# SimpleFreeFieldHRIR

## Description

The `SimpleFreeFieldHRIR`

object stores SOFA data following the
SimpleFreeFieldHRIR convention. This convention describes a spatially discrete free-field
head-related transfer function (HRTF) measurement for a single subject (a single human
listener or a mannequin head device). The measurements are made in the free field with a
single excitation source assuming an omnidirectional loudspeaker. There are two receivers
representing the ears of the subject. The measured HRTFs are represented as head-related
impulse responses (HRIR).

Use `sofaread`

and
`sofawrite`

to read
and write SOFA files with this convention.

## Creation

Create a `SimpleFreeFieldHRIR`

object using `sofaconvention`

.

s = sofaconvention("SimpleFreeFieldHRIR");

## Properties

## Data

`Numerator`

— Head-related impulse responses

`[0 0]`

(default) | *M*-by-*R*-by-*N* array

Head-related impulse responses in FIR form, specified as a real-valued
*M*-by-*R*-by-*N* array, where
*M* is the number of measurements, *R* is the number
of receivers, and *N* is the impulse response length. The number of
receivers is typically equal to 2 in this convention.

`Delay`

— Impulse response delay

`[0 0]`

(default) | 1-by-*R* matrix | *M*-by-*R* matrix

Delay of each impulse response in samples, specified as a 1-by-*R*
or *M*-by-*R* matrix, where *M* is
the number of measurements and *R* is the number of receivers. The
number of receivers is typically equal to 2 in this convention.

`SamplingRate`

— Sampling rate (Hz)

48000 (default) | positive scalar

Sampling rate of the data in hertz, specified as a positive scalar.

`SamplingRateUnits`

— Sampling rate units

`"hertz"`

This property is read-only.

Sampling rate units, returned as a string.

`DataType`

— Type of data

`"FIR"`

This property is read-only.

Type of data in the file, returned as a string.

## Listener

`ListenerPosition`

— Listener position

`[0 0 0]`

(default) | 1-by-3 matrix | *M*-by-3 matrix

Listener position in Cartesian or spherical coordinates, specified as a 1-by-3 or
*M*-by-3 matrix, where *M* is the number of
measurements.

For more information, see Spatial Data Representations.

`ListenerPositionType`

— Listener position type

`"cartesian"`

(default) | `"spherical"`

Listener position type, specified as `"cartesian"`

or
`"spherical"`

.

`ListenerPositionUnits`

— Listener position units

`"meter"`

| `"degree, degree, meter"`

This property is read-only.

Listener position units, returned as `"meter"`

if
`ListenerPositionType`

is `"cartesian"`

or
`"degree, degree, meter"`

if
`ListenerPositionType`

is `"spherical"`

.

`ListenerView`

— Listener view direction

`[1 0 0]`

(default) | 1-by-3 matrix | *M*-by-3 matrix

Listener view direction, specified as a 1-by-3 or *M*-by-3 matrix,
where *M* is the number of measurements. This property defines the
direction of the positive x-axis of the local listener coordinate system.

`ListenerViewType`

— Listener view type

`"cartesian"`

(default) | `"spherical"`

Listener view type, specified as `"cartesian"`

or
`"spherical"`

.

`ListenerViewUnits`

— Listener view units

`"meter"`

| `"degree, degree, meter"`

This property is read-only.

Listener view units, returned as `"meter"`

if
`ListenerViewType`

is `"cartesian"`

or
`"degree, degree, meter"`

if `ListenerViewType`

is
`"spherical"`

.

`ListenerUp`

— Listener up direction

`[0 0 1]`

(default) | 1-by-3 matrix | *M*-by-3 matrix

Listener up direction, specified as a 1-by-3 or *M*-by-3 matrix,
where *M* is the number of measurements. This property defines the
direction of the positive z-axis of the local listener coordinate system.

`ListenerShortName`

— Listener short name

`""`

(default) | string

Listener short name, specified as a string. This property defines the ID of the subject from the database.

## Receiver

`ReceiverPosition`

— Receiver positions

`[0 0.09 0; 0 -0.09 0]`

(default) | 2-by-3 matrix | 2-by-3-by-*M* array

Receiver positions in Cartesian or spherical coordinates, specified as a 2-by-3
matrix or 2-by-3-by-*M* array, where *M* is the number
of measurements and 2 represents the number of receivers. The default value assumes the
head has a radius of 0.09 meters.

For more information, see Spatial Data Representations.

`ReceiverPositionType`

— Receiver position type

`"cartesian"`

(default) | `"spherical"`

Receiver position type, specified as `"cartesian"`

or
`"spherical"`

.

`ReceiverPositionUnits`

— Receiver position units

`"meter"`

| `"degree, degree, meter"`

This property is read-only.

Receiver position units, returned as `"meter"`

if
`ReceiverPositionType`

is `"cartesian"`

or
`"degree, degree, meter"`

if
`ReceiverPositionType`

is `"spherical"`

.

