Quadcopter Autel EVO Max 4T (102002086)

Quadcopter Autel EVO Max 4T (102002086)

Autel EVO Max 4T is a modern quadcopter with advanced features such as unprecedented obstacle avoidance, trajectory detection and thermal imaging. The drone is equipped with a camera capable of recording 4K video, as well as a 3-axis stabilization system that ensures smooth and stable shooting. The quadcopter is equipped with a number of sensors, which allows the drone to easily navigate and operate in difficult conditions. Additionally, the drone comes with Autel Smart Controller V3, which allows you to easily control the quadcopter and access its advanced features.

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Automatic route search

Automatic route finding is one of the key features of the EVO Max 4T drone, it is able to navigate in difficult conditions and follow a predetermined flight path without pilot intervention. This is made possible by the drone's advanced software and sensors, which allow it to detect and avoid obstacles while maintaining a stable flight path.

The EVO Max 4T quadcopter uses a combination of technologies to achieve autonomous pathfinding. The drone is equipped with a GPS system that allows you to navigate to certain locations and follow a pre-programmed flight path.

Drone Autonomous Engine - The drone can adapt to changing conditions in real time and make decisions based on various data, including GPS coordinates, sensor data and user commands.

 
Navigation when there is no GPS signal

EVO Max 4T is equipped with advanced navigation capabilities that allow it to operate in environments where GPS signals may be interrupted or unavailable. This is achieved through the use of a range of sensors and technologies that allow the drone to navigate and maintain its position even in the absence of GPS signals.

One of the key technologies used by the EVO Max 4T to navigate in GPS-free environments is its radar system. The system allows the drone to detect and map its surroundings in real time, providing it with high-resolution 3D images.

The EVO Max 4T's navigation capabilities are high-tech and sophisticated, allowing the drone to operate in a wide variety of environments. Whether it's navigating when there is no GPS signal or flying in low light conditions.

Accurate object identification and tracking

Accurate identification and tracking of objects is the most important feature of the EVO Max 4T quadcopter, allowing it to carry out your missions.

The EVO Max 4T is equipped with a range of sensors and technologies that allow it to capture high-resolution images and video in a variety of lighting conditions. These include a thermal imager that allows the drone to detect and track thermal objects even in complete darkness.

The drone's autonomous operation is also highly flexible, allowing it to analyze sensor data and make real-time decisions based on a range of inputs. This includes object recognition algorithms that allow the drone to detect and identify certain types of objects, such as vehicles or people.

Overall, the EVO Max 4T's ability to accurately identify and track objects is a critical component of its ability to complete missions.

Data Security

Data security is a critical aspect of any quadcopter, and the EVO Max 4T is designed with advanced security features to protect the data it collects and transmits. The drone is equipped with a number of technologies and protocols that ensure the integrity and confidentiality of the data it collects and stores.

One of the key security features of the EVO Max 4T is the use of advanced encryption protocols to protect transmitted data. The drone uses AES-256 encryption to protect data while being transmitted over the air, ensuring it cannot be intercepted or decrypted.

In addition, the EVO Max 4T has a number of physical security features that protect against unauthorized access to the drone and its data. The drone's internal components are housed in a rugged housing that is resistant to shock, vibration and temperature changes. The drone also comes with a built-in memory chip that stores all data locally. EVO Max 4T also has advanced access control features, including password protection and multi-factor authentication, to ensure confidential data access. Drone software is updated regularly to address security vulnerabilities and ensure the drone's security features are up to date and effective.

Improved Live View

The EVO Max 4T drone comes with an advanced vision feature that allows users to get high-quality real-time video. This feature is designed to create an immersive and detailed representation of your surroundings.

Real-time images are transmitted from the quadcopter's high-definition camera, which is capable of capturing stunning 4K video footage and high-resolution images. The camera is mounted on a 3-axis gimbal, which ensures stability and levelness even during high-speed flight or sudden movements.

The live stream can be viewed on a variety of devices including smartphones, tablets and remote controls. The drone's Autonomy Engine also allows for live video streaming to a remote device, allowing operators to collaborate with other team members in real time.

The EVO Max 4T's enhanced live view feature is a critical component of its ability to perform advanced tasks.

Mobile SDK

The EVO Max 4T Mobile SDK provides developers with a set of tools and APIs that enable them to create mobile applications that can interact with the drone. One of the key features of the Mobile SDK is the open UX SDK, which is available for iOS and Android platforms.

The Open UX Mobile SDK simplifies the process of creating mobile apps for the EVO Max 4T drone by providing pre-built UI components that developers can integrate into their apps. This makes it easier for developers to create custom applications that can control the drone's behavior and transmit data in real time without having to create interface components from scratch.

