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Back to [[Flexbot]]
= Packages added/made for ROS =
= Packages added/made for ROS =
* ROSbridge (For connecting ROS to the local network)
* [[Web_Interface#realsense|realsense]] added (For visual data as ROS topics)
* Realsense (For visual data as ROS topics)
* [[Web_Interface#roslibjs|rosbridge]] added (For connecting ROS to the local network)
* mission_pkg (Handles mission files)
* [[Web_Interface#mission_package|syntax_pkg]] Made (Checks mission for syntax errors when committing)
* syntax_pkg (Checks mission for syntax errors when committing)
* [[Web_Interface#syntax_package|mission_pkg]] Made (Handles mission files)
 
= Location of important files=
Every package can be found in the following directory:
~/flexbot_ws/src/
 
The cmds and relative path for the mission file can be found in:
~/flexbot_ws/src/include/
 
Homepage and script related things can be found in:
~/flexbot_ws/robot/
 
The homepage folder has a softlink to the desired place, so adding new page content will also make it appear on the homepage.
 
The script ''autoStartRobot.sh'' has a link to the directory where every script starts after connecting to the network. Keep in mind that you cannot use the same environment variables since it runs in root (Can't ~). Extra measurements to ensure it doesn't start multiple times has been taken. If more launch files should be added please do so by changing one of these files
~/flexbot_ws/src/base_node_ros/full.launch #This one is preferred
~/flexbot_ws/robot/robot.sh
 
inside the following directors are the logs, the aaa and aab are the terminal output for the automatic startup script.
~/flexbot_ws/logs/
 
= Usage of web-interface=
Go to the robots ip address in the browser, remember to be on the same network!
http://flexbot.local/
 
If for some reason the robot doesn't work, one could login to the robot and run the killrobot scrip
~/flexbot_ws/robot/./killrobot.sh
followd by the script
~/flexbot_ws/robot/./robot.sh
 
== Side bar ==
=== ROS Status ===
To the left we have the status panels, the top one is the status of ROS and looks like this:
 
[[File:status.png]]
 
It has 3 states, Checking, Closed and Connected. Remember to refresh each time the robot boots or restarts.
 
=== General Status ===
The next panel is the mission status and looks like this:
 
[[File:missionstatus.png]]
 
This indicates what it is currently doing, like receiving mission, checking for syntax and so forth.
 
=== Specific Actions===
The third panel is the more in depth detail of what the robot is doing currently. It looks like this:
 
[[File:doing.png]]
 
which says that it is moving 5 units and the command is from line 1.
 
=== Start/Stop button ===
The last element in the side panel is the start and stop bottom, it will automatically go back to the idle state when the mission is complete, if it is not complete and the stop button is pressed it will cancel the mission. The buttons looks like this:
 
[[File:button1.png]]
 
[[File:button2.png]]


=PUT IMAGE HERE=
== Tabs ==
This is the how the basic structure is for the web interface.
Currently there is 3 tabs:


1. The first tab, the "legs" tab, is a table with legs and IMU data


== TODO ==
2. The second tab, the "Camera" tab, is a tab with 2 video feeds, one for color and one for depth. Keep in mind that the feed with depth is 16bit gray and thus JavaScript can't present it correctly so everything greater than 255 is getting rounded down to 255.
Change launch lauch file name for camera.  


Put in image for basic structure of the web interface.
3. The third tab, the "Mission" tab, holds the mission text area where a new mission can be written and submitted. It can also retrieve the current mission.


make hard links to html relevant files
== Mission commands ==
Right now there is 3 commands, but none of them has any functionality yet. The first one is mov, which takes one values, the next is stop which takes zero values and the last is turn which takes two values.


==realsens camera==
=Structure of the web-interface=
 
The general structure of the web-interface can be seen in the picture below. The orange box is the robot server, green is the ROS server (Packages written in C++), Purple is the client (Laptop), Red is the homepage files. Most of the the blocks on the server communicate through ROS topics or actions, but some use Mavlink. In the Client side everything is done with HTML, CSS and JavaScript.
 
