mirror of https://github.com/ArduPilot/ardupilot
AP_Scripting: Add plane failsafe example script
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-- Adds a smart failsafe that accounts for how far the plane is from home
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-- the average battery consumption, and the wind to decide when to failsafe
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--
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-- CAUTION: This script only works for Plane
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-- store the batt info as { instance, filtered, capacity }
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local batt_info = { {0, 0, 0}, -- main battery
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-- add more batteries to monitor here
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}
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-- FIXME: check that the script is actually being run on ArduPilane
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local margin = 30 -- margin in seconds that should be added for the time to get home
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local filter = 0.9 -- filter gain
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local air_speed = 25.0 -- this should really be fetched from a parameter
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-- calculates the amount of time it will take for the vehicle to return home
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-- returns 0 if there is no position, wind or home available
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-- returns a negative number if it will take excessively long time, or is impossible
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-- otherwise returns the time in seconds to get back
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local function time_to_home()
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local home = ahrs:get_home()
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local position = ahrs:get_position()
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local wind = ahrs:wind_estimate()
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if home and position and wind then
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local bearing = position:get_bearing(home)
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local wind_bearing = math.atan(-wind:y(), -wind:x())
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local awa = math.abs(wind_bearing - bearing) -- acute wind angle
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local ws = wind:length() -- wind speed (m/s)
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local wca = math.asin(ws * math.sin(awa) / air_speed) -- wind correction angle
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-- adjust the wind speed if it's pushing us the way we want to go
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if awa > math.rad(90) then
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ws = ws * -1
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end
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-- compute the effective ground speed for getting home
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local effective_speed = air_speed - (math.cos(wca) * ws)
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-- clamp to prevent very large numbers
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if effective_speed < 1.0 then
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return -1 -- FIXME: this should really be infinity
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end
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return (position:get_distance(home) / effective_speed)
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end
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return 0 -- nothing useful available
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end
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local return_start
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-- this is an alternate update function that is simply used to track how long it will take to get home
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-- it's really only used for debugging how the prediction rules are working
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function track_return_time()
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local home = ahrs:get_home()
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local position = ahrs:get_position()
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if home and position then
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if position:get_distance(home) < 200 then
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gcs:send_text(0, "Failsafe: RTL took " .. tostring((millis() - return_start) / 1000) .. " seconds")
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return
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end
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end
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return track_return_time, 100
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end
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-- the main update function that is used to decide when we should do a failsafe
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function update()
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for i = 1, #batt_info do
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local instance, filtered_amps, rated_capacity_mah = table.unpack(batt_info[i])
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local amps = battery:current_amps(instance)
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local consumed_mah = battery:consumed_mah(instance)
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if amps and consumed_mah then
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-- update all the current consumption rates
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filtered_amps = (filtered_amps * filter) + (amps * (1.0 - filter))
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batt_info[i][2] = filtered_amps
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local remaining_capacity = (rated_capacity_mah - consumed_mah) * 3.6 -- amp seconds
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local remaining_time = remaining_capacity / filtered_amps
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local return_time = time_to_home()
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if (return_time < 0) or (remaining_time < (return_time + margin)) then
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-- FIXME: We need more insight into what the vehicles already doing. IE don't trigger RTL if we are already landing
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gcs:send_text(0, string.format("Failsafe: Estimated %.0f seconds to home", return_time))
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vehicle:set_mode(11) -- plane RTL FIXME: we need a set of enums defined for the vehicles
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-- swap to tracking the time rather then retrigger
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return_start = millis()
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return track_return_time, 100
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end
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end
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end
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return update, 100
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end
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-- validate that all the expected monitors have current monitoring capability, and fetch initial values
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for i = 1, #batt_info do
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-- check that the instance exsists
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local instance = batt_info[i][1]
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if instance > battery:num_instances() then
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error("Battery " .. instance .. " does not exsist")
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end
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-- checkthat we can actually read current from the instance
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if not battery:current_amps(instance) then
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error("Battery " .. instance .. " does not support current monitoring")
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end
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-- store the pack capacity for later use, it's assumed to never change mid flight
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local rated_cap = battery:pack_capacity_mah(instance)
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if rated_cap then
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batt_info[i][3] = rated_cap
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else
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error("Battery " .. instance .. " does not support current monitoring")
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end
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end
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return update, 100
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