IP43 protection

The EVO Max 4T has an IP43 rating, which is a standard used to classify a device's level of protection against the ingress of solid objects and liquids. IP43 rating means that the drone is protected from penetration by solid objects larger than 1 millimeter and is also protected from splashing water.

A-Mesh 1.0 innovative mesh network technology

Mesh networking is a type of networking technology that allows devices to communicate with each other without the need for a centralized network infrastructure. This occurs by creating a network of interconnected devices, where each device acts as a node that can communicate with other nodes in the network. In the case of the EVO Max 4T drone, this means that the drone can communicate with other drones nearby, forming a network that can transmit data and commands over long distances.

Another advantage of A-Mesh 1.0 is fault tolerance. Because the network is decentralized and has no point of failure, it is highly resilient to communication disruptions or hardware failures. If one quadcopter in the network is lost or damaged, other quadcopters in the network can easily take over its responsibilities, ensuring the mission runs smoothly.

A-Mesh 1.0 is a powerful technology that allows the drone to communicate and interact with other drones in the vicinity, expanding its range and coverage. This makes the EVO Max 4T ideal for a wide range of applications.

EVO Max 4T Camera System

The EVO Max 4T drone features a powerful camera system that supports 8K resolution and 10x optical zoom, as well as up to 160x hybrid zoom. This camera system is capable of capturing high-quality video and images from distances up to 1.60km, producing clear and detailed images of the target.

The 10x optical zoom allows the pilot to get closer to the target without losing image clarity and quality, providing a more detailed view of the object of interest. Hybrid zoom combines optical and digital zoom to enlarge images even further while maintaining a high level of detail.

Thanks to the EVO Max 4T camera system, the user can obtain clear and detailed images and videos of objects located at great distances, making the drone ideal for a range of applications.

Moonlight 2.0 algorithm

Moonlight 2.0 is a proprietary image processing algorithm developed by Autel Robotics that is designed to improve the quality of images captured by the EVO Max 4T drone in low light conditions. The algorithm works by reducing noise and increasing the dynamic range of images, resulting in clear, detailed images with improved clarity and contrast.

One of the key features of the Moonlight 2.0 algorithm is the ability to enhance post-processing capabilities, allowing the pilot to obtain high-quality images even in low-light conditions. This can be especially useful for applications such as video surveillance, inspection and monitoring, where the ability to capture clear, detailed images is critical.

The drone's camera also has a maximum ISO of 64000, which produces clear and detailed images.

EVO Max 4T drone thermal imaging camera

One of the key features of the EVO Max 4T drone is its high-resolution thermal imaging camera. The camera is capable of capturing images with a resolution of 640x512 pixels.

The thermal imaging camera is capable of shooting video at 30 frames per second. The camera also features 16x digital zoom, allowing operators to zoom in and see specific areas of interest in more detail.

Laser rangefinder

EVO Max 4T is equipped with a high-precision laser rangefinder that allows the drone to quickly and accurately measure distances and calculate the height of objects up to 1200 meters away. The function is especially useful for tasks such as geodesy, cartography, where accurate measurements of distances and heights are critical.

To use the laser rangefinder, the pilot simply taps on the target object on the drone's camera using a mobile app. The drone then uses a laser rangefinder to quickly measure the distance to the target and calculate its height based on the drone's own altitude and the angle of the laser beam.

The EVO Max 4T's laser rangefinder is a powerful feature that adds to the drone's already impressive array of capabilities. Providing fast and accurate distance and altitude measurements, this feature allows the drone to perform a wide range of missions.

Extended capabilities

Planning on a 3D map

The EVO Max 4T drone features a 3D map planning feature that allows users to plan, create and execute missions with 3D waypoints on a 3D map.

To take advantage of the 3D map planning feature, users can create a 3D map of the area to be explored or surveyed using the quadcopter's built-in camera and sensors. Once the map is created, users can use the drone's software to plan 3D waypoints, specifying altitude, speed and other parameters for each waypoint.

EVO Max 4T software uses a 3D map and mission plan to automatically navigate the drone along a planned route, capturing high-resolution images and other data as it goes. This data can then be used to create detailed 3D models and maps of the area, providing valuable insights and information for a wide range of applications.

*This feature will be available in the next update

Quick mission

The EVO Max 4T's Quick Mission feature allows users to quickly create and execute missions on the fly, without the need for extensive planning or preparation. The feature is designed to provide maximum flexibility and adaptability, allowing the drone to quickly respond to changing conditions or unexpected events.

With the Quick Mission feature, users can create temporary missions while other missions are in progress, allowing them to quickly adjust their flight plan or assign a new mission to the drone. Additionally, multiple sub-missions can be combined, providing increased flexibility and the ability to easily complete complex missions.

For example, if a drone is on a reconnaissance mission and discovers an unexpected object of interest, the user can quickly create a new mission to investigate the object.

