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fireKOMM
Integrierte Einsatzkommunikation für mobile Einheiten im Vegetationsbrandeinsatz
Duration 01.04.2026 - 30.09.2027, Funded by BMFTR
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fireKOMM verfolgt das Ziel, eine zuverlässige und leicht nutzbare Kommunikationslösung für mobile Einsatzkräfte im Vegetationsbrandeinsatz zu entwickeln und in realitätsnahen Übungen zu prüfen. Vegetationsbrände führen regelmäßig zu Kommunikationsproblemen, da Einsatzkräfte häufig in Gebieten arbeiten, in denen Netze unzuverlässig sind oder nur einzelne Systeme funktionieren. Die beteiligten Organisationen nutzen zudem unterschiedliche Geräte und Anwendungen, was die Zusammenarbeit erschwert.
Das BIBA verfolgt dabei das Ziel, ein vermaschtes Kommunikationssystem zu entwickeln und prototypisch umzusetzen, das mobile Einheiten in Vegetationsbränden zuverlässig verbindet. Im Mittelpunkt steht die experimentelle Untersuchung, wie unterschiedliche Übertragungswege parallel genutzt und flexibel miteinander kombiniert werden können, damit ein stabiles Gesamtnetz entsteht.
Contact person
- M. Stietencron () (Project manager)
Keywords
Interoperability, Resilience, Telecommunications and IT, Authorities and emergency services, Digital platforms / IoT, Wireless communication technologies (5G etc) and sensors
AMR-Launch
Development of an augmented reality-based system for standardised commissioning and intuitive configuration of autonomous mobile robots
Duration
01.01.2026 - 31.12.2027,
Funded by BMFTR
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The research project “AMR-Launch” is developing an integrated, intuitive, cross-vendor system for commissioning and configuring autonomous mobile robots (AMRs). The aim is to make it easier for small and medium-sized enterprises in particular to use AMRs flexibly and to reduce their dependence on specialised personnel or external integrators. The system is based on AR-supported user environments, standardised AMR interfaces and an AMR abstraction layer. Operational staff can configure AMRs directly in the AR environment; automatic calibration synchronises the real environment, AR model and robot map. The approaches are being validated in practical application scenarios.
Contact persons
- B. Vur () (Project manager)
- L. Mittelsdorf ()
- L. Panter ()
Keywords
Robotics and automation, Human-technology interaction, Transport and logistics, Manufacturing industry, Autonomous robot and transport systems, AR / VR / Speech
SharePort
Resilient Smartport: Enhancing Supply Chain Robustness through Dynamic Resource Sharing
Duration
01.01.2026 - 30.06.2027,
Funded by BMFTR
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Ports are facing intense competitive pressure and must invest in automation and digitalization. Fluctuating utilization levels lead to resource shortages during peak periods and idle capacities during quieter phases. SharePort aims to increase the resilience of the port system through resource sharing. Port stakeholders can lend out temporarily unused resources at short notice to avoid bottlenecks and optimize capacity utilization. In addition to functional resilience, sharing promotes cooperation between companies, creates new synergies, and thus strengthens the structural and social resilience of the port community. The project will develop a prototypical digital platform for managing sharing transactions, as well as a simulation game for various sharing scenarios.
Contact persons
- G. Middelbeck () (Project manager)
- M. Teucke ()
Keywords
System development and planning, Maritime economy, Transport and logistics, Serious gaming and gamification, Digital platforms / IoT
AuslastMeister
Development of AI methods for predicting order probabilities and optimizing capacity utilization in collaborative bid planning
Duration
01.01.2026 - 30.06.2027,
Funded by BMWE
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In the research project AUSLASTMEISTER, an AI-supported platform is being developed for SHK craft businesses that enables collaborative quotation planning and intelligent lead and deal allocation. The solution analyzes customer requests, identifies the required trades and qualifications, assesses available capacities, and supports matching with suitable partner companies. This allows capacity bottlenecks to be mitigated through cooperation, more requests to be handled, and quotations to be integrated more effectively into operational planning.
Contact persons
- L. Steinbacher () (Project manager)
- A. Noman ()
Keywords
Product and process development, Value creation networks, Services industry, Construction industry, Business models, Digital platforms / IoT
WTEST
Knowledge-based test management for test cases
Duration
01.11.2025 - 31.10.2027,
Funded by BMWE
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The goal of the project is to develop an interoperable and scalable framework for integrating test knowledge into everyday testing activities. This test knowledge will be embedded into the test processes of complex mechatronic systems through a copilot.
The background is that experience and engineering judgment play a crucial role in selecting and implementing test cases. Therefore, the framework will develop innovative, knowledge-based methods to support the creation of test scripts. This will enable OEMs and suppliers to semantically capture test cases and use the information in a task-specific manner.
Task-specific provision of information will be realized through the copilot, which will be integrated into Razorcat’s testing tools. The advantage of the developed copilot is that its suggestions are deterministic, reproducible, and traceable, thereby ensuring compliance with the guidelines for testing safety-critical systems.
Contact persons
- M. Franke () (Project manager)
- K. Hribernik ()
Keywords
Product and process development, Aviation, Assistance systems, Semantic modelling and ontologies
Events:
16. April 2026, BIBA, Bremen
Girls'Day 2026 at BIBA – Hands-on Technology
April 23, 2026, BIBA, Bremen
Open Campus der Uni Bremen – BIBA lädt zu Führungen ein
13. Juni 2026, Bremen
More events
