Document Interfaces using PHENOM Portal: Difference between revisions

From PHENOM Portal Knowledgebase
Jump to navigation Jump to search
 
(7 intermediate revisions by the same user not shown)
Line 6: Line 6:
Start by downloading this data model: [[File:robot_model.face]]
Start by downloading this data model: [[File:robot_model.face]]


==Creating a New Project==
===Switch to Manage Mode===
===Switch to Manage Mode===
All model management functions are performed in the [[Manage|Manage Models]] section of PHENOM.  After logging in, please click on the [[Manage|Manage Models]] icon.
All model management functions are performed in the [[Manage|Manage Models]] section of PHENOM.  After logging in, please click on the [[Manage|Manage Models]] icon.
Line 69: Line 68:
In the task of documenting the Simple Operating Robot Data Interface, our main focus will be in [[View]]s. Views can be understood as the documentation of messages that the interface describes. A view documents a message interface, and each view-characteristic documents a single field of the message. More specifically, a view-characteristic contains information about the logical level of the message field (such as the measurement and unit being used) as well as information about the conceptual level of the message field (which entities and properties of entities are being talked about).
In the task of documenting the Simple Operating Robot Data Interface, our main focus will be in [[View]]s. Views can be understood as the documentation of messages that the interface describes. A view documents a message interface, and each view-characteristic documents a single field of the message. More specifically, a view-characteristic contains information about the logical level of the message field (such as the measurement and unit being used) as well as information about the conceptual level of the message field (which entities and properties of entities are being talked about).


If you click on a view-characteristic, you will see that each has a name, an observable, a measurement and axis (which further characterizes the observable), and a path documenting the entities and its context.  Path development is the primary focus of this assignment - paths communicate the semantics of message fields in a machine understandable fashion. Engineer-written documentation for data coming in over the wire might indicate "Temperature of the main unit of an air system's propulsion system." which, though concise and informative, might not mean much to a machine. Paths allow us to write standardized descriptions of view-attributes, linking together different entities, such as engines, propulsion systems, and air vehicles, to create semantic, machine-readable documentation for the contents of a message. Below is an example view attribute describing the message field documented in the sentence above.
If you click on a view-characteristic, you will see that each has a name, an [[observable]], a measurement and axis (which further characterizes the observable), and a path documenting the entities and its context.  Path development is the primary focus of this assignment - paths communicate the semantics of message fields in a machine understandable fashion. Engineer-written documentation for data coming in over the wire might indicate "Temperature of the main unit of an air system's propulsion system." which, though concise and informative, might not mean much to a machine. Paths allow us to write standardized descriptions of view-attributes, linking together different entities, such as engines, propulsion systems, and air vehicles, to create semantic, machine-readable documentation for the contents of a message. Below is an example view attribute describing the message field documented in the sentence above.


[[File:Phenom-tutorial-documenting-interface-example.png|thumb|none]]
[[File:Phenom-tutorial-documenting-interface-example.png|thumb|none]]
Take a look at the path and see if you can connect it to the meaning intended by the engineer from the previous paragraph. Note that this page also captures how the measurement of this concept is expressed (i.e., measurement units and frame of reference).  This information is used to construct the [[Logical Data Model]].
== Part 1: Documenting Robot Position Status==
The first message interface we have to implement is for communicating the '''Robot_Position_Status'''.  We are given the following interface description:
{| class="wikitable"
|+ Robot_Position_Status - This message returns the position information of the robot.
|-
! Field ID !! Name & Description !! Unit !! Data Type
|-
| 1 || '''Robot_Id''' <br/> An alphanumeric string indicating the unique identifier of the robot system. || UTF-8 || String
|-
| 2 || '''Latitude''' <br/> The WGS-84 latitude value. || Radians || Double
|-
| 3 || '''Longitude''' <br/> The WGS-84 longitude value. || Radians || Double
|-
| 4 || '''Altitude''' <br/> The altitude value expressed in MSL. || Meters || Float
|}
Before documenting the message, take a look at the entity which this message is meant to describe. In the model we are using, the closest entity is Robot. Once you are logged into PHENOM, make sure that you click on the DATA MODELING button in the left-hand navigation panel.  Then, type 'robot' into the search bar on top of Phenom's NavTree and bring up the page describing Robot. You will see that this entity is composed of a few attributes, some of them are [[observable]]s while another is an [[entity]].
Let's start the documentation by clicking the 'Create' button at the top left of the page and choosing to create a new view.
[[File:Phenom-datamodeling-create-view.png|frame|none]]
Give your view a name and a description following the information in the table at the top of this section and click save.
[[File:Phenom-datamodeling-view-save.png|frame|none]]
Once saved, you can find your new view in the tree by searching for it or opening its parent package.  NOTE: PHENOM creates new views in the PhenomViews package.  However, you may drag the elements into locations of your choosing (so long as they are valid).
Now, we can add an attribute to the view to describe the first field of the message - Robot_ID. To start, click on the CREATE button in the Attributes pane.
[[File:Phenom-datamodeling-view-create-attribute.png|frame|none]]
Fill in the View Attribute field with its name.  The table indicates this should be: ''Robot_Id''
Given the name and description from the table, it is not hard to think that the best observable for it is [[Identifier]]. Selected that as our [[observable]], then choose a measurement that will likely best fulfill the id being a string - I chose UniqueID_UUID_Text_Meas.
[[File:Phenom-datamodeling-view-attribute-choose-obs-and-meas.png|frame|none]]
The next step is ''slightly'' more complicated.  Originally, in PHENOM you could simply select any primitive type, and PHENOM would generate the appropriate results.  Unfortunately, this leads to a proliferation of platform data types and users wanted us to provide a little more control for platform type reuse.
This leads to two options.  First, you can create a new platform type.  This is absolutely necessary when working with a new model.  Once some platform types have already been created, the second option will allow you to reuse and existing platform type.
===Creating a Platform Type===
[[File:Phenom-datamodeling-view-attribute-create-platform-type.png|frame|none]]
===Select a Platform Type===

Latest revision as of 15:13, 29 August 2022

Documenting communication interfaces using good data modeling practices is easy in PHENOM Portal. This quick assignment will get you up and running documenting your own interfaces, creating valid and informative paths, and mapping your interface to others already documented.

