Deliverables
The main outputs are the UAM GIS tool, the UAM Guidebook and the UAM Training Programme.
The AiRMOUR project produces a large amount data on urban air mobility for operators, regulators, academia and businesses in order to build a more sustainable mobile future. The data will be leveraged into practical and real-life tangible tools, ensuring that the impacts are replicated widely. See the complete list of deliverables below.
Deliverable | Due date | Lead beneficiary | ||
---|---|---|---|---|
D1.3 | Public final report | 12/23 | VTT | |
D2.1 | Report on foresight analysis and UAM EMS integration process management | 9/21 | Robots Expert | |
D2.2. | Report on functional requirements for selected manned and unmanned UAM EMS scenarios | 9/21 | UMCG Ambulancezorg | |
D2.3 | Report on the effects of interaction and integration with other EMS transportation modes | 2/23 | UMCG Ambulancezorg | |
D3.1 | Overview of legal environment for EMS scenarios | 10/23 | Luftfartsverket | |
D3.2 | Ground risk and landing site management (prepared vs ad hoc) | 8/22 | TRV | |
D3.3 | Air risk management for UAM EMS operations | 1/22 | Linköping University | |
D3.4 | Report on technical and procedural mitigating technology implementations for UAM EMS scenarios | 8/22 | NORCE | |
D3.5 | Report on cybersecurity threats for the EMS scenarios | 6/23 | Linköping University | |
D3.6 | Report on EMS scenarios impact on aviation and future UAM regulations | 8/23 | Robots Expert | |
D4.1 | Public and stakeholder acceptance – Interim report Summary brochure of the Public and stakeholder acceptance report | 6/22 | LuxMobility | PDF |
D4.2 | Report on public perceived risk and safety mitigation strategies | 2/23 | Luftfartsverket | |
D4.3 | Report on noise and visual pollution mapping tool | 2/23 | Linköping University | |
D4.4 | UAM Citizen privacy handbook | 6/23 | Robots Expert | |
D4.5 | Description on the integration of UAM services in the sustainable urban mobility planning processes and other relevant policies including co-modality | 8/23 | LuxMobility | |
D4.6 | Report on evolvement of public and stakeholder acceptance and citizen engagement strategies | 12/22 | LuxMobility | |
D5.1 | CO2 Life Cycle Assessment for Emergency Medical Service UAM Concepts | 4/23 | Robots Expert | |
D5.2 | EMS UAM business models for companies and public sector | 6/23 | VTT | |
D5.3 | Comparative CBA analysis of manned and unmanned EMS UAM operations in comparison for traditional EMS transport. | 4/23 | LuxMobility | |
D5.5 | Report on operational and environmental attractiveness and sustainability of UAM | 8/23 | VTT | |
D6.1 | GIS Tool | 10/21 | Robots Expert | |
D6.2 | Guidebook for UAM integration process management (Draft version) | 6/22 | Robots Expert | |
D6.3 | Three online courses and two masterclasses developed | 9/23 | LuxMobility | |
D6.4 | Guidebook for UAM integration process management (Final version) | 9/23 | Robots Expert | Dutch English Finnish French German Norwegian Swedish |
D7.1 | Success criteria for each validation objective and concept of operations of the selected UAM EMS scenarios | 5/22 | Robots Expert | |
D7.2 | UAM EMS simulation framework established | 10/22 | NORCE | |
D7.3 | eVTOL vehicle model integrated in simulator | 6/22 | NORCE | |
D7.4 | Live validation of manned UAM EMS concepts | 2/23 | Ehang Scandinavia | |
D7.5 | Live validation of unmanned UAM EMS concepts | 2/23 | Ehang Scandinavia | |
D7.6 | Assessment of all validation objectives for the simulations and live validations | 6/23 | Robots Expert | |
D8.3 | Visual outputs | 11/23 | Forum Virium Helsinki | |
D8.4 | Feedback and summary report on capacity building activities | 11/23 | LuxMobility | |
D8.5 | Final Event | 11/23 | Forum Virium Helsinki |