Main achievements are:
WP1:
• Engineering Design capabilities enhanced by generating different engineering office departments
• Close collaboration with experts’ companies (Aerogenix for System selection, MagCad for Propeller integration, Flow Control Engineering for Aerodynamics, SOLDATEC for manufacturing, among others) in order to extract the highest insight for the company
• Generation of self-made tools for automatizing design processes (such as Engine-Propeller integration design tool, telemetry analysis software or Attitude Control Simulation Environment)
• Database generation for the critical systems (Servo actuators, Engines, Communication System…)
• Multi-Fluid Simulations have been performed in order to characterise the firefighting operation
• Test Bench of a Ducted Fan with different injector positions has been manufactured and is currently being tested to efficiently design the water ejection system
• Mastered Automatic Mission Management through several Flight Tests for the different key enabler prototypes
• Integration of the vast majority sensors to be sensed/commanded by the autopilot in the final system
• Wildfire Mission characterization through simulation
• End-user customization capabilities enhanced by acquiring know-how in generating plug-ins through the Ground Control Station to perform desired extra functionalities
WP2:
• Several key partners for manufacturing have been traced and selected
• V&V Plan generated in order to obtain the highest output from the Tests to be conducted
• A Configuration Management Process have been implemented in order to trace all parts concerning the System
• Workshop Technical skills have been enhanced by acquiring highly skilled personnel
• Rent of test facilities
• Several Tests have been done with prototypes to validate the procedures for the final prototype
WP3:
• Regulatory Framework Dossier gathered
• Regulatory Framework Compliance Tools generated
• Regulatory Framework Compliance Strategy developed
• Expanded current Patents
• Started exploration path for core development patent
WP5:
• The key enabler prototypes have caused very good impression during the demos and commercial videos and have opened avenues of investment in the project
• Started collaboration with AEONT for mass production of composite materials
• Sales representatives have been hired
• Launched ecosystem for potential clients and investors capturing
Thus, all the work performed from the beginning of the project to the end period, was published as mentioned before through four research paper and all the results and the conclusions shows the important of the work, starting from designing and implementing a new innovative Drone for forest firefighting named " WILD HOPPER" by giving a deep overview for the prototype of WILD HOPPER, focusing on the limitation of the current
technologies used for forest firefighting, where a new patented control system and water mist jet was represented [see, WILD HOPPER Prototype for Forest Firefighting,[https://doi.org/10.3991/ijoe.v17i09.25205]. Also, the development of the WILD HOPPER platform was shown into the research titled "WILD HOPPER: A heavy-duty UAV for day and night firefighting operations, [https://doi.org/10.1016/j.heliyon.2022.e09588]", including the technological road map and comparison with other solutions. Besides, through the research titled " Mathematical Modeling and Designing a Heavy Hybrid-Electric Quadcopter, Controlled by Flaps, [DOI: 10.1142/S2301385022500133]" we shows the important of equipping both flaps and EDFs to the system to make it more stable, and makes the system acts agile, adequately, to be valuable in attitude control stability.
In addition, through the research titled "Systemic Integrated Unmanned Aerial System, [https://doi.org/10.3991/ijoe.v18i01.26435] the WILD HOPPER system integration was discussed briefly, showing that this integration is
done in order to improve the system performance, reducing operational costs, and improving the time response of the system.