Preparing PHENOM

In this tutorial, you will be documenting interfaces. However, in order for you to be able to do this, you need a data model that corresponds with this tutorial. Since there is already a tutorial for Developing an Entity Model, this tutorial will start by loading a data model into PHENOM.

Start by downloading this data model: File:Robot model.face

Switch to Manage Mode

All model management functions are performed in the Manage Models section of PHENOM. After logging in, please click on the Manage Models icon.

Create a New Project

It is possible to upload new content and create a new project all at once! To start, click on the Create New Project button.


Select Models

Once you click the button, the following screen should appear to the right of the Project listing.

For the Project Name, please type: Robot

You may leave Description blank. This field is intended for you to capture notes about the project (or model) and how it will be used.

In the bottom-left of this display, there is a list of existing models. This is used to add existing models to the new project. Ignore this for now.

In the bottom-right, click on Import FACE model. This button will add a model entry as follows:

For the Model Name (the first text field), please enter: Robot_model

As before, Description can be left blank.

Click on Select files... and a file chooser will appear. Navigate to where you saved Robot_model.face from before and choose that file. PHENOM will immediately start uploading the file. While the file is uploading and being preprocessed, the following status will appear:

Once the file has successfully transferred, PHENOM will show the file uploaded successfully with a green indicator.

In the event of an error (e.g., invalid file type or invalid model), PHENOM will display an error as follows:

Once the file has been successfully uploaded, click on the SAVE button.

Switch to New Model

After saving the model, it will appear in the project browser. Simply right-click on Robot and choose Switch. This will load the new project and you are finally ready to start this tutorial!

You can verify that you have switched to the new project by looking at the top of your PHENOM display. The current project is displayed beside your username.

Prelude: Views, View-Characteristic, and Paths - What and Why

In the task of documenting the Simple Operating Robot Data Interface, our main focus will be in Views. Views can be understood as the documentation of messages that the interface describes. A view documents a message interface, and each view-characteristic documents a single field of the message. More specifically, a view-characteristic contains information about the logical level of the message field (such as the measurement and unit being used) as well as information about the conceptual level of the message field (which entities and properties of entities are being talked about).

If you click on a view-characteristic, you will see that each has a name, an observable, a measurement and axis (which further characterizes the observable), and a path documenting the entities and its context. Path development is the primary focus of this assignment - paths communicate the semantics of message fields in a machine understandable fashion. Engineer-written documentation for data coming in over the wire might indicate "Temperature of the main unit of an air system's propulsion system." which, though concise and informative, might not mean much to a machine. Paths allow us to write standardized descriptions of view-attributes, linking together different entities, such as engines, propulsion systems, and air vehicles, to create semantic, machine-readable documentation for the contents of a message. Below is an example view attribute describing the message field documented in the sentence above.

Take a look at the path and see if you can connect it to the meaning intended by the engineer from the previous paragraph. Note that this page also captures how the measurement of this concept is expressed (i.e., measurement units and frame of reference). This information is used to construct the Logical Data Model.

Part 1: Documenting Robot Position Status

The first message interface we have to implement is for communicating the Robot_Position_Status. We are given the following interface description:

Robot_Position_Status - This message returns the position information of the robot.
Field ID Name & Description Unit Data Type
1 Robot_Id
An alphanumeric string indicating the unique identifier of the robot system.
UTF-8 String
2 Latitude
The WGS-84 latitude value.
Radians Double
3 Longitude
The WGS-84 longitude value.
Radians Double
4 Altitude
The altitude value expressed in MSL.
Meters Float

Before documenting the message, take a look at the entity which this message is meant to describe. In the model we are using, the closest entity is Robot. Once you are logged into PHENOM, make sure that you click on the DATA MODELING button in the left-hand navigation panel. Then, type 'robot' into the search bar on top of Phenom's NavTree and bring up the page describing Robot. You will see that this entity is composed of a few attributes, some of them are observables while another is an entity.

Let's start the documentation by clicking the 'Create' button at the top left of the page and choosing to create a new view.

Give your view a name and a description following the information in the table at the top of this section and click save.

Once saved, you can find your new view in the tree by searching for it or opening its parent package. NOTE: PHENOM creates new views in the PhenomViews package. However, you may drag the elements into locations of your choosing (so long as they are valid).

Now, we can add an attribute to the view to describe the first field of the message - Robot_ID. To start, click on the CREATE button in the Attributes pane.

Fill in the View Attribute field with its name. The table indicates this should be: Robot_Id

Given the name and description from the table, it is not hard to think that the best observable for it is Identifier. Selected that as our observable, then choose a measurement that will likely best fulfill the id being a string - I chose UniqueID_UUID_Text_Meas.

The next step is slightly more complicated. Originally, in PHENOM you could simply select any primitive type, and PHENOM would generate the appropriate results. Unfortunately, this leads to a proliferation of platform data types and users wanted us to provide a little more control for platform type reuse.

This leads to two options. First, you can create a new platform type. This is absolutely necessary when working with a new model. Once some platform types have already been created, the second option will allow you to reuse and existing platform type.

Creating a Platform Type

Select a Platform Type