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FL3000 
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Setting up a soccer layout with just two corners
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Setting up a soccer layout with just two corners
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Setting up a soccer layout with just two corners
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Setting up a soccer layout with just two corners
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Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
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Setting up a soccer layout with just two corners
English
FL3000-Danmark
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
English
Portuguese
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Wireless Charger
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fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
fjd
Setting up a soccer layout with just two corners
English
Portuguese
Japanese
Wireless Charger
Chinese
Russian
Other
How do I set up a base station?

1.Confirm that the boundary line has been laid: Ensure that the boundary line of the designated work area for the robot (usually wires buried underground or fixed on the ground) has been correctly installed and powered on.

2.Cleaning the lawn: Before starting for the first time, remove stones, branches, toys, and other debris from the lawn to prevent damage to the machine or jamming.

3.Check the body: Ensure that the robot is not significantly damaged and the blades are securely installed (if it is being used for the first time).

*The dynamic range is measured using the slope based DR calculation method in D-Log mode for non slow motion and non cropped vertical recording.The endurance data was measured in a windless environment, with the aircraft obstacle avoidance behavior set to braking and the camera set to camera mode. It was measured by flying forward at a speed of 9 meters per second (32.4 kilometers per hour) at sea level until the drone made a forced landing. The data is for reference only. Please pay attention to the app prompts during actual flight.
How do I set up a base station?

1.Confirm that the boundary line has been laid: Ensure that the boundary line of the designated work area for the robot (usually wires buried underground or fixed on the ground) has been correctly installed and powered on.

2.Cleaning the lawn: Before starting for the first time, remove stones, branches, toys, and other debris from the lawn to prevent damage to the machine or jamming.

3.Check the body: Ensure that the robot is not significantly damaged and the blades are securely installed (if it is being used for the first time).

*The dynamic range is measured using the slope based DR calculation method in D-Log mode for non slow motion and non cropped vertical recording.The endurance data was measured in a windless environment, with the aircraft obstacle avoidance behavior set to braking and the camera set to camera mode. It was measured by flying forward at a speed of 9 meters per second (32.4 kilometers per hour) at sea level until the drone made a forced landing. The data is for reference only. Please pay attention to the app prompts during actual flight.
How do I set up a base station?

1.Confirm that the boundary line has been laid: Ensure that the boundary line of the designated work area for the robot (usually wires buried underground or fixed on the ground) has been correctly installed and powered on.

2.Cleaning the lawn: Before starting for the first time, remove stones, branches, toys, and other debris from the lawn to prevent damage to the machine or jamming.

3.Check the body: Ensure that the robot is not significantly damaged and the blades are securely installed (if it is being used for the first time).

*The dynamic range is measured using the slope based DR calculation method in D-Log mode for non slow motion and non cropped vertical recording.The endurance data was measured in a windless environment, with the aircraft obstacle avoidance behavior set to braking and the camera set to camera mode. It was measured by flying forward at a speed of 9 meters per second (32.4 kilometers per hour) at sea level until the drone made a forced landing. The data is for reference only. Please pay attention to the app prompts during actual flight.
How do I set up a base station?

1.Confirm that the boundary line has been laid: Ensure that the boundary line of the designated work area for the robot (usually wires buried underground or fixed on the ground) has been correctly installed and powered on.

2.Cleaning the lawn: Before starting for the first time, remove stones, branches, toys, and other debris from the lawn to prevent damage to the machine or jamming.

3.Check the body: Ensure that the robot is not significantly damaged and the blades are securely installed (if it is being used for the first time).

*The dynamic range is measured using the slope based DR calculation method in D-Log mode for non slow motion and non cropped vertical recording.The endurance data was measured in a windless environment, with the aircraft obstacle avoidance behavior set to braking and the camera set to camera mode. It was measured by flying forward at a speed of 9 meters per second (32.4 kilometers per hour) at sea level until the drone made a forced landing. The data is for reference only. Please pay attention to the app prompts during actual flight.
How do I set up a base station?

1.Confirm that the boundary line has been laid: Ensure that the boundary line of the designated work area for the robot (usually wires buried underground or fixed on the ground) has been correctly installed and powered on.

2.Cleaning the lawn: Before starting for the first time, remove stones, branches, toys, and other debris from the lawn to prevent damage to the machine or jamming.

3.Check the body: Ensure that the robot is not significantly damaged and the blades are securely installed (if it is being used for the first time).

*The dynamic range is measured using the slope based DR calculation method in D-Log mode for non slow motion and non cropped vertical recording.The endurance data was measured in a windless environment, with the aircraft obstacle avoidance behavior set to braking and the camera set to camera mode. It was measured by flying forward at a speed of 9 meters per second (32.4 kilometers per hour) at sea level until the drone made a forced landing. The data is for reference only. Please pay attention to the app prompts during actual flight.
How do I set up a base station?

