Index

2 column ASCII WAV file: 19.2 Waveform conversion programs
3-component stations: 7.1.2 Azimuth and single station | 8.10 Determine azimuth of arrival | 21.1 AUTOPIC and AUTO
64 bit computer: 3.2 Linux | 3.2 Linux | 30.1 IASPEI travel time software, | B. The SEISAN waveform file
Acceleration: 8.9 Instrument correction and magnitudes
Add waveform format: 2.2.2 Waveform data and formats
AFAD: 19.2 Waveform conversion programs
AFADSEI: 19.2 Waveform conversion programs
Aftershock processing: 21.6 Detection program for continuous
AGA: 2.2.1 Phase data and hypocenters
Agency: 7.1.17 Station and model files | 19.1 Parameter files | 34. Magnitude and spectral relations,
Agency, select for: 11.1.1 Input parameters for SELECT
AHSEI: 19.2 Waveform conversion programs | 19.2 Waveform conversion programs
Albania: 19.1 Parameter files
ALBNORE: 19.1 Parameter files
Align traces: 18.15 P_ALIGN: Time shifting waveform
All channel mode: 8.5 Commands in MULPLT, overview
Amplitude: 8.7 Phase picking, amplitude, weight
Amplitude phases: 8.7 Phase picking, amplitude, weight
Amplitude, @ automatic: 8.7 Phase picking, amplitude, weight
Andalucia: 19.1 Parameter files | 19.2 Waveform conversion programs | 19.2 Waveform conversion programs
Angle of incidence: 23.1.5 Program operation
Apparent velocity: 5.5 How EEV works | 7.1.18 RESET TEST parameters | 8.7 Phase picking, amplitude, weight | 8.10 Determine azimuth of arrival | 31. Wadati
APPEND: 18.1 APPEND, Append two or
Append another event to current event: 5.5 How EEV works
ARC_ARCHIVE: 2.2.3 Continuous waveform data
ARC_ARCHIVE2: 2.2.3 Continuous waveform data
ARC_CHAN: 2.2.3 Continuous waveform data
ARC_CHAN2: 2.2.3 Continuous waveform data
ARCFETCH: 19.2 Waveform conversion programs
Archive, @ define channels: 2.2.3 Continuous waveform data
Archive, channel specification: 44.1 Programmers guide and some
Archive, extract: 18.7 GET_ARC, extract waveform files
ARCSEI: 19.2 Waveform conversion programs
Arcsei.def: 19.2 Waveform conversion programs
Array processing: 40. FK Analysis
Array stations: 7.1.2 Azimuth and single station
array.out: 5.5 How EEV works
ARX: 18.7 GET_ARC, extract waveform files
ASCII files: 18.11 SEIASC, converting SEISAN waveform | 19.2 Waveform conversion programs
ASCII waveform file, 2 columns: 19.2 Waveform conversion programs
ASCII waveform format: 19.2 Waveform conversion programs
ASCII, convert to: 19.2 Waveform conversion programs
ASCII, convert to SEISAN: 19.2 Waveform conversion programs
ASCII, SEISAN to: 18.11 SEIASC, converting SEISAN waveform
ASCSEI: 19.2 Waveform conversion programs
ASSO: 28.3 Merge events near in
ASSOCI: 28.1 Merge events near in
Associ_rest.out: 28.1 Merge events near in
Associate events in time: 5.5 How EEV works
AUTO: 21.1 AUTOPIC and AUTO
auto.log: 21.1 AUTOPIC and AUTO
auto.out: 21.1 AUTOPIC and AUTO
AUTO_LOCATE: 8.15 Setting MULPLT parameters, MULPLT.DEF
AUTO_PROCESS: 8.15 Setting MULPLT parameters, MULPLT.DEF
Automag: 21.4 AUTOMAG
AUTOMAG.list: 21.5 PLOTSPEC
Automate EPIMAP: 10.1 EPIMAP
Automatic: 21. Automatic routines in SEISAN
Automatic amplitude: 8.7 Phase picking, amplitude, weight
Automatic amplitude determination: 21.4 AUTOMAG
Automatic coda length: 8.7 Phase picking, amplitude, weight | 8.15 Setting MULPLT parameters, MULPLT.DEF
Automatic phase picking: 5.5 How EEV works | 21. Automatic routines in SEISAN | 21.2 AUTOPHASE, automatic phase picking
Automatic polarity reading: 23.1.3 Polarity selection
Automatic processing: 21.1 AUTOPIC and AUTO
Automatic spectral level determination: 21.4 AUTOMAG
Automatic spectrum, MULPLT: 8.12 Spectral analysis, s(Spec)
Automtic amplitude reading: 23.1.2 Automatic reading of amplitudes
AUTOPHASE: 21.2 AUTOPHASE, automatic phase picking
AUTOPIC: 3.9 Default parameter files for
AUTOPIC.INP: 21.1 AUTOPIC and AUTO
Autopic.out: 21.1 AUTOPIC and AUTO
AUTORATIO: 23.1.2 Automatic reading of amplitudes | 25. Measuring amplitude ratios, AUTORATIO
AUTOREG: 18.2 AUTOREG, automatic registering of
Autoscale depth profile: 10.1 EPIMAP
Autoscaling: 8.11 Data manipulation commands
Autosig: 21.3 AUTOSIG
Autosig.par: 21.3 AUTOSIG
AUTUPHASE: 23.1.3 Polarity selection
Average crustal models, GRIDMIN: 38.2 Grid search to obtain
Average of a data set: 17.7 LSQ, plotting a linear
Average Q-relations: 27.5 Program AVQ, average Q-relations
Average station residual: 7.1.18 RESET TEST parameters
AVQ: 21.4 AUTOMAG | 27.5 Program AVQ, average Q-relations
Azimuth: 8.7 Phase picking, amplitude, weight | 21.1 AUTOPIC and AUTO
Azimuth error: 7.1.18 RESET TEST parameters
B-value: 22. Calculating b-value, BVALUE
Back azimuth: 5.5 How EEV works
Backazimuth: 8.10 Determine azimuth of arrival | 8.10 Determine azimuth of arrival
Background noise: 8.12 Spectral analysis, s(Spec) | 32.1 Spec program
Band reject filter: 8.5 Commands in MULPLT, overview
Bandpass filter, default in mulplt: 8.15 Setting MULPLT parameters, MULPLT.DEF
BASE: 5.3.2 Data base tools, content
Bash shell: 3.2 Linux
BGISEI: 19.2 Waveform conversion programs
