Project Details
Goal of the project
UAV and Area-Denial weapon systems are versatile, efficient and hard to counter, thus granting a strategic upper hand to their users, even in the case of near-pear conflicts. There’s a growing need for affordable, quick-reaction and effective UAV counters, and for weapons that outrange enemy systems.
The project hereby proposes to study the use of new innovative and/or improved rocket systems to address emerging threats, and with improved range.
To that end, it will study and develop the following four technological building blocks:
1) New, preformed fragments rocket warheads dedicated to addressing class 3 drone targets.
2) Combustible fragments to reduce the collateral damage / increase the performance of preformed fragments rocket warheads.
3) Optical proximity fuse for counter-UAV guided or unguided rockets.
4) Long-range rocket systems.
The project hereby proposes to study the use of new innovative and/or improved rocket systems to address emerging threats, and with improved range.
To that end, it will study and develop the following four technological building blocks:
1) New, preformed fragments rocket warheads dedicated to addressing class 3 drone targets.
2) Combustible fragments to reduce the collateral damage / increase the performance of preformed fragments rocket warheads.
3) Optical proximity fuse for counter-UAV guided or unguided rockets.
4) Long-range rocket systems.
Funding acknowledgement
This project is funded by the DEFRA programme of the Belgian Defence under contract 23DEFRA007
| Short title | Affordable Quick-reaction UAS Interception and Long-range Accuracy |
|---|---|
| Acronym | AQUILA |
| Status | Active |
| Effective start/end date | 1/12/23 → 1/12/26 |
Collaborative partners
- Royal Military Academy
- THALES BELGIUM SA (lead)
- Materia Nova
- Lambda-X SA
RHID domain
- MSP
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