1.Confirm that the boundary line has been laid: Ensure that the boundary line of the designated work area for the robot (usually wires buried underground or fixed on the ground) has been correctly installed and powered on.

2.Cleaning the lawn: Before starting for the first time, remove stones, branches, toys, and other debris from the lawn to prevent damage to the machine or jamming.

3.Check the body: Ensure that the robot is not significantly damaged and the blades are securely installed (if it is being used for the first time).

*The dynamic range is measured using the slope based DR calculation method in D-Log mode for non slow motion and non cropped vertical recording.The endurance data was measured in a windless environment, with the aircraft obstacle avoidance behavior set to braking and the camera set to camera mode. It was measured by flying forward at a speed of 9 meters per second (32.4 kilometers per hour) at sea level until the drone made a forced landing. The data is for reference only. Please pay attention to the app prompts during actual flight.
How do I set up a base station?

1.Confirm that the boundary line has been laid: Ensure that the boundary line of the designated work area for the robot (usually wires buried underground or fixed on the ground) has been correctly installed and powered on.

2.Cleaning the lawn: Before starting for the first time, remove stones, branches, toys, and other debris from the lawn to prevent damage to the machine or jamming.

3.Check the body: Ensure that the robot is not significantly damaged and the blades are securely installed (if it is being used for the first time).

*The dynamic range is measured using the slope based DR calculation method in D-Log mode for non slow motion and non cropped vertical recording.The endurance data was measured in a windless environment, with the aircraft obstacle avoidance behavior set to braking and the camera set to camera mode. It was measured by flying forward at a speed of 9 meters per second (32.4 kilometers per hour) at sea level until the drone made a forced landing. The data is for reference only. Please pay attention to the app prompts during actual flight.
How do I set up a base station?

1.Confirm that the boundary line has been laid: Ensure that the boundary line of the designated work area for the robot (usually wires buried underground or fixed on the ground) has been correctly installed and powered on.

2.Cleaning the lawn: Before starting for the first time, remove stones, branches, toys, and other debris from the lawn to prevent damage to the machine or jamming.

3.Check the body: Ensure that the robot is not significantly damaged and the blades are securely installed (if it is being used for the first time).

*The dynamic range is measured using the slope based DR calculation method in D-Log mode for non slow motion and non cropped vertical recording.The endurance data was measured in a windless environment, with the aircraft obstacle avoidance behavior set to braking and the camera set to camera mode. It was measured by flying forward at a speed of 9 meters per second (32.4 kilometers per hour) at sea level until the drone made a forced landing. The data is for reference only. Please pay attention to the app prompts during actual flight.
How do I set up a base station?

1.Confirm that the boundary line has been laid: Ensure that the boundary line of the designated work area for the robot (usually wires buried underground or fixed on the ground) has been correctly installed and powered on.

2.Cleaning the lawn: Before starting for the first time, remove stones, branches, toys, and other debris from the lawn to prevent damage to the machine or jamming.

3.Check the body: Ensure that the robot is not significantly damaged and the blades are securely installed (if it is being used for the first time).

*The dynamic range is measured using the slope based DR calculation method in D-Log mode for non slow motion and non cropped vertical recording.The endurance data was measured in a windless environment, with the aircraft obstacle avoidance behavior set to braking and the camera set to camera mode. It was measured by flying forward at a speed of 9 meters per second (32.4 kilometers per hour) at sea level until the drone made a forced landing. The data is for reference only. Please pay attention to the app prompts during actual flight.
How do I set up a base station?

1.Confirm that the boundary line has been laid: Ensure that the boundary line of the designated work area for the robot (usually wires buried underground or fixed on the ground) has been correctly installed and powered on.

2.Cleaning the lawn: Before starting for the first time, remove stones, branches, toys, and other debris from the lawn to prevent damage to the machine or jamming.

3.Check the body: Ensure that the robot is not significantly damaged and the blades are securely installed (if it is being used for the first time).

*The dynamic range is measured using the slope based DR calculation method in D-Log mode for non slow motion and non cropped vertical recording.The endurance data was measured in a windless environment, with the aircraft obstacle avoidance behavior set to braking and the camera set to camera mode. It was measured by flying forward at a speed of 9 meters per second (32.4 kilometers per hour) at sea level until the drone made a forced landing. The data is for reference only. Please pay attention to the app prompts during actual flight.
How do I set up a base station?

1.Confirm that the boundary line has been laid: Ensure that the boundary line of the designated work area for the robot (usually wires buried underground or fixed on the ground) has been correctly installed and powered on.

