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nexedi
flight-scripts
Commits
8de07085
Commit
8de07085
authored
Aug 24, 2023
by
Léo-Paul Géneau
👾
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Add multicopter swarm flight script
parent
8d1d1ecb
Changes
2
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2 changed files
with
339 additions
and
1 deletion
+339
-1
fixed_wings_swarm.js
fixed_wings_swarm.js
+1
-1
multicopter_swarm.js
multicopter_swarm.js
+338
-0
No files found.
fixed_wings_swarm.js
View file @
8de07085
...
...
@@ -155,7 +155,7 @@
console
.
log
(
"
timestamp difference
"
,
position
.
timestamp
-
me
.
drone_dict
[
neighbor_id
].
timestamp
);
);
}
return
;
}
...
...
multicopter_swarm.js
0 → 100644
View file @
8de07085
/*
* In this flight all drone take off when start signal is sent. The leader
* follows continuously a list of checkpoints. The other drones follow each
* other (second drone follows leader, third drone follows second drone, ...).
* When the switch signal is sent, the last drone becomes the leader and follow
* the checkpoints in the reversed order. When stop signal is sent, each drone
* lands one at the time from the last one to the leader.
*/
/*jslint nomen: true, indent: 2, maxerr: 3, maxlen: 80 */
/*global console, me*/
(
function
(
console
,
me
)
{
"
use strict
"
;
var
ALTITUDE_DIFF
=
5
,
BASE_ALTITUDE
=
25
,
CHECKPOINT_LIST
=
[
{
latitude
:
45.133816745111254
,
longitude
:
5.681756602776511
},
{
latitude
:
45.13412766661184
,
longitude
:
5.681916517286368
},
{
latitude
:
45.13399163453284
,
longitude
:
5.682459947632148
},
{
latitude
:
45.133670102874454
,
longitude
:
5.68237448882777
}
],
EPSILON
=
4
,
PARACHUTE_POINT_ARRAY
=
[
{
latitude
:
45.13342642944715
,
longitude
:
5.681879999829597
},
{
latitude
:
45.133244783529136
,
longitude
:
5.681845964441365
},
{
latitude
:
45.1333696
,
longitude
:
5.6817394
}
],
TARGETED_DISTANCE
=
10
,
TAKE_OFF_POINT
=
{
latitude
:
45.13342642944715
,
longitude
:
5.681879999829597
},
MIN_CMD_INTERVAL
=
500
,
MIN_SPEED
=
4
,
DEFAULT_SPEED
=
5
,
MAX_SPEED
=
6
,
R
=
6371
e3
,
SPEED_FACTOR
=
0.2
;
function
exitOnFail
(
ret
,
msg
)
{
if
(
ret
)
{
console
.
log
(
msg
);
me
.
exit
(
1
);
}
}
function
sendLandingMessage
(
drone
)
{
console
.
log
(
"
Landing
"
);
drone
.
sendMsg
(
JSON
.
stringify
(
{
id
:
drone
.
id
,
inAir
:
false
,
state
:
"
Landed
"
,
type
:
"
state
"
}
));
}
function
land
(
drone
)
{
console
.
log
(
"
Landing
"
);
sendLandingMessage
(
drone
);
exitOnFail
(
drone
.
land
(),
"
Failed to land
"
);
}
function
toRad
(
angle
)
{
return
Math
.
PI
*
angle
/
180
;
}
function
distance
(
lat1
,
lon1
,
lat2
,
lon2
)
{
var
la1
=
toRad
(
lat1
),
la2
=
toRad
(
lat2
),
lo1
=
toRad
(
lon1
),
lo2
=
toRad
(
lon2
),
haversine_phi
=
Math
.
pow
(
Math
.
sin
((
la2
-
la1
)
/
2
),
2
),
sin_lon
=
Math
.
sin
((
lo2
-
lo1
)
/
2
),
h
=
haversine_phi
+
Math
.
cos
(
la1
)
*
Math
.
cos
(
la2
)
*
sin_lon
*
sin_lon
;
return
2
*
R
*
Math
.
asin
(
Math
.
sqrt
(
h
));
}
function
leaderId
(
drone
)
{
var
id_list
=
drone
.
id_list
;
return
(
!
drone
.
reverse
)
?
id_list
[
0
]
:
id_list
[
id_list
.