## Source

`SourcePosition`

— Source position

`[0 0 1]`

(default) | 1-by-3 matrix | *M*-by-3 matrix

Source position in Cartesian or spherical coordinates, specified as a 1-by-3 or
*M*-by-3 matrix, where *M* is the number of
measurements.

For more information, see Spatial Data Representations.

`SourcePositionType`

— Source position type

`"spherical"`

(default) | `"cartesian"`

Source position type, specified as `"cartesian"`

or
`"spherical"`

.

`SourcePositionUnits`

— Source position units

`"meter"`

| `"degree, degree, meter"`

This property is read-only.

Receiver position units, returned as `"meter"`

if
`SourcePositionType`

is `"cartesian"`

or
`"degree, degree, meter"`

if `SourcePositionType`

is `"spherical"`

.

`SourceView`

— Source view direction

`[1 0 0]`

(default) | 1-by-3 matrix | *M*-by-3 matrix

Source view direction, specified as a 1-by-3 or *M*-by-3 matrix,
where *M* is the number of measurements. This property defines the
direction of the positive x-axis of the local source coordinate system.

`SourceViewType`

— Source view type

`"cartesian"`

(default) | `"spherical"`

Source view type, specified as `"cartesian"`

or
`"spherical"`

.

`SourceViewUnits`

— Source view units

`"meter"`

| `"degree, degree, meter"`

This property is read-only.

Source view units, returned as `"meter"`

if
`SourceViewType`

is `"cartesian"`

or
`"degree, degree, meter"`

if `SourceViewType`

is
`"spherical"`

.

`SourceUp`

— Source up direction

`[0 0 1]`

(default) | 1-by-3 matrix | *M*-by-3 matrix

Source up direction, specified as a 1-by-3 or *M*-by-3 matrix,
where *M* is the number of measurements. This property defines the
direction of the positive z-axis of the local source coordinate system.

## Emitter

`EmitterPosition`

— Emitter position

`[0 0 0]`

(default) | 1-by-3 matrix | 1-by-3-by-*M* array

Emitter position in Cartesian or spherical coordinates, specified as a 1-by-3 matrix
or 1-by-3-by-*M* array, where *M* is the number of
measurements and 1 represents the number of emitters.

For more information, see Spatial Data Representations.

`EmitterPositionType`

— Emitter position type

`"cartesian"`

(default) | `"spherical"`

Emitter position type, specified as `"cartesian"`

or
`"spherical"`

.

`EmitterPositionUnits`

— Emitter position units

`"meter"`

| `"degree, degree, meter"`

This property is read-only.

Emitter position units, returned as `"meter"`

if
`EmitterPositionType`

is `"cartesian"`

or
`"degree, degree, meter"`

if `EmitterPositionType`

is `"spherical"`

.

## Metadata

`SOFAConventions`

— Name of SOFA convention

`"SimpleFreeFieldHRIR"`

This property is read-only.

Name of the SOFA convention, returned as a string.

`DatabaseName`

— Name of database

`""`

(default) | string

Name of the database that this data belongs to, specified as a string.

`Version`

— Version of specifications

`"2.1"`

(default) | string

This property is read-only.

Version of the SOFA AES69 specifications, returned as a string of the format
`"x.y"`

where `x`

is the version major and
`y`

is the version minor.

`APIName`

— Name of API

`"Audio Toolbox"`

(default) | string

This property is read-only.

Name of the API that created or edited the SOFA file, returned as a string.

`APIVersion`

— Version of API

`"1.0"`

(default) | string

This property is read-only.

Version of the API that created or edited the SOFA file, returned as a string of the
format `"x.y"`

or `"x.y.z"`

where `x`

is the version major and `y`

and `z`

are the version
minors.

`SOFAConventionsVersion`

— Version of convention set

`"1.0"`

(default) | string

This property is read-only.

Version of the SOFA AES69 convention set, returned as a string of the format
`"x.y"`

where `x`

is the version major and
`y`

is the version minor.

`Title`

— Title

`""`

(default) | string

Title containing a succinct description of the file contents, specified as a string.

`AuthorContact`

— Contact information of author

`""`

(default) | string

Contact information of the author (for example, an email address), specified as a string.

`Organization`

— Name of organization

`""`

(default) | string

Name of the organization of the author, specified as a string.

`License`

— Legal license

`""`

(default) | string

Legal license under which the data is provided, specified as a string.

`ApplicationName`

— Name of application

`"Audio Toolbox"`

(default) | string

Name of the application that created or edited the file, specified as a string.

`ApplicationVersion`

— Version of application

`"3.0.0"`

(default) | string

Version of the application that created or edited the file, specified as a string.

`Comment`

— Comment

`""`

(default) | string

Comment that can contain miscellaneous information about the data or methods used to produce the data, specified as a string.