Binary SEISAN waveform file structure: B. The SEISAN waveform file
Bisquare weighting: 7.1.18 RESET TEST parameters
Body wave magnitude: 7.1.3 Magnitudes
BOUCH: 29. Making synthetic seismograms
Bouch.out: 29. Making synthetic seismograms
BOUSEI: 29. Making synthetic seismograms
Brune spectrum: 44.1 Programmers guide and some
BUD archive data: 2.2.3 Continuous waveform data
BUL: 16. Making a bulletin, BUL
BUL.INP: 3.9 Default parameter files for | 16. Making a bulletin, BUL
Bul.ps: 16. Making a bulletin, BUL
Bullen table: 7.2 The Hypoinverse program, HYPINV
Bulletin: 16. Making a bulletin, BUL
Bulletin program: 3.9 Default parameter files for
BVALUE: 22. Calculating b-value, BVALUE
Bvalue.eps: 22. Calculating b-value, BVALUE
Bvalue.out: 22. Calculating b-value, BVALUE
c++: 44.1 Programmers guide and some
CAL directory: 19.2 Waveform conversion programs | 41. Instrument response
Calculate kappa: 32.2 Calculating kappa, KAPPA
Calculate theoretical arrival times, TTLOCAL: 38.2 Grid search to obtain
Calculate travel times: 30.3 Calculating of local phases:
Calibration file: 41.1 Create instrument response files,
CAT directory: 2.2.1 Phase data and hypocenters
CAT-file: 2.2.1 Phase data and hypocenters | 2.3 File types used with | 5. Using SEISAN | 7.1.19 HYP output
CAT_AGA: 19.1 Parameter files | 19.1 Parameter files
Cat_aga.par: 19.1 Parameter files
Catalog work: 2.2.1 Phase data and hypocenters | 5.1.5 Catalog and database work | 5.6 Working with catalogs | 5.8 General Work with SEISAN | 13. Inserting events into the | 17.4 CATSTAT, statistics of catalogs | 37. Explosion filtering, EXFILTER
Catday.out: 17.4 CATSTAT, statistics of catalogs
Cathour.out: 17.4 CATSTAT, statistics of catalogs | 17.4 CATSTAT, statistics of catalogs
Catmonth.out: 17.4 CATSTAT, statistics of catalogs
CATSTAT: 17.4 CATSTAT, statistics of catalogs
Catyear.out: 17.4 CATSTAT, statistics of catalogs
Change event id: 5.5 How EEV works
Change of day: 7.1.19 HYP output
CHANGE_RESP_NAME: 41.3 SEED response
Channel order: 8.5 Commands in MULPLT, overview
Channel selection: 8.1 MULPLT main functions | 8.5 Commands in MULPLT, overview
Characters to use in S-file and parameter files: 2.3 File types used with
Check: 44.3 CONTENTS OF PRO, LIB,
Check data base: 5.3.2 Data base tools, content
Check polarity: 23.1.3 Polarity selection
CHECK_BASE: 5.3.2 Data base tools, content
Checking the data base or a file for errors: 5.3.2 Data base tools, content
China: 19.2 Waveform conversion programs
Chronological order: 14. Updating final locations in
CITSEI: 19.2 Waveform conversion programs
CityShark: 19.2 Waveform conversion programs
CLUSTER: 33.4 CLUSTER
CNVSSR and CNVSSA: 19.2 Waveform conversion programs
Coda length: 7.1.18 RESET TEST parameters | 8.7 Phase picking, amplitude, weight | 8.7 Phase picking, amplitude, weight | 8.15 Setting MULPLT parameters, MULPLT.DEF | 34. Magnitude and spectral relations,
Coda magnitude: 7.1.3 Magnitudes | 7.1.18 RESET TEST parameters | 11.1.1 Input parameters for SELECT
CODAQ: 5.1.3 Crustal structure and Q | 27.1 Codaq
Codaq summary: 27.1.1 Input
CODAQ, select events: 11.1.1 Input parameters for SELECT
Codaq.area.nor: 27.1.3 Output files
Codaq.inp: 27.1.1 Input
Codaq.par: 27.1.1 Input
CODAQ_AREA: 27.2 Program CODAQ_AREA
CODAQ_POLYGON: 27.3 Program CODAQ_POLYGON
COLLECT: 12. Extracting events from the
COLOR.DEF: 3.10 Color settings
Command to the operating system: 5.5 How EEV works
Commands in EEV: 5.5 How EEV works
Comments in S-file: 5.5 How EEV works
Common tasks in SEISAN: 5.1 Short user guide
COMP_HYP: 28.6 COMP_HYP, compare hypocenters of
Compact file: 2.3 File types used with | 13. Inserting events into the
Compare hypocenters of two files: 28.5 COMPARE_HYP, compare hypocenters of
Compare magnitudes of two files: 28.5 COMPARE_HYP, compare hypocenters of
COMPARE_HYP: 28.5 COMPARE_HYP, compare hypocenters of
Compile programs: 3.11 Compiling SEISAN programs
Compiling SEISAN: 3.11 Compiling SEISAN programs
Componen.for: 8.7 Phase picking, amplitude, weight
Component codes: 2.2.2 Waveform data and formats
Component in MULPLT: 8.7 Phase picking, amplitude, weight
Component names in S-file: 8.7 Phase picking, amplitude, weight
Components in MULPLT and EEV: 8.2 Use of MULPLT from
Composite fault plane solution: 23.6 Composite fault plane solution
Compression: 2.2.2 Waveform data and formats
CONDET: 21.6 Detection program for continuous
CONGAP: 18.3 CONGAP, check completeness of
CONNOI: 18.4 CONNOI and EVANOI, noise
Conrad interface: 7.1.17 Station and model files | 7.1.18 RESET TEST parameters
Consistency check: 7.1.18 RESET TEST parameters
Cont: 8.5 Commands in MULPLT, overview
Continuous data: 2.2.3 Continuous waveform data | 8.4 Continuous plotting of one | 8.5 Commands in MULPLT, overview
Continuous data base, default selection: 3.13 Setting general SEISAN defaults,
Continuous plotting: 8.4 Continuous plotting of one
Contour file: 10.1 EPIMAP
Conversion of component codes: 19.2 Waveform conversion programs