2.Cleaning the lawn: Before starting for the first time, remove stones, branches, toys, and other debris from the lawn to prevent damage to the machine or jamming.

3.Check the body: Ensure that the robot is not significantly damaged and the blades are securely installed (if it is being used for the first time).

*The dynamic range is measured using the slope based DR calculation method in D-Log mode for non slow motion and non cropped vertical recording.The endurance data was measured in a windless environment, with the aircraft obstacle avoidance behavior set to braking and the camera set to camera mode. It was measured by flying forward at a speed of 9 meters per second (32.4 kilometers per hour) at sea level until the drone made a forced landing. The data is for reference only. Please pay attention to the app prompts during actual flight.
How do I set up a base station?

1.Confirm that the boundary line has been laid: Ensure that the boundary line of the designated work area for the robot (usually wires buried underground or fixed on the ground) has been correctly installed and powered on.

2.Cleaning the lawn: Before starting for the first time, remove stones, branches, toys, and other debris from the lawn to prevent damage to the machine or jamming.

3.Check the body: Ensure that the robot is not significantly damaged and the blades are securely installed (if it is being used for the first time).

*The dynamic range is measured using the slope based DR calculation method in D-Log mode for non slow motion and non cropped vertical recording.The endurance data was measured in a windless environment, with the aircraft obstacle avoidance behavior set to braking and the camera set to camera mode. It was measured by flying forward at a speed of 9 meters per second (32.4 kilometers per hour) at sea level until the drone made a forced landing. The data is for reference only. Please pay attention to the app prompts during actual flight.
How do I set up a base station?

1.Confirm that the boundary line has been laid: Ensure that the boundary line of the designated work area for the robot (usually wires buried underground or fixed on the ground) has been correctly installed and powered on.

2.Cleaning the lawn: Before starting for the first time, remove stones, branches, toys, and other debris from the lawn to prevent damage to the machine or jamming.

3.Check the body: Ensure that the robot is not significantly damaged and the blades are securely installed (if it is being used for the first time).

*The dynamic range is measured using the slope based DR calculation method in D-Log mode for non slow motion and non cropped vertical recording.The endurance data was measured in a windless environment, with the aircraft obstacle avoidance behavior set to braking and the camera set to camera mode. It was measured by flying forward at a speed of 9 meters per second (32.4 kilometers per hour) at sea level until the drone made a forced landing. The data is for reference only. Please pay attention to the app prompts during actual flight.
How do I set up a base station?

1.Confirm that the boundary line has been laid: Ensure that the boundary line of the designated work area for the robot (usually wires buried underground or fixed on the ground) has been correctly installed and powered on.

2.Cleaning the lawn: Before starting for the first time, remove stones, branches, toys, and other debris from the lawn to prevent damage to the machine or jamming.

3.Check the body: Ensure that the robot is not significantly damaged and the blades are securely installed (if it is being used for the first time).

*The dynamic range is measured using the slope based DR calculation method in D-Log mode for non slow motion and non cropped vertical recording.The endurance data was measured in a windless environment, with the aircraft obstacle avoidance behavior set to braking and the camera set to camera mode. It was measured by flying forward at a speed of 9 meters per second (32.4 kilometers per hour) at sea level until the drone made a forced landing. The data is for reference only. Please pay attention to the app prompts during actual flight.
How do I set up a base station?

1.Confirm that the boundary line has been laid: Ensure that the boundary line of the designated work area for the robot (usually wires buried underground or fixed on the ground) has been correctly installed and powered on.

2.Cleaning the lawn: Before starting for the first time, remove stones, branches, toys, and other debris from the lawn to prevent damage to the machine or jamming.

3.Check the body: Ensure that the robot is not significantly damaged and the blades are securely installed (if it is being used for the first time).

*The dynamic range is measured using the slope based DR calculation method in D-Log mode for non slow motion and non cropped vertical recording.The endurance data was measured in a windless environment, with the aircraft obstacle avoidance behavior set to braking and the camera set to camera mode. It was measured by flying forward at a speed of 9 meters per second (32.4 kilometers per hour) at sea level until the drone made a forced landing. The data is for reference only. Please pay attention to the app prompts during actual flight.
How do I set up a base station?

1.Confirm that the boundary line has been laid: Ensure that the boundary line of the designated work area for the robot (usually wires buried underground or fixed on the ground) has been correctly installed and powered on.

2.Cleaning the lawn: Before starting for the first time, remove stones, branches, toys, and other debris from the lawn to prevent damage to the machine or jamming.

3.Check the body: Ensure that the robot is not significantly damaged and the blades are securely installed (if it is being used for the first time).

