12.2 From Selected Plan

AeroGCS ORANGE offers the capability to view logs specific to a plan within a project, facilitating easy review and analysis of the flight.

To view the logs specific to a plan in the project, users can access the "View Log" option available on the plan screen by clicking on the three dots. This will display a pop-up menu, as shown in the following screen. Users can select the "View Log" option to access and review the logs for the plan.

After selecting the "View Log" option from the menu, users will be directed to the Total Flight Log screen, where logs for the selected plan are listed separately for each flight conducted using the plan. As shown in the following screen.

On this screen, users will find information about the total number of flights taken using the plan, including details such as start time, end time, and the drone name used for each flight. The screen also provides a "Download" option for users to download the logs for a specific flight. Upon selecting the "Download" option, the user will be prompted to choose a folder to save the logs. Two files, flight data, and teledata, associated with the particular flight ID will be downloaded in Excel format. The flight ID is included in the filename of the logs.

To get an overview of the logs for a specific flight, users can click on the respective flight log row. This action will display a detailed overview of the logs for that particular flight of the plan, as shown in the following screen.

In this comprehensive feature, users can delve into the detailed logs of a specific flight presented in graphical form. The interface provides a wealth of information, including the flight's plan name, project name, start time, end time, date, flight ID, duration, average altitude, and average speed. Users can further explore data related to altitude, speed, battery usage, and various logs associated with the flight.

The "View Details" option offers an in-depth look into the flight's specifics, showcasing critical aspects such as roll, pitch, yaw, and other relevant information. These parameters, also known as axes of rotation, play a pivotal role in controlling the drone's movement and direction during flight.

• Pitch, associated with the lateral or transverse axis, influences the rise or fall of the drone's front end. It aids in managing ascent and descent maneuvers.

• Roll, linked to the longitudinal axis, determines the vehicle's rotation from front to back. During turns, the drone "banks" left or right, with positive roll angles lifting one wing while lowering the other.

• Yaw, the rotation around the vertical axis, alters the aircraft's direction. It induces a side-to-side nose movement, with a positive yaw shifting the nose to the right. Yaw adjustments are crucial for altering the aircraft's pointing direction and are controlled by the rudder.

This feature not only offers a visual representation of flight parameters but also allows users to scrutinize specific details and metrics crucial for understanding and optimizing drone operations.

To access a more detailed breakdown of the flight, click on "View Details." This option provides a comprehensive, time-wise report detailing various parameters, offering an in-depth insight into the flight's dynamics. The displayed image illustrates the richness of information available through this feature.

These logs provide users with graphical and statistical data detailing aspects such as time, altitude, speed, battery status, and more for completed flights. They reveal changes in the device's pitch, roll, yaw, and altitude values, allowing users to analyze the device's behavior. The presented data aids in a thorough examination of the completed flight, highlighting GPS glitches and alterations in vehicle speed. Users can leverage this information to enhance device performance. These logs remain accessible post-simulation, simplifying the analysis of device performance with specific values. With adjustments to parameters, users can achieve improved and desirable outcomes without compromising the device's integrity.