User Manual 4.7 Assemblies in PATRIUS: Presentation

Introduction

Scope

This chapter presents the global architecture of the assembly: its decomposition in parts and the notion of “properties” of those parts. These are only the main principles of the theme. Other chapters are dedicated to the assembly building and use with code samples.

Javadoc

The main vehicle objects are available in the package fr.cnes.sirius.patrius.assembly

Links

None as of now.

Useful Documents

None as of now.

Package overview

Main principles :

• An assembly is described by its sub parts (and can be made of only one).
• Each of these parts is definied by a name, a frame to know its position and orientation at any time, and a list of properties. Parts can be of two types: fixed parts and mobile parts
• The first created part is the "main part". Its associated frame defines the "main frame" of the vehicle.
• The assembly contains only information : it does not act as physical models (force computations for the spacecraft,...) and implements no complex algorithm. "Models" objects are used for this purpose.
• The assembly's creation is made through a "builder" object.

Classes of the package :

• The builder allows the user to instantiate their own assembly, building it step by step (see "Building the assembly").
• The assembly contains several parts, of the IPart type : one "MainPart" and some "Part" or "MobilePart" objects.
• The parts contain "properties" of the "IPartProperty" type.
• Each PartProperty is associated to a "PropertyType" that allows the user to add only one property of a certain type to a particular part.

The following diagram represents the link between the main classes used for standard assemblies:

The following diagram represents the classes used for MobileParts. In particular MobileParts rely on a TransformStateProvider which provides the transformation between the mobile part and its parent part at any time.

Features Description

The tree of parts

Each Part is associated to a frame, which is defined relatively (position and orientation) to the frame of the parent part. The “main part” is associated to the main frame, that has no parent unless the vehicle is linked to the main tree of frames.

Note that two parts type exist:

• Part: fixed parts with constant transformation between its frame and its parent frame
• MobilePart: mobile parts relying on a TransformStateProvider which provides the transformation between the mobile part and its parent part at any time.

Part Properties

Each part has a list of properties that can be chosen arbitrarily amongst the ones available (e.g. mass, geometry, drag coefficient). The design of the Assembly package allows easy additions of new properties.
To ensure that a property of a particular type is added only once, a "Property type" list exists : different properties can be of a same "type" (for examples two ways of describing the drag coefficients).

Models

The physical models (such as forces computations on a spacecraft) are not part of the assembly package.
An assembly does not contain complex algorithm, it is only a description. A model shall be coded in a dedicated class, using if necessary an assembly to get its features.
This way, it is easy to create models implementing existing interfaces, or to create new models and interfaces

Available models

Here is a summary of available models, what they stand for, and the properties needed on the assembly parts for the model to work :

For a model to work, it needs an assembly providing parts with the right properties. This is done by building a suitable assembly, as described in the [SPC_VBU_Home "Building and using an assembly"] chapter.