Our goal is to process your data as quickly and efficiently as possible to ensure customer delight. We invest a significant amount of effort to process the data successfully the first time. However, capturing these thousands of images might be challenging. Therefore, we created this article, taking into account the best practices that will save you a lot of time and frustration during the data acquisition. First we will share the min requirements for the flight plan.

Flight plan

For the Solar Inspection Pro data product we require visual (RGB) and thermal photos. A drone pilot will use an unmanned aerial system (a drone with a camera) to capture the data on site.

Visual (RGB) Data Requirements

  • Ground Sample Distance (GSD): 1.0 cm per pixel at panel level. When collecting data from rooftop solar installations, please find some interesting flight tips here.

  • Front Overlap (direction of the flight lines): 75%.

  • Side Overlap (perpendicular to the direction of the flight lines): 75%.

  • Flight Line Direction: Along the long edge of the solar rows.

  • Flight Path: At least 2 flight lines should be outside the boundaries of the operation in all directions.

  • Gimbal Orientation: standard Nadir (-90 deg), with acceptable deviation up to 20 deg to avoid sun glare.

  • Image Format: JPEG.
    Each image should contain the following metadata: GPS location, relative altitude, gimbal pitch, gimbal yaw, gimbal roll and local timestamp.

  • Image Quality: in focus, free from motion blur and minimal glare.

Thermal Data Requirements

  • Ground Sample Distance (GSD): 5.5 cm per pixel at panel level. When collecting data from rooftop solar installations, please find some interesting flight tips here.

  • Front Overlap (direction of the flight lines): 75%.

  • Side Overlap (perpendicular to the direction of the flight lines) : 75%.

  • Image Resolution: 640x512 pixels or greater.

  • Flight Line Direction: Along the long edge of the solar rows.

  • Flight Path: At least 2 flight lines should be outside the boundaries of the operation in all directions.

  • Gimbal Orientation: standard Nadir (-90 deg), with acceptable deviation up to 20 deg to avoid sun glare.

  • Image format: R-JPEG or Radiometric TIF.
    Each image should contain the following metadata: GPS location, relative altitude, gimbal pitch, gimbal yaw, gimbal roll and local timestamp.

  • Image Quality: in focus, free from motion blur and minimal glare.

  • Environmental Conditions: Irradiance ≥ 600 Watts/square meter recommended, skies clear sky or overcast, wind speed below 5 m/s, humidity ideally less than 60%.

  • Special Considerations for Single-Axis Trackers:
    Trackers should be as horizontal as possible, up to a maximum 45 deg tilt. Avoid flying in the early morning or late afternoon when the sun is low at the horizon to minimise inter-row glare.

  • Special Considerations for Double-Axis Trackers:
    Trackers should be as horizontal as possible, up to a maximum 45 deg tilt. The entire tracker should be visible on at least one photo. Otherwise, increase the altitude.

Blocks

  • To ensure weather conditions are kept homogeneous across the entire solar inspection, sites larger than 5ha should always be divided into blocks.

  • To ensure a consistent Ground Sample Distance (cm/pixel], sites with elevation differences of more than 10m should always be divided into blocks.

  • Blocks will have to be flown separately.

The Sitemark platform does not let you cut sites into blocks. Reach out to our support team to let them know and they will cut the site into blocks on your behalf.

Site As-Built

For operations larger than 5 ha, an up-to-date and accurately geo-referenced as-built plan from your solar site should be uploaded on the Sitemark Fuse platform as a site overlay. This is crucial to ensure all of the geospatial data is mapped correctly. It is very important that you do this prior to the confirmation of the operation.

The site as-built needs to meet the following requirements:

  • Should be recent to match the site as closely as possible.

  • Needs to show clear physical reference points, such as roads, buildings, rivers, tables, panels, etc..

  • Should be accurately scaled so it can be geo-referenced on the map.

  • Should be uploaded in PDF or DXF, as an overlay in Sitemark Fuse.

  • Should be uploaded prior to the confirmation of the operation.
    It is important that, if there is only a PDF, some site reference points on the as-built must be visible on the satellite image in the platform. So it can be accurately geo-referenced on the map.

  • Should cover all areas that need analysis, because areas not covered in the as-built might not be analysed.

  • Should not be hand-drawn or low-quality scanned site plans.

Some examples showing a good and a bad as-built plan.

✅ Good - every module is clearly visible

❌ Not good - modules not visible

❌ Not Good - the resolution is too low, meaning that we can not use any reference point from the as-built to locate on the map.

If you do not have an as-built from your site available, use the Solar Site As-built data product from Sitemark. We can help you to generate the as-built from your solar site. Please get in touch with your account manager or our support team to get more information about this data product.

⚠️ If it's the first solar inspection on a specific site, we strongly recommend ordering a Solar Site As-built to have a high-quality base layer. This will ensure you can enhance all of the features on the Sitemark platform.

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