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A Discrete-Event Network Simulator
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API |
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A Discrete-Event Network Simulator
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API |
Test suite for the ThreeGppChannelModel class. More...
Inheritance diagram for ThreeGppChannelTestSuite: Collaboration diagram for ThreeGppChannelTestSuite:Public Member Functions | |
| ThreeGppChannelTestSuite () | |
| Constructor. | |
| Public Member Functions inherited from ns3::TestSuite | |
| TestSuite (std::string name, Type type=Type::UNIT) | |
| Construct a new test suite. | |
| TestSuite::Type | GetTestType () |
| get the kind of test this test suite implements | |
| Public Member Functions inherited from ns3::TestCase | |
| TestCase (const TestCase &)=delete | |
| virtual | ~TestCase () |
| Destructor. | |
| std::string | GetName () const |
| TestCase & | operator= (const TestCase &)=delete |
Additional Inherited Members | |
| Public Types inherited from ns3::TestSuite | |
| enum class | Type { ALL = 0 , UNIT , SYSTEM , EXAMPLE , PERFORMANCE } |
| Type of test. More... | |
| Public Types inherited from ns3::TestCase | |
| enum class | Duration { QUICK = 1 , EXTENSIVE = 2 , TAKES_FOREVER = 3 } |
| How long the test takes to execute. More... | |
| Static Public Attributes inherited from ns3::TestSuite | |
| static constexpr auto | ALL = Type::ALL |
| Deprecated test type simple enums. | |
| static constexpr auto | UNIT = Type::UNIT |
| static constexpr auto | SYSTEM = Type::SYSTEM |
| static constexpr auto | EXAMPLE = Type::EXAMPLE |
| static constexpr auto | PERFORMANCE = Type::PERFORMANCE |
| Static Public Attributes inherited from ns3::TestCase | |
| static constexpr auto | QUICK = Duration::QUICK |
| Deprecated test duration simple enums. | |
| static constexpr auto | EXTENSIVE = Duration::EXTENSIVE |
| static constexpr auto | TAKES_FOREVER = Duration::TAKES_FOREVER |
| Protected Member Functions inherited from ns3::TestCase | |
| TestCase (std::string name) | |
| Constructor. | |
| void | AddTestCase (TestCase *testCase, Duration duration=Duration::QUICK) |
| Add an individual child TestCase to this test suite. | |
| TestCase * | GetParent () const |
| Get the parent of this TestCase. | |
| bool | IsStatusFailure () const |
| Check if any tests failed. | |
| bool | IsStatusSuccess () const |
| Check if all tests passed. | |
| void | SetDataDir (std::string directory) |
| Set the data directory where reference trace files can be found. | |
| void | ReportTestFailure (std::string cond, std::string actual, std::string limit, std::string message, std::string file, int32_t line) |
| Log the failure of this TestCase. | |
| bool | MustAssertOnFailure () const |
| Check if this run should assert on failure. | |
| bool | MustContinueOnFailure () const |
| Check if this run should continue on failure. | |
| std::string | CreateDataDirFilename (std::string filename) |
| Construct the full path to a file in the data directory. | |
| std::string | CreateTempDirFilename (std::string filename) |
| Construct the full path to a file in a temporary directory. | |
Test suite for the ThreeGppChannelModel class.
Definition at line 1438 of file three-gpp-channel-test-suite.cc.
| ThreeGppChannelTestSuite::ThreeGppChannelTestSuite | ( | ) |
Constructor.
The TX and RX antennas are configured face-to-face. When polarization slant angles are 0 and 0 at TX and RX, we expect the strongest cluster to be similar to the following matrix: (5.9,0) (5.9,0) (0,0) (0,0) (5.9,0) (5.9,0) (0,0) (0,0) (0,0) (0,0) (-5.8,) (-5.8,0) (0,0) (0,0) (-5.8,0) (-5.8,0)
The TX and RX antennas are configured face-to-face. When polarization slant angles are 30 and 0 at TX and RX, we expect the strongest cluster to be similar to the following matrix: (5,0) (5,0) (3,0) (3,0) (5,0) (5,0) (3,0) (3,0) (3,0) (3,0) (-5,0) (-5,0) (3,0) (3,0) (-5,0) (-5,0)
The TX and RX antennas are configured face-to-face. When polarization slant angles are 45 and 0 at TX and RX, we expect the strongest cluster to be similar to the following matrix: (4,0) (4,0) (4,0) (4,0) (4,0) (4,0) (4,0) (4,0) (4,0) (4,0) (4,0) (4,0) (4,0) (4,0) (4,0) (4,0)
The TX and RX antennas are configured face-to-face. When polarization slant angles are 45 and 0 at TX and RX, we expect the strongest cluster to be similar to the following matrix: (0,0) (0,0) (5.9,0) (5.9,0) (0,0) (0,0) (5.9,0) (5.9,0) (5.8,0) (5.8,0) (0,0) (0,0) (5.8,0) (5.8,0) (0,0) (0,0)
The TX and RX antennas are face to face. We test the configuration of the bearing angle along with the configuration of the different position of the RX antenna, and the bearing angles. When polarization slant angles are 0 and 0 at TX and RX, we expect the strongest cluster to be similar to the following matrix: (5.9,0) (5.9,0) (0,0) (0,0) (5.9,0) (5.9,0) (0,0) (0,0) (0,0) (0,0) (-5.8,) (-5.8,0) (0,0) (0,0) (-5.8,0) (-5.8,0) Notice that we expect almost the same matrix as in the first case in which
The TX and RX antenna have different height. Bearing angle is configured to point one toward the other. When polarization slant angles are 0 and 0 at TX and RX, we expect the strongest cluster to be similar to the following matrix: (2.5,-4.7) (2.5,-4.7) (0,0) (0,0) (2.5,-4.7) (2.5,-4.7) (0,0) (0,0) (0,0) (0,0) (-2.4,4) (-2.4,4) (0,0) (0,0) (-2.4,4) (-2.4,4)
Definition at line 1447 of file three-gpp-channel-test-suite.cc.
References ns3::TestCase::AddTestCase().
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1.11.0