# 3DOF (Body Axes)

Implement three-degrees-of-freedom equations of motion with respect to body axes

**Library:**Aerospace Blockset / Equations of Motion / 3DOF

## Description

The 3DOF (Body Axes) block implements three-degrees-of-freedom equations of motion with respect to body axes. It considers the rotation in the vertical plane of a body-fixed coordinate frame about a flat Earth reference frame. For more information about the rotation and equations of motion, see Algorithms.

## Ports

### Input

`F`_{x}

— Applied force along *x*-axis

scalar

_{x}

Applied force along the body *x*-axis, specified as a scalar, in the
units selected in **Units**.

**Data Types: **`double`

`F`_{z}

— Applied force along *z*-axis

scalar

_{z}

Applied force along the body *z*-axis, specified as a scalar.

**Data Types: **`double`

`M`

— Applied pitching moment

scalar

Applied pitching moment, specified as a scalar.

**Data Types: **`double`

`g`

— Gravity

scalar

Gravity, specified as a scalar.

#### Dependencies

To enable this port, set **Gravity source** to
`External`

.

**Data Types: **`double`

### Output

`θ`

— Pitch altitude

scalar

Pitch attitude, within ±pi, returned as a scalar, in radians.

**Data Types: **`double`

`q`

— Pitch angular rate

scalar

Pitch angular rate, returned as a scalar, in radians per second.

**Data Types: **`double`

`dq/dt`

— Pitch angular acceleration

scalar

Pitch angular acceleration, returned as a scalar, in radians per second squared.

**Data Types: **`double`

`X`_{e}Z_{e}

— Location of body

two-element vector

_{e}Z

_{e}

Location of the body in the flat Earth reference frame, (*Xe, Ze*), returned
as a two-element vector.

**Data Types: **`double`

`U w`

— Velocity of body

two-element vector

Velocity of the body resolved into the body-fixed coordinate frame, (*u, w*),
returned as a two-element vector.

**Data Types: **`double`

`A`_{xb}A_{zb}

— Acceleration of body

two-element vector

_{xb}A

_{zb}

Acceleration of the body with respect to the body-fixed coordinate frame, (*Ax,
Az*), returned as a two-element
vector.

**Data Types: **`double`

`A`_{xe}A_{ze}

— Acceleration of body

two-element vector

_{xe}A

_{ze}

Accelerations of the body with respect to the inertial (flat Earth) coordinate frame, returned as a two-element vector. You typically connect this signal to the accelerometer.

#### Dependencies

To enable this port, select the **Include inertial
acceleration** check box.

**Data Types: **`double`

## Parameters

### Main

`Units`

— Input and output units

`Metric (MKS)`

(default) | `English (Velocity in ft/s)`

| `English (Velocity in kts)`

Input and output units, specified as `Metric (MKS)`

, `English (Velocity in ft/s)`

, or `English (Velocity in kts)`

.

Units | Forces | Moment | Acceleration | Velocity | Position | Mass | Inertia |
---|---|---|---|---|---|---|---|

`Metric (MKS)` | Newton | Newton-meter | Meters per second squared | Meters per second | Meters | Kilogram | Kilogram meter squared |

`English (Velocity in ft/s)` | Pound | Foot-pound | Feet per second squared | Feet per second | Feet | Slug | Slug foot squared |

`English (Velocity in kts)` | Pound | Foot-pound | Feet per second squared | Knots | Feet | Slug | Slug foot squared |

#### Programmatic Use

Block Parameter:
`units` |

Type: character vector |

Values: `Metric (MKS)` | `English (Velocity in ft/s)` | `English (Velocity in kts)` |

Default: `Metric (MKS)` |

`Axes`

— Body or wind axes

`Body`

(default) | `Wind`

Body or wind axes, specified as `Wind`

or
`Body`

#### Programmatic Use

Block Parameter:
`axes` |

Type: character
vector |

Values:
`Wind` | `Body` |

Default:
`Body` |

`Mass Type`

— Mass type

`Fixed`

(default) | `Simple Variable`

| `Custom Variable`

Mass type, specified according to the following table.