[[File:structure.png]]
 
=Packages in depth=
 
==realsense camera==
===Installing rosrealses===
To start of with we run the following command to reconfigure it to ros melodic:
To start of with we run the following command to reconfigure it to ros melodic:
  sudo apt install ros-melodic-ddynamic-reconfigure
  sudo apt install ros-melodic-ddynamic-reconfigure
Line 35: Line 105:


To launch it use, remember to source or be in the right directory before launch
To launch it use, remember to source or be in the right directory before launch
  roslaunch realsense2_camera rs_camera.launch
  roslaunch realsense2_camera rs_flexbot.launch


==roslibjs==  
==roslibjs==  
Line 85: Line 155:
and has a hardlink file in ~/flexbot_ws to make it easily accessible
and has a hardlink file in ~/flexbot_ws to make it easily accessible


== test ==
== syntax package ==
Not much to say, the package files are located inside
~/flexbot_ws/src/syntax_pkg/
and it checks for valid syntax in the submitted code. If there is error it returns the error type and where. If successful it saves the code in
~/flexbot_ws/mission.txt
Furthermore to add new commands simply add the word and how many arguments it takes inside the struct declaration in the file:
~/flexbot_ws/src/include/cmds.h
and build the code again
 
=== Adding Commands ===
To add a command to the syntax checking simply go to 
~/flexbot_ws/src/include/cmds.h
and add the command to the vector called ''cmds''. It has 2 values a name of the command and how many attributes it has. After adding it simply compile the code again
 
== mission package ==
The package files are located inside
~/flexbot_ws/src/mission_pkg/
This package hasn't got any specific use now since it at the moment only reads the mission, runs the corresponding function and returns what line it is running. It is possible to cancel a mission but not to pause and resume it.
 
=== Adding commands ===
To add a command to the mission go into the source of the mission package and add the command-check to the main while loop in the callback function and add a corresponding function. Remember to add this command to the syntax too inside cmds.h.
 
=== TODO ===
Add actual functionality to each command in the mission package

Latest revision as of 19:20, 25 June 2020

Back to Flexbot


Packages added/made for ROS

  • realsense added (For visual data as ROS topics)
  • rosbridge added (For connecting ROS to the local network)
  • syntax_pkg Made (Checks mission for syntax errors when committing)
  • mission_pkg Made (Handles mission files)

Location of important files

Every package can be found in the following directory:

~/flexbot_ws/src/

The cmds and relative path for the mission file can be found in:

~/flexbot_ws/src/include/

Homepage and script related things can be found in:

~/flexbot_ws/robot/

The homepage folder has a softlink to the desired place, so adding new page content will also make it appear on the homepage.

The script autoStartRobot.sh has a link to the directory where every script starts after connecting to the network. Keep in mind that you cannot use the same environment variables since it runs in root (Can't ~). Extra measurements to ensure it doesn't start multiple times has been taken. If more launch files should be added please do so by changing one of these files

~/flexbot_ws/src/base_node_ros/full.launch #This one is preferred
~/flexbot_ws/robot/robot.sh

inside the following directors are the logs, the aaa and aab are the terminal output for the automatic startup script.

~/flexbot_ws/logs/

Usage of web-interface

Go to the robots ip address in the browser, remember to be on the same network!

http://flexbot.local/

If for some reason the robot doesn't work, one could login to the robot and run the killrobot scrip

~/flexbot_ws/robot/./killrobot.sh

followd by the script

~/flexbot_ws/robot/./robot.sh

Side bar

ROS Status

To the left we have the status panels, the top one is the status of ROS and looks like this:

It has 3 states, Checking, Closed and Connected. Remember to refresh each time the robot boots or restarts.

General Status

The next panel is the mission status and looks like this:

This indicates what it is currently doing, like receiving mission, checking for syntax and so forth.

Specific Actions

The third panel is the more in depth detail of what the robot is doing currently. It looks like this:

which says that it is moving 5 units and the command is from line 1.

Start/Stop button

The last element in the side panel is the start and stop bottom, it will automatically go back to the idle state when the mission is complete, if it is not complete and the stop button is pressed it will cancel the mission. The buttons looks like this:

Tabs

Currently there is 3 tabs:

1. The first tab, the "legs" tab, is a table with legs and IMU data

2. The second tab, the "Camera" tab, is a tab with 2 video feeds, one for color and one for depth. Keep in mind that the feed with depth is 16bit gray and thus JavaScript can't present it correctly so everything greater than 255 is getting rounded down to 255.

3. The third tab, the "Mission" tab, holds the mission text area where a new mission can be written and submitted. It can also retrieve the current mission.

Mission commands

Right now there is 3 commands, but none of them has any functionality yet. The first one is mov, which takes one values, the next is stop which takes zero values and the last is turn which takes two values.

