• Raspberry Pi can collect images with the $200 CV Camera
• Test the imaging repository with the Raspberry Pi and confirm images are taken and stored on the SD card
• Edit the rc.local and ensure that image collection code runs on Raspberry Pi startup
• Raspberry Pi can be powered onboard the drone. Need help from the Electrical team.
• Raspberry Pi and $200 CV Camera are mounted onto Houston. The $200 CV Camera needs to be pointing in the downards direction.. Need help from the Mechanical team.
• Flight test location booked
• Drone Registration -
• Houston
• Tubie
• Pegasus → flying on vanny registration
• Ensure we have good props for Pegasus after last tests crash
• Telemetry Verified Functional - Nathan Green to verify with new LTE connectors
• Nolan Haines Schematic for and delegating manufacturing of anti-spark connector configuration
• Daniel Puratich to update template with all the new things he added to this template this time
• Nathan Green add to Onedrive logs from last time
• Georgia Vachon Westerlund uploading past test images to onedrive media
• Conall Kingshott potentially slop on landing gear
• Hardy Yu purchase request for more crossfire Rxs
• Pilot scheduled - Daniel Puratich
• Test Plan - Daniel Puratich
• Initial frame parameters set - Nathan Green
• Verify we have wrestrc card
• Systems test - Daniel Puratich
• Check flight controller orientation - Nathan Green
• Check motor spin & rotation direction - Nathan Green
• Check DSHOT configuration (DS300, bidir?)
• Motors plugged into correct pins on pixhawk
• Verify motors 1,2,3,4 in motor test go in the correct order
• Verify motors in a,b,c,d configuration is correct order
• verify rotational response of motors is correct (with more than just audio), move the drone around and check each motors reponse individually
• Check transmitter mappings
• Verify communication links
• VTX/RX - no video on any of these aircrafts
• Controller
• Groundstation
• Ammeter working - Nathan Green
• Verify data logging - Nathan Green checked SD card, its working
• Transportation logistics finalized
• Booking SDC vehicles - Hardy Yu to decide, Daniel Puratich
• Assigning drivers - Daniel Puratich Done see above.
• Renting any needed equipment (trailer? generator? etc.) - Daniel Puratich not needed.
• Setting Failsafes, Nathan Green
• normal failsafe set to land
• disabled battery failsafe, dont want it to randomly land
• GCS failsafe set to always land after 5 seconds of no GCS

• Confirm the Raspberry Pi is securely attached to the drone.
• Confirm the image collection software runs when the Raspberris powered on.
• Nathan Green configuring the GPS so both GPS’s are used
• Nathan Green Setting the controller profile on the radio master
• SDC Vehicle key collected → machine shop is closed, we will not be able to grab the key Hardy Yu
• Batteries Planned for (DON'T LEAVE CHARGING OVERNIGHT)
• Drone batteries & spares - 2 sets for pegasus, 3 houston batteries
• Transmitter batteries - 70% on transmitter
• Battery tester/indicator
• On-site kit together - Daniel Puratich announcing checklist
• First Aid Kit
• Ground station if applicable
• Laptop
• Antenna / Receivers
• Transmitter
• Extra Water
• Power cords / Extension cables
• Wrenches - none needed
• Allen keys (metric ones) - three sets
• Knives
• Tape
• Rope/string - not needed
• Zip ties
• Velcro
• Radios
• Safety goggles - not needed
• Fire extinguisher - we dont have one, theyre out of our budget gg
• Spare foam - not needed
• hot glue gun w/ hot glue stick - not bringing that
• harnesses
• ratchet set
• battery removed for velcro (thin 3d printed thing) for pegasus
• Wrestrc
• Airfame assembled
• ESCs/flight controller wired
• Radio equipment tested
• Channel mappings
• Flight modes
• Motors tested
• Check DSHOT configuration (DS300, bidir?)
• Motors plugged into correct pins on pixhawk
• Verify motors 1,2,3,4 in motor test go in the correct order
• Verify motors in a,b,c,d configuration is correct order
• verify rotational response of motors is correct (with more than just audio), move the drone around and check each motors response individually
• Wiring secured (Harnessing)
• End-to-end test (neglecting props)
• Props require a little gold ring which we did not use during the strap down test, may have caused extra vibrations.
• Check the center of gravity - CG is off quite a bit but because only running two batteries and much less hardware then anticipated it will be reasonable for this test
• All components not on the airframe that are required should be in the flight box (e.g. props & prop nuts)
• Airframe payload - Raspberry Pi + $200 Camera
• Mount to airframe pointing downwards (exact angle doesn’t really matter)
• Spare parts
• Props
• Houston props
• Peggy props
• Airframe components (landing struts, arms, etc)
• wings nuts - n/a
• prop nuts
• any detached components such as angle mount - none needed
• Hardware to assemble these components
• Spare Electronics - we dont have much
• ESCs
• Motors
• Flight controllers
• Receiver
• Ground station Software updated

