ctrvmeasjac
Jacobian of measurement function for constant turn-rate and velocity-magnitude motion model
Since R2024b
Syntax
Description
returns the Jacobian of the measurement function, measurementjac
= ctrvmeasjac(state
)measurementjac
, for a
state based on the constant turn-rate and velocity-magnitude motion model.
state
specifies the current state.
Note
ctrvmeasjac
represents velocity in the
xy-plane with velocity magnitude and direction. For the Jacobian of
measurement function for constant turn-rate and velocity-magnitude motion model using
Cartesian components, Vx
and Vy
, see ctmeasjac
.
also specifies the measurement coordinate system, measurementjac
= ctrvmeasjac(state
,frame
)frame
.
also specifies the sensor position, measurementjac
= ctrvmeasjac(state
,frame
,sensorpos
)sensorpos
.
also specifies the sensor velocity, measurementjac
= ctrvmeasjac(state
,frame
,sensorpos
,sensorvel
)sensorvel
.
specifies the measurement parameters, measurementjac
= ctrvmeasjac(state
,measurementParameters
)measurementParameters
.
Examples
Measurement Jacobian of Constant Turn-Rate and Velocity-Magnitude Motion in Rectangular Frame
Define the state of an object in 2-D motion with constant turn rate and constant velocity magnitude. The state includes the position in each dimension, the velocity magnitude, the course direction, and the turn rate. Construct the measurement Jacobian in rectangular coordinates.
state = [1;10;2;20;5]; jacobian = ctrvmeasjac(state)
jacobian = 3×5
1 0 0 0 0
0 1 0 0 0
0 0 0 0 0
Measurement Jacobian of Constant Turn-Rate and Velocity-Magnitude Motion in Spherical Frame
Define the state of an object in 3-D motion with constant turn rate and constant velocity magnitude. The state includes the position in each dimension, the velocity magnitude, the course direction, and the turn rate. Compute the measurement Jacobian with respect to spherical coordinates.
state = [1;10;2;20;5;1.5;0];
jacobian = ctrvmeasjac(state,'spherical')
jacobian = 4×7
-5.6728 0.5673 0 0 0 0 0
-0.0828 -0.8283 0 0 0 5.5769 0
0.0984 0.9841 0 0 0 0.1476 0
0.1766 -0.0158 0.4291 0.0311 0 -0.0125 0.1476
Measurement Jacobian of Constant Turn-Rate and Velocity-Magnitude Motion in Translated Spherical Frame
Define the state of an object in 2-D motion with constant turn rate and constant velocity magnitude. The state includes the position in each dimension, the velocity magnitude, the course direction, and the turn rate. Compute the measurement Jacobian with respect to spherical coordinates centered at [5;-20;0]
.
state = [1;10;2;20;5];
sensorpos = [5;-20;0];
jabobian = ctrvmeasjac(state,'spherical',sensorpos)
jabobian = 4×5
-1.8765 -0.2502 0 0 0
0 0 0 0 0
-0.1322 0.9912 0 0 0
0.0640 0.0085 0.2148 0.0341 0
Measurement Jacobian of Constant Turn-Rate and Velocity-Magnitude Object Using Measurement Parameters
Define the state of an object in 2-D motion with constant turn-rate and constant velocity magnitude. The state includes the position in each dimension, the velocity magnitude, the course direction, and the turn rate. Compute the measurement Jacobian with respect to a sensor located at [-1;-2;0]
, moving at 2 m/s along the x-axis, and rotated by 90 degrees about the z-axis relative to the global frame.
state2d = [1;10;2;20;5];
frame = 'spherical';
sensorpos = [-1;-2;0];
sensorvel = [2;0;0];
laxes = [0 -1 0; 1 0 0; 0 0 1];
jacobian = ctrvmeasjac(state2d,frame,sensorpos,sensorvel,laxes)
jacobian = 4×5
-4.6456 0.7743 0 0 0
0 0 0 0 0
0.1644 0.9864 0 0 0
-0.0188 0.0031 0.4919 0.0304 0
Put the measurement parameters in a structure and use the syntax with the measurementParameters
argument.
