Difference between revisions of "Creating a Task"

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<includeonly>== Creating a Task==</includeonly>
<includeonly>== Creating a Task==</includeonly>
You create a new task by pressing the "New Task" button on the bottom of the "Tasks" tab. This will open a window where you choose the type of assignment you want to create. Here we will go through how to create tasks of each of the nine different kinds of assignments available (MCD-Hub, Canrecorder, IDC, SoH, Signal Reader, SWDL, ETAS, SoftHub and blue piraT). Note that step 3-6 on MCD-Hub is identical on all assignments so it will not be described to avoid repetition.
You create a new task by pressing the "New Task" button on the bottom of the "Tasks" tab. This will open a window where you choose the type of task you want to create. Note that it is not possible to create a new task for a WCU which has the system labels <nowiki>''</nowiki>shelving_in_progress<nowiki>''</nowiki> or <nowiki>''</nowiki>shelving_done<nowiki>''</nowiki>. However, if the WCU has the latter label, it is possible to unshelve it using the corresponding button in the bottom of the Vehicle-tab.  Here we will go through how to create tasks of each of the different kinds of tasks available. Remember that not all of the task types will be available as this depends on customer configuration and some types might not be enabled in the portal.  
[[File:Illustration MCDHub.png|300px|thumb|MCD-Hub]]


=== MCD-Hub ===
To learn about how to add resources to the task, check [[New task|here]].
MCD-Hub assignments are used to collect data using the MCD-Hub flight recorder. This assignment tab has seven parts (as shown in Figure "MCD-Hub") with one function each that is used as follows:


1. Selecting which MCD-Hub assignment file to use. Press "Bläddra"/"Browse" to bring up the file selection where you select the .hub file to use. The assignment file is typically created using the MCD Tool software.
== Arcos ==
[[File:Arcos-task.png|alt=The dialog for creating an Arcos task.|thumb|The dialog for creating an Arcos task.]]
The WICE system can interact with external loggers as well. From version 2.71 the portal can interact with the Arcos-logger from Ipetronik. You create your measure task using an external tool which creates a file which you can upload for this type of task. The file should have the extension "''.ccmc''". When the task is downloaded the WICE system will then forward this file to the external logger. The WICE system can also take care of uploading the result files as well where you can retrieve the files using this portal.


2. Choose which formats the MCD-Hub result files should be converted to when result files are uploaded to the portal from a WCU.  
Select the "Use existing measurement configuration" checkbox if a measurement setup file already exists on the Arcos - no upload will be required.


3. Write a descriptive text for the assignment (optional).
Since version 2.79.0 Arcos tasks can now have software version validation in the same manner as described for the M-Log task (see [[Creating a Task#Software version validation (Available from version 2.74.0)|Software version validation]]).


4. Assign owner and the period of validity to the assignment. This is filled automatically and is optionally changed.
== Area5 ==
[[File:Area5 new task.png|thumb|500x500px|Area5 task]]
Area5 tasks are used to read out data from the memory of ECUs.  


5. Start searching and selecting target WCUs by pressing add resources at the bottom left of the screen. There you will get a pop up with two boxes, the upper one for searching cars and the bottom one for selected cars. In the top one you can search for WCUs using ten different parameters by writing a value and pressing search or ENTER. To select a WCU you drag it from the top to the bottom box so that it appears in the bottom one.
'''Assignment:''' To create a new Area5 task you first have to create an Area5 assignment in the [[Area5 Assignment Editor|Area5 Assignment Editor]].  


After you press OK there will be a pop-up telling you "Transfer ok!" if everything went well, otherwise there will be a pop-up dialog showing you an error message.
'''Validate ECU SW version on WCU:''' By checking this box, the WCU will validate that the ECU SW version of the task and the actual ECU are the same before starting the task. If they are different, it will not start the task.


=== CAN-recorder ===
'''Trigger Expression:''' The task can be started by an expression. This option lets the user specify start trigger conditions based on logical expressions containing signals measured by the Signal Reader module. Note that the user must make sure the signals present in the expression are actually measured (otherwise the expression will never be true). For an explanation of trigger conditions look [[Server Trigger|here]].
[[File:CanrecorderIllust.png|thumb|Canrecorder]]


Canrecorder is a measurement module that allows CAN frames to be captured and logged. This assignment has four options described in Figure "Canrecorder" and below:
'''Sync Signal:''' It is possible to specify a signal with given values that will be sent when the Area5 task starts and stops. This can be used to synchronize the Area5 read-out with external measurements systems like the M-Log.


1. In the grid, select which bus (or buses) to record from. By clicking the check box in the top left corner, you can select all buses at once.
== Audio ==
An audio task makes it possible to record audio from a connected microphone. An audio recording can be started in five ways:
* '''Trigger button''': to initiate the recording you need to attach a button to the WCU in order to start in the audio recording.
* '''Signal reader''': initiate the recording by a trigger expression in a Signal Reader assignment. The recording is started as soon as a Signal Reader '''recorder''' is started. You specify the name of the Signal Reader recorder (e.g. SREC_0) you want to start the audio recording. You can also enter "auto" as the recorder name, in which case a recorder that include the Audio_Device_n internal signal will be selected.
* '''Expression''': Similar to the 'Signal reader' trigger option, the 'Expression' option lets the user specify start and stop trigger conditions based on logical expressions containing signals measured by the Signal Reader module. Note that the user must make sure the signals present in the expression are actually measured (otherwise the expression will never be true). Unlike the 'Signal Reader' trigger, there does not have to be a recorder configured in the Signal Reader measurement assignment. For an explanation of triggers look [[Server Trigger|here]].
* '''Audio level''': Start the trigger once the microphone registers volume above a certain threshold.
* '''None''': start the recording as soon as possible.
 
In addition to this, you can set the '''pre-trig''' time which is only valid in the cases of trigger button, signal reader, expression and audio level above. As an example, let's assume the trigger button method is selected. At the moment the trigger button is pressed the audio has already been recorded for the number of seconds specified. This can be handy when you press the trigger button to make a comment about an event where the event was audible.[[File:Skärmavbild 2019-12-18 kl. 14.28.52.png|alt=Audio task|thumb|Audio task]]A maximum '''duration''' of the recording can also be set, in seconds from the start trigger event. If there is a stop trigger expression specified, the recording will be stopped either when the stop expression is fulfilled or the max duration is passed, whichever occurs first. If you do not enter a duration it will be set to a default value of 120 seconds.
It is possible to monitor the audio live. To do this, check the box "Monitoring". To listen to the live audio you should use a tool such as [http://confero.alkit.se Alkit Confero].  


2. Specify which CAN frames you want to record by entering their CAN IDs in the CAN frame ID column in the grid, on the same row as the bus you have selected, or by entering the IDs in the text box labeled “Set filters on selected CAN buses”. If you use the latter option, the filters will be set on all of the buses you have selected. To enter a filter on a specific bus use the method of entering the filter on the same row as the selected bus, on the grid. This can only be done if the CAN frame passthrough filter is turned on. Turning off the CAN frame passthrough filter option will disable the CAN frame ID column in the grid. Press the “Clear All” button to remove all the entered filters from all buses.
There is more information about audio in WICE [[Wice audio|here]].


3. Turning on or off a CAN frame pass-through filter. If you choose to have the filter on you must specify which CAN bus or CAN buses you wish to record.
Audio tasks can be scheduled in the same manner as described for the Canrecoder task.


4. Select how long time to record before and after the trigger.
== Blue piraT ==
The blue PiraT is a measurement system from Telemotive AG that can be configured with measurement set-ups, and data accessed through the WICE Portal. Note that to use the blue PiraT module, the WCUs to be used need to be preconfigured with a special software package (i.e. an "extra bundle"). Contact Alkit Communications in order to set this up.
 
== CAN-recorder ==
[[File:Canrecorder.png|thumb|Canrecorder]]
Canrecorder is a measurement module that allows CAN frames to be captured and logged.
 
1. In the grid, select which bus (or buses) to record from. By clicking below active column or select a row and click on “Toggle” button.
 