length
-
1
];
}
function
pointReached
(
drone
,
point
,
acceptance
)
{
var
current_position
=
drone
.
getCurrentPosition
(),
dist
=
distance
(
current_position
.
latitude
,
current_position
.
longitude
,
point
.
latitude
,
point
.
longitude
);
console
.
log
(
"
Distance to point
"
,
dist
);
return
dist
<=
acceptance
;
}
function
goTo
(
drone
,
latitude
,
longitude
,
speed
,
timestamp
)
{
if
(
timestamp
-
drone
.
last_cmd_timestamp
>=
MIN_CMD_INTERVAL
)
{
drone
.
setTargetCoordinates
(
latitude
,
longitude
,
drone
.
flightAltitude
,
speed
);
drone
.
last_cmd_timestamp
=
timestamp
;
}
}
me
.
onStart
=
function
()
{
me
.
direction_set
=
false
;
me
.
flightAltitude
=
BASE_ALTITUDE
+
me
.
id
*
ALTITUDE_DIFF
;
me
.
following
=
false
;
me
.
going_to_parachute
=
false
;
me
.
id_list
=
Object
.
keys
(
me
.
getDroneDict
()).
map
((
x
)
=>
Number
(
x
));
me
.
id_list
.
sort
();
me
.
landing
=
false
;
me
.
last_cmd_timestamp
=
0
;
me
.
next_checkpoint
=
0
;
me
.
started
=
false
;
me
.
stopped
=
false
;
me
.
reverse
=
false
;
me
.
sendMsg
(
JSON
.
stringify
(
{
id
:
me
.
id
,
inAir
:
true
,
state
:
"
Ready
"
,
type
:
"
state
"
}
));
};
me
.
onUpdate
=
function
(
timestamp
)
{
var
checkpointIndex
,
distance2d
,
distanceDiff
,
distanceToTakeOffPoint
,
leader_id
=
leaderId
(
me
),
me_index
=
me
.
id_list
.
indexOf
(
me
.
id
),
neighbor_id
=
me
.
id_list
[(
!
me
.
reverse
)
?
me_index
-
1
:
me_index
+
1
],
neighbor_position
,
newSpeed
,
position
=
me
.
getCurrentPosition
();
if
(
me
.
isLanding
())
{
return
sendLandingMessage
(
me
);
}
if
(
!
me
.
started
)
{
if
(
leader_id
!==
me
.
id
)
{
console
.
log
(
"
timestamp difference
"
,
position
.
timestamp
-
neighbor_position
.
timestamp
);
}
return
;
}
if
(
!
me
.
landing
)
{
if
(
!
me
.
isReadyToFly
())
{
return
console
.
log
(
"
Taking off
"
);
}
if
(
leader_id
!==
me
.
id
)
{
neighbor_position
=
me
.
getDroneDict
()[
neighbor_id
];
distance2d
=
distance
(
position
.
latitude
,
position
.
longitude
,
neighbor_position
.
latitude
,
neighbor_position
.
longitude
);
if
(
!
me
.
following
)
{
distanceToTakeOffPoint
=
distance
(
neighbor_position
.
latitude
,
neighbor_position
.
longitude
,
TAKE_OFF_POINT
.
latitude
,
TAKE_OFF_POINT
.
longitude
);
console
.
log
(
"
Distance from neighbor to takeoff point
"
,
distanceToTakeOffPoint
);
if
(
distanceToTakeOffPoint
<
2
*
TARGETED_DISTANCE
)
{
return
;
}
me
.
following
=
true
;
me
.
sendMsg
(
JSON
.
stringify
(
{
id
:
me
.
id
,
inAir
:
true
,
state
:
"
Flying
"
,
type
:
"
state
"
}
));
}
if
(
Math
.
abs
(
position
.
timestamp
-
neighbor_position
.
timestamp
)
>=
1000
)
{
console
.
log
(
"
timestamp difference
"
,
position
.
timestamp
-
neighbor_position
.
timestamp
);
return
;
}
distanceDiff
=
distance2d
-
TARGETED_DISTANCE
;
newSpeed
=
Math
.
max
(
Math
.
min
(
distanceDiff
*
SPEED_FACTOR
+
DEFAULT_SPEED
,
MAX_SPEED
),
MIN_SPEED
);
goTo
(
me
,
neighbor_position
.