measparm = struct('Frame',frame,'OriginPosition',sensorpos, ... 'OriginVelocity',sensorvel,'Orientation',laxes); jacobian = ctrvmeasjac(state2d,measparm)
jacobian = 4×5
-4.6456 0.7743 0 0 0
0 0 0 0 0
0.1644 0.9864 0 0 0
-0.0188 0.0031 0.4919 0.0304 0
Input Arguments
state
— State vector
real-valued five-element row or column vector | real-valued seven-element row or column vector
State vector for a constant turn-rate motion model in 2-D or 3-D, specified as a real-valued vector.
When you specify the current state as a five-element vector, the state vector describes 2-D motion in the xy-plane. You can specify the state vector as a row or column vector. The components of the state vector are
[x;y;s;theta;omega]
, wherex
andy
represent the x-coordinate and y-coordinate in meters.s
represents the velocity magnitude in meters/second.theta
represents the course direction in the xy-plane, counter-clockwise with respect to the x-axis, in degrees.omega
represents the turn-rate in degrees/second.
When you specify the current state as a seven-element vector, the state vector describes 3-D motion. You can specify the state vector as a row or column vector. The components of the state vector are
[x;y;s;theta;omega;z;vz]
, wherex
andy
represent the x-coordinate and y-coordinate in meters.s
represents the velocity magnitude in meters/second.theta
represents the course direction in the xy-plane, counter-clockwise with respect to the x-axis, in degrees.omega
represents the turn-rate in degrees/second.z
represent the position in the vertical plane in meters.vz
represents velocity component in the vertical plane in meters/second.
Example: [0;300;15;40;0.5]
Data Types: single
| double
frame
— Frame to report measurements
'rectangular'
(default) | 'spherical'
Frame to report measurements, specified as 'rectangular'
or
'spherical'
. When you specify frame as
'rectangular'
, a measurement consists of x,
y, and z Cartesian coordinates. When you
specify frame as 'spherical'
, a measurement consists of azimuth,
elevation, range, and range rate.
Data Types: char
| string
sensorpos
— Sensor position
[0;0;0]
(default) | real-valued 3-by-1 column vector
Sensor position with respect to the navigation frame, specified as a real-valued 3-by-1 column vector. Units are in meters.
Data Types: single
| double
sensorvel
— Sensor velocity
[0;0;0]
(default) | real-valued 3-by-1 column vector
Sensor velocity with respect to the navigation frame, specified as a real-valued 3-by-1 column vector. Units are in m/s.
Data Types: single
| double
laxes
— Local sensor axes coordinates
[1,0,0;0,1,0;0,0,1]
(default) | 3-by-3 orthogonal matrix
Local sensor axes coordinates, specified as a 3-by-3 orthogonal matrix. Each column specifies the direction of the local x-, y-, and z-axes, respectively, with respect to the navigation frame. The matrix is the rotation matrix from the global frame to the sensor frame.
Data Types: single
| double
measurementParameters
— Measurement parameters
structure | array of structures
Measurement parameters, specified as a structure or an array of structures. This table lists the fields in the structure.