2. To apply filters on specific CAN buses, select a row and click on “Edit filter”. There it is possible to select one specific frame or several by separating them by “,”. It is also possible to select a range between frames by using “-”. The value can either be decimal or hexadecimal. A example of a filter: “1, 0x12-0xFF”


====Scheduling====
3. Below the grid settings for how long the recording should be and how many shots. If not using shot count, infinite result files will be created as long as the units are on.


For WCUs with version >= 2.53 this task can be scheduled by selecting the "Add schedule"-checkbox. By doing so, the panel shown in Figure "Schedule Panel" appears. By thereafter selecting the "ASAP" checkbox, the task will be performed once and as soon as possible. If instead the task is to be performed at a specified time, deselect the "Time span" and "Repeat"-checkboxes and select the sought time in the "Start field". The task can also be performed within a certain time span, and in this case "Time span" should be checked and the Date in "End" field specified. Repetition of the task is defined by checking the "Repeat" checkbox, defining a interval size in the field after "Every" and a recurrence rate in the drop down menu. The task will then be repeated at this rate until the date defined in the "Until" field is reached.
===Scheduling===


To control the time zone in which the task scheduling is to be performed the "WCU local time"-checkbox is used. If this option is deselected, the task will be performed in UTC-time (the date fields present the portal local time). On the other hand, if this box is checked, the task will be performed according to the local time zone predefined for the WCU. A WCU time zone can be defined  by an administrator using "Edit configuration" in the [[The Portal Administrator View#The Vehicles Tab|Vehicles panel]]. Note that this only can be done for WCUs of version >=2.53.
For WCUs with version >= 2.53 this task can be scheduled by selecting the "Add schedule"-checkbox. By doing so, the panel shown in Figure "Schedule Panel" appears. By thereafter selecting the "ASAP" checkbox, the task will be performed once and as soon as possible. If instead the task is to be performed at a specified time, deselect the "Time span" and "Repeat"-checkboxes and select the sought time in the "Start field". The task can also be performed within a certain time span, and in this case "Time span" should be checked and the Date in "End" field specified. Repetition of the task is defined by checking the "Repeat" checkbox, defining a interval size in the field after "Every" and a recurrence rate in the drop down menu. The task will then be repeated at this rate until the date defined in the "Until" field is reached. By selecting the "On ignition" checkbox, the task will be performed once on ignition. If delay is above 0 then the task will be performed once the configured amount of seconds have passed after ignition.


[[File:Illustration Schedule.png|thumb|left|600px|Schedule Panel]]
[[File:Illustration Schedule.png|thumb|left|600px|Schedule Panel]]
<br clear=all>
[[File:Scheduling on ignition.png|thumb|300x300px|Schedule Panel with 'On ignition' enabled]]
<br clear="all">
 
To control the time zone in which the task scheduling is to be performed the "WCU local time"-checkbox is used. If this option is deselected, the task will be performed in UTC-time (the date fields present the portal local time). On the other hand, if this box is checked, the task will be performed according to the local time zone predefined for the WCU. A WCU time zone can be defined for a WCU with version >= 2.53 by an administrator using "Edit configuration" in the [[The Portal Administrator View#The Vehicles Tab|Vehicles panel]]. This is useful when there is a need to perform a certain task at a specific time of the day regardless of which country the vehicle is in. For instance, when selecting 100 different WCUs scheduled to perform a task at 10:00, checking the "WCU local time"-checkbox will result in them performing the task according to their time zone setting. Without checking this option, the task will be performed in the corresponding UTC-time, which could mean in the middle of the day or night depending on where the vehicle is located.
 
== Diagnostic Log and Trace (DLT) ==
DLT itself provides a log and trace interface, based on the standardised protocol specified in the AUTOSAR standard 4.0 DLT. A DLT task in the WICE Portal makes it possible to collect such logs in a vehicle where this functionality is available and transfer the data to the WICE portal where logs can be downloaded for further analysis. For a more in-depth description, you can go [https://github.com/GENIVI/dlt-daemon here].
[[File:New-task-dlt-2-72.png|thumb|The DLT new task dialog.]]
Basically the WCU is connecting to one or more DLT Daemons and unique filters can be applied to each daemon, filtering out specific log messages.
 
So when creating a DLT task on WCUs with software version 2.72.0 or later the number of daemons can be specified and for each daemon the following needs to be specified:
 
# Daemon address - the IP-address in order for the WCUs DLT client to find the daemon.
# Daemon port - which port on the address the daemon is at.
# Filter configurations - filter expressions to be applied on the log messages. If left empty no filter is applied. For an explanation on how to write filter expressions, see [https://github.com/GENIVI/dlt-daemon#learn-more here].
 
==== Older WCUs ====
For WCUs with software version earlier than 2.72.0 only one daemon is supported and only filters can be configured when creating a DLT task. To specify the daemon address and port go to the [[DLT Module]] instead.
 
== ETAS ==
Through an ETAS task, an ETAS ES720 Drive Recorder system can be configured, and measurement data offloaded and accessed through the WICE Portal.
 
When creating an ETAS task, the task description file you select must be a .exp file.
 
== Ethernet capture ==
This kind of task is used to capture packet data from one of the ethernet interfaces on the WCU. The basics for this kind of task is that you choose the interface you would like to capture from and a capture expression to filter which packets you are interested in. The results from this task type is pcap files. To read more about this task type, go [[Ethernet capture|here]].
 
== File fetcher ==
[[File:File fetcher proxy example.png|thumb|The new task dialog of the File fetcher task.]]
The File fetcher task fetches files from a specified unit and makes them available for downloading in the Portal.
 
The following needs to be specified when creating such a task:
 
* '''File path''' - One or several paths to a files or file-containing directories on the unit's file system. This specifies which files that will be fetched.
* '''Username''' - To log in to the unit.
* '''Password''' - To log in to the unit.
* '''IP address''' - To find the unit.
* '''Port''' -  To find the unit. Default is 22, but can be changed.
 
Furthermore, the task also allows the use of a proxy.
 
To use a proxy, the '''Use Proxy''' checkbox has to be checked, and the following must be specified:
 
* '''Proxy Username''' - To log in to the proxy unit.
* '''Proxy Password''' - To log in to the proxy unit.
* '''Proxy IP Address''' - To find the proxy unit.
* '''Proxy Port''' - To find the proxy unit. Default is 22, but can be changed.<br />
== IDC ==
The Internal Diagnostic Client (IDC) is a measurement module that allows a sequence of diagnostic requests to be sent and responses recorded. The sequence of diagnostic requests can be created as an assignment in the Assignment tab, alternatively can be uploaded to the portal as a text file (usually ending with ".seq"). This task can also be scheduled in the same manner as described for the Canrecoder task.
 
== IPEmotion RT ==
The WICE system can interact with external loggers as well. From version 2.72 the portal can interact with the logger IPEmotion RT from Ipetronik. You create your measure task using an external tool which creates a file which you can upload for this type of task. The file should have the extension "''.irf''". When the task is downloaded the WICE system will then forward this file to the external logger. The WICE system can also take care of uploading the result files as well where you can retrieve the files using this portal.
 
Select the "Use existing measurement configuration" checkbox if a measurement setup file already exists on the IPEmotion RT - no upload will be required.
 
Since version 2.79.0 IPEmotion RT tasks can now have software version validation in the same manner as described for the M-Log task (see [[Creating a Task#Software version validation (Available from version 2.74.0)|Software version validation]]).
 
== LPD ==
This type of task is ultimately handled by a separate App in an iPhone or iPad. The WICE system simply makes this task available to the App through a REST interface running on the WCU. The task consists of a specially crafted excel file. When the file is uploaded to the WICE portal it is validated to make sure that it can be read by the App.
[[File:Screenshot from 2023-05-24 16-09-55.png|thumb|View an LPD task]]
[[File:Screenshot-edit-lpd.png|thumb|Upload opportunity after pressing the Edit button]]
From version 2.83.0 of the WICE portal the task measurement file can be updated via the View Task function in the Tasks tab and a dialog as shown to the right will appear. By pressing the "Edit" button in the lower right corner, you will be presented with the possibility to upload a new measurement task file. This is shown with a red triangle in the illustration on the right.
 
