The EVO Max series adopts Autel Autonomy's autonomous flight technology, achieving global path planning, 3D scene reconstruction, autonomous obstacle avoidance, and return-to-home in complex environments. With the capability of precise navigation without GNSS, it offers high-precision visual navigation in scenarios where GNSS signals are blocked, weak, or heavily interfered with, ensuring stable and reliable flight with high accuracy and low latency. The industry's first A-Mesh networking technology supports the free networking of multiple devices, achieving integrated air-ground network coverage. Featuring a "dual fisheye vision + millimeter-wave radar" multi- sensor fusion perception technology, it has 720° omnidirectional sensing and obstacle avoidance capabilities. The EVO Max series is equipped with the FusionLight camera 4T and FusionLight camera 4N, integrating a zoom camera, an ultra-starlight level night vision camera, an ultra-sensitive wide-angle camera, a thermal imaging camera, and a laser rangefinder. It efficiently empowers public safety, energy inspection, emergency management, and other fields, setting a new benchmark for industry applications of drones.
Autonomous Flight Planning: Utilizing Autel Autonomy autonomous flight technology, the system gathers real-time environmental data to achieve global path planning, 3D scene reconstruction, autonomous obstacle avoidance, and return-to-home capabilities in complex environments such as mountains, forests, and urban areas. This empowers industries such as security, inspection, and map
High-precision visual navigation: In scenarios where satellite signals are obstructed or weakened between urban buildings, high-precision and low-latency distance and coordinate information can still be obtained. This is achieved through SLAM (Simultaneous Localization and Mapping) visual navigation technology to enable stable flight with high-precision indoor and outdoor navigation positioning capabilities.
Accurate Object dentification and Tracking: Flexibly accommodating various payloads, based on AI image recognition technology, the system automatically identifies and precisely locks onto different types of targets within the observation area, such as heat sources, moving individuals, and vehicles, enabling data collection.
The EVO Max series adopts a multi-source sensor fusion perception technology combining "binocular fisheye vision + millimeter-wave radar", providing 720° omni-directional perception and obstacle avoidance capabilities. It supports all-weather operations, overcoming complex working environments such as water surfaces and high-voltage power lines. It can penetrate dust, fog, rain, and snow, remaining unaffected by harsh weather conditions. Even at night, it ensures flight safety.
The built-in flight control computing unit, GNSS receiver module, and image transmission module enable the EVO Max series to identify flight control interference signals and satellite positioning interference signals, providing outstanding anti-interference capabilities. This equips the EVO Max series with reliable flight stability.
The EVO Max series features the industry-first A-Mesh networking technology, enabling multiple devices to form a free network between drones, drones and ground terminals. It supports various modes such as "One Remote, Multiple Aircraft" and "Lead-Member Dual Control". Even in scenarios involving long-distance flights, obstacle traversal, flying around mountains or buildings, or even in areas with no network coverage, it can establish a free network among multiple devices within the network, enabling collaborative operations. This breaks through the operational boundaries of conventional drones, achieving integrated air-ground network coverage and confidently dealing with complex terrains.
Zonal operationsSupports dual-drone dual-control to achieve zonal operations of aircraft, improving flight work efficiency. It also supports mutual obstacle avoidance among drones within the network, ensuring flight operation safety.
Information SharingThe two remote controllers within the network can simultaneously monitor the aircraft footage. The AI target recognition feature used in the lead controller can also be displayed on the member controller. Additionally, both controllers can utilize the pinpoint positioning feature.
Relay OperationsIn scenarios with signal obstructions or weak signals such as crossing hills or remote areas, the aircraft can be quickly deployed as a mobile relay communication node, providing reliable signal support for another member aircraft at a distance, efficiently expanding the communication coverage area.
Equipped with four image transmission antennas, capable of two-way signal transmission and four-way signal reception, the EVO Max series achieves a communication distance of up to 15 kilometers between the drones and ground control station. It supports adaptive frequency hopping transmission in four frequency bands: 900MHz, 2.4GHz, 5.2GHz, and 5.8GHz, automatically selecting the optimal channel based on electromagnetic interference conditions, demonstrating strong anti-interference capabilities. Real-time transmission quality reaches 1080P@30FPS, with a high transmission rate of 64Mbps and low latency transmission of less than 150 milliseconds. Both image transmission data transmission and storage utilize AES encryption to ensure that communication data between endpoints is not intercepted.
