Aero.trajectory.sectorTrajectory

Generate reference signals for sector search trajectory

Since R2026a

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Syntax

refSignals = Aero.trajectory.sectorTrajectory(Name=Value)

Description

refSignals = Aero.trajectory.sectorTrajectory(Name=Value) generates reference signals for a sector search trajectory. Use name-value arguments to define the search pattern. For more information, see Algorithms.

example

Examples

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Open Live Script

This example shows how to generate reference signals for a sector trajectory.

refSector = Aero.trajectory.sectorTrajectory(Altitude = 20, ...
    Bearing = pi/2,DatumPoint = [-8,0], ...
    InitialAltitude = 0,Radius = 5, ...
    OutputFormat = 'timetable',InitialHeading = 0)
refSector=9×6 timetable
         timestamps         WaypointIndex    xNorth(m)    yEast(m)    Speed(m/s)    Altitude(m)    Heading(rad)
    ____________________    _____________    _________    ________    __________    ___________    ____________

    09-Apr-2026 05:16:59          1                 0          0          90             0            3.1416   
    09-Apr-2026 05:17:00          2                -8          0          90            20            1.5708   
    09-Apr-2026 05:17:00          3                -8          5          90            20            5.7596   
    09-Apr-2026 05:17:00          4           -3.6699        2.5          90            20            3.6652   
    09-Apr-2026 05:17:00          5            -12.33       -2.5          90            20            1.5708   
    09-Apr-2026 05:17:00          6            -12.33        2.5          90            20            5.7596   
    09-Apr-2026 05:17:00          7           -3.6699       -2.5          90            20            3.6652   
    09-Apr-2026 05:17:00          8                -8         -5          90            20            1.5708   
    09-Apr-2026 05:17:00          9                -8          0          90            20            1.5708
Open Live Script

This example shows how to add reference signals for a sector search flight trajectory, sectorSignals, to existing reference signals for another trajectory, parallelSweepSignals.

Create reference signals for a parallel sweep trajectory. 

parallelSweepSignals = Aero.trajectory.parallelSweepTrajectory('InitialPosition', [0, 0], ...
'Speed', 100, 'DatumPoint', [10, 10], 'FieldLength', 5000, ...
'FieldWidth', 2000, 'TrackSpacing', 1000, 'Bearing', pi/4, ...
'Altitude', 5000, 'OutputFormat', 'timetable')
parallelSweepSignals=3×6 timetable
    09-Jan-2026 09:13:54    1              0              0    100       0         0
    09-Jan-2026 09:14:48    2    -1.7578e+03    -1.0507e+03    100    5000    3.6803
    09-Jan-2026 09:15:28    3     1.0707e+03     1.7778e+03    100    5000    0.7854

Add reference signals for a sector search flight trajectory, sectorSignals, to parallelSweepSignals.

sectorSignals = Aero.trajectory.sectorTrajectory(priorTrajectory = parallelSweepSignals, ...
Altitude = 20,Bearing = pi/2,DatumPoint = [-8, 0], ...
Radius = 5)
sectorSignals=11×6 timetable
    09-Jan-2026 09:13:54     1              0              0    100       0         0
    09-Jan-2026 09:14:48     2    -1.7578e+03    -1.0507e+03    100    5000    3.6803
    09-Jan-2026 09:15:28     3     1.0707e+03     1.7778e+03    100    5000    0.7854
    09-Jan-2026 09:16:28     4             -8              0     90      20    4.1670
    09-Jan-2026 09:16:28     5             -8              5     90      20    1.5708
    09-Jan-2026 09:16:28     6        -3.6699         2.5000     90      20    5.7596
    09-Jan-2026 09:16:28     7       -12.3301        -2.5000     90      20    3.6652
    09-Jan-2026 09:16:28     8       -12.3301         2.5000     90      20    1.5708
    09-Jan-2026 09:16:28     9        -3.6699        -2.5000     90      20    5.7596
    09-Jan-2026 09:16:28    10        -8.0000             -5     90      20    3.6652
    09-Jan-2026 09:16:29    11             -8              0     90      20    1.5708

Name-Value Arguments

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Specify optional pairs of arguments as Name1=Value1,...,NameN=ValueN, where Name is the argument name and Value is the corresponding value. Name-value arguments must appear after other arguments, but the order of the pairs does not matter.

Example: InitialPosition = [0,0]

Initial position of trajectory, specified as a 1-by-2 or 2-by-1 vector in the units specified in Units.

Example: InitialPosition = [0,0]

Data Types: double

Speed of trajectory, specified as a finite real double scalar in the units specified in Units.

Example: Speed = 10

Data Types: double

Altitude of the vehicle trajectory, specified as a finite real scalar double in the units specified in Units. This value is constant throughout the vehicle path.

Example: Altitude = 10

Data Types: double

Initial heading of trajectory, specified as a finite real double scalar between 0 and 2*pi, in radians. Specify one each of InitialHeading and FinalHeading.

Example: InitialHeading = pi

Data Types: double

Output format of reference signals data, specified as timeseries or timetable.

Example: OutputFormat = timeseries

Input and output units, specified as one of these values:

Units

Position

Altitude

Speed

Metric (MKS)

Meters

Meters

Meters per second

English (Velocity in ft/s)

Feet

Feet

Feet per second

English (Velocity in kts)

Nautical miles

Feet

Knots

Example: Units = 'Metric (MKS)'

Data Types: double

Initial time of trajectory operation, specified as a datetime object.

Example: StartTime=datetime('now')

Bearing, specified as a finite real scalar double between 0 and 2*pi.

Example: Bearing = pi/4

Data Types: double

Datum point is a positional coordinate, specified as a 1-by-2 or 2-by-1 vector in the range finite real double, in the units specified in Units.

Example: DatumPoint = [10, 10]

Data Types: double

Initial altitude of trajectory, specified as a scalar in the units specified in Units.

Example: InitialAltitude = 10

Data Types: double

Prior trajectory tracking data, specified as a timeseries or timetable object. These objects must contain these fields:

  • Altitude

  • Heading

  • Speed

  • WaypointIndex

  • xNorth

  • yEast

  • LateralAcceleraion/Turnrate

Radius of trajectory, specified as a positive scalar.

Example: Radius = 10

Data Types: double

Search direction, specified as Counterclockwise or Clockwise.

Output Arguments

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Trajectory reference signals, returned as a timeseries struct or timetable object.

Algorithms

Use Aero.trajectory.sectorTrajectory to define the parameters of a sector trajectory.

Version History

Introduced in R2026a

See Also

Live Editor Tasks

Functions