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diagnostics: diagnostic_aggregator | diagnostic_analysis | diagnostic_updater | self_test

Package Summary

diagnostic_aggregator contains the tools to aggregate and analyze robot diagnostics on an active robot. It uses the Aggregator class as to aggregate and process data. The aggregator tool loads diagnostic Analyzers as plug-ins. These analyzers can perform basic diagnostics analysis, such as testing when things are stale, or having known errors. Analyzers are subclasses of Analyzer. AnalyzerGroup and GenericAnalyzer are two of these subclasses.

The Aggregator should be run on a robot, and is typically launched in the robot's launch file. Viewing of this aggregated diagnostics is done with the Robot Monitor, in the robot_monitor package.

diagnostics: diagnostic_aggregator | diagnostic_analysis | diagnostic_updater | self_test

Package Summary

diagnostic_aggregator contains the tools to aggregate and analyze robot diagnostics on an active robot. It uses the Aggregator class as to aggregate and process data. The aggregator tool loads diagnostic Analyzers as plug-ins. These analyzers can perform basic diagnostics analysis, such as testing when things are stale, or having known errors. Analyzers are subclasses of Analyzer. AnalyzerGroup and GenericAnalyzer are two of these subclasses.

The Aggregator should be run on a robot, and is typically launched in the robot's launch file. Viewing of this aggregated diagnostics is done with the Robot Monitor, in the robot_monitor package.

diagnostics: diagnostic_aggregator | diagnostic_analysis | diagnostic_updater | self_test

Package Summary

diagnostic_aggregator contains the tools to aggregate and analyze robot diagnostics on an active robot. It uses the Aggregator class as to aggregate and process data. The aggregator tool loads diagnostic Analyzers as plug-ins. These analyzers can perform basic diagnostics analysis, such as testing when things are stale, or having known errors. Analyzers are subclasses of Analyzer. AnalyzerGroup and GenericAnalyzer are two of these subclasses.

The Aggregator should be run on a robot, and is typically launched in the robot's launch file. Viewing of this aggregated diagnostics is done with the Robot Monitor, in the robot_monitor package.

diagnostics: diagnostic_aggregator | diagnostic_analysis | diagnostic_common_diagnostics | diagnostic_updater | self_test

Package Summary

diagnostic_aggregator

diagnostics: diagnostic_aggregator | diagnostic_analysis | diagnostic_common_diagnostics | diagnostic_updater | self_test

Package Summary

diagnostic_aggregator

diagnostics: diagnostic_aggregator | diagnostic_analysis | diagnostic_common_diagnostics | diagnostic_updater | self_test

Package Summary

diagnostic_aggregator

Overview

The diagnostic_aggregator contains a ROS node, aggregator_node, that listens to diagnostic_msgs/DiagnosticArray messages on the /diagnostics topic, processes and categorizes the data, and republishes on /diagnostics_agg. The aggregator_node loads "Analyzer" plugins to perform the diagnostics processing and categorization. The configuration and setup for each diagnostic aggregator is specific to each robot and can be determined by users or developers.

The two analyzers in this package, GenericAnalyzer and AnalyzerGroup, hold and categorize diagnostic messages. They're useful for categorizing components or systems. They can warn when an item is stale, but do not do additional analysis of the diagnostics. Other analyzers can be loaded as plugins by the aggregator_node on startup.

The aggregated diagnostic output can be displayed in the robot_monitor tool. The robot_monitor displays these messages in a hierarchical format. To determine the hierarchy, the diagnostic aggregator prepends diagnostic status names with a path, joined with "/". For example:

  • prosilica: Frequency Status

    • My Robot/Sensors/Prosilica/prosilica: Frequency Status

Example

This shows how an aggregator_node might categorize and analyze diagnostics data from a simple robot.