latitude
,
neighbor_position
.
longitude
,
newSpeed
,
timestamp
);
return
console
.
log
(
"
distance to leader
"
,
distance2d
);
}
checkpointIndex
=
(
!
me
.
reverse
)
?
me
.
next_checkpoint
:
CHECKPOINT_LIST
.
length
-
me
.
next_checkpoint
-
1
;
if
(
!
me
.
direction_set
)
{
console
.
log
(
"
Going to Checkpoint
"
,
checkpointIndex
);
me
.
next_point
=
{
"
latitude
"
:
CHECKPOINT_LIST
[
checkpointIndex
].
latitude
,
"
longitude
"
:
CHECKPOINT_LIST
[
checkpointIndex
].
longitude
};
me
.
direction_set
=
true
;
}
if
(
pointReached
(
me
,
CHECKPOINT_LIST
[
checkpointIndex
],
EPSILON
)
)
{
console
.
log
(
"
Reached Checkpoint
"
,
checkpointIndex
);
me
.
next_checkpoint
+=
1
;
me
.
next_checkpoint
%=
CHECKPOINT_LIST
.
length
;
me
.
direction_set
=
false
;
me
.
sendMsg
(
JSON
.
stringify
({
type
:
"
checkpoint
"
,
next_checkpoint
:
me
.
next_checkpoint
}));
}
}
if
(
me
.
going_to_parachute
&&
pointReached
(
me
,
PARACHUTE_POINT_ARRAY
[
me
.
id
],
EPSILON
))
{
me
.
going_to_parachute
=
false
;
return
land
(
me
);
}
if
(
!
me
.
landing
||
me
.
going_to_parachute
)
{
goTo
(
me
,
me
.
next_point
.
latitude
,
me
.
next_point
.
longitude
,
DEFAULT_SPEED
,
timestamp
);
}
};
me
.
onGetMsg
=
function
(
msg
)
{
var
msgDict
=
JSON
.
parse
(
msg
);
if
(
msgDict
.
hasOwnProperty
(
"
status
"
))
{
switch
(
msgDict
.
status
)
{
case
"
running
"
:
me
.
started
=
true
;
console
.
log
(
"
running
"
);
me
.
takeOff
();
me
.
sendMsg
(
JSON
.
stringify
(
{
id
:
me
.
id
,
inAir
:
true
,
state
:
"
Flying
"
,
type
:
"
state
"
}
));
break
;
case
"
stopped
"
:
me
.
stopped
=
true
;
if
(
me
.
id
===
me
.
id_list
[
0
])
{
me
.
landing
=
true
;
me
.
going_to_parachute
=
true
;
me
.
next_point
=
{
"
latitude
"
:
PARACHUTE_POINT_ARRAY
[
me
.
id
].
latitude
,
"
longitude
"
:
PARACHUTE_POINT_ARRAY
[
me
.
id
].
longitude
};
console
.
log
(
"
Going to rally
"
);
}
break
;
case
"
switch
"
:
me
.
reverse
=
!
me
.
reverse
;
me
.
direction_set
=
false
;
break
;
default
:
console
.
log
(
"
Unknown status:
"
,
me
.
msgDict
.
status
);
}
return
;
}
switch
(
msgDict
.
type
)
{
case
"
checkpoint
"
:
me
.
next_checkpoint
=
msgDict
.
next_checkpoint
;
break
;
case
"
state
"
:
if
(
msgDict
.
state
===
"
Landed
"
&&
me
.
id_list
.
includes
(
msgDict
.
id
))
{
me
.
id_list
.
splice
(
me
.
id_list
.
indexOf
(
msgDict
.
id
),
1
);
if
(
me
.
stopped
&&
me
.
id
===
me
.
id_list
[
0
])
{
me
.
landing
=
true
;
me
.
going_to_parachute
=
true
;
me
.
next_point
=
{
"
latitude
"
:
PARACHUTE_POINT_ARRAY
[
me
.
id
].
latitude
,
"
longitude
"
:
PARACHUTE_POINT_ARRAY
[
me
.
id
].
longitude
};
}
}
break
;
default
:
console
.
log
(
"
Unknown message type:
"
+
msgDict
.
type
);
}
};
}(
console
,
me
));
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