The EVO Max 4T integrates a 160x zoom camera, a super-sensitive wide-angle camera, a thermal imaging camera, and a laser rangefinder. Additionally, the EVO Max 4N, equipped with a super-starlight-grade gimbal camera, integrates a super-starlight-grade night vision camera, a super-sensitive wide-angle camera, a thermal imaging camera, and a laser rangefinder. Intelligent coordination between multiple sensors enables seamless all-weather operations like never before.
Video: Capable of recording up to 4K 30p extreme low-light videos, with ISO reaching up to 64000. Even in moonlight conditions, it can capture target details.
Photography: Supports intelligent hardware multi-frame noise reduction and HDR fusion technology, ensuring delicate and clear photos in low-light environments.
Thermal imaging resolution up to 640x512, using 13mm / 9.1mm focal length lenses*, supporting 16x digital zoom for clearer and farther imagery.
One-click pinpoint positioning enables rapid acquisition of target location, with a maximum ranging distance of up to 1.2 kilometers.
In case of unforeseen circumstances, users can create temporary tasks in the air and flexibly modify based on the situation.
By recording flight trajectories and camera actions, precise repetition can be achieved after selecting target areas in the footage.
The app offers various task modes such as waypoint missions, polygon missions, and mapping aerial photography*, allowing users to import captured photos into modeling software for 2D or 3D model reconstruction. Suitable for scenarios like mapping,inspection, patrols, search and rescue, etc.
Data involving user privacy, including flight logs, locations, etc., must be manually agreed upon by the user before uploading. It supports AES encryption for photos, videos, and flight logs, requiring a password input for access.
Supports simultaneous output of visible light/night vision, infrared, and map displays.
IP43* protection level
From -20℃ to 50℃: Operating temperature
Used with the EVO Nest, the EVO Max series supports all-weather auto piloting for scenarios such as substations, industrial parks, and rooftops.
Autel Robotics opens the Autel SDK developer platform to the world, helping developers and partners reduce software and hardware development costs, jointly creating a new industrial ecosystem.
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The EVO Max series adopts Autel Autonomy's autonomous flight technology, achieving global path planning, 3D scene reconstruction, autonomous obstacle avoidance, and return-to-home in complex environments. With the capability of precise navigation without GNSS, it offers high-precision visual navigation in scenarios where GNSS signals are blocked, weak, or heavily interfered with, ensuring stable and reliable flight with high accuracy and low latency. The industry's first A-Mesh networking technology supports the free networking of multiple devices, achieving integrated air-ground network coverage. Featuring a "dual fisheye vision + millimeter-wave radar" multi- sensor fusion perception technology, it has 720° omnidirectional sensing and obstacle avoidance capabilities. The EVO Max series is equipped with the FusionLight camera 4T and FusionLight camera 4N, integrating a zoom camera, an ultra-starlight level night vision camera, an ultra-sensitive wide-angle camera, a thermal imaging camera, and a laser rangefinder. It efficiently empowers public safety, energy inspection, emergency management, and other fields, setting a new benchmark for industry applications of drones.
Autonomous Flight Planning: Utilizing Autel Autonomy autonomous flight technology, the system gathers real-time environmental data to achieve global path planning, 3D scene reconstruction, autonomous obstacle avoidance, and return-to-home capabilities in complex environments such as mountains, forests, and urban areas. This empowers industries such as security, inspection, and map
High-precision visual navigation: In scenarios where satellite signals are obstructed or weakened between urban buildings, high-precision and low-latency distance and coordinate information can still be obtained. This is achieved through SLAM (Simultaneous Localization and Mapping) visual navigation technology to enable stable flight with high-precision indoor and outdoor navigation positioning capabilities.
Accurate Object dentification and Tracking: Flexibly accommodating various payloads, based on AI image recognition technology, the system automatically identifies and precisely locks onto different types of targets within the observation area, such as heat sources, moving individuals, and vehicles, enabling data collection.
The EVO Max series adopts a multi-source sensor fusion perception technology combining "binocular fisheye vision + millimeter-wave radar", providing 720° omni-directional perception and obstacle avoidance capabilities. It supports all-weather operations, overcoming complex working environments such as water surfaces and high-voltage power lines. It can penetrate dust, fog, rain, and snow, remaining unaffected by harsh weather conditions. Even at night, it ensures flight safety.
