agi.foundation.communications.antennas

(agi.foundation.communications-2025r1.jar)

Class ItuRS1528R13GainPattern

java.lang.Object

agi.foundation.infrastructure.DefinitionalObject

agi.foundation.communications.antennas.BaseGainPattern

agi.foundation.communications.antennas.RadioFrequencyGainPattern

agi.foundation.communications.antennas.ItuRS1528R13GainPattern

All Implemented Interfaces:

IAntennaDiameterService, IAntennaEfficiencyService, IAntennaGainService, ICloneWithContext, IEnumerateDependencies, IEquatableDefinition, IFreezable, IServiceProvider

public class ItuRS1528R13GainPattern
extends RadioFrequencyGainPattern
implements IAntennaDiameterService, IAntennaEfficiencyService

The ITU-R S.1528 - section 1.3

Satellite antenna radiation pattern for non-geostationary orbit satellite antennas operating in the fixed-satellite service below 30 GHz. This is the implementation of section 1.3 of the recommendation.

Constructor Summary

Constructors

Modifier	Constructor and Description
	ItuRS1528R13GainPattern() Initializes a new instance.
	ItuRS1528R13GainPattern(double diameter, double mainLobeGain, double efficiency) Create a new instance based on the given diameter, main lobe gain, and efficiency.
protected	ItuRS1528R13GainPattern(ItuRS1528R13GainPattern existingInstance, CopyContext context) Initializes a new instance as a copy of an existing instance.

Method Summary

Modifier and Type	Method and Description
protected boolean	checkForSameDefinition(ItuRS1528R13GainPattern other) Checks to determine if another instance has the same definition as this instance and returns true if it does.
protected boolean	checkForSameDefinition(RadioFrequencyGainPattern other) Checks to determine if another instance has the same definition as this instance and returns true if it does.
Object	clone(CopyContext context) Clones this object using the specified context.
protected int	computeCurrentDefinitionHashCode() Computes a hash code based on the current properties of this object.
SignalEvaluator	getApplyAntennaGainEvaluator(EvaluatorGroup group, Vector linkDirection, Axes antennaAxes, ISignalSource inputSignal, SignalPropagationGraph graph) Get an evaluator which can modify a set of signals based on link geometry and this gain pattern.
double	getDiameter() Gets the antenna diameter.
double	getEfficiency() Gets the antenna efficiency, as a ratio between zero and one.
double	getFarOutSideLobeLevel() Gets the far out side-lobe level.
double	getHalfBeamwidth() Gets the half beamwidth value.
double	getMainLobeGain() Gets the main lobe gain value.
boolean	getOverrideHalfBeamwidth() Gets a value indicating whether or not to override the half beamwidth computed by the model with the value returned from the HalfBeamwidth (get / set).
double	getSideLobeMaskCrossPoint() Gets the main lobe and near-in side lobe mask cross point below peak gain.
boolean	getUseAppendix8MainLobeModel() Gets a value indicating whether or not to use the ITU-R Appendix 8 main lobe model.
void	setDiameter(double value) Sets the antenna diameter.
void	setEfficiency(double value) Sets the antenna efficiency, as a ratio between zero and one.
void	setFarOutSideLobeLevel(double value) Sets the far out side-lobe level.
void	setHalfBeamwidth(double value) Sets the half beamwidth value.
void	setMainLobeGain(double value) Sets the main lobe gain value.
void	setOverrideHalfBeamwidth(boolean value) Sets a value indicating whether or not to override the half beamwidth computed by the model with the value returned from the HalfBeamwidth (get / set).
void	setSideLobeMaskCrossPoint(double value) Sets the main lobe and near-in side lobe mask cross point below peak gain.
void	setUseAppendix8MainLobeModel(boolean value) Sets a value indicating whether or not to use the ITU-R Appendix 8 main lobe model.