Conversion of station codes: 19.2 Waveform conversion programs
Conversion programs: 19. File conversion and modification
Convert angles: 23.1.5 Program operation
Convert to ASCII: 19.2 Waveform conversion programs
Converted magnitude: 34. Magnitude and spectral relations,
Copy events: 5.5 How EEV works
COPY_WAV_DIR: 18.2 AUTOREG, automatic registering of
Corner frequency: 8.12 Spectral analysis, s(Spec)
CORR: 43. Correlation of waveform signals,
Correctpolarity: 18.16 WAVFIX, fixing time correction
Correlation: 43. Correlation of waveform signals,
cpp: 44.1 Programmers guide and some
Crash, check base: 5.3.2 Data base tools, content
CRISIS2012: 33.2 CRISIS2012
Crustal model: 3.9 Default parameter files for
Crustal models, GRIDMIN: 38.2 Grid search to obtain
Crustal parameters: 31. Wadati
CSS format: 19.2 Waveform conversion programs
CSV format: 19.1 Parameter files
CSVNOR: 19.1 Parameter files
Curve, plot: 17.7 LSQ, plotting a linear
Cut MiniSEED files: 18.9 GET_WAV, get listing of
Daily number of events: 17.4 CATSTAT, statistics of catalogs
Damped signal: 44.1 Programmers guide and some
DAT directory: 3.9 Default parameter files for
Data base content: 5.3.2 Data base tools, content
Data base error: 5.5 How EEV works
Data base, check: 5.3.2 Data base tools, content
Database generation: 3.8 Database directories for your
Database name: 3.8 Database directories for your
Database security: 5.3.1 Database security
Database structure: 5.5 How EEV works | 5.8 General Work with SEISAN
DATABASE2MSEED: 18.5 DATABASE2MSEED, convert database to
Dataseis: 19.2 Waveform conversion programs
DATASELECT: 5.2.1 System with digital data
DC level: 8.5 Commands in MULPLT, overview
Default channel: 8.15 Setting MULPLT parameters, MULPLT.DEF
Default continuous data base: 3.13 Setting general SEISAN defaults,
Default filter: 8.15 Setting MULPLT parameters, MULPLT.DEF
Defaults: 8.15 Setting MULPLT parameters, MULPLT.DEF
DEL directory: 2.2 The database
DELET database: 5.5 How EEV works | 5.5 How EEV works
Delete amplitudes: 19.1 Parameter files | 19.2 Waveform conversion programs
Delete automatic picks: 8.6 Registering new events into
Delete event: 5.3.1 Database security | 5.5 How EEV works
Delete many events from EEV: 5.5 How EEV works
Delete many S-files: 15. Using filenr.lis, DIRF and
Delete P-phases: 19.1 Parameter files | 19.2 Waveform conversion programs
Delete part of S-file: 19.1 Parameter files | 19.2 Waveform conversion programs
Delete S-file: 8.6 Registering new events into
Delete spectra: 21.5 PLOTSPEC
Delete WA amplitudes: 21.5 PLOTSPEC
Delete waveform file: 8.6 Registering new events into | 8.11 Data manipulation commands
DELF: 15. Using filenr.lis, DIRF and
DELS: 19.1 Parameter files | 19.2 Waveform conversion programs
Depth as function of rms: 5.5 How EEV works
Depth profile: 10.1 EPIMAP
Depth, fixing: 7.1.9 Starting location
Depth, select for: 11.1.1 Input parameters for SELECT
Depth, start value: 7.1.9 Starting location
Determine crustal structure: 38.2 Grid search to obtain
Different databases: 5.5 How EEV works
Digital data: 5.2.1 System with digital data
Dimension: 3.2 Linux | 8.8 Theoretical arrival times for
Diminution function: 8.12 Spectral analysis, s(Spec)
Dip: 23.1.5 Program operation
DIRF: 15. Using filenr.lis, DIRF and
Dislin: 3.11.3 Windows
Displacement: 8.9 Instrument correction and magnitudes
Distance id: 11.1.1 Input parameters for SELECT
Distance indicator: 8.6 Registering new events into
Distance order: 8.5 Commands in MULPLT, overview
Distance range, plotting: 8.5 Commands in MULPLT, overview
Distance range, select for: 11.1.1 Input parameters for SELECT
Distance weighting: 7.1.6 Criteria for a solution
Double difference location: 38.3 NOR2DD
DR3024 and DR3016: 19.2 Waveform conversion programs
Dreger: 26.1 Moment Tensor inversion in
DRMS: 7.1.12 Preventing a local minimum
DRSEI: 19.2 Waveform conversion programs
Drum recording: 8.4 Continuous plotting of one
Duplicate event: 5.5 How EEV works
Duplicate ID: 5.3.1 Database security | 13. Inserting events into the
Duration magnitude: 7.1.18 RESET TEST parameters
E-mail: 5.5 How EEV works | 5.5 How EEV works
Earthquake catalogue: 33. Seismic risk related programs
Earthquake statistics: 17.3 STATIS, statistics of databases | 17.4 CATSTAT, statistics of catalogs
EDBPICK picking program: 19.1 Parameter files
Editor: 3.2 Linux
EDRNOR: 19.1 Parameter files
EEV: 5. Using SEISAN | 5.4 Interactive work with earthquake
EEV over several months: 5.5 How EEV works
EEV print command: 5.5 How EEV works
EEV, jump to another month and database: 5.5 How EEV works
eev.lock: 5.5 How EEV works
EEV.OUT: 5.5 How EEV works
Eliminate outlier: 7.1.7 Eliminating outliers
EMSC: 5.2.5 Getting data from USGS
End time: 3.8 Database directories for your
Environmental variable: 3.2 Linux
Epicenter area selection: 10.1 EPIMAP
EPIMAP: 3.9 Default parameter files for | 10.1 EPIMAP | 17.1 REPORT, extract data from
Epimap.are: 10.1 EPIMAP
Epimap.cor: 10.1 EPIMAP
Epimap.inp: 10.1 EPIMAP
Epimap.num: 10.1 EPIMAP