== M-Log ==
The WICE system can interact with external loggers as well. One such logger is called M-Log from Ipetronik. You create your measure task using an external tool which creates a file which you can upload for this type of task. The WICE system will then forward this file to the external logger. The WICE system can also take care of uploading the result files as well where you can retrieve the files using this portal.[[File:MlogForWiki.png|thumb|M-Log task]]
[[File:Screenshot from 2022-04-21 09-34-11.png|alt=Entering ECU software version|thumb|Entering ECU software version]]
Select the "Use existing measurement configuration" checkbox if a measurement setup file already exists on the MLOG - no upload will be required.
 
==== Software version validation (Available from version 2.74.0) ====
The measurement assignment for an MLOG is created using an external tool to WICE. An assignment is created with a certain version of the ECU software in mind for each ECU in the assignment. In order for the assignment to work it might be important that the ECU software version in the vehicle matches the software version of the ECU it was created for. In WICE, you can ask the system to read the current software version for each ECU which is stored and can be viewed, e.g. via the [[ECU List|ECU list]]. As WICE cannot know which software versions the assignment was created for, the user can supply this to WICE. By doing that, WICE can validate the entered software versions against what has been read out for each vehicle and thus aid the user in making sure that an assignment will work once it will run.
 
To make the validation possible the user enters a ECU by its address, not the name. To help find out the address for an ECU you can go to the [[ECU List|ECU list]] to find the address of a specific ECU. Have a look at the illustration, Entering ECU software version, to see where in the dialog this is entered. On the top you enter the ECU address on the left and what software version is expected on the right. When satisfied, press the "Add" button. The data you just entered will be added to the table and evaluated against what the WICE system has read out from the vehicle. In the example to the right something is incorrect which is indicated by the yellow color. To see the exact reason, simply use the cursor to see the specific message.
 
A negative validation in not enforced in the sense that you cannot run the assignment but rather an indication that it might not work as expected. You can always go ahead and press "Submit".
== MQTT ==
A MQTT task makes it possible to record data from a MQTT message broker, by specifying a specific topic.
 
== Rapid prototyping ==
A Rapid prototyping (RP) task makes it possible to download RP binaries to multiple WCUs and keep track of the result files the RP task might produce. For more information about RP, see [[WICE RP How-To]] and [[WICE RP Manual]].
[[File:Rapid prototyping task.png|thumb|Rapid prototyping task]]
The rapid prototyping tab can be seen in Figure "Rapid prototyping task".
 
An RP task must consist of at least an 'RP binary' or a 'Web application zip file'.
 
== SoftHub ==
The SoftHub is a measurement system that can be run either as a stand alone unit or as a software module on the WCU, with functionality similar to the Signal Reader module. A SoftHub task is created much in the same way as a Signal Reader task.
 
When creating a SoftHub task, you select a .shub task file, and then proceed in the same way as the Signal Reader task.
 
The SoftHub task will generate result files. It may be interesting to know if certain signals reach certain values in these result files, therefore it is possible to add '''server triggers''' to the task that will trigger and add a suitable label to the corresponding result file. Read more about this [[Server Trigger|here]].
 
== Signal Reader ==
[[File:Illustration SignalReader.png|thumb|271x271px|Signal reader task]]
Signal Reader is a data capture module that allows monitoring and logging of CAN and FlexRay signals, as well as diagnostics data, and ECU-internal signals read by CCP or XCP. To create a Signal Reader task you proceed as follows:
 
1. You either select an assignment file of .haf format, or choose an assignment created in the assignment creator (see [[Signal Reader Assignment Wizard]]). Your current choice will be displayed in the "Chosen file" field.


=== IDC ===
2. When you have selected an assignment and one or more WCUs, the CAN buses defined in the assignment and on the WCU will be mapped. If they can be automatically mapped a green check symbol will be displayed, otherwise a red cross will be displayed. Clicking the mapping button will open the mapper. In the pop-up window you will have to map the different buses to each other manually and then save. Once this is done correctly, the red cross will become a green check mark, indicating that the mappings are ready to be automatically applied upon submit. Read more about this in [[I/O configurations]] and [[Mappings]].
The Internal Diagnostic Client (IDC) is a measurement module that allows a sequence of diagnostic requests to be sent and responses recorded. The sequence of diagnostic requests are uploaded to the portal as a text file (usually ending with ".seq"). This task can also be scheduled in the same manner as the Canrecoder task.


=== SoH ===
3. With a Signal Reader task you can monitor CAN, FlexRay, ODB-II and WCU-internal signals live by selecting "Monitor signals". When selected, two boxes will appear under the task description. In the left one you search for signals and drag them over to the right one where the signals to be monitored are listed. You can later see the monitored signals by pressing the '''Monitor Signals''' button either in the Tasks tab or in the Vehicles tab. It is also possible to copy the signals text in the bottom right corner of the right box. Next to the copy text button you can also paste signals as text where the pasted signal names will be matched against the list of unselected signals
[[File:Illustration SoH.png|thumb|271x271px|SoH]]
 
A State of Health (SoH) assignment collects specific status information from vechiles. You select which information you want the assignment to collect by filling in one or more of the six boxes shown in Figure "SoH tab". In order for SoH data to be correctly interpreted, relevant description files (SDDB/GDS) for the vehicles executing the SoH assignment must have been defined. To add a SDDB/GDS file to a vehicle, see [[The_Portal_Administrator_View#The_Edit_Car_Dialog|The Edit Car Dialog]].The six different options are:
4. You can choose if you want the signals to have their data source names as a prefix (e.g. CAN1.EngineSpeed instead of EngineSpeed).
 
5. The Signal Reader task will generate result files. It may be interesting to know if certain signals reach certain values in these result files, therefore it is possible to add '''Server Triggers''' to the assignment that will trigger and add a suitable label to the corresponding result file. Read more about this [[Server Trigger|here]].
 
A Signal reader task can be scheduled in the same manner as described for the Canrecoder task.
 
=== The Signal Broker ===
Signal Reader can act as a Signal Broker for other software components. For instance, the audio and video modules relies on the Signal Broker API of Signal Reader for evaluating start and stop trigger expressions. Moreover, the Signal Broker gives programmatical access to signals for Rapid Prototyping tasks.  Read more about this in [[WICE Signal Broker API]].
 
=== Files containing references to sequence files ===  
[[File:SequenceFileForSignalreader.png|thumb|right|Sequence Files References in .haf File]]
If the measurement file contains references to sequence files, you are also required to select these in order to run the task. The portal scans the .haf file for such entries and presents this to you, see illustration 4.2. Click the button for each sequence file reference to upload each sequence file needed. Some requests in the sequence file may be for reading DTCs, and in such cases you can select the option of also reading associated ''Snapshots'' or ''Extended data''. An example of this can found in Figure "Sequence Files References in .haf File".
[[File:SequenceFilesForSignalreaderWithFunctionalQuery.png|thumb|right|Sequence File with Functional Query]]
 
Here, the .haf file contained two references to sequence files. As no sequence files have yet been uploaded, the selection for reading snapshot or extended data is grayed out. In Figure "Sequence File with Functional Query" we have selected one such sequence file containing (functional) DTC requests. Here we have checked that we would like to read ''Extended data''. It is also possible to select both ''Snapshots'' and ''Extended data''. 
<br>
 
=== WICE internal signals ===
In addition to CAN and FlexRay signals, a number of internal signals (i.e. internal to the WCU) are also available. The following WICE-internal signals are supported: [[WICE Internal Signals|WICE Internal Signals]]
 