The built-in flight control computing unit, GNSS receiver module, and image transmission module enable the EVO Max series to identify flight control interference signals and satellite positioning interference signals, providing outstanding anti-interference capabilities. This equips the EVO Max series with reliable flight stability.
The EVO Max series features the industry-first A-Mesh networking technology, enabling multiple devices to form a free network between drones, drones and ground terminals. It supports various modes such as "One Remote, Multiple Aircraft" and "Lead-Member Dual Control". Even in scenarios involving long-distance flights, obstacle traversal, flying around mountains or buildings, or even in areas with no network coverage, it can establish a free network among multiple devices within the network, enabling collaborative operations. This breaks through the operational boundaries of conventional drones, achieving integrated air-ground network coverage and confidently dealing with complex terrains.
Zonal operationsSupports dual-drone dual-control to achieve zonal operations of aircraft, improving flight work efficiency. It also supports mutual obstacle avoidance among drones within the network, ensuring flight operation safety.
Information SharingThe two remote controllers within the network can simultaneously monitor the aircraft footage. The AI target recognition feature used in the lead controller can also be displayed on the member controller. Additionally, both controllers can utilize the pinpoint positioning feature.
Relay OperationsIn scenarios with signal obstructions or weak signals such as crossing hills or remote areas, the aircraft can be quickly deployed as a mobile relay communication node, providing reliable signal support for another member aircraft at a distance, efficiently expanding the communication coverage area.
Equipped with four image transmission antennas, capable of two-way signal transmission and four-way signal reception, the EVO Max series achieves a communication distance of up to 15 kilometers between the drones and ground control station. It supports adaptive frequency hopping transmission in four frequency bands: 900MHz, 2.4GHz, 5.2GHz, and 5.8GHz, automatically selecting the optimal channel based on electromagnetic interference conditions, demonstrating strong anti-interference capabilities. Real-time transmission quality reaches 1080P@30FPS, with a high transmission rate of 64Mbps and low latency transmission of less than 150 milliseconds. Both image transmission data transmission and storage utilize AES encryption to ensure that communication data between endpoints is not intercepted.
The EVO Max 4T integrates a 160x zoom camera, a super-sensitive wide-angle camera, a thermal imaging camera, and a laser rangefinder. Additionally, the EVO Max 4N, equipped with a super-starlight-grade gimbal camera, integrates a super-starlight-grade night vision camera, a super-sensitive wide-angle camera, a thermal imaging camera, and a laser rangefinder. Intelligent coordination between multiple sensors enables seamless all-weather operations like never before.
Video: Capable of recording up to 4K 30p extreme low-light videos, with ISO reaching up to 64000. Even in moonlight conditions, it can capture target details.
Photography: Supports intelligent hardware multi-frame noise reduction and HDR fusion technology, ensuring delicate and clear photos in low-light environments.
Thermal imaging resolution up to 640x512, using 13mm / 9.1mm focal length lenses*, supporting 16x digital zoom for clearer and farther imagery.
One-click pinpoint positioning enables rapid acquisition of target location, with a maximum ranging distance of up to 1.2 kilometers.
In case of unforeseen circumstances, users can create temporary tasks in the air and flexibly modify based on the situation.
By recording flight trajectories and camera actions, precise repetition can be achieved after selecting target areas in the footage.
The app offers various task modes such as waypoint missions, polygon missions, and mapping aerial photography*, allowing users to import captured photos into modeling software for 2D or 3D model reconstruction. Suitable for scenarios like mapping,inspection, patrols, search and rescue, etc.
Data involving user privacy, including flight logs, locations, etc., must be manually agreed upon by the user before uploading. It supports AES encryption for photos, videos, and flight logs, requiring a password input for access.
Supports simultaneous output of visible light/night vision, infrared, and map displays.
IP43* protection level
From -20℃ to 50℃: Operating temperature
Used with the EVO Nest, the EVO Max series supports all-weather auto piloting for scenarios such as substations, industrial parks, and rooftops.
Autel Robotics opens the Autel SDK developer platform to the world, helping developers and partners reduce software and hardware development costs, jointly creating a new industrial ecosystem.
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