EQRISK: 33.1 Useful programs for hazard
Error estimate, HYP: 7.1.18 RESET TEST parameters
Error in S-file: 5.5 How EEV works
Errors in hypocenter: 11.1.1 Input parameters for SELECT
EUROPE.MAP: 3.9 Default parameter files for
EVANOI: 18.4 CONNOI and EVANOI, noise
Event detection: 21.6 Detection program for continuous
Event felt, select for: 11.1.1 Input parameters for SELECT
Event ID: 8.6 Registering new events into
Event type: 2.2.1 Phase data and hypocenters | 8.6 Registering new events into
Event, duplicate ID: 13. Inserting events into the
EXFILTER: 37. Explosion filtering, EXFILTER
Explosion: 5.5 How EEV works | 5.6.1 Explosions in SEISAN | 8.6 Registering new events into | 11.1.1 Input parameters for SELECT
Explosion filtering: 37. Explosion filtering, EXFILTER
Extract data in MULPLT: 8.11 Data manipulation commands
Extract from archive: 18.7 GET_ARC, extract waveform files
Extract from waveform file: 8.11 Data manipulation commands
Extract waveform files: 18.6 WAVETOOL, extract and convert | 18.9 GET_WAV, get listing of
Extracting events from the database: 12. Extracting events from the
Fault plane solution: 5.5 How EEV works | 23.7 Moment tensor inversion program,
Fault plane solution, plot: 10.3 W_EMAP, Version Windows based | 10.4 MAPG, a simple automatic
Fault plane solution, plotting several: 23.1.5 Program operation
FDSN: 19.2 Waveform conversion programs
Federation of Digital Seismographic Networks: 19.2 Waveform conversion programs
Felt information: 42. Macroseismic data in SEISAN
Felt information in S-file: A. The Nordic format
File conversion and modification programs: 19. File conversion and modification
File number: 8. Trace plotting, phase picking | 8.1 MULPLT main functions
File types: 2.3 File types used with
FILENR.LIS: 2.3 File types used with | 15. Using filenr.lis, DIRF and | 41. Instrument response
Filter and spectral analysis: 8.5 Commands in MULPLT, overview
Filter, number of poles: 8.5 Commands in MULPLT, overview
Filters in MULPLT: 8.5 Commands in MULPLT, overview
Fix filter in mulplt: 8.15 Setting MULPLT parameters, MULPLT.DEF
Fixed scaling: 8.11 Data manipulation commands
Fixing depth: 7.1.9 Starting location | 7.1.18 RESET TEST parameters | 7.1.18 RESET TEST parameters
Fixing location: 7.1.9 Starting location | 7.1.18 RESET TEST parameters
Fixing origin time: 7.1.9 Starting location | 7.1.18 RESET TEST parameters
FK analysis: 8.10 Determine azimuth of arrival | 40. FK Analysis
FOC: 23.9 FOC: Plot many FPS,
FOCMEC, making a synthetic input for testing: 23.1.6 Making synthetic amplitudes and
Focmec.eps: 23.1.5 Program operation
Focmec.inp: 23.1.5 Program operation
focmec.lst: 23.1.5 Program operation
Focmec.out: 23.1.5 Program operation
Format: 2.2.2 Waveform data and formats
Format, mulplt: 8.1 MULPLT main functions
Format, Nordic: A. The Nordic format
Format, volcanic information: 39. Analysis of volcanic earthquakes
Format, waveform: B. The SEISAN waveform file
FPFIT: 23.2 FPFIT
Gain factor: B. The SEISAN waveform file
Gap range, select for: 11.1.1 Input parameters for SELECT
Gaps in Seed: 8. Trace plotting, phase picking
GBV recorder: 19.2 Waveform conversion programs
GCF format: 2.2.2 Waveform data and formats | 19.2 Waveform conversion programs
GCF2MSD_MANY: 19.2 Waveform conversion programs
Generic Mapping Tools: 19.1 Parameter files
Geometrical spreading: 8.12 Spectral analysis, s(Spec) | 34. Magnitude and spectral relations,
Geophysical Survey of Russia: 19.1 Parameter files
GeoSig: 19.2 Waveform conversion programs
GeoSys: 19.2 Waveform conversion programs
Geotech Instruments: 19.2 Waveform conversion programs
Get data from SeisComP: 21.8 SCPNOR, getting detections from
GET_ARC: 18.7 GET_ARC, extract waveform files
get_arc.out: 18.7 GET_ARC, extract waveform files
Get_arc_channels: 18.8 GET_ARC_CHANNELS, get a listing
GET_STAT: 7.1.17 Station and model files
Get_wav.out: 18.9 GET_WAV, get listing of
GET_WEB_LOCATIONS: 5.2.5 Getting data from USGS | 5.5 How EEV works
GhostView: 3.5 Windows
GIINOR: 19.1 Parameter files
GIISEI: 19.2 Waveform conversion programs
Gisola: 19.1 Parameter files
Global event location: 7.1.4 Use of S-P and
Global phases: 8.8 Theoretical arrival times for
Global station coordinates: 19.1 Parameter files
GMAP: 5.5 How EEV works | 10.5 GMAP, Plotting epicentres with
GMAP advanced: 10.5.2 The advanced GMAP
GMAP automatic: 10.5.3 The automatic GMAP
GMAP SEISAN.DEF parameters: 3.13 Setting general SEISAN defaults,
GMAP simple: 10.5.1 The simple GMAP
GMT: 5.9 Graphics in SEISAN | 10.4 MAPG, a simple automatic | 19.1 Parameter files | 39. Analysis of volcanic earthquakes
GMT station file for kappa: 32.3 Sorting kappa values, KAPPA_SORT
GMT, export fault plane solution: 23.8 Plotting fault plane solutions
GMTXY: 5.9 Graphics in SEISAN | 17.7 LSQ, plotting a linear | 44.1 Programmers guide and some
Go to event by number or date: 5.5 How EEV works
Gographical location in S-file: 7.1.11 Putting in geographical location
Google Earth: 3.7 Google Earth | 10.3 W_EMAP, Version Windows based | 10.5 GMAP, Plotting epicentres with