*The dynamic range is measured using the slope based DR calculation method in D-Log mode for non slow motion and non cropped vertical recording.The endurance data was measured in a windless environment, with the aircraft obstacle avoidance behavior set to braking and the camera set to camera mode. It was measured by flying forward at a speed of 9 meters per second (32.4 kilometers per hour) at sea level until the drone made a forced landing. The data is for reference only. Please pay attention to the app prompts during actual flight.
How do I set up a base station?

1.Confirm that the boundary line has been laid: Ensure that the boundary line of the designated work area for the robot (usually wires buried underground or fixed on the ground) has been correctly installed and powered on.

2.Cleaning the lawn: Before starting for the first time, remove stones, branches, toys, and other debris from the lawn to prevent damage to the machine or jamming.

3.Check the body: Ensure that the robot is not significantly damaged and the blades are securely installed (if it is being used for the first time).

*The dynamic range is measured using the slope based DR calculation method in D-Log mode for non slow motion and non cropped vertical recording.The endurance data was measured in a windless environment, with the aircraft obstacle avoidance behavior set to braking and the camera set to camera mode. It was measured by flying forward at a speed of 9 meters per second (32.4 kilometers per hour) at sea level until the drone made a forced landing. The data is for reference only. Please pay attention to the app prompts during actual flight.
How do I set up a base station?

1.Confirm that the boundary line has been laid: Ensure that the boundary line of the designated work area for the robot (usually wires buried underground or fixed on the ground) has been correctly installed and powered on.

2.Cleaning the lawn: Before starting for the first time, remove stones, branches, toys, and other debris from the lawn to prevent damage to the machine or jamming.

3.Check the body: Ensure that the robot is not significantly damaged and the blades are securely installed (if it is being used for the first time).

*The dynamic range is measured using the slope based DR calculation method in D-Log mode for non slow motion and non cropped vertical recording.The endurance data was measured in a windless environment, with the aircraft obstacle avoidance behavior set to braking and the camera set to camera mode. It was measured by flying forward at a speed of 9 meters per second (32.4 kilometers per hour) at sea level until the drone made a forced landing. The data is for reference only. Please pay attention to the app prompts during actual flight.
How do I set up a base station?

1.Confirm that the boundary line has been laid: Ensure that the boundary line of the designated work area for the robot (usually wires buried underground or fixed on the ground) has been correctly installed and powered on.

2.Cleaning the lawn: Before starting for the first time, remove stones, branches, toys, and other debris from the lawn to prevent damage to the machine or jamming.

3.Check the body: Ensure that the robot is not significantly damaged and the blades are securely installed (if it is being used for the first time).

*The dynamic range is measured using the slope based DR calculation method in D-Log mode for non slow motion and non cropped vertical recording.The endurance data was measured in a windless environment, with the aircraft obstacle avoidance behavior set to braking and the camera set to camera mode. It was measured by flying forward at a speed of 9 meters per second (32.4 kilometers per hour) at sea level until the drone made a forced landing. The data is for reference only. Please pay attention to the app prompts during actual flight.
How do I set up a base station?

1.Confirm that the boundary line has been laid: Ensure that the boundary line of the designated work area for the robot (usually wires buried underground or fixed on the ground) has been correctly installed and powered on.

2.Cleaning the lawn: Before starting for the first time, remove stones, branches, toys, and other debris from the lawn to prevent damage to the machine or jamming.

3.Check the body: Ensure that the robot is not significantly damaged and the blades are securely installed (if it is being used for the first time).

*The dynamic range is measured using the slope based DR calculation method in D-Log mode for non slow motion and non cropped vertical recording.The endurance data was measured in a windless environment, with the aircraft obstacle avoidance behavior set to braking and the camera set to camera mode. It was measured by flying forward at a speed of 9 meters per second (32.4 kilometers per hour) at sea level until the drone made a forced landing. The data is for reference only. Please pay attention to the app prompts during actual flight.
How do I set up a base station?

1.Confirm that the boundary line has been laid: Ensure that the boundary line of the designated work area for the robot (usually wires buried underground or fixed on the ground) has been correctly installed and powered on.

2.Cleaning the lawn: Before starting for the first time, remove stones, branches, toys, and other debris from the lawn to prevent damage to the machine or jamming.

3.Check the body: Ensure that the robot is not significantly damaged and the blades are securely installed (if it is being used for the first time).

*The dynamic range is measured using the slope based DR calculation method in D-Log mode for non slow motion and non cropped vertical recording.The endurance data was measured in a windless environment, with the aircraft obstacle avoidance behavior set to braking and the camera set to camera mode. It was measured by flying forward at a speed of 9 meters per second (32.4 kilometers per hour) at sea level until the drone made a forced landing. The data is for reference only. Please pay attention to the app prompts during actual flight.