Structure of the web-interface

The general structure of the web-interface can be seen in the picture below. The orange box is the robot server, green is the ROS server (Packages written in C++), Purple is the client (Laptop), Red is the homepage files. Most of the the blocks on the server communicate through ROS topics or actions, but some use Mavlink. In the Client side everything is done with HTML, CSS and JavaScript.

Packages in depth

realsense camera

Installing rosrealses

To start of with we run the following command to reconfigure it to ros melodic:

sudo apt install ros-melodic-ddynamic-reconfigure

After that we can follow the guide given here, but i'll write my approach below https://github.com/IntelRealSense/realsense-ros#step-3-install-intel-realsense-ros-from-sources

Here the commands used to download and install the ros package can be seen:

cd ~/flexbot_ws/src/
git clone https://github.com/IntelRealSense/realsense-ros.git
cd realsense-ros/
git checkout `git tag | sort -V | grep -P "^\d+\.\d+\.\d+" | tail -1`
cd ~/flexbot_ws

At last we build and source it using

catkin_make
source ~/flexbot_ws/devel/setup.sh

To launch it use, remember to source or be in the right directory before launch

roslaunch realsense2_camera rs_flexbot.launch

roslibjs

Installing rosbridge

This library makes it possible to use ros commands with javascript over a chosen port. The first two lines goes to the source in the catkin workspace and creates a package for ros:

cd ~/flexbot_ws/src
catkin_create_pkg robot_gui_bridge rosbridge_server

Next we install the rosbridge package

apt-get install ros-melodic-rosbridge-server 

Now we create the launch file directory and the file used for launch

mkdir ~/flexbot_ws/src/robot_gui_bridge/launch
touch ~/flexbot_ws/src/robot_gui_bridge/launch/websocket.launch

Now at last we write the the necessary launch commands into the file and source it so we can use it from any directory om this terminal:

echo '<launch> <include file="$(find rosbridge_server)/launch/rosbridge_websocket.launch"/></launch>' >> ~/flexbot_ws/src/robot_gui_bridge/launch/websocket.launch
source ~/flexbot_ws/devel/setup.bash

To test if it works run and look for errors:

roslaunch robot_gui_bridge websocket.launch

Setting up the connection

First check if the following command gives multiple ip's if so find a way to extract the correct one:

hostname -I 

Now to setup the client, which is the computer not on the robot, write the following 3 lines in your "~/.bashrc" script:

# write these inside ~/.bashrc
export ROS_HOSTNAME='hostname -I'
export ROS_IP="hostname -I"
export ROS_MASTER_URI='http://flexbot.local:11311/'

Now to setup the server, which is the computer on the robot, write the following 2 lines in the "~/.bashrc" script:

# write these inside ~/.bashrc
export ROS_IP=flexbot.local
export ROS_MASTER_URI='http://flexbot.local:11311/'

finalizing the server

Install apache to be able to access remotely :

sudo apt install apache2

Now insert the desired HTML, CSS and javascript files into

/var/www/html/ 

At last create a script inside

/etc/network/if-up.d/

Which will be executed when connecting to a network. To ensure it not happening multiple times a flag is set when run the first time. The script can be seen in

/etc/network/if-up.d/robotAutoStart.sh

and has a hardlink file in ~/flexbot_ws to make it easily accessible

syntax package

Not much to say, the package files are located inside

~/flexbot_ws/src/syntax_pkg/

and it checks for valid syntax in the submitted code. If there is error it returns the error type and where. If successful it saves the code in

~/flexbot_ws/mission.txt

Furthermore to add new commands simply add the word and how many arguments it takes inside the struct declaration in the file:

~/flexbot_ws/src/include/cmds.h

and build the code again

Adding Commands

To add a command to the syntax checking simply go to

~/flexbot_ws/src/include/cmds.h

and add the command to the vector called cmds. It has 2 values a name of the command and how many attributes it has. After adding it simply compile the code again

mission package

The package files are located inside

~/flexbot_ws/src/mission_pkg/

This package hasn't got any specific use now since it at the moment only reads the mission, runs the corresponding function and returns what line it is running. It is possible to cancel a mission but not to pause and resume it.

Adding commands

To add a command to the mission go into the source of the mission package and add the command-check to the main while loop in the callback function and add a corresponding function. Remember to add this command to the syntax too inside cmds.h.

TODO

Add actual functionality to each command in the mission package