Global parameters for all trunk applications.
Agency ID used to set creationInfo.agencyID in
data model objects. Should not contain spaces.
Datacenter ID which is primarily used by Arclink and
its tools. Should not contain spaces.
Organization name used mainly by ArcLink and SeedLink.
Author name used to set creationInfo.author in data model
objects. @appname@ is replace by the name of the
respective executable, @hostname@ by the name of the computer
on which it runs.
List of plugins loaded at startup. Separate multiple names by
comma. Add ${plugins} to consider all previously read values.
Path to the cities XML file. If undefined, the data is read
from "@CONFIGDIR@/cities.xml" or
"@DATADIR@/cities.xml".
SeisComP ships with "@DATADIR@/cities.xml".
Load cities from file configured by the "cityXML"
parameter. GUI and map applications enable loading of cities
by default considering the parameter
"scheme.map.showCities".
Load custom FEP (Flinn-Engdahl polygon) regions from
"@CONFIGDIR@/fep/" or @DATADIR@/fep/".
GUI and map applications and scevent enable FEP regions by
default. Explicitly uncheck the option to disregard by these
applications.
Define a custom pattern for generation of public object IDs.
The following variables are resolved:
@classname@ (class name of object),
@id@ (public object count),
@globalid@ (general object count),
@time@ (current time, use '/' to supply custom format e.g.
@time/%FT%T.%fZ@
Name of the configuration module.
Define the database connection. If no database is configured
(which is the default) and a messaging connection is available,
the application will receive the parameters after the connection
is established. Override these values only if you know what you
are doing.
The format is: service://user:pwd@host/database.
"service" is the name of the database driver which
can be queried with "--db-driver-list".
IMPORTANT: This parameter replaces former
"database.type" and "database.parameters"
which have been removed.
SeisComP applications access waveform data through the RecordStream
interface. Read the SeisComP documentation for a list of
supported services and their configuration.
This parameter configures RecordStream source URL.
Format: [service://]location[#type]
"service": The name of the RecordStream implementation.
If not given, "file://" is implied.
IMPORTANT: This parameter replaces former RecordStream
configurations in "recordstream.service" and
"recordstream.source" which have been removed.
Set the logging level between 1 and 4 where 1=ERROR,
2=WARNING, 3=INFO and 4=DEBUG.
Enable logging to syslog if supported by the host system.
Limit the logging to the specified list of components.
Example: 'Application, Server'.
For each log entry print the component right after the
log level. By default, the component output is enabled
for file output but disabled for console output.
For each log entry print the source file name and line
number.
Use UTC instead of local time in logging timestamps.
Enable rotation of log files.
Time span after which a log file is rotated.
How many historic log files to keep.
The maximum size of a logfile in byte. The default
value is 100 megabyte. If a logfile exceeds that
size, then it is rotated. To disable the size limit
give 0 or a negative value.
Time span for counting input/output of objects.
Define the syslog facility to be used according to the
defined facility names in syslog.h. The default is local0.
If the given name is invalid or not available,
initializing logging will fail and the application quits.
Define the URL of the messaging server to connect to.
URL format is [scheme://]host[:port][/queue].
Default scheme: scmp, default port: 18180,
default queue: production.
Examples:
All default: localhost
Specific host: scmp://10.0.1.4:18180/production
Specific host and SSL encryption:
scmps://10.0.1.4:18180/production
Define the username to be used. The length is maybe limited
by the messaging system used. By default, the module name
(name of the executable) is used but sometimes it exceeds
the 10 character limit and access is denied. To prevent
errors set a different username. An empty username will
let the system to generate one.
Define the OpenSSL client certificate to be used. Path to
OpenSSL certificate in PKCS 12 format or the prefix "data:"
followed by the Base64 encoded certificate data.
The connection timeout in seconds. 3 seconds are normally
more than enough. If a client needs to connect to a
remote system with a slow connection, a larger timeout
might be needed.
Define the primary group of a module. This is the name
of the group where a module sends its messages to if the
target group is not explicitly given in the send call.
Define the message encoding for sending. Allowed values
are "binary", "json" or "xml".
XML has more overhead in processing but is more robust when
schema versions between client and server are different.
Define a list of message groups to subscribe to. The
default is usually given by the application and does not
need to be changed.
Define the database connection. If no database is configured
(which is the default) and a messaging connection is available,
the application will receive the parameters after the connection
is established. Override these values only if you know what you
are doing.
Load the inventory database from a given XML file if set.
This overrides the inventory definitions loaded from the
database backend.
Load the configuration database from a given XML file if set.
