sat-rs/satrs-example/README.md

sat-rs example
======

This crate contains an example application which simulates an on-board software.
It uses various components provided by the sat-rs framework to do this. As such, it shows how
a more complex real on-board software could be built from these components.
The application opens a UDP server on port 7301 to receive telecommands.

You can run the application using `cargo run`. The `simpleclient` binary target sends a
ping telecommand and then verifies the telemetry generated by the example application.
It can be run like this:

```rs
cargo run --bin simpleclient
```

This repository also contains a more complex client using the
[Python tmtccmd](https://github.com/robamu-org/tmtccmd) module.

# Using the tmtccmd Python client

The python client requires a valid installation of the
[tmtccmd package](https://github.com/robamu-org/tmtccmd).

It is recommended to use a virtual environment to do this. To set up one in the command line,
you can use `python3 -m venv venv` on Unix systems or `py -m venv venv` on Windows systems.
After doing this, you can check the [venv tutorial](https://docs.python.org/3/tutorial/venv.html)
on how to activate the environment and then use the following command to install the required
dependency:

```sh
pip install -r requirements.txt
```

Alternatively, if you would like to use the GUI functionality provided by `tmtccmd`, you can also
install it manually with

```sh
pip install tmtccmd[gui]
```

After setting up the dependencies, you can simply run the `main.py` script to send commands
to the OBSW example and to view and handle incoming telemetry. The script and the `tmtccmd`
framework it uses allow to easily add and expose additional telecommand and telemetry handling
as Python code.
somethings wrong 2022-11-20 19:29:50 +01:00			`sat-rs example`
			`======`
the OBSW is the primary application 2022-11-20 20:12:35 +01:00
basic README for example 2022-11-20 20:42:29 +01:00			`This crate contains an example application which simulates an on-board software.`
			`It uses various components provided by the sat-rs framework to do this. As such, it shows how`
			`a more complex real on-board software could be built from these components.`
			`The application opens a UDP server on port 7301 to receive telecommands.`
the OBSW is the primary application 2022-11-20 20:12:35 +01:00
basic README for example 2022-11-20 20:42:29 +01:00			You can run the application using `cargo run`. The `simpleclient` binary target sends a
			`ping telecommand and then verifies the telemetry generated by the example application.`
			`It can be run like this:`

			```rs
			`cargo run --bin simpleclient`
			```

			`This repository also contains a more complex client using the`
			`[Python tmtccmd](https://github.com/robamu-org/tmtccmd) module.`

			`# Using the tmtccmd Python client`

			`The python client requires a valid installation of the`
			`[tmtccmd package](https://github.com/robamu-org/tmtccmd).`

			`It is recommended to use a virtual environment to do this. To set up one in the command line,`
			you can use `python3 -m venv venv` on Unix systems or `py -m venv venv` on Windows systems.
			`After doing this, you can check the [venv tutorial](https://docs.python.org/3/tutorial/venv.html)`
			`on how to activate the environment and then use the following command to install the required`
			`dependency:`

			```sh
			`pip install -r requirements.txt`
			```

			Alternatively, if you would like to use the GUI functionality provided by `tmtccmd`, you can also
			`install it manually with`

			```sh
			`pip install tmtccmd[gui]`
			```

			After setting up the dependencies, you can simply run the `main.py` script to send commands
			to the OBSW example and to view and handle incoming telemetry. The script and the `tmtccmd`
			`framework it uses allow to easily add and expose additional telecommand and telemetry handling`
			`as Python code.`