Google map: 10.5 GMAP, Plotting epicentres with
Graphics: 5.9 Graphics in SEISAN | 44.1 Programmers guide and some
Graphics problem on PC: 3.5 Windows
Graphics window, size: 3.10 Color settings
Grid search for crustal structure: 38.2 Grid search to obtain
GRIDMIN: 38.2 Grid search to obtain
Gridsearch.out: 10.1 EPIMAP
Ground displacement: 34. Magnitude and spectral relations,
Ground motion seismogram: 8.9 Instrument correction and magnitudes
GSE: 2.2.2 Waveform data and formats | 41. Instrument response
GSE format: 19.1 Parameter files
GSE response file format: C.2 GSE response format
GSE to Nordic: 19.1 Parameter files
GSE2.0: 2.2.2 Waveform data and formats
GSERESP: 19.2 Waveform conversion programs
GSN: 19.2 Waveform conversion programs
GSRNOR: 19.1 Parameter files
GSRSEI: 19.2 Waveform conversion programs
GURALP: 2.2.2 Waveform data and formats | 19.2 Waveform conversion programs
GURSEI: 19.2 Waveform conversion programs
H_MODELS.PAR: 38.2 Grid search to obtain
Hard copy files: 3.2 Linux
Hardcopies: 8.1 MULPLT main functions
Hardcopy in single trace mode: 8.5 Commands in MULPLT, overview
Hardwired constants: 8.15 Setting MULPLT parameters, MULPLT.DEF
HARNOR: 19.1 Parameter files
Harvard moment tensor solution: 19.1 Parameter files
HASH: 23.3 HASH
Header times: 18.16 WAVFIX, fixing time correction
Helmberger format: 2.2.2 Waveform data and formats
Herkij_distance: 3.13 Setting general SEISAN defaults, | 8.15 Setting MULPLT parameters, MULPLT.DEF
Herrmann: 5.1.2 Source parameters | 29. Making synthetic seismograms
HERSEI: 29. Making synthetic seismograms
High accuracy: 3.13 Setting general SEISAN defaults, | 5.3.4 High accuracy in SEISAN
High pass filter: 8.5 Commands in MULPLT, overview
HINNOR: 19.1 Parameter files
HINOR: 19.1 Parameter files
Hints on modelling: 29. Making synthetic seismograms
Histogram, plot: 17.7 LSQ, plotting a linear
Histogram, stress drop: 11.2 Getstressdrop
Homepage: 1.3 Information about SEISAN online
Horizontal component: 8.10 Determine azimuth of arrival
HYP output in S-file: 7.1.16 Running HYP
HYP problem, azimuth: 7.1.2 Azimuth and single station
HYP, do not locate: 7.1.4 Use of S-P and
Hyp.cat: 14. Updating final locations in
HYP_COUNT_PHASES: 7.1.19 HYP output | 38.2 Grid search to obtain
HYP_ISC: 7.2 The Hypoinverse program, HYPINV
HYPINV: 7.2 The Hypoinverse program, HYPINV
HYPNOR: 19.1 Parameter files
HYPO @ style weight: 8.7 Phase picking, amplitude, weight
HYPO71: 5.5 How EEV works | 7.1.17 Station and model files
HYPO71 files to Nordic files: 19.1 Parameter files
Hypocenter program: 7.1 The hypocenter program, HYP
Hypocenter, add to S-file: 5.5 How EEV works
Hypocenters, more than one: 5.6 Working with catalogs
HYPODD: 38.3 NOR2DD | 38.4 hypoDD | 43. Correlation of waveform signals,
Hypoinverse: 5.5 How EEV works | 7.2 The Hypoinverse program, HYPINV
Hypoinverse format: 19.1 Parameter files
Hypoinverse to Nordic: 19.1 Parameter files
Hypsum.out: 7.1.19 HYP output
IASP: 30.1 IASPEI travel time software, | 30.5 IASP, travel times for
iasp.inp: 30.1 IASPEI travel time software,
Iasp.out: 30.5 IASP, travel times for
IASP91.HED: 2.5 Moving data between Sun, | 30.1 IASPEI travel time software,
IASPEI phases: 7.1.1 Phases | 7.1.18 RESET TEST parameters
IASPEI Seismic Format: 19.1 Parameter files
IASPEI software library: 19.2 Waveform conversion programs
IASPEI91: 2.5 Moving data between Sun, | 7.1.5 Global event location | 7.1.18 RESET TEST parameters | 8.8 Theoretical arrival times for
Iceland: 19.2 Waveform conversion programs
ID-line: 2.2.1 Phase data and hypocenters | 8.6 Registering new events into
Identifying seismic phases: 8.8 Theoretical arrival times for
iLoc: 7.3 Plugin for the iLoc
IMS to Nordic: 19.1 Parameter files
IMS1.0: 19.1 Parameter files
IMSNOR: 5.2.4 Getting data from ISC | 19.1 Parameter files
Index file: 2.3 File types used with | 5.5 How EEV works | 5.5 How EEV works | 5.5 How EEV works | 5.5 How EEV works | 5.8 General Work with SEISAN | 11.1.3 Historical data
Index.codaq: 11.1.1 Input parameters for SELECT | 27.1.1 Input
Index.out: 11.1.3 Historical data
Indexeev.out: 5.5 How EEV works | 27.1.1 Input
INPUTEPI: 5.5 How EEV works | 8.8 Theoretical arrival times for
INPUTONE: 5.5 How EEV works
INPUTONE.: 8.8 Theoretical arrival times for
Inserting events in the database: 13. Inserting events into the
instrument correction: 8.5 Commands in MULPLT, overview
Instrument response: 5.2.2 Instrument response | 41.1 Create instrument response files,
Interactive work: 5.4 Interactive work with earthquake
International Monitoring System: 19.1 Parameter files
Inversion: 38.1 VELEST
Invertratio: 38.1 VELEST
INVRAD: 5.5 How EEV works | 23.7 Moment tensor inversion program, | 23.7 Moment tensor inversion program,
IRIS: 19.2 Waveform conversion programs | 19.2 Waveform conversion programs | 19.2 Waveform conversion programs | 19.2 Waveform conversion programs
IRISEI: 19.2 Waveform conversion programs