`History`

— History

`""`

(default) | string

History defining the audio trail for modifications to the original data, specified as a string.

`References`

— References

`""`

(default) | string

Published or web-based references that describe the data or the methods used to produce the data, specified as a string.

`Origin`

— Origin

`""`

(default) | string

Origin, specified as a string representing the method used for creating the original data. In the case of model-generated data, the origin should name the model and its version. In the case of observed or measured data, the origin should characterize the data and, where possible, name the measurement method.

`DateCreated`

— Date created

string

This property is read-only.

Date and time of the creation of the file, returned as a string in ISO 8601 format
`"YYYY-MM-DD hh:mm:ss"`

. This property is set when a new file is
created.

`DateModified`

— Date modified

string

This property is read-only.

Date and time of the last file modification, returned as a string in ISO 8601 format
`"YYYY-MM-DD hh:mm:ss"`

. This property is updated when a file is
saved.

## Object Functions

`write` | Write SOFA file |

`validate` | Validate SOFA data |

`interpolateHRTF` | 3-D head-related transfer function (HRTF) interpolation |

`findMeasurements` | Find measurements in specified plane |

`plotGeometry` | Plot measurements geometry |

`freqz` | HRTF frequency response |

`impz` | Head-related impulse response |

`spectrum` | HRTF power spectrum |

`interauralTimeDifference` | Interaural time difference |

`interauralLevelDifference` | Interaural level difference |

`directivity` | Frequency directivity |

`energyTimeCurve` | Compute energy-time curve |

## Examples

### Write SOFA File

Create a SOFA template object following the SimpleFreeFieldHRIR convention.

`s = sofaconvention("SimpleFreeFieldHRIR");`

Generate mock impulse response data to store in the file. Set the number of measurements `M`

to two and set the impulse response length `N`

to 1024. The number of receivers `R`

is two, corresponding to two ears. Use the `fir1`

function to create arbitrary FIR filters for the impulse response measurements.

M = 2; N = 1024; R = 2; IR = zeros(M,R,N); IR(1,:,:) = [fir1(N-1,0.1);fir1(N-1,.2)]; IR(2,:,:) = [fir1(N-1,0.15);fir1(N-1,.25)];

Store the measurements in the SOFA object.

s.Numerator = IR;

Set the `ListenerView`

so the positive x-axis of the local listener coordinate system points up with a 45 degree elevation. Set the `ReceiverPosition`

so the ears are 18 cm apart on the x-axis.

```
s.ListenerViewType = "spherical";
s.ListenerView = [0 45 0];
s.ReceiverPosition = [0 0 0; 0 0.18 0];
```

Modify the `Title`

and `Comment`

metadata properties.

s.Title = "My SOFA File"; s.Comment = "This SOFA file contains mock FIR data.";

Save the data to a SOFA file.

`sofawrite("myFile.sofa",s);`

### Visualize and Analyze SOFA HRTF Data

Read in a SOFA file containing HRTF measurements.

`s = sofaread("ReferenceHRTF.sofa");`

Call `plotGeometry`

to visualize the 3-D locations of the receiver and moving source from the measurements.

figure plotGeometry(s)

Use `findMeasurements`

to get the indices of measurements in the median plane. Plot the 3-D geometry of the specified measurements.

```
idx = findMeasurements(s,Plane="median");
figure
plotGeometry(s,MeasurementIndex=idx);
```

Use `freqz`

to compute and visualize the frequency response of the first measurement for the first receiver.

figure freqz(s)

Use `impz`

to compute and visualize the impulse response of the first measurement for the first receiver.

figure impz(s)

Use `spectrum`

to compute and visualize the power spectrum of the HRTF data in the horizontal plane at zero elevation for the first receiver.

figure spectrum(s)

Compute and visualize the interaural time difference of the HRTF data in the horizontal plane at zero elevation.

figure interauralTimeDifference(s)

Compute and visualize the interaural level difference of the HRTF data in the horizontal plane.

figure interauralLevelDifference(s)

Compute and visualize the directivity of the HRTF data at 750 Hz and 1500 Hz in the horizontal plane.

figure directivity(s,[750 1500])

Compute and visualize the energy-time curve of the HRTF data in the horizontal plane.

figure energyTimeCurve(s)

## More About

### Spatial Data Representations

In this SOFA convention, you can represent spatial data using Cartesian or spherical coordinate systems with spatially discrete representations.

Each spatial representation stores the position data in numerical triplets (for example,
`[0 0 0]`

).

Cartesian coordinates contain three orthogonal linear values in the format

`[x y z]`

. The units of the values are meters.Spherical coordinates contain angular values for azimuth and elevation and a linear value for the radius in the format

`[azimuth elevation radius]`

. The azimuth angle, in degrees, must be in the range [0, 360). The elevation angle, in degrees, must be in the range [-90, 90]. The units of the linear radius are meters.

## Version History

**Introduced in R2023b**

## MATLAB 명령

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