== SoH ==
[[File:Screenshot from 2021-04-01 09-43-34.png|thumb|799x799px|SoH]]
A State of Health (SoH) task collects specific status information from vehicles. You select which information you want the task to collect by filling in one or more of the checkboxes shown in Figure "SoH". The number of checkboxes shown can vary depending on the WICE installation. In order for SoH data to be correctly interpreted, relevant description files (e.g. SDDB) for the vehicles executing the SoH task may have to been available. To add such a description file for a vehicle, see [[The_Portal_Administrator_View#The_Edit_Car_Dialog|The Edit Car Dialog]].The six different options are:
*Mileage
*Mileage
*Voltage
*Voltage
*Read ECU software numbers
*Read ECU software numbers
*Read ECU DTC:s
*Read ECU DTC:s (optionally including 'Snapshot' and 'Extended data')
*Read OBD-II PIDs
*Read OBD-II PIDs
*App Diagnotstic Db Part Num
*App Diagnotstic Db Part Num
*DM1, Diagnostic Message using the [[wikipedia:SAE_J1939|j1939 protocol]]
*Odometer, reading the odometer using the [[wikipedia:SAE_J1939|j1939 protocol]] (available from WCU version 2.63)
*Clear DTCs.
**If reading DTCs is requested as well, those will be read before clearing the DTCs. (available from WCU version 2.63)
**If this option (Clear DTC) is chosen it is optionally possible to set a PIN code for unlocking a gateway module - e.g. Vehicle Gateway Module (VGM). (Available from WCU version 2.66)
*Engine hours, reading engine hours using the [[wikipedia:SAE_J1939|j1939 protocol]] (available from WCU version 2.64). The result for this can be read in the generated j1939-file from the task. It is a text type of file. In addition, a system value label called 'engine_hours' (as default, can be changed on a customer basis). This label shows the latest read value and is available on the vehicle. 


This task can also be scheduled in the same manner as the Canrecoder task.
This task can also be scheduled in the same manner as described for the Canrecoder task.


=== Signal Reader ===
Some selections above might not be available to you as this is a configuration setting depending on customer.
[[File:Illustration SignalReader.png|thumb|271x271px|Signal reader assignment]]
Signal Reader is a measurement module that allows monitoring and logging of CAN and FlexRay signals, as well as diagnostics data. Signal Reader performs more or less the same kind of measurements as the MCD-Hub but it has other functions as well. Those other functions are described below and shown in Figure "Signal reader assignment":


1. You either select an assignment file of .haf format, or choose an assignment blueprint created in the blueprint creator. Your current choice will be displayed in the "Chosen file" field.
== SWDL ==
[[File:Swdl task Screenshot from 2023-06-28 14-50-55.png|thumb|791x791px|New SWDL task]]
A Software Download (SWDL) task updates the ECU software in one or more ECUs in one or more vehicles. A number of Versatile Binary Format (VBF) files containing the ECU software need to be supplied, along with PIN codes to allow security access to re-program the ECUs. The PIN codes should be in the format of five hexadecimal numbers, e.g. <code>ff:00:1a:2c:77</code> (or alternatively, omitting the colon separator, <code>ff001a2c77</code>). When a SWDL task has been created and assigned to one or more WCUs, it will cause all vbf files to be downloaded to the WCUs, and then the actual re-programming can be triggered by the vehicle user through the WCU status GUI web interface. The uploaded vbf-files are presented in a table along with its ECU and software part type (SW part type). In a separate table, the PIN codes for each ECU are presented along with the total number of files uploaded per WCU, see Figure "New SWDL task". To get an overview of how the files relate to the ECUs it is possible to choose the "Group by"-option when right clicking the ECU column in the file table.  


2. When you have selected a file and WCU unit(s), the buses defined in the file and on the WCU will be mapped. If they can be automatically mapped a green check will be displayed, otherwise a red cross will be displayed. Clicking the mapping button will open the mapper. In the pop-up window you will have to map the different buses to each other manually and then save. Once this is done correctly, the red cross will become a green check, indicating that the mappings are ready to be automatically applied upon submit. Read more about this in [[I/O configurations]] and [[Mappings]].
SWDL tasks can optionally include a '''pre-update sequence file and/or a post-update sequence file'''. The diagnostic requests of those sequence files will be sent before and after the ECU re-programming respectively.


3. With a Signal Reader assignment you can follow WCU signals live by selecting "Monitor signals". When selected it will come up two boxes under the task description. In the left one you search for signals and drag them over to the right one where the monitored signals are. You can later se the monitored signals through the vehicles tab. It is also possible to copy the signals text in the bottom right corner of the right box. Next to the copy text button you can also paste signals as text where the pasted signal names will be matched against the list of unselected signals
SWDL tasks can optionally include one '''signature file''' (containing checksums). The file is assumed to be an xml file. (Available from WCU version 2.66) If either of the optional files is selected, a field will appear to the right of the chosen file. This field will contain the name of the chosen file. (Available from WCU version 2.70)


4. You can choose if you want the signals to have their data source names as a prefix (e.g. ECM.EngineSpeed instead of EngineSpeed).
SWDL tasks can optionally include a '''VGM unlock''' access control mechanism, with a PIN code for the VGM node. This is specifically for vehicles requiring this kind of access control for ECU re-programming.


5. The signal reader assignment will generate result files. It may be interesting to know if certain signals reach certain values in these result files, therefore it is possible to add '''server triggers''' to the assignment that will trigger and add a suitable label to the corresponding result file. Read more about this [[Server Trigger|here]].
By checking the box '''Run SoH after completion''' it is possible to let the SWDL task run the WCUs SoH task after the SWDL task is completed.


Signal Reader can also act as a signal broker for other software components. Read more about this in [[WICE Signal Broker API]].
If you would like to use any individual ECU pin codes for a vehicle, make sure to check the box "'''Use Vehicle Pin mappings'''". If a pin code for the ECU targeted by a vbf file, the pin code for the vehicle will be used. If no such pin code is found, the one entered in the right hand side table is used. Read more on how to prepare a vehicle with pin codes [[The Portal Administrator View#Upload a file describing ECU pin codes for a vehicle|here]].


==== Files containing references to sequence files ====
SWDL tasks can optionally contain a '''Trigger Expression''' which must be fulfilled within a specified time limit ("Wait time") for ECU re-programming to be allowed. The trigger expression follows the same syntax as Signal Reader trigger expressions (or [[Server Trigger|Server Triggers]], audio/video triggers), and should be built up from signals being measured in a Signal Reader assignment. The user must make sure that there is a Signal Reader assignment on the WCUs of the SWDL task, with the signals of the trigger expression being measured.
[[File:SequenceFileForSignalreader.png|thumb|right|Sequence Files References in .haf File]]
If the measurement file contains references to sequence files, you are also required to select these in order to run the assignment. The portal scans the .haf file for such entries and presents this to you, see illustration 4.2. Click the button for each sequence file reference to upload each sequence file needed. Some queries in the sequence file are of functional type, i.e. posed to all ECUs, and in such cases you can select the option of using ''Snapshots'' or ''Extended data''. An example of this can found in Figure "Sequence Files References in .haf File".  
[[File:SequenceFilesForSignalreaderWithFunctionalQuery.png|thumb|right|Sequence File with Functional Query]]  
 