If a robot had diagnostics from the motor drivers, SICK laser scanner, Videre camera and a few batteries, the diagnostic input might have status names:

Left Wheel
Right Wheel
SICK Frequency
SICK Temperature
SICK Connection Status
Stereo Left Camera
Stereo Right Camera
Stereo Analysis
Stereo Connection Status
Battery 1 Level
Battery 2 Level
Battery 3 Level
Battery 4 Level
Voltage Status

Using the diagnostic aggregator, we can move these diagnostic messages into easy to understand categories to display in our robot_monitor. To do this, just prepend the name of the category to the status names, and separate them with "/".

My Robot/Wheels/Left
My Robot/Wheels/Right
My Robot/SICK/Frequency
My Robot/SICK/Temperature
My Robot/SICK/Connection Status
My Robot/Stereo/Left Camera
My Robot/Stereo/Right Camera
My Robot/Stereo/Analysis
My Robot/Stereo/Connection Status
My Robot/Power System/Battery 1 Level
My Robot/Power System/Battery 2 Level
My Robot/Power System/Battery 3 Level
My Robot/Power System/Battery 4 Level
My Robot/Power System/Voltage Status

Using the above input, the Robot Monitor will categorize the data as follows:

My Robot
  -- Wheels
    -- Left
    -- Right
  -- SICK
    -- etc ...
  -- Stereo
  -- Power System

Analyzers

The aggregator_node will load analyzers to store and process the diagnostic data. Each analyzer inherits from the base class diagnostic_aggregator::Analyzer. Analyzers must be in packages that depend directly on pluginlib and diagnostic_aggregator.

The base analyzer class is the pure virtual diagnostic_aggregator::Analyzer class. All derived classes must implement these methods:

  • init() - Loads parameters

  • match() - Returns true/false if interested in viewing a status message

  • analyze() - Analyze a new message

  • report() - Report results or state

  • getPath() - Get complete path (anything prepended onto status names)

  • getName() - Get nice name, like "Motors" or "Sensors"

Analyzers can choose the error state for any diagnostic_msgs/DiagnosticStatus message they analyze and report. Generally, the "parent" of an analyzer has an error state of the maximum of its children, but some analyzers may have more advanced methods.

The analyzers are responsible for correctly setting the names of each item they analyze. The aggregator_node does not do any checking or enforcement of the diagnostic status name hierarchy.

Creating an Analyzer

Users can create Analyzers to load as plugins for different robots. See the tutorial Creating a Diagnostic Analyzer for details.

Configuring an Aggregator

For a full tutorial, see the tutorial Configuring a Robot's Diagnostic Aggregator.

To set up the diagnostic analyzer on a robot, the aggregator is given parameters that will configure the analyzers. These parameters, below, are in the private namespace of the aggregator node.

pub_rate: 1.0 # Optional, defaults to 1.0
base_path: 'PRE' # Optional, defaults to ""
analyzers:
  motors:
    type: PR2MotorsAnalyzer
  joints:
    type: GenericAnalyzer
    path: 'Joints'
    regex: 'Joint*'

Under each sub namespace under ~analyzers, a different analyzer is configured. Analyzers can be robot specific, or they can be general purpose ones like the GenericAnalyzer.

Each analyzer needs a special parameter, type, in the namespace. The type parameter gives the aggregator_node the class name of the Analyzer.

Any diagnostic item that isn't analyzed is analyzed by an "Other" analyzer, and will still appear in the Robot Monitor. "Other" items, or remainders, are removed from the diagnostics output after going stale for 5 seconds.

The pub_rate parameter (publish rate of /diagnostics_agg) is optional, and defaults to 1.0. The base_path is prepended to all /diagnostics_agg output, and defaults to "" (empty string).

Launching a Diagnostic Aggregator

To look for an example of an aggregator in use, look in the "diagnostic_aggregator/demo" directory. Users specify each Analyzer in the private parameter space of the aggregator_node, then start the node.