This overrides the configuration definitions loaded from the
database backend.
Define a whitelist of agencies that are allowed for
processing. Separate items by comma.
Define a blacklist of agencies that are not allowed for
processing. Separate items by comma.
List of network types to include when loading the
inventory.
List of station types to include when loading the
inventory.
List of network types to exclude when loading the
inventory.
List of station types to exclude when loading the
inventory.
Path to crash handler script.
Define a list of core modules loaded at startup.
Enable sending of an application start- and stop message to
the STATUS_GROUP.
Enable automatic application shutdown triggered by a status
message.
Trigger shutdown if the module name of the received messages
match.
Trigger shutdown if the user name of the received messages
match.
A regular expression of all clients that should handle
a command message usually send to the GUI messaging group.
Currently this flag is only used by GUI applications to
set an artificial origin and to tell other clients to
show this origin. To let all connected clients handle the
command, ".*$" can be used.
Travel time table related configuration. Travel time tables can
be added via plugins. Built-in interfaces are LOCSAT, libtau and
homogeneous.
For each loaded interface a list of supported models must be
provided.
The list of supported model names per interface.
Amplitude configurations overriding global bindings.
Magnitude configurations overriding global bindings.
Add regionalization by magnitude-type profiles. Profile
names correspond to magnitude types.
Path to a geofeature file, e.g. in BNA or GeoJSON format,
with one or more polygons defining geographic regions.
Each region allows further magnitude parametrization.
The order of polygons/regions matters. The list is
tested from front to back and the first hit wins.
Magnitude-region profiles refer to the polygons by the
name of the profile. The special name "world"
must not be present in the geofeature file.
Add parameter profiles for regions defined in the
geofeature file. Profile names must match one polygon
name. Otherwise, the profile is not considered.
The special name "world" corresponds to the
region of the entire planet as a fallback.
Magnitude-specific parameters, e.g. calibration functions,
are adjusted in a separate section of magnitudes with
the same name.
Enable the region or not.
The minimum distance required to compute a
magnitude. This settings has no effect with e.g.
scautopick as there is no information about the
source of the event to compute the distance.
The default value is implementation specific.
The maximum distance allowed to compute a magnitude.
This settings has no effect with e.g. scautopick
as there is no information about the source of
the event to compute the distance. The default
value is implementation specific.
The minimum depth required to compute a magnitude.
This settings has no effect with e.g. scautopick
as there is no information about the source of
the event to retrieve the depth. The default
value is implementation specific.
The maximum depth allowed to compute a magnitude.
This settings has no effect with e.g. scautopick
as there is no information about the source of
the event to retrieve the depth. The default
value is implementation specific.
Define how the region check is performed to accept
a source receiver pair for further processing.
Allowed values are:
source: Only the source/origin must be within
the region.
source-receiver: Both source/origin and
receiver/station must be within the region.
raypath: The entire path between source/origin
and receiver/station must be withing the region.
Linear part of the default station correction
for this region.
Constant part of the default station correction
for this region.
Agency IDAgency IDDatacenter IDDatacenter IDOrganization string
This is used mainly by SeedLink and Arclink to
identify the server organization. Also, the ArcLink full
SEED volumes will have this organization value set.
Configure global parameters of a station for modules.
The sensor location code of the preferred stream used e.g.
by scautopick and scrttv.
The channel code of the preferred stream used by
e.g. scautopick and scrttv. If no component code is given,
the vertical component will be fetched from inventory
considering the channel orientation (azimuth, dip).
If that approach fails, 'Z' will be appended and used as
fallback. Do not use regular expressions!
Define general parameters for amplitudes of a certain type.
Create amplitude type profiles to define the time windows,
minimum signal-to-noise ratio, amplitude thresholds and
restitution for measuring amplitudes of a certain type.
Define the saturation threshold for the optional saturation
check.
By default, the saturation check is disabled but giving a
value above 0 will enable it. Waveforms that are saturated
are not used for amplitude calculations.
This value can either be an absolute value of counts such
as "100000" counts or a relative value
(optionally in percent) with respect to the number of
effective bits, e.g. "0.8@23" or "80%@23".
The first version uses 1**23 * 0.8 whereas the latter
uses 1**23 * 80/100.
The boolean value "false" explicitly disables
the check.
Define if amplitude calculation is enabled. If disabled,
this station will be skipped for amplitudes and magnitudes.
Activate deconvolution for this station. If no responses are
configured, an error is raised and the data is not processed.
This flag will be overridden by the type specific flag
(see Amplitude type profile).
Several parameters if usage of full responses is enabled.