*This feature will be available in the next update

Playing Missions

Mission Replay is a feature of the EVO Max 4T that allows you to easily replay complex flight missions. When this feature is enabled, the drone automatically records camera angles and flight paths during a manual or semi-autonomous mission, or a series of missions.

After completing a mission, the user can simply activate the Mission Replay feature and the drone will automatically repeat the mission following the exact same flight path and camera angles. This feature will be useful for applications where you may need to run the same mission multiple times to obtain accurate and consistent data.

By automating the mission replay process, the EVO Max 4T drone simplifies the sequential data collection process, reducing the need for manual intervention and minimizing the risk of errors or data inconsistencies. The feature can also save time and resources by eliminating the need to manually repeat complex flight missions.

*This feature will be available in the next update

Multiple mission types

Mission types

Terrain Follow*

The EVO Max 4T features Terrain Follow, allowing it to maintain a relatively constant altitude above the ground even when flying over uneven or sloping terrain. The feature is especially useful for reconnaissance and surveillance missions that require the drone to maintain a certain altitude when flying over hilly or mountainous terrain.

*This feature will be available in the next update

Rectangular mission

The EVO Max 4T drone supports the Rectangular Mission feature, which allows users to easily generate a rectangular drone flight area for surveying or mapping. The feature simplifies the mission planning process by allowing users to define the boundaries of the survey area with just one click.

Automatic task generation*

The feature allows users to automatically create flight routes by adding regional boundary points using points or importing KML files. KML files are a standard format for expressing geographic data so that it can be easily distributed and viewed in maps and other geospatial tools.

Using this feature, users can easily create custom flight paths that cover specific areas of interest, such as a construction site, industrial plant or nature reserve. Once a flight path is determined, EVO Max 4T will automatically follow it and capture data using built-in sensors and a camera.

*This feature will be available in the next update

Waypoint missions

The EVO Max 4T drone allows users to create custom flight paths using waypoint missions. The function allows you to set a series of GPS coordinates that the drone will follow sequentially, creating a flexible and customizable flight path.

Using the waypoints feature, users can create unstructured flight paths that allow the drone to cover specific areas or collect data at specific points. For example, a surveying application might require a drone to fly over a specific area and take pictures or collect data at specific intervals. By creating a custom waypoint mission, pilots can define the flight path the drone will follow to reach that goal.

Oblique shooting

The EVO Max 4T is capable of capturing high-quality angled images by automatically planning 5 flight paths, which include 1 orthographic route and 4 angular routes, based on the flight area specified by the pilot.

Oblique surveying involves capturing images of the target area from multiple angles, providing more detailed and contextual information than traditional vertical or orthographic surveying. The EVO Max 4T's automatic route planning feature simplifies the oblique shooting process without the need to manually plan and control the drone's flight path.

Spiral mission*

Spiral mission feature in EVO Max 4T which allows it to spiral flight in a given area for search and rescue missions. The feature allows the drone to quickly and efficiently cover a large area while maintaining a high level of accuracy.

During a spiral mission, the EVO Max 4T drone flies in a spiral over a specified search area, gradually moving deeper towards the center of the area. This design allows the drone to quickly cover a large area while providing a systematic and thorough search over the entire area.

*This feature will be available in the next update

Vertical scanning*

The EVO Max 4T is capable of vertical scanning, making it ideal for inspecting building facades, quarry walls, towers and other vertical structures. This feature is provided by the drone's advanced flight control system, which allows it to maintain a stable flight path while moving vertically along a structure.

When performing a vertical scan, the drone flies up and down a structure, capturing high-resolution images and other data using its built-in camera and sensors. This data can then be used to create detailed 3D models of the structure, which can be analyzed and used for a wide range of applications.

*This feature will be available in the next update

Corridor mission*

The EVO Max 4T's corridor mission feature is designed to support mission planning and execution in tight, large-scale environments such as roads, rivers, pipelines and power lines. The function allows pilots to easily determine the boundaries of the corridor, set the altitude and flight speed, and plan the drone’s route along the corridor.

One of the key benefits of the Corridor Mission feature is that it provides an intuitive and efficient way to plan and execute missions in challenging environments. The corridor mission feature allows pilots to create highly accurate flight paths that follow the contours of the terrain, ensuring the drone receives high-quality data and imagery throughout the mission.

*This feature will be available in the next update

Proving Ground Mission

The EVO Max 4T drone supports a polygon mission feature that allows pilots to generate polygonal flight areas with one click. The feature is designed to simplify the planning and execution of mapping and surveying tasks across large, complex areas.

To use a polygon mission, the pilot simply selects the area he wants to explore or map and then presses a button to create a polygonal flight area. The drone's autonomous control system then calculates the optimal flight path based on the size and shape of the polygon and creates a mission plan including waypoints, altitude and other parameters.