Field | Description | Example |
---|---|---|
Frame | Frame used to report measurements, specified as one of these values:
Tip In Simulink, when you create an object detection Bus, specify
| 'spherical' |
OriginPosition | Position offset of the origin of the frame relative to the parent frame, specified as an [x y z] real-valued vector. | [0 0 0] |
OriginVelocity | Velocity offset of the origin of the frame relative to the parent frame, specified as a [vx vy vz] real-valued vector. | [0 0 0] |
Orientation | Frame rotation matrix, specified as a 3-by-3 real-valued orthonormal matrix. | [1 0 0; 0 1 0; 0 0 1] |
HasAzimuth | Logical scalar indicating if azimuth is included in the measurement. This
field is not relevant when the | 1 |
HasElevation | Logical scalar indicating if elevation information is included in the measurement. For
measurements reported in a rectangular frame, and if
HasElevation is false, the reported measurements assume 0
degrees of elevation. | 1 |
HasRange | Logical scalar indicating if range is included in the measurement. This
field is not relevant when the | 1 |
HasVelocity | Logical scalar indicating if the reported detections include velocity measurements. For a
measurement reported in the rectangular frame, if HasVelocity
is false , the measurements are reported as [x y
z] . If HasVelocity is true ,
the measurement is reported as [x y z vx vy vz] . For a
measurement reported in the spherical frame, if HasVelocity
is true , the measurement contains range-rate
information. | 1 |
IsParentToChild | Logical scalar indicating if Orientation performs a frame rotation from the parent coordinate frame to the child coordinate frame. When IsParentToChild is false , then Orientation performs a frame rotation from the child coordinate frame to the parent coordinate frame. | 0 |
If you want to perform only one coordinate transformation, such as a transformation from the body frame to the sensor frame, you must specify a measurement parameter structure. If you want to perform multiple coordinate transformations, you must specify an array of measurement parameter structures. To learn how to perform multiple transformations, see the Convert Detections to objectDetection Format example.
Data Types: struct
Output Arguments
measurementjac
— Jacobian of measurement function
real-valued M-by-N matrix
Jacobian of the measurement function, returned as a real-valued M-by-N matrix. The function constructs the Jacobian from the partial derivatives of the measurement vector with respect to the input state. The form of the measurement vector depends on the syntax.
When you do not specify the
measurementParameters
argument and set theframe
argument to'rectangular'
, the function outputs measurement vectors in the format of[x;y;z]
.When you do not specify the
measurementParameters
argument and set theframe
argument to'spherical'
, the function outputs measurement vectors in the format of[az;el;r;rr]
.When you specify the
measurementParameters
argument and set theframe
field to'rectangular'
, the size of the measurement vector depends on the value of theHasVelocity
field in themeasurementParameters
structure. The measurement vector includes the Cartesian position and velocity coordinates of the tracked object with respect to the ego vehicle coordinate system.Rectangular Measurements
HasVelocity
='false'
[x;y;z]
HasVelocity
='true'
[x;y;z;vx;vy;vz]
Position units are in meters and velocity units are in m/s.
When you specify the
measurementParameters
argument and set theframe
field to'spherical'
, the size of the measurement vector depends on the value of theHasVelocity
,HasRange
, andHasElevation
fields in themeasurementParameters
structure. The measurement vector includes the azimuth angle, az, elevation angle, el, range, r, and range rate, rr, of the object with respect to the local ego vehicle coordinate system. Positive values for range rate indicate that an object is moving away from the sensor.Spherical Measurements
HasRange
='true'
HasRange
='false'
HasElevation
='false'
HasElevation
='true'
HasElevation
='false'
HasElevation
='true'
HasVelocity
='false'
[az;r]
[az;el;r]
[az]
[az;el]
HasVelocity
='true'
[az;r;rr]
[az;el;r;rr]
[az]
[az;el]
Angle units are in degrees, range units are in meters, and range rate units are in m/s.
More About
Azimuth and Elevation Angle Definitions
The azimuth angle of a vector is the angle between the x-axis and its orthogonal projection onto the xy-plane. The angle is positive when going from the x-axis toward the y-axis. Azimuth angles lie between –180 and 180 degrees. The elevation angle is the angle between the vector and its orthogonal projection onto the xy-plane. The angle is positive when going toward the positive z-axis from the xy-plane.
Extended Capabilities
C/C++ Code Generation
Generate C and C++ code using MATLAB® Coder™.
Version History
Introduced in R2024b
See Also
Functions
ctrv
|ctrvjac
|ctrvmeas
|cvmeasjac
|cameasjac
|ctmeasjac
|singermeasjac
|initctrvekf
|initctrvukf
Objects
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