Here, the .haf file contained two references to sequence files. As no sequence files have yet been uploaded, the selection for reading snapshot or extended data is grayed out. In Figure "Sequence File with Functional Query" we have selected one such sequence file containing functional queries. Here we have checked that we would like to read ''Extended data''. It is also possible to select both ''Snapshots'' and ''Extended data''. 
<br>
==== WICE internal signals ====
In addition to CAN and FlexRay signals, a number of internal signals are also available. The following WICE-internal signals are supported:
{| class="wikitable"
!'''Signal name'''
!Description
|-
|Busload_CAN_<n>
|The bus load on CAN bus <n>
|-
|CSQ
|The built-in modem's CSQ value (Signal Quality)
|-
|Date Year
|The year of the current date. 
|-
|Date Month
|The month (1-12) of the current date. 
|-
|Date Day
|The day of the month (1-31) of the current date. 
|-
|Date Weekday
|The day of the week (1-7, where 1 is Sunday). 
|-
|Date Hour
|The hour of the day (0-23). 
|-
|Date Minute
|The minute of the hour (0-59). 
|-
|Date Second
|The second of the minute (0-59). 
|-
|Dynamic_<n>
|Special signals with values assignable from external software components (typically used for Rapid Prototyping).
|-
|IO__AI_<n>
|Analog input number <n>
|-
|IO__DI_<n>
|Digital input number <n>
|-
|IO__DO_<n>
|Digital output number <n>
|-
|Log_All_Frames_CAN_<n>
|Log all CAN frames on CAN bus <n>
|-
|Log_All_Frames_FlexRay_<n>
|Log all CAN frames on Flexray bus <n>
|-
|Latitude
|The GPS latitude
|-
|Longitude
|The GPS longitude
|-
|Power_Mode
|The power mode of the WCU
|-
|Random
|A random number generator
|-
|Random_Start
|A random number generator updated once, at program start
|-
|Random_Setup_Switch
|A random number generator updated at each measurement set-up switch
|-
|Start_Signal
|The start signal of the WCU 
|-
|Speed
|The GPS speed
|-
|Start_Switch
|The start switch of the WCU
|-
|Tester Present
|When present in a measurement set-up, Tester Present will be sent periodically.  
|-
|Time Since Epoch
|The time elapsed since the epoch (Jan 1, 1970, 00:00) 
|-
|Time Since Start
|The time elapsed since the start of the assignment 
|-
|Time Since Setup Switch
|The time elapsed since the activation of the current measurement set-up 
|-
|Trigger_Button
|The trigger button connected to the WCU 
|-
|Usage_CPU
|The WCU CPU usage in percent  
|-
|Usage_Memory
|The WCU memory usage in percent  
|-
|Video_Camera_1
|The status of video camera 1 (1=connected, 0 = disconnected). When present in a recorder, the video module will record video from the camera.  
|-
|Video_Camera_2
|The status of video camera 2 (1=connected, 0 = disconnected). When present in a recorder, the video module will record video from the camera.  
|-
|WCU_Battery
|The WCU battery voltage in millivolts
|-
|WCU_Temp
|The WCU internal temperature in degrees Celsius
|-
|WCU_Voltage
|The WCU WCU voltage in millivolts
|}
<br>


=== SWDL ===
It is also possible to choose to '''ignore checksums''' and/or '''disable pre-programming''' using the corresponding checkboxes.
A Software Download (SWDL) task updates the ECU software in one or more ECUs in one or more vehicles. A number of Versatile Binary Format (VBF) files containing the ECU software need to be supplied, along with PIN codes to allow security access to re-program the ECUs. The PIN codes should be in the format of five hexadecimal numbers, e.g. ff:00:1a:2c:77 (or alternatively , omitting the colon separator, ff001a2c77). When a SWDL task has been created and downloaded to one or more WCUs, it will case all vbf files to be downloaded to the WCUs, and then the actual re-programming can be triggered by the vehicle user through the WCU status GUI web interface.


The SWDL module can be configured to perform SWDL either over CAN or over Ethernet (DoIP).
The SWDL module can be [[The Portal Administrator View#Configure the Software Download Module|configured]] to perform SWDL either over CAN or over Ethernet (DoIP).


=== ETAS ===
== Video ==
Through an ETAS task, an ETAS ES720 Drive Recorder system can be configured, and measurement data offloaded and accessed through the WICE Portal.
A video task makes it possible to record and monitor live video from one or two cameras attached to a WCU. You can trigger recording of video in four ways:
* '''Trigger button''': To initiate the recording you need to attach a button to the WCU in order to start in the video recording.
* '''Signal reader''': Initiate the recording when a recorder in a Signal Reader assignment starts. The recording is started as soon as a Signal Reader ''recorder'' is started. You specify the name of the Signal Reader recorder (e.g. SREC_0) you want to start the video recording. You can also enter "auto" as the recorder name, in which case a recorder that include the Video_Device_n internal signal will be selected.
* '''Expression''': Similar to the 'Signal reader' trigger option, the 'Expression' option lets the user specify start and stop trigger conditions based on logical expressions containing signals measured by the Signal Reader module. Note that the user must make sure the signals present in the expression are actually measured (otherwise the expression will never be true). Unlike the 'Signal Reader' trigger, there does not have to be a recorder configured in the Signal Reader measurement assignment. For an explanation of how to enter triggers, have a look [[Server Trigger|here]].
* '''None''': start the recording as soon as possible. (Use this with caution, since it tends to produce prohibitively large video files.)


When creating an ETAS task, the assignment description file you select must be a .exp file.
In addition to this, you can set the '''pre-trig''' time (not valid in the cases of the 'None' trigger option above). As an example, let's assume the trigger button method is selected. At the moment the trigger button is pressed the video has already been recorded for the number of seconds specified.


=== SoftHub ===
A maximum '''duration''' of the recording can also be set, in seconds from the start trigger event. If there is a stop trigger expression specified, the recording will be stopped either when the stop expression is fulfilled or the max duration is passed, whichever occurs first. If you do not enter a duration it will be set to a default value of 120 seconds.
The SoftHub is a more recent version of the MCD-Hub measurement system, and a SoftHub task is created much in the same way an MCD-Hub task is.


When creating a SoftHub task, it is identical to a MCD-Hub task except that the file you select must be a .shub file.
If monitoring of video from a WCU is enabled, a live video stream will be transmitted which can be viewed using a RTP-based video tool, for instance [http://confero.alkit.se Alkit Confero]. This task can also be scheduled in the same manner as described for the Canrecoder task.


The softhub assignment will generate result files. It may be interesting to know if certain signals reach certain values in these result files, therefore it is possible to add '''server triggers''' to the assignment that will trigger and add a suitable label to the corresponding result file. Read more about this [[Server Trigger|here]].
Read more about the video support in WICE [[WICE_video|here]].


=== Blue piraT ===
== Applicable for all types ==
The blue PiraT is a measurement system from Telemotive AG that can be configured with measurement set-ups, and data accessed through the WICE Portal. Note that to use the blue PiraT module, the WCUs to be used need to be preconfigured with a special software package (i.e. an "extra bundle"). Contact Alkit Communications in order to set this up.
If enabled at your site, there might be an opportunity to announce to third party applications that a result file is available using a [[wikipedia:Jakarta_Messaging|JMS API]]. By checking this box, as soon as a result file is added in the back-end this will be signaled using a customer specific event. The check box title is "Announce result file availability", this can be seen in the image in [[#SoH|SoH]].


=== Video ===
=== Site specific features ===
A video task makes it possible to record and monitor live video from one or two cameras attached to a WCU. You can trigger recording of video using either a trigger button or a recorder start event from Signal Reader. You can also let the video recording start as soon as the WCUs has started. If monitoring of video from a WCU is enabled, a live video stream will be transmitted which can be viewed using a RTP-based video tool, for instance [http://confero.alkit.se Alkit Confero].


Read more about the video support in WICE [[WICE_video|here]].
==== Announce result file availability ====
[[File:Resultfilepanel.png|thumb|Announced On column]]
If enabled at your site, there might be an opportunity to announce to third party applications that a result file is available using a [[wikipedia:Jakarta_Messaging|JMS API]]. By checking this box, as soon as a result file is added in the back-end this will be signaled using a customer specific event. The check box title is "Announce result file availability", this can be seen in the image in [[#SoH|SoH]]. Starting from version 2.87.0, there's a new 'Announced On' column that keeps track of when the result file was announced.


=== Rapid prototyping ===
==== Retention time ====
A Rapid prototyping (RP) task makes it possible to download RP binaries to multiple WCUs and keep track of the result files the RP assignment might produce. For more information about RP, see [[WICE RP How-To]] and [[WICE RP Manual]].
[[File:Retention time.png|thumb|435x435px|Retention time]]
[[File:Rapid prototyping task.png|thumb|Rapid prototyping task]]
This function works by setting a retention time in days which simply says that data coming in from the task, i.e. result files and positions will be kept the set number of days from when the data was collected. If, e.g. setting the retention time for an task to 30 days, will keep data until it is 30 days old where it will be automatically removed. See image.  
The rapid prototyping tab can be seen in Figure "Rapid prototyping task".  