• Take the WREST RC entrance card - must do!!
• Only attach props directly before flight (keep off at all other times)
• Get snacks - na, short test
• Mission Briefing - by Hardy Yu
• Read the flight plan to the team (that was made a week ago)
• Purpose of flight
• Plan of action
• Success criteria
• Delegate and brief on flight line roles
• Safety Briefing
• Key flight characteristics to observe
• Key system characteristics to observe
• Measurements to be made
• “Knock off” criteria (anyone can call)
• Specify Pegasus Flight area planned, hard land and disarm boundaries set. Ensure visual observers are aware of this and can visually verify boundaries. - Hardy Yu

• Air Frame
• Check all antennas, ensuring they are secure and in good condition
• Check the battery emplacement and secure attachment and ensure there are no cracks
• Check that all lights are operating normally
• Check that all sensors are secured and clear of any obstructions
• Check that the GPS is receiving satellites and providing a navigation solution
• Inspect top and bottom of air frame arms for cracks, loose parts, or signs of damage
• Landing Gear
• Check landing gear is secure
• Inspect skids or wheels, especially attachment points
• Motors
• ensure all motors free-spin correctly
• Ensure wires secured and not at risk of shorting
• Ensure motor mounts secure.
• Propellers / Rotors
• Ensure propeller is secured
• Check for nicks, chips or cracks
• Ensure prop direction is correct
• Ensure prop mounting is secure
• Batteries
• Inspect to ensure there is no signs of swelling, external leaking or other defects
• Battery wiring and connectors from the battery are connected securely
• Batteries (and spares) are adequately charged
• Wires are not pinched
• Control Station / Receivers / Transmitter
• The battery and spare batteries if required are adequately charged
• Control Station device and cables are properly connected and functioning
• All flight interfaces are functioning normally
• Safety
• Good visibility and safe wind speed
• Surrounding is free of obstacles
• Crew far from drone
• General Site Survey
• Are there other people on the property
• Ground Recording / drone footage on

• Ensure pilot with Hardy Yu for support
• Takeoff in stabilize
• fly in stabilize
• land
• battery swap?
• repeat

• Upload Logs
• Remove Props
• Check SD card and view images taken from the Raspberry Pi
• Ensure that pictures were taken during flight
• Ensure camera quality is good
• If the camera quality is not good then adjust camera settings and try again

• Air Frame
• Check all antennas, ensuring they are secure and in good condition
• Check the battery emplacement and secure attachment and ensure there are no cracks
• Check that all lights are operating normally
• Check that all sensors are secured and clear of any obstructions
• Check that the GPS is receiving satellites and providing a navigation solution
• Inspect top and bottom of air frame arms for cracks, loose parts, or signs of damage
• Landing Gear
• Check landing gear is secure
• Inspect skids or wheels, especially attachment points
• Motors
• ensure all motors free-spin correctly
• Ensure wires secured and not at risk of shorting
• Ensure motor mounts secure.
• Motor test with props
• Propellers / Rotors
• Ensure propeller is secured
• Check for nicks, chips or cracks
• Ensure prop direction is correct
• Ensure prop mounting is secure
• gold rings to props
• Batteries
• Inspect to ensure there is no signs of swelling, external leaking or other defects
• Battery wiring and connectors from the battery are connected securely
• Batteries (and spares) are adequately charged
• Wires are not pinched
• Control Station / Receivers / Transmitter
• The battery and spare batteries if required are adequately charged
• Control Station device and cables are properly connected and functioning
• All flight interfaces are functioning normally
• Safety
• Good visibility and safe wind speed
• Surrounding is free of obstacles
• Crew far from drone
• General Site Survey
• Are there other people on the property
• Ground Recording / drone footage on

• Takeoff in stab
• Check mapping and orientation correct
• hover ~30-50cm above ground briefly
• go up and do half-deflection control checks
• Takeoff in stabilize mode
• Stabilize mode full stick deflection tests
• switch to althold
• full deflection control check
• Switch to poshold/loiter if all ok.
• land (can be done sooner if anything wack)