Methods inherited from class agi.foundation.communications.antennas.RadioFrequencyGainPattern

checkForSameDefinition

Methods inherited from class agi.foundation.communications.antennas.BaseGainPattern

checkForSameDefinition, getAntennaGainEvaluator, getAntennaGainEvaluator, getService

Methods inherited from class agi.foundation.infrastructure.DefinitionalObject

areSameDefinition, areSameDefinition, areSameDefinition, areSameDefinition, areSameDefinition, collectionItemsAreSameDefinition, collectionItemsAreSameDefinition, collectionItemsAreSameDefinition, dictionaryItemsAreSameDefinition, enumerateDependencies, freeze, freezeAggregatedObjects, getCollectionHashCode, getCollectionHashCode, getCollectionHashCode, getDefinitionHashCode, getDefinitionHashCode, getDefinitionHashCode, getDefinitionHashCode, getDefinitionHashCode, getDefinitionHashCode, getDictionaryHashCode, getIsFrozen, isSameDefinition, throwIfFrozen

Methods inherited from class java.lang.Object

clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait

Constructor Detail

ItuRS1528R13GainPattern

public ItuRS1528R13GainPattern()

Initializes a new instance.

The default values are as follows:

Property	Default Value
Efficiency (get / set)	0.55
Diameter (get / set)	1.0
MainLobeGain (get / set)	1584.89
SideLobeMaskCrossPoint (get / set)	0.0631
FarOutSideLobeLevel (get / set)	1.0
UseAppendix8MainLobeModel (get / set)	false
HalfBeamwidth (get / set)	0.0125003
OverrideHalfBeamwidth (get / set)	false

ItuRS1528R13GainPattern

public ItuRS1528R13GainPattern(double diameter,
                               double mainLobeGain,
                               double efficiency)

Create a new instance based on the given diameter, main lobe gain, and efficiency.

Parameters:

diameter - The diameter of the antenna.

mainLobeGain - The main lobe gain of the antenna which is applied from 0 degrees to the minimum off boresight angle defined by the recommendation, if the UseAppendix8MainLobeModel (get / set) property is set to false.

efficiency - The efficiency of the antenna.

ItuRS1528R13GainPattern

protected ItuRS1528R13GainPattern(@Nonnull
                                  ItuRS1528R13GainPattern existingInstance,
                                  @Nonnull
                                  CopyContext context)

Initializes a new instance as a copy of an existing instance.

See ICloneWithContext.clone(CopyContext) for more information about how to implement this constructor in a derived class.

Parameters:

existingInstance - The existing instance to copy.

context - A CopyContext that controls the depth of the copy.

Throws:

ArgumentNullException - Thrown when existingInstance or context is null.

Method Detail

clone

public Object clone(CopyContext context)

Clones this object using the specified context.

This method should be implemented to call a copy constructor on the class of the object being cloned. The copy constructor should take the CopyContext as a parameter in addition to the existing instance to copy. The copy constructor should first call CopyContext.addObjectMapping(T, T) to identify the newly constructed instance as a copy of the existing instance. It should then copy all fields, using CopyContext.updateReference(T) to copy any reference fields.

A typical implementation of ICloneWithContext:

public static class MyClass implements ICloneWithContext {
    public MyClass(MyClass existingInstance, CopyContext context) {
        context.addObjectMapping(existingInstance, this);
        someReference = context.updateReference(existingInstance.someReference);
    }

    @Override
    public final Object clone(CopyContext context) {
        return new MyClass(this, context);
    }

    private Object someReference;
}

In general, all fields that are reference types should be copied with a call to CopyContext.updateReference(T). There are a couple of exceptions:

1. Fields that are aggregate parts of the object should always be copied. A referenced object is an aggregate if properties or methods on the object being copied can modify the externally-visible value of the referenced object.
2. If the semantics of the referenced object require that it have a single parent, owner, context, etc., and the object being copied is that parent, owner, or context, then the referenced object should always be copied.

