Application-level Swarm-based Orchestration Across the Cloud-to-Edge Continuum

Digital, Industry & SpaceHORIZON-RIAID: 101135012
EC Contribution
€43,317
Consortium Size
15 orgs
Start Year
2024
Summary

Collecting and analysing large amounts of data in the Cloud-to-Edge computing continuum raises novel challenges. Processing all this data centrally in cloud data centres is not feasible anymore as transferring large amounts of data to the cloud is time-consuming, expensive, degrade performance and may raise security concerns. Therefore, novel distributed computing paradigms, such as edge and fog computing emerged to support processing data closer to its origin. However, such hyper-distributed systems require fundamentally new methods. To overcome the limitation of current centralised application management approaches, Swarmhestrate will develop a completely novel decentralised application-level orchestrator, based on the notion of self-organised interdependent Swarms. Application microservices are managed in a dynamic Orchestration Space by decentralised Orchestration Agents, governed by distributed intelligence that provides matchmaking between application requirements and resources, and supports the dynamic self-organisation of Swarms. Knowledge and trust, essential for the operation of the Orchestration Space, will be managed through blockchain-based trusted solutions using methods of Self-Sovereign Identities (SSI) and Distributed Identifiers (DID). End-to-end security of the overall system will be assured by utilising state-of-the-art cryptographic algorithms and privacy preserving data analytics. Due to the imminent complexity of the decentralised system, novel simulation approaches will be developed to test and optimise system behaviour (e.g., energy efficiency) in the early stages of development. Additionally, the simulator will be further extended into a digital twin running in parallel to the physical system and improving its behaviour with predictive feedback. The Swarmchestrate concept will be prototyped on four real-life demonstrators from the areas of flood prevention, parking space management, video analytics and a digital twin of natural habitat.

Consortium (15)

Project Results (19)

Source: CORDIS, the EU research results database.

Publications (10)
A Novel Data Store Supporting the Decentralized Data Management in the Cloud Computing Continuum
Lecture Notes on Data Engineering and Communications Technologies, Advanced Information Networking and Applications· 2025DOI
George Georgakakos, Yiannis Verginadis
Acta Polytechnica Hungarica
Acta Polytechnica Hungarica· 2025DOI
Lovas, Róbert
FE[r]Chain: Enforcing Fairness in Blockchain Data Exchanges Through Verifiable Functional Encryption
Proceedings of the 29th ACM Symposium on Access Control Models and Technologies· 2025DOI
Camille Nuoskala, Reyhaneh Rabbaninejad, Tassos Dimitriou, Antonis Michalas
Proximity-based application management for the Edge–Cloud Continuum
Simulation Modelling Practice and Theory· 2025DOI
A. Markus, M. Polyak, A. Kertesz
Towards a Decentralised Application-Centric Orchestration Framework in the Cloud-Edge Continuum
2025 IEEE 9th International Conference on Fog and Edge Computing (ICFEC)· 2025DOI
Amjad Ullah, Andras Markus, Hacı İsmail Aslan, Tamas Kiss, Jozsef Kovacs, James Deslauriers, Amy L. Murphy, Yiming Wang, Odej Kao
Towards Smarter Live Migration: Minimizing SLO Violations and Costs
Future Generation Computer Systems· 2025DOI
Youngsu Cho, Changyeon Jo, Reza Entezari-Maleki, Jörn Altmann, Bernhard Egger
Enhancing Machine Learning-Based Autoscaling for Cloud Resource Orchestration
Journal of Grid Computing· 2024DOI
István Pintye, József Kovács, Róbert Lovas
Microservices and serverless functions—lifecycle, performance, and resource utilisation of edge based real-time IoT analytics
Future Generation Computer Systems· 2024DOI
Francesco Tusa, Stuart Clayman, Alina Buzachis, Maria Fazio
Swarmchestrate: Towards a Fully Decentralised Framework for Orchestrating Applications in the Cloud-to-Edge Continuum
Lecture Notes on Data Engineering and Communications Technologies, Advanced Information Networking and Applications· 2024DOI
Tamas Kiss, Amjad Ullah, Gabor Terstyanszky, Odej Kao, Soren Becker, Yiannis Verginadis, Antonis Michalas, Vlado Stankovski, Attila Kertesz, Elisa Ricci, Jörn Altmann, Bernhard Egger, Francesco Tusa, Jozsef Kovacs, Robert Lovas
Synergizing Fuzzy-based Task Offloading with Machine Learning-driven Forecasting for IoT
2024 IEEE 8th International Conference on Fog and Edge Computing (ICFEC)· 2024DOI
Andras Markus, Valentin Daniel Hegedus, Jozsef Daniel Dombi, Attila Kertesz
Deliverables (8)
Other Results (1)
Periodic Reporting for period 1 - Swarmchestrate (Application-level Swarm-based Orchestration Across the Cloud-to-Edge Continuum)