The parameters of this group will be overridden by type
specific settings if given (see Amplitude type profile).
Define the length of the taper at either side of the
waveform. The length will be added to the data
request: start - taper and end + taper.
The minimum frequency of the considered spectrum.
After data is converted into the frequency domain that
minimum frequency defines the end of the left-side cosine
taper applied to the spectrum. The taper applies from
0 Hz to {minFreq} Hz. A value of 0 or lower disables
that taper.
The maximum frequency of the considered spectrum.
After data are converted in to the frequency domain that
maximum frequency defines the start of the right-side
cosine taper applied to the spectrum. The taper applies from
{maxFreq} Hz to {fNyquist} Hz.
A value of 0 or lower disables that taper.
Allow to configure the Wood-Anderson seismometer response.
The default values are according to the version of
Gutenberg (1935). The newer version by Uhrhammer and
Collins (1990) is part of the IASPEI Magnitude
Working Group recommendations of 2011 September 9. This
version uses gain=2800, T0=0.8 s, h=0.8.
The gain of the Wood-Anderson response.
The eigen period of the Wood-Anderson seismometer.
The damping constant of the Wood-Anderson seismometer.
An amplitude profile configures global parameters for a
particular amplitude type. The available amplitude types
are not fixed and can be extended by plugins. The name of
the type must match the one defined in the corresponding
AmplitudeProcessor.
Define the saturation threshold for the optional
saturation check. By default, the saturation check is
disabled but giving a value above 0 will enable it.
Waveforms that are saturated are not used for amplitude
calculations.
This value can either be an absolute value of counts such
as "100000" counts or a relative value
(optionally in percent) with respect to the number of
effective bits, e.g. "0.8@23" or "80%@23".
The first version uses 1**23 * 0.8 whereas the latter
uses 1**23 * 80/100.
The boolean value "false" explicitly disables
the check.
Define if amplitude calculation of certain type is enabled.
Activate deconvolution for this amplitude type. If not
set, the global flag "amplitudes.enableResponses"
will be used instead.
Define the mininum SNR to be reached to compute the
amplitudes. This value is amplitude type specific and
has no global default value.
Override the default time (relative to the trigger
time) of the begin of the noise window used to compute
the noise offset and noise amplitude. Each amplitude
processor sets its own noise time window and this option
should only be changed if you know what you are doing.
Override the default time (relative to the trigger
time) of the end of the noise window used to compute
the noise offset and noise amplitude. Each amplitude
processor sets its own noise time window and this option
should only be changed if you know what you are doing.
Override the default time (relative to the trigger
time) of the begin of the signal window used to compute
the final amplitude. Each amplitude processor sets its
own signal time window and this option should only be
changed if you know what you are doing.
Override the default time (relative to the trigger
time) of the end of the signal window used to compute
the final amplitude. Each amplitude processor sets its
own signal time window and this option should only be
changed if you know what you are doing.
The minimum distance required to compute an amplitude.
This settings has no effect with e.g. scautopick as there
is no information about the source of the event to compute
the distance. The default value is implementation
specific.
The maximum distance allowed to compute an amplitude.
This settings has no effect with e.g. scautopick as there
is no information about the source of the event to compute
the distance. The default value is implementation
specific.
The minimum depth required to compute an amplitude.
This settings has no effect with e.g. scautopick as there
is no information about the source of the event to
retrieve the depth. The default value is implementation
specific.
The maximum depth allowed to compute an amplitude.
This settings has no effect with e.g. scautopick as there
is no information about the source of the event to
retrieve the depth. The default value is implementation
specific.
Control if the amplitude calculation should be
regionalized or not. The regions and their configuration
are taken from the corresponding magnitude profiles. If
regionalization is activate, then e.g. modules without
origin information will not be able to compute an
amplitude as the origin is required to determine the
effective settings.
If amplitudes for this particular type shall be computed
regardless of any defined regions, set this parameter to
false.
Several parameters if usage of full responses is enabled.
Define the length of the taper at either side of the
waveform. The length will be added to the data
request: start - taper and end + taper.
After data are converted in to the frequency domain
that minimum frequency defines the end of the left-side
cosine taper for the frequency spectrum. The taper
applies from 0 Hz to {minFreq} Hz.
A value of 0 or lower disables that taper.
After data are converted in to the frequency domain
that maximum frequency defines the start of the right-side
cosine taper for the frequency spectrum. The taper
applies from {maxFreq} Hz to {fNyquist} Hz.
A value of 0 or lower disables that taper.
Define magnitude parameters independent of amplitude-type profiles.