A RP task must consist of at least a 'RP binary' or a 'Webb application zip file'.
It is possible to set a default retention time for resource groups. To do this, add a global value label named '''RETENTION_TIME''' to the resource group and give it an appropriate value. This value will then be used as a template value when creating a new task for this resource group. If multiple resource groups have this label and they have different values, the one with the lowest/shortest retention time value will be chosen as the template value.

Latest revision as of 16:01, 14 December 2023

You create a new task by pressing the "New Task" button on the bottom of the "Tasks" tab. This will open a window where you choose the type of task you want to create. Note that it is not possible to create a new task for a WCU which has the system labels ''shelving_in_progress'' or ''shelving_done''. However, if the WCU has the latter label, it is possible to unshelve it using the corresponding button in the bottom of the Vehicle-tab. Here we will go through how to create tasks of each of the different kinds of tasks available. Remember that not all of the task types will be available as this depends on customer configuration and some types might not be enabled in the portal.

To learn about how to add resources to the task, check here.

Arcos

The dialog for creating an Arcos task.
The dialog for creating an Arcos task.

The WICE system can interact with external loggers as well. From version 2.71 the portal can interact with the Arcos-logger from Ipetronik. You create your measure task using an external tool which creates a file which you can upload for this type of task. The file should have the extension ".ccmc". When the task is downloaded the WICE system will then forward this file to the external logger. The WICE system can also take care of uploading the result files as well where you can retrieve the files using this portal.

Select the "Use existing measurement configuration" checkbox if a measurement setup file already exists on the Arcos - no upload will be required.

Since version 2.79.0 Arcos tasks can now have software version validation in the same manner as described for the M-Log task (see Software version validation).

Area5

Area5 task

Area5 tasks are used to read out data from the memory of ECUs.

Assignment: To create a new Area5 task you first have to create an Area5 assignment in the Area5 Assignment Editor.

Validate ECU SW version on WCU: By checking this box, the WCU will validate that the ECU SW version of the task and the actual ECU are the same before starting the task. If they are different, it will not start the task.

Trigger Expression: The task can be started by an expression. This option lets the user specify start trigger conditions based on logical expressions containing signals measured by the Signal Reader module. Note that the user must make sure the signals present in the expression are actually measured (otherwise the expression will never be true). For an explanation of trigger conditions look here.

Sync Signal: It is possible to specify a signal with given values that will be sent when the Area5 task starts and stops. This can be used to synchronize the Area5 read-out with external measurements systems like the M-Log.

Audio

An audio task makes it possible to record audio from a connected microphone. An audio recording can be started in five ways:

  • Trigger button: to initiate the recording you need to attach a button to the WCU in order to start in the audio recording.
  • Signal reader: initiate the recording by a trigger expression in a Signal Reader assignment. The recording is started as soon as a Signal Reader recorder is started. You specify the name of the Signal Reader recorder (e.g. SREC_0) you want to start the audio recording. You can also enter "auto" as the recorder name, in which case a recorder that include the Audio_Device_n internal signal will be selected.
  • Expression: Similar to the 'Signal reader' trigger option, the 'Expression' option lets the user specify start and stop trigger conditions based on logical expressions containing signals measured by the Signal Reader module. Note that the user must make sure the signals present in the expression are actually measured (otherwise the expression will never be true). Unlike the 'Signal Reader' trigger, there does not have to be a recorder configured in the Signal Reader measurement assignment. For an explanation of triggers look here.
  • Audio level: Start the trigger once the microphone registers volume above a certain threshold.
  • None: start the recording as soon as possible.

In addition to this, you can set the pre-trig time which is only valid in the cases of trigger button, signal reader, expression and audio level above. As an example, let's assume the trigger button method is selected. At the moment the trigger button is pressed the audio has already been recorded for the number of seconds specified. This can be handy when you press the trigger button to make a comment about an event where the event was audible.

Audio task
Audio task

A maximum duration of the recording can also be set, in seconds from the start trigger event. If there is a stop trigger expression specified, the recording will be stopped either when the stop expression is fulfilled or the max duration is passed, whichever occurs first. If you do not enter a duration it will be set to a default value of 120 seconds.

It is possible to monitor the audio live. To do this, check the box "Monitoring". To listen to the live audio you should use a tool such as Alkit Confero.

There is more information about audio in WICE here.

Audio tasks can be scheduled in the same manner as described for the Canrecoder task.

Blue piraT

The blue PiraT is a measurement system from Telemotive AG that can be configured with measurement set-ups, and data accessed through the WICE Portal. Note that to use the blue PiraT module, the WCUs to be used need to be preconfigured with a special software package (i.e. an "extra bundle"). Contact Alkit Communications in order to set this up.

CAN-recorder

Canrecorder

Canrecorder is a measurement module that allows CAN frames to be captured and logged.

1. In the grid, select which bus (or buses) to record from. By clicking below active column or select a row and click on “Toggle” button.

2. To apply filters on specific CAN buses, select a row and click on “Edit filter”. There it is possible to select one specific frame or several by separating them by “,”. It is also possible to select a range between frames by using “-”. The value can either be decimal or hexadecimal. A example of a filter: “1, 0x12-0xFF”

3. Below the grid settings for how long the recording should be and how many shots. If not using shot count, infinite result files will be created as long as the units are on.

Scheduling

For WCUs with version >= 2.53 this task can be scheduled by selecting the "Add schedule"-checkbox. By doing so, the panel shown in Figure "Schedule Panel" appears. By thereafter selecting the "ASAP" checkbox, the task will be performed once and as soon as possible. If instead the task is to be performed at a specified time, deselect the "Time span" and "Repeat"-checkboxes and select the sought time in the "Start field". The task can also be performed within a certain time span, and in this case "Time span" should be checked and the Date in "End" field specified. Repetition of the task is defined by checking the "Repeat" checkbox, defining a interval size in the field after "Every" and a recurrence rate in the drop down menu. The task will then be repeated at this rate until the date defined in the "Until" field is reached. By selecting the "On ignition" checkbox, the task will be performed once on ignition. If delay is above 0 then the task will be performed once the configured amount of seconds have passed after ignition.

Schedule Panel
Schedule Panel with 'On ignition' enabled


To control the time zone in which the task scheduling is to be performed the "WCU local time"-checkbox is used. If this option is deselected, the task will be performed in UTC-time (the date fields present the portal local time). On the other hand, if this box is checked, the task will be performed according to the local time zone predefined for the WCU. A WCU time zone can be defined for a WCU with version >= 2.53 by an administrator using "Edit configuration" in the Vehicles panel. This is useful when there is a need to perform a certain task at a specific time of the day regardless of which country the vehicle is in. For instance, when selecting 100 different WCUs scheduled to perform a task at 10:00, checking the "WCU local time"-checkbox will result in them performing the task according to their time zone setting. Without checking this option, the task will be performed in the corresponding UTC-time, which could mean in the middle of the day or night depending on where the vehicle is located.

Diagnostic Log and Trace (DLT)

DLT itself provides a log and trace interface, based on the standardised protocol specified in the AUTOSAR standard 4.0 DLT. A DLT task in the WICE Portal makes it possible to collect such logs in a vehicle where this functionality is available and transfer the data to the WICE portal where logs can be downloaded for further analysis. For a more in-depth description, you can go here.

The DLT new task dialog.

Basically the WCU is connecting to one or more DLT Daemons and unique filters can be applied to each daemon, filtering out specific log messages.

So when creating a DLT task on WCUs with software version 2.72.0 or later the number of daemons can be specified and for each daemon the following needs to be specified:

  1. Daemon address - the IP-address in order for the WCUs DLT client to find the daemon.
  2. Daemon port - which port on the address the daemon is at.
  3. Filter configurations - filter expressions to be applied on the log messages. If left empty no filter is applied. For an explanation on how to write filter expressions, see here.