If one of these exceptions applies, the CopyContext should be given an opportunity to update the reference before the reference is copied explicitly. Use CopyContext.updateReference(T) to update the reference. If CopyContext.updateReference(T) returns the original object, indicating that the context does not have a replacement registered, then copy the object manually by invoking a Clone method, a copy constructor, or by manually constructing a new instance and copying the values.

alwaysCopy = context.updateReference(existingInstance.alwaysCopy);
if (existingInstance.alwaysCopy != null && alwaysCopy == existingInstance.alwaysCopy) {
    alwaysCopy = (AlwaysCopy) existingInstance.alwaysCopy.clone(context);
}

If you are implementing an evaluator (a class that implements IEvaluator), the IEvaluator.updateEvaluatorReferences(agi.foundation.infrastructure.CopyContext) method shares some responsibilities with the copy context constructor. Code duplication can be avoided by doing the following:

1. For references to other evaluators ONLY, simply assign the reference in the constructor instead of calling CopyContext.updateReference(T). You should still call CopyContext.updateReference(T) on any references to non-evaluators.
2. Call IEvaluator.updateEvaluatorReferences(agi.foundation.infrastructure.CopyContext) as the last line in the constructor and pass it the same CopyContext passed to the constructor.
3. Implement IEvaluator.updateEvaluatorReferences(agi.foundation.infrastructure.CopyContext) as normal. See the reference documentation for IEvaluator.updateEvaluatorReferences(agi.foundation.infrastructure.CopyContext) for more information on implementing that method.

public MyClass(MyClass existingInstance, CopyContext context) {
    super(existingInstance, context);
    someReference = context.updateReference(existingInstance.someReference);
    evaluatorReference = existingInstance.evaluatorReference;
    updateEvaluatorReferences(context);
}

@Override
public void updateEvaluatorReferences(CopyContext context) {
    evaluatorReference = context.updateReference(evaluatorReference);
}

@Override
public Object clone(CopyContext context) {
    return new MyClass(this, context);
}

private Object someReference;
private IEvaluator evaluatorReference;

Specified by:

clone in interface ICloneWithContext

Specified by:

clone in class DefinitionalObject

Parameters:

context - The context to use to perform the copy.

Returns:

A new instance which is a copy of this object.

checkForSameDefinition

protected final boolean checkForSameDefinition(RadioFrequencyGainPattern other)

Checks to determine if another instance has the same definition as this instance and returns true if it does. Derived classes MUST override this method and check all new fields introduced by the derived class for definitional equivalence. It is NOT necessary to check base class fields because the base class will already have done that. When overriding this method, you should NOT call the base implementation because it will return false for all derived-class instances. Derived classes should check the type of other to preserve the symmetric nature of IEquatableDefinition.isSameDefinition(java.lang.Object).

Specified by:

checkForSameDefinition in class RadioFrequencyGainPattern

Parameters:

other - The other instance to compare to this one.

Returns:

true if the two objects are defined equivalently; otherwise false.

checkForSameDefinition

protected boolean checkForSameDefinition(ItuRS1528R13GainPattern other)

Checks to determine if another instance has the same definition as this instance and returns true if it does. Derived classes MUST override this method and check all new fields introduced by the derived class for definitional equivalence. It is NOT necessary to check base class fields because the base class will already have done that. When overriding this method, you should NOT call the base implementation because it will return false for all derived-class instances. Derived classes should check the type of other to preserve the symmetric nature of IEquatableDefinition.isSameDefinition(java.lang.Object).

Parameters:

other - The other instance to compare to this one.

Returns:

true if the two objects are defined equivalently; otherwise false.

computeCurrentDefinitionHashCode

protected int computeCurrentDefinitionHashCode()

Computes a hash code based on the current properties of this object. Derived classes MUST override this method and compute a hash code that combines: a unique hash code seed, the base implementation result, and the hash codes of all new fields introduced by the derived class which are used in the ItuRS1528R13GainPattern.checkForSameDefinition(agi.foundation.communications.antennas.RadioFrequencyGainPattern) method.

Overrides:

computeCurrentDefinitionHashCode in class RadioFrequencyGainPattern

Returns:

The computed hash code.

getApplyAntennaGainEvaluator

public SignalEvaluator getApplyAntennaGainEvaluator(EvaluatorGroup group,
                                                    Vector linkDirection,
                                                    Axes antennaAxes,
                                                    ISignalSource inputSignal,
                                                    SignalPropagationGraph graph)

Get an evaluator which can modify a set of signals based on link geometry and this gain pattern.

Specified by:

getApplyAntennaGainEvaluator in interface IAntennaGainService

Specified by:

getApplyAntennaGainEvaluator in class BaseGainPattern

Parameters:

group - The evaluator group in which to create the evaluator.

linkDirection - The direction of the link relative to the antenna axes.

antennaAxes - The orientation of the antenna.

inputSignal - The source of the input signal to modify.

graph - The graph of communication links to use in the analysis.

