined Fog-to-Cloud (F2C) architectures

Author(s): V.B. Souza, X. Masip-Bruin, E. Marín-Tordera, S. Sànchez-López, J. Garcia, G.J. Ren, A. Jukan, A. Juan Ferrer
Published in: Future Generation Computer Systems, Issue 87, 2018, Page(s) 1-15, ISSN 0167-739X
DOI: 10.1016/j.future.2018.04.042

Managing resources continuity from the edge to the cloud: Architecture and performance

Author(s): Xavi Masip-Bruin, Eva Marin-Tordera, Admela Jukan, Guang-Jie Ren
Published in: Future Generation Computer Systems, Issue 79, 2018, Page(s) 777-785, ISSN 0167-739X
DOI: 10.1016/j.future.2017.09.036

Evaluating the benefits of combined and continuous Fog-to-Cloud architectures

Author(s): W. Ramirez, X. Masip-Bruin, E. Marin-Tordera, V.B.C. Souza, A. Jukan, G-J. Ren, O. Gonzalez de Dios
Published in: Computer Communications, Issue 113, 2017, Page(s) 43-52, ISSN 0140-3664
DOI: 10.1016/j.comcom.2017.09.011

A Literature Survey on Ontology of Different Computing Platforms in Smart Environments

Author(s): Sengupta, Souvik; Garcia, Jordi; Masip-Bruin, Xavi
Published in: 2018

Survey of Communication Protocols for Internet-of-Things and Related Challenges of Fog and Cloud Computing Integration

Author(s): Dizdarevic, Jasenka; Carpio, Francisco; Jukan, Admela; Masip-Bruin, Xavi
Published in: 2018

An architecture for programming distributed applications on Fog to Cloud systems

Author(s): Francesc Lordan, Daniele Lezzi, Jorge Ejarque, Rosa M. Badia
Published in: Euro-Par 2017: Parallel Processing Workshop, 2018, Page(s) 325-337
DOI: 10.1007/978-3-319-75178-8_27

A Hash Based Naming Strategy for the Fog-to-Cloud Computing Paradigm

Author(s): Alejandro Gómez-Cárdenas, Xavi Masip-Bruin, Eva Marín-Tordera, Sarang Kahvazadeh, Jordi Garcia
Published in: 2018, Page(s) 316-324
DOI: 10.1007/978-3-319-75178-8_26

mF2C - towards a coordinated management of the IoT-fog-cloud continuum

Author(s): Xavi Masip-Bruin, Alexander Leckey, Antonio Salis, Denis Guilhot, Matic Cankar, Eva Marín-Tordera, Ana Juan-Ferrer, Anna Queralt, Admela Jukan, Jordi Garcia, Daniele Lezzi, Jens Jensen, Cristovao Cordeiro
Published in: Proceedings of the 4th ACM MobiHoc Workshop on Experiences with the Design and Implementation of Smart Objects - SMARTOBJECTS '18, 2018, Page(s) 1-8
DOI: 10.1145/3213299.3213307

Proactive vs reactive failure recovery assessment in combined Fog-to-Cloud (F2C) systems

Author(s): Vitor Barbosa Souza, Xavi Masip-Bruin, Eva Marin-Tordera, Wilson Ramirez, Sergio Sanchez-Lopez
Published in: 2017 IEEE 22nd International Workshop on Computer Aided Modeling and Design of Communication Links and Networks (CAMAD), 2017, Page(s) 1-5
DOI: 10.1109/CAMAD.2017.8031528

Towards a Fog-to-Cloud control topology for QoS-aware end-to-end communication

Author(s): Vitor Barbosa Souza, Alejandro Gomez, Xavi Masip-Bruin, Eva Marin-Tordera, Jordi Garcia
Published in: 2017 IEEE/ACM 25th International Symposium on Quality of Service (IWQoS), 2017, Page(s) 1-5
DOI: 10.1109/IWQoS.2017.7969140

Making use of a Smart Fog Hub to develop new services in airports

Author(s): Antonio Salis, Glauco Mancini
Published in: Euro-Par 2017: Parallel Processing Workshop, 2018, Page(s) 338-347
DOI: 10.1007/978-3-319-75178-8_28