Older WCUs

For WCUs with software version earlier than 2.72.0 only one daemon is supported and only filters can be configured when creating a DLT task. To specify the daemon address and port go to the DLT Module instead.

ETAS

Through an ETAS task, an ETAS ES720 Drive Recorder system can be configured, and measurement data offloaded and accessed through the WICE Portal.

When creating an ETAS task, the task description file you select must be a .exp file.

Ethernet capture

This kind of task is used to capture packet data from one of the ethernet interfaces on the WCU. The basics for this kind of task is that you choose the interface you would like to capture from and a capture expression to filter which packets you are interested in. The results from this task type is pcap files. To read more about this task type, go here.

File fetcher

The new task dialog of the File fetcher task.

The File fetcher task fetches files from a specified unit and makes them available for downloading in the Portal.

The following needs to be specified when creating such a task:

  • File path - One or several paths to a files or file-containing directories on the unit's file system. This specifies which files that will be fetched.
  • Username - To log in to the unit.
  • Password - To log in to the unit.
  • IP address - To find the unit.
  • Port - To find the unit. Default is 22, but can be changed.

Furthermore, the task also allows the use of a proxy.

To use a proxy, the Use Proxy checkbox has to be checked, and the following must be specified:

  • Proxy Username - To log in to the proxy unit.
  • Proxy Password - To log in to the proxy unit.
  • Proxy IP Address - To find the proxy unit.
  • Proxy Port - To find the proxy unit. Default is 22, but can be changed.

IDC

The Internal Diagnostic Client (IDC) is a measurement module that allows a sequence of diagnostic requests to be sent and responses recorded. The sequence of diagnostic requests can be created as an assignment in the Assignment tab, alternatively can be uploaded to the portal as a text file (usually ending with ".seq"). This task can also be scheduled in the same manner as described for the Canrecoder task.

IPEmotion RT

The WICE system can interact with external loggers as well. From version 2.72 the portal can interact with the logger IPEmotion RT from Ipetronik. You create your measure task using an external tool which creates a file which you can upload for this type of task. The file should have the extension ".irf". When the task is downloaded the WICE system will then forward this file to the external logger. The WICE system can also take care of uploading the result files as well where you can retrieve the files using this portal.

Select the "Use existing measurement configuration" checkbox if a measurement setup file already exists on the IPEmotion RT - no upload will be required.

Since version 2.79.0 IPEmotion RT tasks can now have software version validation in the same manner as described for the M-Log task (see Software version validation).

LPD

This type of task is ultimately handled by a separate App in an iPhone or iPad. The WICE system simply makes this task available to the App through a REST interface running on the WCU. The task consists of a specially crafted excel file. When the file is uploaded to the WICE portal it is validated to make sure that it can be read by the App.

View an LPD task
Upload opportunity after pressing the Edit button

From version 2.83.0 of the WICE portal the task measurement file can be updated via the View Task function in the Tasks tab and a dialog as shown to the right will appear. By pressing the "Edit" button in the lower right corner, you will be presented with the possibility to upload a new measurement task file. This is shown with a red triangle in the illustration on the right.

M-Log

The WICE system can interact with external loggers as well. One such logger is called M-Log from Ipetronik. You create your measure task using an external tool which creates a file which you can upload for this type of task. The WICE system will then forward this file to the external logger. The WICE system can also take care of uploading the result files as well where you can retrieve the files using this portal.

M-Log task
Entering ECU software version
Entering ECU software version

Select the "Use existing measurement configuration" checkbox if a measurement setup file already exists on the MLOG - no upload will be required.

Software version validation (Available from version 2.74.0)

The measurement assignment for an MLOG is created using an external tool to WICE. An assignment is created with a certain version of the ECU software in mind for each ECU in the assignment. In order for the assignment to work it might be important that the ECU software version in the vehicle matches the software version of the ECU it was created for. In WICE, you can ask the system to read the current software version for each ECU which is stored and can be viewed, e.g. via the ECU list. As WICE cannot know which software versions the assignment was created for, the user can supply this to WICE. By doing that, WICE can validate the entered software versions against what has been read out for each vehicle and thus aid the user in making sure that an assignment will work once it will run.

To make the validation possible the user enters a ECU by its address, not the name. To help find out the address for an ECU you can go to the ECU list to find the address of a specific ECU. Have a look at the illustration, Entering ECU software version, to see where in the dialog this is entered. On the top you enter the ECU address on the left and what software version is expected on the right. When satisfied, press the "Add" button. The data you just entered will be added to the table and evaluated against what the WICE system has read out from the vehicle. In the example to the right something is incorrect which is indicated by the yellow color. To see the exact reason, simply use the cursor to see the specific message.

A negative validation in not enforced in the sense that you cannot run the assignment but rather an indication that it might not work as expected. You can always go ahead and press "Submit".

MQTT

A MQTT task makes it possible to record data from a MQTT message broker, by specifying a specific topic.

Rapid prototyping

A Rapid prototyping (RP) task makes it possible to download RP binaries to multiple WCUs and keep track of the result files the RP task might produce. For more information about RP, see WICE RP How-To and WICE RP Manual.

Rapid prototyping task

The rapid prototyping tab can be seen in Figure "Rapid prototyping task".

An RP task must consist of at least an 'RP binary' or a 'Web application zip file'.

SoftHub

The SoftHub is a measurement system that can be run either as a stand alone unit or as a software module on the WCU, with functionality similar to the Signal Reader module. A SoftHub task is created much in the same way as a Signal Reader task.

When creating a SoftHub task, you select a .shub task file, and then proceed in the same way as the Signal Reader task.

The SoftHub task will generate result files. It may be interesting to know if certain signals reach certain values in these result files, therefore it is possible to add server triggers to the task that will trigger and add a suitable label to the corresponding result file. Read more about this here.

Signal Reader

Signal reader task

Signal Reader is a data capture module that allows monitoring and logging of CAN and FlexRay signals, as well as diagnostics data, and ECU-internal signals read by CCP or XCP. To create a Signal Reader task you proceed as follows:

1. You either select an assignment file of .haf format, or choose an assignment created in the assignment creator (see Signal Reader Assignment Wizard). Your current choice will be displayed in the "Chosen file" field.

2. When you have selected an assignment and one or more WCUs, the CAN buses defined in the assignment and on the WCU will be mapped. If they can be automatically mapped a green check symbol will be displayed, otherwise a red cross will be displayed. Clicking the mapping button will open the mapper. In the pop-up window you will have to map the different buses to each other manually and then save. Once this is done correctly, the red cross will become a green check mark, indicating that the mappings are ready to be automatically applied upon submit. Read more about this in I/O configurations and Mappings.

3. With a Signal Reader task you can monitor CAN, FlexRay, ODB-II and WCU-internal signals live by selecting "Monitor signals". When selected, two boxes will appear under the task description. In the left one you search for signals and drag them over to the right one where the signals to be monitored are listed. You can later see the monitored signals by pressing the Monitor Signals button either in the Tasks tab or in the Vehicles tab. It is also possible to copy the signals text in the bottom right corner of the right box. Next to the copy text button you can also paste signals as text where the pasted signal names will be matched against the list of unselected signals

4. You can choose if you want the signals to have their data source names as a prefix (e.g. CAN1.EngineSpeed instead of EngineSpeed).

5. The Signal Reader task will generate result files. It may be interesting to know if certain signals reach certain values in these result files, therefore it is possible to add Server Triggers to the assignment that will trigger and add a suitable label to the corresponding result file. Read more about this here.

A Signal reader task can be scheduled in the same manner as described for the Canrecoder task.

The Signal Broker

Signal Reader can act as a Signal Broker for other software components. For instance, the audio and video modules relies on the Signal Broker API of Signal Reader for evaluating start and stop trigger expressions. Moreover, the Signal Broker gives programmatical access to signals for Rapid Prototyping tasks. Read more about this in WICE Signal Broker API.

