How will the Internet of the future look like? Which forms of communications – as we know them today – will prevail, which novel forms of communications will emerge? What are the challenges faced regarding the constantly increasing mobile use of networks? To summarize: A grand challenge in communication systems stems from an increase in dynamics and variations of the conditions in which they operate, the constantly increasing amount of changes of use cases, and the growing quality re-quirements. The Collaborative Research Centre MAKI (Multi-Mechanism-Adaption for the Future Internet) addresses this challenge. In par-ticular, it investigates all kinds of mechanisms in communication systems, the adaptation, interaction, constant optimization, and evolution thereof. The term mechanism describes both, communication protocols and parts thereof – defining the func-tionality of communication systems – and the functional aspects of the distributed systems realized on top. We witness a con-stant development of novel mechanisms. Yet, mechanisms providing equivalent functionality under different conditions coex-ist, since an adaptation of legacy mechanisms to traffic conditions, bandwidth, etc. is limited. Particularly mobile usage induces highly fluctuating conditions, which would require the online adaptation of the communication system by means of transitions between functionally equivalent mechanisms – which is mostly impossible as of today. Interactions between mechanisms that jointly depend on each other are more complex still and require coordinated transitions in groups of equivalent mechanisms, so-called multi-mechanisms-adaptation.Goal of the CRC is to enable such automated transitions between functionally equivalent mechanisms in communication sys-tems at runtime. It includes the coordination of multiple concurrent transitions, which influence each other. We face this chal-lenge in the context of the international research efforts towards a “future Internet”. We consider the plentiful coexistence of mechanisms a great opportunity rather than a curse, stimulating innovation. However, significant advances in research are re-quired to enable individually as well as jointly coordinated (multi-) transitions between mechanisms at system runtime. We aim at a paradigm shift in the global Internet research. We believe that a targeted effort of the given CRC-scale size is required to deal with the ever increasing complexity, variability, and dynamics of the Internet that coincide with a deluge of novel applica-tions and constantly increasing quality requirements.

DFG Programme Collaborative Research Centres

• A01 - Modeling Construction of Topology Control and Topology Mapping Multi-Mechanisms (Project Heads Mühlhäuser, Max ;  Schürr, Andreas )
• A02 - Design: Architectural Design Concepts for Adaptive Communication Systems (Project Heads Buchmann, Alejandro P. ;  Mezini, Mira ;  Wehrle, Ph.D., Klaus )
• A03 - Migration: Migration of Mechanisms and Malleable Transitions (Project Heads Freisleben, Bernd ;  Hollick, Matthias ;  Wehrle, Ph.D., Klaus )
• A04 - Self-Adaptation: Model-based Automated Construction of Transition Logics (Project Heads Becker, Christian ;  Schürr, Andreas )
• B01 - Monitoring and Analysis: Approximate Monitoring in highly-dynamic environments (Project Heads Eugster, Ph.D., Patrick ;  Hohlfeld, Oliver ;  Koeppl, Heinz ;  Meuser, Tobias ;  Santini, Silvia ;  Schürr, Andreas ;  Steinmetz, Ralf )
• B02 - Coordination and Execution: Efficient Distributed Runtime Support with Quality-based Application Ad-aptation (Project Heads Eugster, Ph.D., Patrick ;  Mühlhäuser, Max ;  Wang, Ph.D., Lin ;  Weihe, Karsten )
• B03 - Economics of Adaptation: Transitions of Autonomous Nodes in Consideration of User and Provider Preferences (Project Heads Akchurina, Natalia ;  Freisleben, Bernd ;  Hausheer, David ;  Hinz, Oliver ;  Klein, Anja )
• B04 - Planning: Model-based Transition Planning of Coupled Communication Systems under Limited Observa-bility (Project Heads Koeppl, Heinz ;  Rizk, Amr )
• C01 - Network-centric view: Resource Planning and Allocation in Wireless Networks with Guarantees and under Uncertainty (Project Heads Hollick, Matthias ;  Klein, Anja ;  Ortiz, Andrea )
• C02 - Information-centric view: Fulfillment of Crucial Requirements for Event-based Systems (Project Heads Binnig, Carsten ;  Buchmann, Alejandro P. ;  Koldehofe, Boris ;  Nahrstedt, Ph.D., Klara ;  Salvaneschi, Guido ;  Steinmetz, Ralf )
• C03 - Content-centric view: QoE-controlled Optimization of multi-dimensional Content Distribution (Project Heads Effelsberg, Wolfgang ;  Koeppl, Heinz ;  Mauthe, Ph.D., Andreas ;  Steinmetz, Ralf )
• C05 - Context- centric view: Transition-supported Situation Inference (Project Heads Freisleben, Bernd ;  Hinz, Oliver )
• C08 - Radio Environment Reconfiguration View: Resource-efficient and Transition-capable Reconfiguration of Intelligent Surfaces (Project Head Jamali, Vahid )
• D01 - Edge-Technology: Transition-enabled Applications with Crucial Requirements in Wireless Communication Systems (Project Heads Baumgärtner, Lars ;  Bloessl, Bastian ;  Hollick, Matthias )
• D02 - Data-Center Technology: Hardware-Acceleration for In-Network Processing (Project Heads Binnig, Carsten ;  Koch, Andreas )
• MGK - Integrated Research Training Group (Project Heads Buchmann, Alejandro P. ;  Hollick, Matthias ;  Klein, Anja ;  Nahrstedt, Ph.D., Klara )
• T02 - Context-based prediction of network load to improve service quali-ty and customer satisfaction (Project Heads Hinz, Oliver ;  Klein, Anja )
• Z - Central Tasks of the Collaborative Research Center (Project Head Steinmetz, Ralf )

• C04 - User-Centric View: Flash Crowds as a Cause for Network Transitions (Project Heads Effelsberg, Wolfgang ;  Löw, Martina ;  Strufe, Thorsten )
• C07 - Service-centric View: Microservice Autoscaling and Caching in Edge Computing (Project Head Wang, Ph.D., Lin )
• T01 - B5G-Cell: Adaptive Millimeter-wave Networking in Beyond-5G Cellular Systems (Project Heads Asadi, Ph.D., Arash ;  Hollick, Matthias )
• T03 - Dynamic management of reconfigurable industry 4.0 real-time communication networks using Software-defined infrastructure (DynSDN) (Project Heads Koldehofe, Boris ;  Rizk, Amr ;  Steinmetz, Ralf )

Applicant Institution Technische Universität Darmstadt

Participating University Goethe-Universität Frankfurt am Main; Philipps-Universität Marburg; Rheinisch-Westfälische Technische Hochschule Aachen; Universität Koblenz; Universität Mannheim; Universität Ulm

Spokesperson Professor Dr.-Ing. Ralf Steinmetz