Benefits of a Coordinated Fog-to-Cloud Resources Management Strategy on a Smart City Scenario

Author(s): Andrea Bartolí, Francisco Hernández, Laura Val, Jose Gorchs, Xavi Masip-Bruin, Eva Marín-Tordera, Jordi Garcia, Ana Juan, Admela Jukan
Published in: Euro-Par 2017: Parallel Processing Workshop, 2018, Page(s) 283-291
DOI: 10.1007/978-3-319-75178-8_23

F2C-Aware: Enabling Discovery in Wi-Fi-Powered Fog-to-Cloud (F2C) Systems

Author(s): Zeineb Rejiba, Xavi Masip-Bruin, Alejandro Jurnet, Eva Marin-Tordera, Guang-Jie Ren
Published in: 2018 6th IEEE International Conference on Mobile Cloud Computing, Services, and Engineering (MobileCloud), 2018, Page(s) 113-116
DOI: 10.1109/MobileCloud.2018.00025

Data Preservation through Fog-to-Cloud (F2C) Data Management in Smart Cities

Author(s): Amir Sinaeepourfard, Jordi Garcia, Xavier Masip-Bruin, Eva Marin-Tordera
Published in: 2018 IEEE 2nd International Conference on Fog and Edge Computing (ICFEC), 2018, Page(s) 1-9
DOI: 10.1109/CFEC.2018.8358732

Fog and Cloud in the Transportation, Marine and eHealth Domains

Author(s): Matija Cankar, Eneko Olivares Gorriti, Matevž Markovič, Flavio Fuart
Published in: Euro-Par 2017: Parallel Processing Workshop, 2018, Page(s) 292-303
DOI: 10.1007/978-3-319-75178-8_24

Towards Service Protection in Fog-to-Cloud (F2C) Computing Systems

Author(s): V. Barbosa, W. Ramirez, X. Masip, E. Marín, S. Sánchez, G.J. Ren
Published in: IEEE Future Technologies Conference, 2018
DOI: 10.5281/zenodo.1286783

Towards An Efficient Key Management and Authentication Strategy for Combined Fog-to-Cloud Continuum Systems

Author(s): S.Kahvazadeh, X.Masip-Bruin, R.Diaz, E.Marín-Tordera, A.Jurnet, J.Garcia
Published in: Cloudification of the Internet of Things, 2019

Analyzing the Deployment Challenges of Beacon Stuffing as a Discovery Enabler in Fog-to-Cloud Systems

Author(s): Zeineb Rejiba, Xavier Masip-Bruin, Eva Marin-Tordera
Published in: 2018 European Conference on Networks and Communications (EuCNC), 2018, Page(s) 1-276
DOI: 10.1109/EuCNC.2018.8442471

A Resource Identity Management Strategy for Combined Fog-to-Cloud Systems

Author(s): A.Gómez, X.Masip-Bruin, E.Marín-Tordera, S.Kahvazadeh, J.García
Published in: IEEE International Workshop on the Internet of Things: Smart Objects and Services, 2019
DOI: 10.5281/zenodo.1299216

On HTTP Performance in IoT Applications: An Analysis of Latency and Throughput

Author(s): Wolfgang Bziuk, Cao Vien Phung, Jasenka Dizdarevic, Admela Jukan
Published in: 2018 41st International Convention on Information and Communication Technology, Electronics and Microelectronics (MIPRO), 2018
DOI: 10.5281/zenodo.1292525

Taxonomy and Resource Modeling in Combined Fog-to-Cloud Systems

Author(s): S. Sengupta, J. Garcia, X. Masip-Bruin
Published in: IEEE Future Technologies Conference (FTC) 2018, 2019

Virtualizing the Edge: Needs, Opportunities and Trends

Author(s): E. Marín-Tordera, X. Masip-Bruin, B. Otero Calviño, E. Rodriguez Luna
Published in: IEEE 6th International Conference on Future Internet of Things and Cloud, 2019