Files containing references to sequence files

Sequence Files References in .haf File

If the measurement file contains references to sequence files, you are also required to select these in order to run the task. The portal scans the .haf file for such entries and presents this to you, see illustration 4.2. Click the button for each sequence file reference to upload each sequence file needed. Some requests in the sequence file may be for reading DTCs, and in such cases you can select the option of also reading associated Snapshots or Extended data. An example of this can found in Figure "Sequence Files References in .haf File".

Sequence File with Functional Query

Here, the .haf file contained two references to sequence files. As no sequence files have yet been uploaded, the selection for reading snapshot or extended data is grayed out. In Figure "Sequence File with Functional Query" we have selected one such sequence file containing (functional) DTC requests. Here we have checked that we would like to read Extended data. It is also possible to select both Snapshots and Extended data.

WICE internal signals

In addition to CAN and FlexRay signals, a number of internal signals (i.e. internal to the WCU) are also available. The following WICE-internal signals are supported: WICE Internal Signals

SoH

SoH

A State of Health (SoH) task collects specific status information from vehicles. You select which information you want the task to collect by filling in one or more of the checkboxes shown in Figure "SoH". The number of checkboxes shown can vary depending on the WICE installation. In order for SoH data to be correctly interpreted, relevant description files (e.g. SDDB) for the vehicles executing the SoH task may have to been available. To add such a description file for a vehicle, see The Edit Car Dialog.The six different options are:

  • Mileage
  • Voltage
  • Read ECU software numbers
  • Read ECU DTC:s (optionally including 'Snapshot' and 'Extended data')
  • Read OBD-II PIDs
  • App Diagnotstic Db Part Num
  • DM1, Diagnostic Message using the j1939 protocol
  • Odometer, reading the odometer using the j1939 protocol (available from WCU version 2.63)
  • Clear DTCs.
    • If reading DTCs is requested as well, those will be read before clearing the DTCs. (available from WCU version 2.63)
    • If this option (Clear DTC) is chosen it is optionally possible to set a PIN code for unlocking a gateway module - e.g. Vehicle Gateway Module (VGM). (Available from WCU version 2.66)
  • Engine hours, reading engine hours using the j1939 protocol (available from WCU version 2.64). The result for this can be read in the generated j1939-file from the task. It is a text type of file. In addition, a system value label called 'engine_hours' (as default, can be changed on a customer basis). This label shows the latest read value and is available on the vehicle.

This task can also be scheduled in the same manner as described for the Canrecoder task.

Some selections above might not be available to you as this is a configuration setting depending on customer.

SWDL

New SWDL task

A Software Download (SWDL) task updates the ECU software in one or more ECUs in one or more vehicles. A number of Versatile Binary Format (VBF) files containing the ECU software need to be supplied, along with PIN codes to allow security access to re-program the ECUs. The PIN codes should be in the format of five hexadecimal numbers, e.g. ff:00:1a:2c:77 (or alternatively, omitting the colon separator, ff001a2c77). When a SWDL task has been created and assigned to one or more WCUs, it will cause all vbf files to be downloaded to the WCUs, and then the actual re-programming can be triggered by the vehicle user through the WCU status GUI web interface. The uploaded vbf-files are presented in a table along with its ECU and software part type (SW part type). In a separate table, the PIN codes for each ECU are presented along with the total number of files uploaded per WCU, see Figure "New SWDL task". To get an overview of how the files relate to the ECUs it is possible to choose the "Group by"-option when right clicking the ECU column in the file table.

SWDL tasks can optionally include a pre-update sequence file and/or a post-update sequence file. The diagnostic requests of those sequence files will be sent before and after the ECU re-programming respectively.

SWDL tasks can optionally include one signature file (containing checksums). The file is assumed to be an xml file. (Available from WCU version 2.66) If either of the optional files is selected, a field will appear to the right of the chosen file. This field will contain the name of the chosen file. (Available from WCU version 2.70)

SWDL tasks can optionally include a VGM unlock access control mechanism, with a PIN code for the VGM node. This is specifically for vehicles requiring this kind of access control for ECU re-programming.

By checking the box Run SoH after completion it is possible to let the SWDL task run the WCUs SoH task after the SWDL task is completed.

If you would like to use any individual ECU pin codes for a vehicle, make sure to check the box "Use Vehicle Pin mappings". If a pin code for the ECU targeted by a vbf file, the pin code for the vehicle will be used. If no such pin code is found, the one entered in the right hand side table is used. Read more on how to prepare a vehicle with pin codes here.

SWDL tasks can optionally contain a Trigger Expression which must be fulfilled within a specified time limit ("Wait time") for ECU re-programming to be allowed. The trigger expression follows the same syntax as Signal Reader trigger expressions (or Server Triggers, audio/video triggers), and should be built up from signals being measured in a Signal Reader assignment. The user must make sure that there is a Signal Reader assignment on the WCUs of the SWDL task, with the signals of the trigger expression being measured.


It is also possible to choose to ignore checksums and/or disable pre-programming using the corresponding checkboxes.

The SWDL module can be configured to perform SWDL either over CAN or over Ethernet (DoIP).

Video

A video task makes it possible to record and monitor live video from one or two cameras attached to a WCU. You can trigger recording of video in four ways:

  • Trigger button: To initiate the recording you need to attach a button to the WCU in order to start in the video recording.
  • Signal reader: Initiate the recording when a recorder in a Signal Reader assignment starts. The recording is started as soon as a Signal Reader recorder is started. You specify the name of the Signal Reader recorder (e.g. SREC_0) you want to start the video recording. You can also enter "auto" as the recorder name, in which case a recorder that include the Video_Device_n internal signal will be selected.
  • Expression: Similar to the 'Signal reader' trigger option, the 'Expression' option lets the user specify start and stop trigger conditions based on logical expressions containing signals measured by the Signal Reader module. Note that the user must make sure the signals present in the expression are actually measured (otherwise the expression will never be true). Unlike the 'Signal Reader' trigger, there does not have to be a recorder configured in the Signal Reader measurement assignment. For an explanation of how to enter triggers, have a look here.
  • None: start the recording as soon as possible. (Use this with caution, since it tends to produce prohibitively large video files.)

In addition to this, you can set the pre-trig time (not valid in the cases of the 'None' trigger option above). As an example, let's assume the trigger button method is selected. At the moment the trigger button is pressed the video has already been recorded for the number of seconds specified.

A maximum duration of the recording can also be set, in seconds from the start trigger event. If there is a stop trigger expression specified, the recording will be stopped either when the stop expression is fulfilled or the max duration is passed, whichever occurs first. If you do not enter a duration it will be set to a default value of 120 seconds.

If monitoring of video from a WCU is enabled, a live video stream will be transmitted which can be viewed using a RTP-based video tool, for instance Alkit Confero. This task can also be scheduled in the same manner as described for the Canrecoder task.

Read more about the video support in WICE here.

Applicable for all types

If enabled at your site, there might be an opportunity to announce to third party applications that a result file is available using a JMS API. By checking this box, as soon as a result file is added in the back-end this will be signaled using a customer specific event. The check box title is "Announce result file availability", this can be seen in the image in SoH.

Site specific features

Announce result file availability

Announced On column

If enabled at your site, there might be an opportunity to announce to third party applications that a result file is available using a JMS API. By checking this box, as soon as a result file is added in the back-end this will be signaled using a customer specific event. The check box title is "Announce result file availability", this can be seen in the image in SoH. Starting from version 2.87.0, there's a new 'Announced On' column that keeps track of when the result file was announced.

Retention time

Retention time

This function works by setting a retention time in days which simply says that data coming in from the task, i.e. result files and positions will be kept the set number of days from when the data was collected. If, e.g. setting the retention time for an task to 30 days, will keep data until it is 30 days old where it will be automatically removed. See image.

It is possible to set a default retention time for resource groups. To do this, add a global value label named RETENTION_TIME to the resource group and give it an appropriate value. This value will then be used as a template value when creating a new task for this resource group. If multiple resource groups have this label and they have different values, the one with the lowest/shortest retention time value will be chosen as the template value.