Projects within the framework of open4innovation
There are 381 results.
MONITOR
The increasing number of mass events poses new challenges for civil safety management. The aim of the project MONITOR is to combine airborne and terrestrial acquisition systems and also multi-sensor networks to construct a comprehensive overview of the situation
MRespond – Multi-User Mixed Reality system for flexible trainings of first responders
The goal of the project is to develop a mixed reality training system to expand training capabilities for first responders to create better emergency preparedness for commanders and operational units.
MUSIG - Multi-sensor Information Generation to Support Crisis Management and Prevention
The FFG KIRAS project MUSIG focuses on the automated, AI-based derivation and fusion of movement information from geo-social media, mobile phone data and in-situ cameras. This fused movement information is then enriched with context information (semantic topics and sentiments from geo-social media, movement speeds and crowd densities from in-situ cameras) and tested in real scenarios for their added value in crisis management and its prevention.
MalwareDef
The goal of this project is the development of proactive defence measures to cope with the challenges of a rapidly growing number of malware samples in the wild
Migration Ties
The impact of the milieu-affiliation of migrants on their transnational relations
Mixed Reality Post-Disaster Tools to Plan Intervention
PostDisaster addresses critical gaps in disaster management by leveraging advanced technologies to enhance decision-making and resource allocation during environmental crises. The project integrates AI-driven satellite image analysis for identifying affected areas, drone-enabled 3D reconstruction for real-time, high-resolution visualization of disaster zones, and MR-supported tools for on-the-ground infrastructure damage assessment. These innovations enable faster, more accurate evaluations of disaster impacts, allowing for optimized relief operations and safer planning. By combining these technologies, PostDisaster improves disaster response efficiency and resilience, providing valuable tools for governments, aid organizations, and private stakeholders.
MoSeS4eGov – Model-based Security System for eGovernment
In the MoSeS4eGov project we are developing model-based technologies for simplifying the creation and integration of applications in eGovernment systems
Mobile Artificial Intelligence Justice Assistant (MAIJA)
In the present MAIJA project, research is being carried out on a mobile digital assistant, the “Mobile Artificial Intelligence Justice Assistant”, which analyzes the existing data in the sense of prison intelligence and increases security.
Mobile eCard
The project aims to create a concept for the realization of an e-health app on a smartphone, based on an existing secure identity.
Modentity
Goal of the project “Modentity” is to improve mobile document authentication and identity verification to create the person checking procedure of the future. This shall be achieved by utilizing smartphones and their onboard sensors
MonKey - Monitoring of Torrential Key Barriers
Development of an automated IoT-based monitoring and warning system for key torrent and avalanche control structures and ÖBB, providing real-time data on fill levels and critical events such as debris flows to ensure the protection of settlements and infrastructure while addressing the challenges of climate change.
Moral Courage 2.0
Mechanisms and effects of morally courageous interventions of teenagers dealing with perceived violence on the Internet
Multimodal sensor system for event detection at hot spots
The subject research project will break new ground by offering a completely new, not previously realized approach. The event detector will analyze optical signatures from video images, thermal images and noises altogether
M²DynS
The M²DynS project aims to prevent failures in energy supply facilities by providing security-related detections and by ensuring operational safety
NIKE MATE – NIKE huMan mAchine navigation TEaming
Collision-avoidance (blue on blue) between involved forces in urban environment, especially when autonomous systems are also in operation.
NIKE-RobComm: Robust Communication and Navigation for Robot-Based Assistance Systems in Urban Environments
NIKE-ROBComm is developing robust M2M communication and autonomous navigation for mixed drone/ground robot swarms in urban environments to enhance effectiveness and safety in disaster relief operations.
NIKE-SubMoveCon
Sustainable interdisciplinary use in complex operations underground - Subsurface Movement Control
NRT-COP
High-performance multi-sensor UAS data recording platform to generate a near real-time large-scale situational picture