in deepracer_launcher/launch/deepracer_launcher.py [0:0]
def generate_launch_description():
ld = LaunchDescription()
camera_node = Node(
package='camera_pkg',
namespace='camera_pkg',
executable='camera_node',
name='camera_node',
parameters=[
{'resize_images': True}
]
)
ctrl_node = Node(
package='ctrl_pkg',
namespace='ctrl_pkg',
executable='ctrl_node',
name='ctrl_node'
)
deepracer_navigation_node = Node(
package='deepracer_navigation_pkg',
namespace='deepracer_navigation_pkg',
executable='deepracer_navigation_node',
name='deepracer_navigation_node'
)
software_update_node = Node(
package='deepracer_systems_pkg',
namespace='deepracer_systems_pkg',
executable='software_update_node',
name='software_update_node'
)
model_loader_node = Node(
package='deepracer_systems_pkg',
namespace='deepracer_systems_pkg',
executable='model_loader_node',
name='model_loader_node'
)
otg_control_node = Node(
package='deepracer_systems_pkg',
namespace='deepracer_systems_pkg',
executable='otg_control_node',
name='otg_control_node'
)
network_monitor_node = Node(
package='deepracer_systems_pkg',
namespace='deepracer_systems_pkg',
executable='network_monitor_node',
name='network_monitor_node'
)
deepracer_systems_scripts_node = Node(
package='deepracer_systems_pkg',
namespace='deepracer_systems_pkg',
executable='deepracer_systems_scripts_node',
name='deepracer_systems_scripts_node'
)
device_info_node = Node(
package='device_info_pkg',
namespace='device_info_pkg',
executable='device_info_node',
name='device_info_node'
)
battery_node = Node(
package='i2c_pkg',
namespace='i2c_pkg',
executable='battery_node',
name='battery_node'
)
inference_node = Node(
package='inference_pkg',
namespace='inference_pkg',
executable='inference_node',
name='inference_node'
)
model_optimizer_node = Node(
package='model_optimizer_pkg',
namespace='model_optimizer_pkg',
executable='model_optimizer_node',
name='model_optimizer_node'
)
rplidar_node = Node(
package='rplidar_ros',
namespace='rplidar_ros',
executable='rplidarNode',
name='rplidarNode',
parameters=[{
'serial_port': '/dev/ttyUSB0',
'serial_baudrate': 115200,
'frame_id': 'laser',
'inverted': False,
'angle_compensate': True,
}]
)
sensor_fusion_node = Node(
package='sensor_fusion_pkg',
namespace='sensor_fusion_pkg',
executable='sensor_fusion_node',
name='sensor_fusion_node'
)
servo_node = Node(
package='servo_pkg',
namespace='servo_pkg',
executable='servo_node',
name='servo_node'
)
status_led_node = Node(
package='status_led_pkg',
namespace='status_led_pkg',
executable='status_led_node',
name='status_led_node'
)
usb_monitor_node = Node(
package='usb_monitor_pkg',
namespace='usb_monitor_pkg',
executable='usb_monitor_node',
name='usb_monitor_node'
)
webserver_publisher_node = Node(
package='webserver_pkg',
namespace='webserver_pkg',
executable='webserver_publisher_node',
name='webserver_publisher_node'
)
web_video_server_node = Node(
package='web_video_server',
namespace='web_video_server',
executable='web_video_server',
name='web_video_server'
)
ld.add_action(camera_node)
ld.add_action(ctrl_node)
ld.add_action(deepracer_navigation_node)
ld.add_action(software_update_node)
ld.add_action(model_loader_node)
ld.add_action(otg_control_node)
ld.add_action(network_monitor_node)
ld.add_action(deepracer_systems_scripts_node)
ld.add_action(device_info_node)
ld.add_action(battery_node)
ld.add_action(inference_node)
ld.add_action(model_optimizer_node)
ld.add_action(rplidar_node)
ld.add_action(sensor_fusion_node)
ld.add_action(servo_node)
ld.add_action(status_led_node)
ld.add_action(usb_monitor_node)
ld.add_action(webserver_publisher_node)
ld.add_action(web_video_server_node)
return ld