Mass Type | Description | Default for |
---|---|---|

`Fixed` | Mass is constant throughout the simulation. | |

`Simple Variable` | Mass and inertia vary linearly as a function of mass rate. | |

`Custom Variable` | Mass and inertia variations are customizable. |

The `Fixed`

selection conforms to the previously
described equations of motion.

#### Programmatic Use

Block Parameter:
`mtype` |

Type: character
vector |

Values:
`Fixed` | `Simple Variable` |
`Custom Variable` |

Default:
`'Fixed'` |

`Initial velocity`

— Initial velocity of body

`100`

(default) | scalar

Initial velocity of the body,
(*V*_{0}),
specified as a scalar.

#### Programmatic Use

Block
Parameter:
`v_ini` |

Type:
character vector |

Values:
`'100'` | scalar |

Default:
`'100'` |

`Initial body attitude`

— Initial pitch altitude

`0`

(default) | scalar

Initial pitch attitude of the body, (*θ*_{0}), specified as a scalar.

#### Programmatic Use

Block Parameter: `theta_ini` |

Type: character vector |

Values:
`'0'` | scalar |

Default: `'0'` |

`Initial body rotation rate`

— Initial pitch rotation rate

`0`

(default) | scalar

Initial pitch rotation rate,
(*q*_{0}),
specified as a scalar.

#### Programmatic Use

Block
Parameter:
`q_ini` |

Type:
character vector |

Values:
`'0'` | scalar |

Default:
`'0'` |

`Initial incidence`

— Initial angle

`0`

(default) | scalar

Initial angle between the velocity vector and the body, (*α*_{0}), specified as a scalar.

#### Programmatic Use

Block Parameter: `alpha_ini` |

Type: character vector |

Values:
`'0'` | scalar |

Default: `'0'` |

`Initial position (x,z)`

— Initial location

`[0 0]`

(default) | two-element vector

Initial location of the body in the flat Earth reference frame, specified as a two-element vector.

#### Programmatic Use

Block Parameter:
`pos_ini` |

Type: character vector |

Values:
`'[0 0]'` | two-element vector |

Default:
`'[0 0]'` |

`Initial mass`

— Initial mass

`1.0`

(default) | scalar

Initial mass of the rigid body, specified as a scalar.

#### Programmatic Use

Block Parameter: `mass` |

Type: character vector |

Values:
`'1.0'` | scalar |

Default:
`'1.0'` |

`Inertia`

— Inertia

`1.0`

(default) | scalar

Inertia of the body, specified as a scalar.

#### Dependencies

To enable this parameter, set **Mass type** to `Fixed`

.

#### Programmatic Use

Block Parameter: `Iyy` |

Type: character vector |

Values:
`'1.0'` | scalar |

Default: `'1.0'` |

`Gravity Source`

— Gravity source

`Internal`

(default) | `External`

Gravity source, specified as:

`External` | Variable gravity input to block |

`Internal` | Constant gravity specified in mask |

#### Programmatic Use

Block Parameter: `g_in` |

Type: character vector |

Values: `'Internal'` | `'External'` |

Default: `'Internal'` |

`Acceleration due to gravity`

— Gravity source

`9.81`

(default) | scalar

Acceleration due to gravity, specified as a double scalar and used if internal gravity source
is selected. If gravity is to be neglected in the simulation, this value can be set to
`0`

.

#### Dependencies

To enable this parameter, set

**Gravity Source**to`Internal`

.

#### Programmatic Use

Block Parameter: `g` |

Type: character vector |

Values:
`'9.81'` | scalar |

Default: `'9.81'` |

`Include inertial acceleration`

— Include inertial acceleration port

`off`

(default) | `on`

Select this check box to add an inertial acceleration in flat Earth frame output port. You typically connect this signal to the accelerometer.