Autel Smart Controller V3

Autel Smart Controller V3 is an advanced remote control designed to work seamlessly with the EVO Max 4T drone. The controller provides a number of advanced features and capabilities that make it easier and more intuitive to control the aircraft and access its advanced capabilities.

One of the key features of the Autel Smart Controller V3 is its high-resolution display. The display provides clear, detailed images from the drone's camera, telemetry data, and other information, allowing pilots to control the drone with greater precision. In addition, the display is easy to read in sunlight, making it easy to use even in bright conditions.

Autel Smart Controller V3 also includes a number of additional controls and input options. These include a dual-stick control system, customizable buttons and parameters, and a built-in microphone and speaker for audio communication with ground personnel.

In addition to advanced control capabilities, the Autel Smart Controller V3 also features a range of connectivity options such as built-in Wi-Fi, Bluetooth and HDMI ports, allowing pilots to connect to external devices and accessories and share data and video in real time.

Equipment:

• Drone charger
• Instructions
• USB cable
• Power cable for remote control
• Memory card 64 GB
• Quadcopter - 1 piece
• Quadcopter case
• Remote control sticks (pair) - 1 pc.
• Case for remote control
• Propellers (6 pcs.)
• Gimbal protector - 1 piece
• Remote Control
• Charger for remote control
• Strap

Flight characteristics:

• Drone weight: 1600 g, in addition to battery and gimbal
• Maximum take-off weight: 1999 g
• Dimensions: 576 * 660 * 149 mm (folded with propellers), 340 * 407 * 148 mm (folded without propellers), 257 * 136 * 133 mm (folded without propellers)
• Wheelbase diagonal: 464 mm
• Lifting speed: 8 m/s
• Descent speed: 6 m/s
• Horizontal speed (no wind): 23 m/s
• Maximum flight altitude: 7000m
• Flight time: 42 min
• Hover time in the air: 38 min
• Maximum wind resistance: 12 m/s
• IP Rating: IP43
• Tilt angle: 35°
• Angular speed: pitch - 300°/s, maneuvering - 120°/s
• Operating temperature: -20℃ - 50℃
• Operating frequency range: 2.4 GHz/5.8 GHz
• Hovering accuracy: vertical: ±0.3 m (GPS enabled); ±0.15 m (RTK enabled); ±0.1 m (vision system enabled). Horizontal: ±0.3 m (GPS enabled); ±0.1 m (RTK enabled); ±0.15 m (vision system enabled).

Stabilization system:

• Panoramic range: -135° to 45°
• Rotation: -45° to 45°
• Tilt: -45° to 45°
• Control range: -90° to 30°
• Stabilization system: 3-axis mechanical gimbal (pan, tilt, roll)
• Control speed (step): 200º/s
• Angular vibration range: <0.005°

Camera zoom:

• Sensor: 48 MP
• Optical zoom: 8K 10x
• Hybrid zoom: 160x
• Aperture: f/2.8-f/4.8

• Sensor: 50 MP
• CMOS: 1/1.28
• Aperture: f/1.9
• DFVO: 85°
• Equivalent: 23 mm

Thermal imager:

• Resolution: 640x512
• Aperture: 13mm
• Digital zoom: 16x
• Temperature measurement range: -20°C to 550°C

Laser rangefinder:

• Measuring range: 5 - 1200 m
• Measurement accuracy: +1 m

Automatic operation:

• Manual flight and guidance without GPS: Indoor: horizontal error ≤1.18; Outdoors: at an altitude of up to 500m horizontal error <0.01
• Automatic obstacle overcoming: at speeds up to 20m, with a safe distance to obstacles of 1.5m
• Identification type: people, cars, boats
• Number of target acquisitions: 64
• Recognition accuracy: 85%

AUTEL V3 controller:

• Screen: 7.9 inches, 2000 nits max. brightness, resolution 2048*1536
• External battery capacity: 5800 mAh
• Battery type: Li-ion
• Voltage: 11.55V
• Time to full charge: 120 minutes
• Operating time: at max. brightness 3 hours
• Maximum signal range (with interference): 20 km (FCC), 8 km (CE)
• IP Rating: IP43
• Memory capacity: 128G
• GNSS: GPS + GLONASS + Galileo + Beidou + NavIC + QZSS
• Operating temperature: -20 C to 40 C
• Wi-Fi protocol: WiFi Direct, Wi-Fi display, support 802.11a/b/g/n/ac, 2 x 2 MIMO Wi-Fi
• Operating frequency: 2.400–2.4835 GHz; 5.150–5.250 GHz; 5.725–5.850 GHz

Accumulator battery:

• Battery type: Li-PO 4S
• Voltage: 14.88V
• Capacity: 8070 mAh
• Weight: 520 g
• Charging temperature: from 5°C to 45°C, at temperatures below 10° the self-heating function is activated
• Quick change: Yes