Xmobots Vision: the new frontier of mobility
Xmobots presents its vision of the future: a time when air mobility will be personal, accessible, and fully integrated into your daily life, combining technology, intelligence, and profound innovation. Users request a direct flight from the mobile app, and we pick them up wherever they are and take them wherever they want to go, opening up a new way of living, working, and traveling.
Soon, trips of up to 300 km will be able to be made in less than half the time, with departures and arrivals practically anywhere: from urban centers to inland cities and remote regions, always with convenience, comfort, and safety.
SPEED
SCOPE
AUTONOMY
PAYLOAD
PAX
Compact dimensions and foldable wings: operation in locations without dedicated infrastructure, landing close to your home and taking you directly to your final destination.
Introducing the ultimate expression of versatility in the air: point-to-point mobility, without connections.
No waiting and no barriers.
The RAAS ecosystem manages the entire operation and enables flights without a pilot on board: from the app where the user requests the service to the automatic systems that control each route, the entire technological architecture is developed by Xmobots.
Full integration between eVTOL systems and airspace and air traffic control systems: managed by Artificial Intelligence that monitors the environment, checking whether the route is clear for takeoff, whether there is conflicting traffic, or whether the location defined by the user is suitable for landing. Remotely supervised by operators in control centers, the result is an automated, safe, and fluid operation, with continuous optimization of the fleet on the ground and in flight.
From requesting the flight via the app to planning, authorizing, and automated execution of the mission.
Cloud connection
Full time Internet connection to receive commands and send telemetry and data
Flight request
Passengers uses their phones to ququest a flight by APP.
AI analysis
Safety detection of air traffic and secure landing areas.
Flight authorization
UTM service will automatically request ant authorize the flight
Remote operation
Xmobots headquarter controls the operation contacting BRLOS
1 pilot, multiple eVTOLs
AI support and automation allows multiple operations by pilot allowing cost reduction
Artificial Intelligence
Data and images generated by the systems embedded in the UAVs are analyzed by AI systems that Xmobots has been developing since 2015, optimizing performance in real time and increasing safety in obstacle detection both during cruise flight and when locating safe landing areas.
From requesting the flight via the app to planning, authorizing, and automated execution of the mission.
Flight request
Passengers uses their phones to ququest a flight by APP.
Flight authorization
1 pilot, multiple eVTOLs
Remote operation
AI analysis
Cloud connection
Over the course of 18 years, Xmobots has built a solid foundation in aeronautical engineering, developing its own technologies and verticalizing strategic stages of development and production.
Consolidated experience in programs with structural EPP (such as NAURU 100D) and hybrid propulsion platforms (such as NAURU 500C and NAURU 1000C), expanding the company's capacity to integrate aeronautical design, advanced materials, and production processes.
Xmobots Vision introduces a construction process that is unprecedented in Brazil, based on carbon fiber tubes combined with injected thermoplastic joints. This structural architecture allows for lightweight and resistant aircraft, with serial production of components and automated assembly by robots.
EPP and automation in production
EPP (expanded polypropylene) has been widely used in the automotive sector and, in recent years, has also gained ground in fixed-wing RPAS, multirotors, and VTOL aircraft, thanks to its lightness, impact resistance, and ease of manufacture.
In the production of these structures, industrial robots perform the steps of gluing and closing the EPP wing parts, ensuring precision, repeatability, and faster assembly.
The application of this production process in VTOL RPAS by Xmobots resulted in a reduction of up to 9 times in the final cost, making it more scalable and efficient.
Scalable structure
The main structure will consist of carbon fiber tubes and thermoplastic joints.
The tubes have variable profiles and thicknesses (specific to the stress on each part of the structure) and fiber-reinforced thermoplastic polymer injected joints are used at the ends (which connect with precision and good load distribution).
The combination of automated tube rolling and injection molding of joints reduces the need for manual gluing, increasing productivity and ensuring a lightweight, resistant structure with scalable production.
Hybrid Propulsion
The propulsion architecture combines an ethanol-powered combustion engine with an electric system responsible for power generation and traction. This configuration increases operational autonomy without significantly increasing structural weight.
The combustion engine acts as a generator, powering the electrical system and enabling in-flight recharging. The use of ethanol increases fuel availability, reduces environmental impact, and contributes to competitive operating costs.
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XMB Technology
- The visual representations shown here are purely conceptual and illustrative, and do not correspond to any technical design, functional solution, or definitive product specification.
Final features are subject to technical or regulatory changes without prior notice. - All content is owned by Xmobots, protected by applicable law, and its use, reproduction, or distribution without prior written permission is prohibited.