ISC: 5.2.4 Getting data from ISC | 7.1.5 Global event location | 19.1 Parameter files | 19.1 Parameter files | 19.1 Parameter files | 19.1 Parameter files
ISC data to Nordic: 19.1 Parameter files
ISC location: 7.2 The Hypoinverse program, HYPINV
ISC to Nordic: 19.1 Parameter files | 19.1 Parameter files
Iscloc.def: 7.2 The Hypoinverse program, HYPINV
ISCNOR: 19.1 Parameter files
ISCSTA: 7.1.17 Station and model files | 19.1 Parameter files
ISF format: 19.1 Parameter files
ISF to Nordic: 19.1 Parameter files
ISFNOR: 19.1 Parameter files
ISMSEI: 19.2 Waveform conversion programs
Isola: 19.1 Parameter files
Israel: 19.1 Parameter files | 19.2 Waveform conversion programs
Java: 44.1 Programmers guide and some | 44.1 Programmers guide and some
JHD: 38.1 VELEST | 38.1 VELEST
Joint hypocenter determination: 38.1 VELEST | 38.1 VELEST
K2SEI: 19.2 Waveform conversion programs
KACSEI: 19.2 Waveform conversion programs
kappa: 32.2 Calculating kappa, KAPPA
Kappa, determine: 32.1 Spec program
Kappa, sorting: 32.3 Sorting kappa values, KAPPA_SORT
Kappa_sort: 32.3 Sorting kappa values, KAPPA_SORT
Key, weight: 8.7 Phase picking, amplitude, weight
Kinemetrics: 19.1 Parameter files | 19.2 Waveform conversion programs | 19.2 Waveform conversion programs
KINSEI: 19.2 Waveform conversion programs
KW2ASC: 19.2 Waveform conversion programs
Least squares: 17.7 LSQ, plotting a linear
Lennartz: 19.2 Waveform conversion programs | 19.2 Waveform conversion programs
LENPCQ: 19.2 Waveform conversion programs
LENSEI: 19.2 Waveform conversion programs
Lg phase: 7.1.1 Phases
Lg phase velocity: 7.1.18 RESET TEST parameters
Linux file structure: B. The SEISAN waveform file
LIST file in MULPLTp: 8.2 Use of MULPLT from
Local database, update: 14. Updating final locations in
Local index file: 5.5 How EEV works | 5.8 General Work with SEISAN
Local magnitude: 7.1.3 Magnitudes | 11.1.1 Input parameters for SELECT | 34. Magnitude and spectral relations,
Local magnitude parameters: 7.1.18 RESET TEST parameters
Local minimum: 7.1.12 Preventing a local minimum
LOCAL_CAL: 3.2 Linux | 41. Instrument response
LOCALITY in S-file: 7.1.11 Putting in geographical location | A. The Nordic format
Locate event: 5.5 How EEV works
Locate event in MULPLT: 8.8 Theoretical arrival times for
Locate two events together: 5.5 How EEV works
Locate with Bullen table: 7.2 The Hypoinverse program, HYPINV
Locate with ISC program: 7.2 The Hypoinverse program, HYPINV
Location code: 2.2.2 Waveform data and formats | 2.2.2 Waveform data and formats | 7.1.17 Station and model files | 19.2 Waveform conversion programs
Location code in HYP: 7.1.19 HYP output
Location code in MULPLT: 8.7 Phase picking, amplitude, weight
Location programs: 7. Hypocenter location programs: HYPOCENTER,
Location with one station: 7.1.2 Azimuth and single station
Location, max distance: 7.1.18 RESET TEST parameters
Location, min # of stations: 7.1.18 RESET TEST parameters
LOG directory: 2.2.1 Phase data and hypocenters
Log file: 14. Updating final locations in | 14. Updating final locations in
Logging: 5.10 Logging in SEISAN | 8.4 Continuous plotting of one
Lomax: 10.6 SEIS2VIEWER, Plotting hypocentres in
Long phase names: 7.1.5 Global event location | 8.8 Theoretical arrival times for | A. The Nordic format
Low pass filter: 8.5 Commands in MULPLT, overview
Lower bound magnitude: 33.1 Useful programs for hazard
LSQ: 17.7 LSQ, plotting a linear | 44.1 Programmers guide and some
Lsq.eps: 17.7 LSQ, plotting a linear
Lsq_gmt.out: 17.7 LSQ, plotting a linear
M88SEI: 19.2 Waveform conversion programs
MacOSX: 3.3 MacOSX | 3.11.2 MacOSX
MACROMAP: 42. Macroseismic data in SEISAN
Macromap.ps: 42. Macroseismic data in SEISAN
Macroseismic information: 5.5 How EEV works | 42. Macroseismic data in SEISAN
MAG: 8.12 Spectral analysis, s(Spec) | 17.1 REPORT, extract data from | 34. Magnitude and spectral relations,
MAG2: 35. ML inversion, MAG2
Mag_amp.out: 34. Magnitude and spectral relations,
Mag_coda.out: 34. Magnitude and spectral relations,
Mag_mag.out: 34. Magnitude and spectral relations,
Mag_new.out: 34. Magnitude and spectral relations,
Mag_newa.out: 34. Magnitude and spectral relations,
Mag_spec.out: 34. Magnitude and spectral relations,
Magnitude: 5.1.4 Magnitudes in SEISAN | 7.1.3 Magnitudes | 7.1.18 RESET TEST parameters | 7.1.18 RESET TEST parameters | 34. Magnitude and spectral relations,
Magnitude conversion: 34. Magnitude and spectral relations,
Magnitude correction: 7.1.10 Station travel time delay | 7.1.19 HYP output
Magnitude in epimap: 10.1 EPIMAP
Magnitude order: 17.1 REPORT, extract data from
Magnitude parameters: 5.1.4 Magnitudes in SEISAN
Magnitude relation: 34. Magnitude and spectral relations,
Magnitude relations: 5.1.4 Magnitudes in SEISAN
Magnitude residuals: 7.1.17 Station and model files
Magnitude storage: 5.1.4 Magnitudes in SEISAN
Magnitude weight: 7.1.3 Magnitudes | 7.1.17 Station and model files
Magnitude, fixed: 7.1.3 Magnitudes
Magnitude, move from 2 header to first: 17.2 NORHEAD, making a compact
Magnitude, plotting: 5.1.4 Magnitudes in SEISAN