   1 <node pkg="diagnostic_aggregator" type="aggregator_node"
   2       name="diag_agg" >
   3   <rosparam command="load" 
   4             file="$(find diagnostic_aggregator)/demo/pr2_analyzers.yaml" />
   5 </node>

Basic Analyzer Types

In the diagnostic_aggregator package, the two analyzer types provided: GenericAnalyzer and AnalyzerGroup. The GenericAnalyzer can be used to categorize and track stale items. The AnalyzerGroup categorizes analyzers themselves, allowing users to "sub-categorize" analyzers.

GenericAnalyzer

The GenericAnalyzer class is useful for categorizing diagnostics data. It's mostly used for a particular device or category, like a Hokuyo node or EtherCAT devices. It can be configured to analyze almost any set of diagnostics data.

For a full tutorial on the GenericAnalyzer, see Using the GenericAnalyzer

AnalyzerGroup

The AnalyzerGroup can load a group of analyzers as a sub group. This can be useful for analyzing a group of similar items, like 4 different cameras. The AnalyzerGroup can use any type of analyzer as one of the sub-analyzers.

type: AnalyzerGroup
path: Sensors
analyzers:
  base_hk:
    type: GenericAnalyzer
    path: Base Hokuyo
    startswith: base_hokuyo_node
    num_items: 3
  tilt_hk:
    type: GenericAnalyzer
    path: Tilt Hokuyo
    startswith: tilt_hokuyo_node
    num_items: 3
  imu:
    type: GenericAnalyzer
    path: IMU
    startswith: imu_node
    num_items: 3

The above example can analyze the instruments on a PR2. The AnalyzerGroup uses the parameter path to prepend to all output names. In the above example,

  • tilt_hokuyo_node: Frequency Status

    • Sensors/Tilt Hokuyo/tilt_hokuyo_node: Frequency Status.

All sub-analyzers should go under the ~analyzers namespace of the AnalyzerGroup. They should be specified in the same way that any diagnostic analyzer would be specified.

Note: The diagnostic aggregator uses the AnalyzerGroup internally, which is why this is very similar to setting up a diagnostic aggregator.

DiscardAnalyzer

The DiscardAnalyzer is a subclass of the GenericAnalyzer. It will "match" any item that the GenericAnalyzer matches, but will discard the items and not report it.

This is useful for removing a device from a robot, or when setting up a non-standard robot configuration.

IgnoreAnalyzer

The IgnoreAnalyzer will simply ignore all parameters in its namespace, and not match or report anything.

The difference between this and the DiscardAnalyzer above is that since the IgnoreAnalyzer doesn't match anything, anything that it is ignoring will be reported in "Other". The DiscardAnalyzer will suppress any output from anything that it matches.

ROS API

aggregator_node

Collects diagnostics, loads diagnostic analyzer plugins

Subscribed Topics

/diagnostics (diagnostic_msgs/DiagnosticArray)
  • Raw diagnostics input

Published Topics

/diagnostics_agg (diagnostic_msgs/DiagnosticArray)
  • Processed diagnostics output, at 1.0 Hz (default)
/diagnostics_toplevel_state (diagnostic_msgs/DiagnosticStatus)
  • New in Fuerte: The toplevel status of /diagnostics_agg published with the same rate

Parameters

~pub_rate (double, default: 1.0)
  • Rate diagnostics output published
~base_path (string, default: " " (empty string))
  • Prepended to all diagnostics output (ex: "Robot")
~analyzers ({})
  • Load diagnostics analyzers according to these params. Each analyzer is initialized in separate namespace.

analyzer_loader

Loads diagnostic analyzers, verifies initialization OK. Used as regression test.

Parameters

~analyzers ({})
  • Same format as aggregator_node

Examples and Applications

PR2 robots use the aggregator_node and the robot_monitor for diagnostic display. The launch files in "pr2_bringup/pr2.launch" contain the configuration file for the aggregator_node.

The "diagnostic_aggregator/demo" directory has an example of an aggregator_node used for testing and demonstrations.

Wiki: diagnostic_aggregator (last edited 2018-03-08 18:02:49 by NickLamprianidis)