• Upload Logs
• Remove Props

• Air Frame
• Check all antennas, ensuring they are secure and in good condition
• Check the battery emplacement and secure attachment and ensure there are no cracks
• Check that all lights are operating normally
• Check that all sensors are secured and clear of any obstructions
• Check that the GPS is receiving satellites and providing a navigation solution
• Inspect top and bottom of air frame arms for cracks, loose parts, or signs of damage
• Landing Gear
• Check landing gear is secure
• Inspect skids or wheels, especially attachment points
• Motors
• ensure all motors free-spin correctly
• Ensure wires secured and not at risk of shorting
• Ensure motor mounts secure.
• Propellers / Rotors
• Ensure propeller is secured
• Check for nicks, chips or cracks
• Ensure prop direction is correct
• Ensure prop mounting is secure
• Batteries
• Inspect to ensure there is no signs of swelling, external leaking or other defects
• Battery wiring and connectors from the battery are connected securely
• Batteries (and spares) are adequately charged
• Wires are not pinched
• Control Station / Receivers / Transmitter
• The battery and spare batteries if required are adequately charged
• Control Station device and cables are properly connected and functioning
• All flight interfaces are functioning normally
• Safety
• Good visibility and safe wind speed
• Surrounding is free of obstacles
• Crew far from drone
• General Site Survey
• Are there other people on the property
• Ground Recording / drone footage on
• Autonomy Camera Mounted
• Raspberry Pi is powered on the drone
• Autonomy image collection code runs on RPi startup
• Autonomy Tasks
• Connect to Raspberry Pi + camera using Camlink
• Verify camera is working (image is displaying)
• Set up landing pad #1 on grass
• Set up landing pad #2 on pavement
• Ensure camera focus is set to 30m

• 2 landing pad (blue side facing up) are positioned on the ground
• Hover over landing pad #1 at height of ~30m to allow camera to take photos
• Hover over landing pad #2 at height of ~30m to allow camera to take photos

• Upload Logs
• Remove Props
• Autonomy Tasks
• Dismount Raspberry Pi + camera
• Check SD card for saved images
• Check saved images for purpling
• If this is the case change camera settings and try again. Test different camera settings and see which one is the best.

• Air Frame
• Check all antennas, ensuring they are secure and in good condition
• Check the battery emplacement and secure attachment and ensure there are no cracks
• Inspect top and bottom of air frame arms for cracks, loose parts, or signs of damage
• Inspect electronics for damage
• Ensure wires are securely connected and boards are secured
• Motors
• Ensure all motors free-spin correctly & motor directions are correct
• Verify control surfaces are secure, and deflect in the expected direction
• Ensure wires secured and not at risk of shorting
• Ensure motor mounts secure.
• Propellers / Rotors
• Ensure propeller is secured
• Check for nicks, chips or cracks
• Ensure prop direction is correct
• Ensure prop mounting is secure
• Batteries
• Inspect to ensure there is no signs of swelling, external leaking or other defects
• Battery wiring and connectors from the battery are connected securely
• Batteries (and spares) are adequately charged
• Wires are not pinched
• Control Station / Receivers / Transmitter
• The battery and spare batteries if required are adequately charged
• Control Station device and cables are properly connected and functioning
• All flight interfaces are functioning normally
• Safety
• Good visibility and safe wind speed
• Surrounding is free of obstacles
• Crew far from drone
• General Site Survey
• Are there other people on the property
• Ground Recording / drone footage on

• Test flight characteristics of aircraft
• Perform standard, simple flight maneuvers: (Takeoff, figure of eight, circle, approach, landing)

• Inspect aircraft & electronics for damage
• Unplug and remove damage

• drive back to bay
• post mortem
• Analytics added to this document
• action items delegated
• Autonomy Tasks
• Dismount Raspberry Pi + camera
• Check SD card for saved images
• Check saved images for purpling and see which camera settings yield best results
• Make note of the best camera settings.
• batteries discharge is delegated -
• batteries at storage voltage confirmed
• Upload logs, Nathan Green
• Confirm wrestrc card is back in the holder

If things go poorly, flight test director should command (this is stated to avoid bystander effect):

• Fire

  • Call 911

  • give location

• Property Damage

  • if in e7, email Graeme

  • if at WRESTRC, email them

• Fly away

  • call TC

• Injury

  • first aid

  • call 911