#### Dependencies

To enable the **A _{xe}A_{ze}** port, select this parameter.

#### Programmatic Use

Block Parameter: `abi_flag` |

Type: character vector |

Values:
`'off'` |
`'on'` |

Default:
`'off'` |

### State Attributes

Assign a unique name to each state. You can use state names instead of block paths during linearization.

The number of names must match the number of states, as shown for each item, or be empty. Set all or none of the block states.

To assign names to single-variable states, enter unique names between quotes, for example,

`'q'`

or`"q"`

.To assign names to two-variable states, enter a comma-separated list surrounded by braces, for example,

`{'Xe','Ze'}`

.If a state parameter is empty (

`' '`

), no name is assigned.To assign state names with a variable in the MATLAB

^{®}workspace, enter the variable without quotes. A variable can be a character vector, cell array of character vectors, or string.

`Velocity: e.g., {'u, 'w'}`

— Velocity state name

`''`

(default) | comma-separated list surrounded by braces

Velocity state names, specified as a comma-separated list surrounded by braces.

#### Programmatic Use

Block Parameter: `vel_statename` |

Type: character vector |

Values:
`''` | comma-separated list surrounded by braces |

Default: `''` |

`Position: e.g., {'Xe', 'Ze'}`

— Position state name

`''`

(default) | comma-separated list surrounded by braces

Position state names, specified as a comma-separated list surrounded by braces.

#### Programmatic Use

Block Parameter: `pos_statename` |

Type: character vector |

Values:
`''` | comma-separated list surrounded by braces |

Default: `''` |

`Pitch angular rate e.g., 'q'`

— Pitch angular rate state name

`''`

(default)

Pitch angular rate state name, specified as a character vector or string.

#### Programmatic Use

Block Parameter:
`q_statename` |

Type: character vector | string |

Values:
`''` | scalar |

Default:
`''` |

`Pitch attitude: e.g., 'theta'`

— Pitch attitude state name

`''`

(default)

Pitch attitude state name, specified as a character vector or string.

#### Programmatic Use

Block Parameter:
`theta_statename` |

Type: character vector | string |

Values:
`''` |

Default:
`''` |

## Algorithms

The block considers the rotation in the vertical plane of a body-fixed coordinate frame about a flat Earth reference frame.

The equations of motion are

$$\begin{array}{l}{A}_{xb}=\dot{u}={A}_{xe}-qw\\ {A}_{zb}=\dot{w}={A}_{ze}+qu\\ {A}_{xe}=\frac{{F}_{x}}{m}-g\mathrm{sin}\theta \\ {A}_{ze}=\frac{{F}_{z}}{m}+g\mathrm{cos}\theta \\ {\dot{X}}_{e}=u\mathrm{cos}\theta +w\mathrm{sin}\theta \\ {\dot{Z}}_{e}=-u\mathrm{sin}\theta +w\mathrm{cos}\theta \\ \dot{q}=\frac{{M}_{y}}{{I}_{yy}}\\ \dot{\theta}=q\end{array}$$

where the applied forces are assumed to act at the center of gravity of the body. Input
variables are *F _{x}*,

*F*,

_{z}*M*.

_{y}*g*is an optional input variable.

## Extended Capabilities

### C/C++ Code Generation

Generate C and C++ code using Simulink® Coder™.

## Version History

**Introduced in R2006a**

### R2021b: 3DOF (Body Axes) Block Changes

The 3DOF equations of motion have been updated. Existing models created prior to R2021b that contain 3DOF equations of motion blocks continue to run. If you replace a pre-R2021b version of a 3DOF equation of motion block with an R2021b or later version, your updated model might have a higher tendency for algebraic loops. For an example of how to remove algebraic loops using unit delays, see Remove Algebraic Loops. For further information about algebraic loops, see Identify Algebraic Loops in Your Model.

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