Magnitude, select for: 11.1.1 Input parameters for SELECT
Magnitudes without type: 11.1.1 Input parameters for SELECT
Magnitudes, more than 3: 5.6 Working with catalogs | 7.1.3 Magnitudes
MAGRES: 36. MAGRES, calculate average magnitude
MAGSTAT: 35.1 MAGSTAT
Mailing lists: 1.3 Information about SEISAN online
Makefile: 3.11 Compiling SEISAN programs
MAKEREA: 3.8 Database directories for your | 18.2 AUTOREG, automatic registering of
Manipulting magnitudes: 5.1.4 Magnitudes in SEISAN
Map files: 3.9 Default parameter files for | 19.1 Parameter files
MAPG: 5.5 How EEV works | 10.4 MAPG, a simple automatic | 10.4 MAPG, a simple automatic
MARS88: 19.2 Waveform conversion programs
Maximum expected magnitude: 33.1 Useful programs for hazard
Maximum likelihood: 17.7 LSQ, plotting a linear
Maximum likelihood b-value: 22. Calculating b-value, BVALUE
Maximum no of iterations: 7.1.18 RESET TEST parameters
Maximum number of traces: 3.2 Linux
Maximum observed magnitude: 33.1 Useful programs for hazard
mb: 7.1.3 Magnitudes | 8.9 Instrument correction and magnitudes | 11.1.1 Input parameters for SELECT | 11.1.1 Input parameters for SELECT
Mc: 7.1.3 Magnitudes | 34. Magnitude and spectral relations, | 34. Magnitude and spectral relations,
Memory for waveform data: 8. Trace plotting, phase picking | 8. Trace plotting, phase picking
Merge catalogs: 5.6 Working with catalogs
Merge events near in time: 28.1 Merge events near in
Merge events near in time and distance: 28.3 Merge events near in
Merge waveform files: 8.11 Data manipulation commands | 18.14 SEISEI, splitting and merging
MERGE_S: 28.2 Merge events near in
MERGE_WAVEFORM: 8.11 Data manipulation commands
Merging files from different networks: 18.14 SEISEI, splitting and merging
MiniSeed reading: 8. Trace plotting, phase picking
Ml: 7.1.3 Magnitudes | 7.1.18 RESET TEST parameters | 34. Magnitude and spectral relations, | 34. Magnitude and spectral relations,
Model indicator: 8.6 Registering new events into
MODEL.DEF: 7.1.13 Alternative model
Modelling parameters, Q: 7.1.17 Station and model files
Modes of operation: 5. Using SEISAN
Moho: 7.1.17 Station and model files | 7.1.18 RESET TEST parameters
Moment: 8.12 Spectral analysis, s(Spec) | 32.1 Spec program
Moment magnitude: 7.1.3 Magnitudes
Moment tensor inversion: 23.7 Moment tensor inversion program, | 26.1 Moment Tensor inversion in
Moment tensor, plotting: 23.8 Plotting fault plane solutions
Monthly epicenter files: 14. Updating final locations in
Monthly number of events: 17.4 CATSTAT, statistics of catalogs
MOPAD: 23.8 Plotting fault plane solutions | 23.11 MOPAD, plotting a moment
Mouse, test: 44.1 Programmers guide and some
Move magnitudes in S-file: 5.1.4 Magnitudes in SEISAN
Moving files between Sun and PC: 2.5 Moving data between Sun,
Ms: 7.1.3 Magnitudes | 8.9 Instrument correction and magnitudes | 11.1.1 Input parameters for SELECT | 11.1.1 Input parameters for SELECT
MSCUT: 18.9 GET_WAV, get listing of
MULPLT: 3.9 Default parameter files for | 5.2.1 System with digital data | 5.5 How EEV works | 8. Trace plotting, phase picking
MULPLT WAV OUT FORMAT: 8.15 Setting MULPLT parameters, MULPLT.DEF
MULPLT, automatic spectrum: 8.12 Spectral analysis, s(Spec)
Mulplt, format: 8.1 MULPLT main functions
MULPLT, LIST file: 8.2 Use of MULPLT from
Mulplt, option cont: 8.5 Commands in MULPLT, overview
MULPLT, output waveform format: 8.11 Data manipulation commands
MULPLT, plot distance: 8.5 Commands in MULPLT, overview
MULPLT, plotting many files from EEV: 8.2 Use of MULPLT from
MULPLT, plotting station in a max distance: 8.5 Commands in MULPLT, overview
MULPLT.DEF: 3.9 Default parameter files for | 8.5 Commands in MULPLT, overview | 8.15 Setting MULPLT parameters, MULPLT.DEF
MULPLT.DEF in SE: 4. Seisan Explorer User Guide
Mulplt.ext: 8.4 Continuous plotting of one
MULPLT.OUT: 8.12 Spectral analysis, s(Spec)
MULPLT.WAV: 8.11 Data manipulation commands
MULPLT: Orientation code: 8.1 MULPLT main functions
Multiple event S-file: 13. Inserting events into the
Multiple users on Linux/Unix: 3.2 Linux
Multiplexed files: 5.2.1 System with digital data
Multitrace mode: 8.1 MULPLT main functions
Mw: 7.1.3 Magnitudes | 8.12 Spectral analysis, s(Spec)
Nakamura: 32.1 Spec program
Name of the local Index file: 5.8 General Work with SEISAN
Nanometer: 7.1.3 Magnitudes | 8.9 Instrument correction and magnitudes
Nanometrics: 19.2 Waveform conversion programs
NANSEI: 19.2 Waveform conversion programs
NDC: 19.1 Parameter files
Nearest station: 7.1.9 Starting location
NEIC: 19.2 Waveform conversion programs
NEISEI: 19.2 Waveform conversion programs
Netdet: 21.7 NETDET, event detection and
Network code: 2.2.2 Waveform data and formats | 7.1.17 Station and model files | 19.2 Waveform conversion programs
Network code in HYP: 7.1.19 HYP output
network code in MULPLT: 8.7 Phase picking, amplitude, weight
Network code, put in waveform file: 19.2 Waveform conversion programs
New events into SEISAN: 8.6 Registering new events into
NEWEVE: 5.2.3 System without digital data