Returns:

An evaluator which produces a modified set of signals with gains applied.

Throws:

ArgumentNullException - Thrown when group, linkDirection, antennaAxes, inputSignal, or graph is null.

PropertyInvalidException - Thrown if MainLobeGain (get / set) is negative, SideLobeMaskCrossPoint (get / set) is not greater than zero, FarOutSideLobeLevel (get / set) is not greater than zero, HalfBeamwidth (get / set) is not greater than zero, Diameter (get / set) is not greater than zero, or if Efficiency (get / set) is not between 0 and 1.

getEfficiency

public final double getEfficiency()

Gets the antenna efficiency, as a ratio between zero and one.

Defaults to a value of 0.55.

Specified by:

getEfficiency in interface IAntennaEfficiencyService

setEfficiency

public final void setEfficiency(double value)

Sets the antenna efficiency, as a ratio between zero and one.

Defaults to a value of 0.55.

getDiameter

public final double getDiameter()

Gets the antenna diameter.

Defaults to a value of 1.0.

Specified by:

getDiameter in interface IAntennaDiameterService

setDiameter

public final void setDiameter(double value)

Sets the antenna diameter.

Defaults to a value of 1.0.

getMainLobeGain

public final double getMainLobeGain()

Gets the main lobe gain value.

Defaults to a value of 1584.89.

setMainLobeGain

public final void setMainLobeGain(double value)

Sets the main lobe gain value.

Defaults to a value of 1584.89.

getSideLobeMaskCrossPoint

public final double getSideLobeMaskCrossPoint()

Gets the main lobe and near-in side lobe mask cross point below peak gain.

Defaults to a value of 0.0631.

setSideLobeMaskCrossPoint

public final void setSideLobeMaskCrossPoint(double value)

Sets the main lobe and near-in side lobe mask cross point below peak gain.

Defaults to a value of 0.0631.

getFarOutSideLobeLevel

public final double getFarOutSideLobeLevel()

Gets the far out side-lobe level.

Defaults to a value of 1.0.

setFarOutSideLobeLevel

public final void setFarOutSideLobeLevel(double value)

Sets the far out side-lobe level.

Defaults to a value of 1.0.

getUseAppendix8MainLobeModel

public final boolean getUseAppendix8MainLobeModel()

Gets a value indicating whether or not to use the ITU-R Appendix 8 main lobe model.

The main lobe (off boresight angles ranging from 0 to the minimum off boresight angle defined by the recommendation) is not defined for this recommendation. If this property is set to false, the main lobe is modeled as constant, flat gain using the MainLobeGain (get / set) value. If the property is set to true, the ITU Radio Regulations Appendix 8 main lobe model is used.

Defaults to false.

setUseAppendix8MainLobeModel

public final void setUseAppendix8MainLobeModel(boolean value)

Sets a value indicating whether or not to use the ITU-R Appendix 8 main lobe model.

The main lobe (off boresight angles ranging from 0 to the minimum off boresight angle defined by the recommendation) is not defined for this recommendation. If this property is set to false, the main lobe is modeled as constant, flat gain using the MainLobeGain (get / set) value. If the property is set to true, the ITU Radio Regulations Appendix 8 main lobe model is used.

Defaults to false.

getHalfBeamwidth

public final double getHalfBeamwidth()

Gets the half beamwidth value.

Defaults to a value of 0.0125003.

setHalfBeamwidth

public final void setHalfBeamwidth(double value)

Sets the half beamwidth value.

Defaults to a value of 0.0125003.

getOverrideHalfBeamwidth

public final boolean getOverrideHalfBeamwidth()

Gets a value indicating whether or not to override the half beamwidth computed by the model with the value returned from the HalfBeamwidth (get / set).

Defaults to false.

setOverrideHalfBeamwidth

public final void setOverrideHalfBeamwidth(boolean value)

Sets a value indicating whether or not to override the half beamwidth computed by the model with the value returned from the HalfBeamwidth (get / set).

Defaults to false.