For magnitude correction parameters, e.g, network of station
corrections, create a magnitude type profile.
A magnitude profile configures global parameters for a
particular magnitude type. The available magnitude types
are not fixed and can be extended by plugins. The name of
the type must match the one defined in the corresponding
MagnitudeProcessor.
Part of the magnitude station correction. The final
magnitude value is multiplier*M+offset. This value
can be regionalized with name-value pairs.
The name is the name of the region. Without
a name the value is the default without regionalization.
Example: "1.0, regionA: 0.9, regionB: 1.1".
Part of the magnitude station correction. The final
magnitude value is multiplier*M+offset. This value
can be regionalized with name-value pairs.
The name is the name of the region. Without
a name the value is the default without regionalization.
Example: "0.0, regionA: -0.1, regionB: 0.2".
Parameters controlling the second-stage picker for re-picking P
phases after an initial detection.
AIC picker is an implementation using the simple non-AR
algorithm of Maeda (1985),
see paper of Zhang et al. (2003) in BSSA. The picker
interface name to be used in configuration files, e.g. of
scautopick, is "AIC".
Override the relative data acquisition time (relative to
the triggering pick). This adds a margin to the actual
processing and is useful to initialize the filter (Example:
bandpass). The data is not used at all until signalBegin
is reached. The data time window start is the minimum of
noiseBegin and signalBegin.
Override the default time (relative to the trigger
time) of the begin of the signal window used to pick.
Override the default time (relative to the trigger
time) of the begin of the signal window used to pick.
Override the default filter which is "raw". The typical
filter grammar can be used.
Mininum SNR as returned from AIC for accepting picks.
Bkpicker is an implementation of the Baer/Kradolfer picker
adapted to SeisComP. It was created by converting Manfred
Baers from Fortran to C++ and inserting it as a replacement
for the picker algorithm. The picker interface name to be
used in configuration files, e.g. of scautopick,is
"BK".
Override the relative data acquisition time (relative to
the triggering pick). This adds a margin to the actual
processing and is useful to initialize the filter (Example:
bandpass). The data is not used at all until signalBegin
is reached. The data time window start is the minimum of
noiseBegin and signalBegin.
Override the default time (relative to the trigger
time) of the begin of the signal window used to pick.
Override the default time (relative to the trigger
time) of the begin of the signal window used to pick.
BP (Bandpass) is currently the only option.
Number of poles.
Bandpass lower cutoff freq. in Hz.
Bandpass upper cutoff freq. in Hz.
Threshold to trigger for pick (c.f. paper), default 10
Threshold for updating sigma (c.f. paper), default 20
Parameters controlling the secondary picker. Example: for picking S
phases.
L2 is an algorithm to pick S-phases based on existing
P-phases. It works by creating the L2 norm of the two filtered
horizontal components and then running the `detecFilter` on
the L2 trace to find the S pick. Finally AIC is applied
around the detected pick time to refine the detection.
The picker name to be used in configuration files is
"S-L2".
Override the relative data processing start time
(relative to the triggering pick). This adds a margin to
the actual processing and is useful to initialize the
filter (Example: bandpass). The data is not used at all
until signalBegin is reached. The data time window start
is the minimum of noiseBegin and signalBegin.
Override the relative start time (relative to the
triggering pick) of the begin of the signal processing.
Override the relative end time (relative to the triggering
pick) of the end of the signal window used to pick.
Configure the filter used to process the horizontal
components traces before computing the L2-norm.
Configure the detector filter applied on the filtered
L2 trace.
The detector threshold that triggers the AIC picker.
The time correction added to the detection
time before AIC time window is computed.
The AIC time window around the detection used to pick.
If 0, AIC is not used.
Minimum SNR as returned from AIC for accepting picks.
This S-picker works similarly to L2 but it only uses the
vertical component to pick S-phases. The picker name to use
is configuration files is "S-V"
Override the relative data processing start time
(relative to the triggering pick). This adds a margin to
the actual processing and is useful to initialize the
filter (Example: bandpass). The data is not used at all
until signalBegin is reached. The data time window start
is the minimum of noiseBegin and signalBegin.
Override the relative start time (relative to the
triggering pick) of the begin of the signal processing.
Override the relative end time (relative to the triggering
pick) of the end of the signal window used to pick.
Configure the filter used to process the raw vertical
component data.
Configure the detector filter applied on filtered data.
The detector threshold that triggers the AIC picker.
The time correction added to the detection time
before AIC time window is computed.
The AIC time window around the detection used to pick.
If 0, AIC is not used.
Define the mininum SNR as returned from AIC.