Photovoltaic park cleaning
Coordinated missions to cover large areas, reduce intervention time and maintain solar panel efficiency through repeatable processes.
Priority project
Drone orchestration project
A platform to coordinate drone fleets, execute repeatable missions and turn large-area operations into measurable processes.
Mission control
Remote orchestration of drone fleets
The goal is to remotely control drones with different configurations and objectives, from photovoltaic park cleaning to spraying extensive irrigated fields. The system combines mission planning, telemetry, operational supervision and result analysis.
The Jerez de la Frontera area offers real scenarios to validate use cases with local impact. The approach is to promote applied technology with institutional sensitivity, collaboration and operational usefulness.
Orchestration flow
Fleet supervision
The system keeps a continuous operating cycle: mission planning, resource assignment, execution supervision and feedback from real field data.
The platform is designed around telemetry, battery status, alerts, mission progress and traceability so every intervention can be audited and improved.
Planning
Assignment
Supervision
Replanning
Analysis
Operational efficiency
Scalability
AI and integration
Sustainability
Applied innovation
Use cases in development
Spraying large irrigated fields
Planned routes, controlled application and operational data for more precise and traceable agricultural treatments.
Roadmap
Technical challenges
Evolution scheme
Architecture, operations and intelligence in layers
1
Core architecture
Definition of the mission core, internal contracts and orchestration services prepared for distributed operation.
2
Runner and bridge
Execution layer to coordinate commands, telemetry, fleet status and secure communications with field equipment.
3
Operational interface
Control station with mission overview, alerts, battery status, progress, evidence and operational traceability.
4
Field validation
Tests on real scenarios to fine-tune coverage, autonomous behavior and incident response.
5
AI and optimization
Use of analytics and AI to improve planning, operational prediction and efficient resource usage.
6
Multi-use scaling
Opening the system to new industrial, agricultural and territorial use cases without rebuilding the platform core.
Execution layers
Control
Mission planning, rules and resource assignment.
Operations
Telemetry, supervision, safety and real-time response.
Improvement
Data, AI and continuous learning to optimize every cycle.
Real time and latency
Prioritized telemetry, data compression and secure communications.
Multi-drone coordination
Cooperative planning, dynamic assignment and preventive safety rules.
Field reliability
Emergency modes, mission logs and scalable modular architecture.
Innovation applied to the territory
System capabilities
Fleet management and real-time drone status.
Route, zone, objective and operation-window planning.
Telemetry, alerts, evidence and historical data.
Integration with sensors, field stations and cloud systems.
Scalability for new industrial, agricultural or logistics use cases.
Let us build serious, scalable systems ready to operate.
We work from Spain and Luxembourg with clients across Europe. Write to us and we will review the best way to start.