Noise spectrum: 8.12 Spectral analysis, s(Spec) | 8.12 Spectral analysis, s(Spec) | 32.1 Spec program | 32.1 Spec program
Noise study: 8.12 Spectral analysis, s(Spec) | 32.1 Spec program
NonLinLoc: 7.4 Plugin for the NonLinLoc
NOR2DD: 38.3 NOR2DD
NOR2NOR2: 19.1 Parameter files
NOR2QML: 19.1 Parameter files | 19.1 Parameter files
NORCSV: 19.1 Parameter files
Nordic format: 2.2.1 Phase data and hypocenters | 2.3 File types used with | A. The Nordic format
Nordic to HYPO71: 19.1 Parameter files
Nordic to Nordic2: 1.2.1 A new Nordic Format,
Nordic2: 1.2.1 A new Nordic Format,
NORGSE: 19.1 Parameter files
NORHEAD: 5.1.4 Magnitudes in SEISAN | 17.2 NORHEAD, making a compact
NORHIN: 19.1 Parameter files
Norhtrhine-Westphalia: 19.2 Waveform conversion programs
NORHYP: 19.1 Parameter files
NORIMS: 5.2.4 Getting data from ISC | 19.1 Parameter files
Normalization constant: 41.1 Create instrument response files,
NORQML: 19.1.1 Nordic to QuakeML converter
NRWSEI: 19.2 Waveform conversion programs
Number of poles, filter: 8.5 Commands in MULPLT, overview
Number smaller then 1.0: 2.2.2 Waveform data and formats
ObsPy: 3.6 Python
Operator ID: 14. Updating final locations in
Order of magnitudes: 17.1 REPORT, extract data from
ORFEUS: 19.2 Waveform conversion programs
Orientation code in MULPLT: 8.1 MULPLT main functions
OS9SEI: 19.2 Waveform conversion programs
Other databases: 2.2.1 Phase data and hypocenters
Outlier in HYP: 7.1.7 Eliminating outliers
Output, corrected trace: 8.11 Data manipulation commands
Overlay channels in MULPLT: 8.11 Data manipulation commands
P phase: 7.1.1 Phases
P-phase picking: 21.3 AUTOSIG
P_ALIGN: 18.15 P_ALIGN: Time shifting waveform
Parameter files: 3.9 Default parameter files for | 3.10 Color settings
PCEQ format: 19.2 Waveform conversion programs
PCK files: 19.1 Parameter files
PCQSEI: 19.2 Waveform conversion programs
PCSUDS: 19.2 Waveform conversion programs
PDAS files to SEISAN: 19.2 Waveform conversion programs
PDASEI: 19.2 Waveform conversion programs
PDE: 19.1 Parameter files
PDE bulletin file: 19.1 Parameter files
PDE e-mail: 19.1 Parameter files
PDENOR: 19.1 Parameter files
PDF files: 5.5 How EEV works
Peak ground acceleration: 33.1 Useful programs for hazard
Peak ground velocity: 33.1 Useful programs for hazard
Period: 8.7 Phase picking, amplitude, weight
Period for amplitude: 5.1.4 Magnitudes in SEISAN
Perl: 44.1 Programmers guide and some
Peterson noise model: 8.12 Spectral analysis, s(Spec) | 32.1 Spec program
PFIT: 5.5 How EEV works
Pg phase: 7.1.1 Phases
PGA: 33.1 Useful programs for hazard
Phase mouse key: 8.15 Setting MULPLT parameters, MULPLT.DEF
Phase name: 8.8 Theoretical arrival times for | A. The Nordic format
Phase name key: 8.15 Setting MULPLT parameters, MULPLT.DEF
Phase picking: 5.1.1 Routine processing | 8. Trace plotting, phase picking | 8.7 Phase picking, amplitude, weight
Phase picking mode: 8.5 Commands in MULPLT, overview
Phase reading indicator: 8.1 MULPLT main functions
Phase weight key: 8.15 Setting MULPLT parameters, MULPLT.DEF
Phase with amplitude: 8.7 Phase picking, amplitude, weight
Phase, compare theoretical: 5.5 How EEV works
Phase, select in data base: 11.1.1 Input parameters for SELECT
Phases used by HYP, statistics: 38.2 Grid search to obtain
PIC directory: 5.9 Graphics in SEISAN
Picking phases, use of filters: 8.5 Commands in MULPLT, overview
Pictures: 5.5 How EEV works
Pictures, plotting: 5.9 Graphics in SEISAN
PINV: 23.4 PINV
PITSA: 19.2 Waveform conversion programs
Place names: 10.1 EPIMAP
Plot a curve: 17.7 LSQ, plotting a linear | 17.7 LSQ, plotting a linear
Plot a histogram: 17.7 LSQ, plotting a linear
Plot contours: 10.1 EPIMAP
Plot distance in MULPLT: 8.5 Commands in MULPLT, overview
Plot fault plane solutions: 10.4 MAPG, a simple automatic
Plot PDF file: 3.13 Setting general SEISAN defaults,
Plot PDF files: 5.5 How EEV works
Plot picture: 3.13 Setting general SEISAN defaults,
Plot picture files: 5.5 How EEV works
PLOTFOC: 23.10 PLOTFOC, plotting fault plane
PLOTPOLARITY: 23.1.3 Polarity selection | 24. Quick plotting and changing
PLOTRATIO: 25.1 Plotting amplitude ratios, PLOTRATIO
PLOTSPEC: 21.5 PLOTSPEC
Plotting a moment tensor solution: 23.8 Plotting fault plane solutions
Plotting continuous data: 8.5 Commands in MULPLT, overview
Plotting epicenters: 10.3 W_EMAP, Version Windows based | 10.4 MAPG, a simple automatic
Plotting fault plane solutions: 23.8 Plotting fault plane solutions
Plotting pictures: 5.9 Graphics in SEISAN
Plotting place names: 10.1 EPIMAP
Plotting rays: 10.2 MAP, running EPIMAP without | 10.2 MAP, running EPIMAP without | 10.4 MAPG, a simple automatic
Plotting response files: 41. Instrument response
Plotting traces: 5.5 How EEV works
Pn phase: 7.1.1 Phases
PNG file: 5.9 Graphics in SEISAN
Polarity: 8.5 Commands in MULPLT, overview | 8.7 Phase picking, amplitude, weight | 23.1 FOCMEC
Polarity change: 18.16 WAVFIX, fixing time correction
Polarity reading, automatic: 23.1.3 Polarity selection
Polarity, check: 23.1.3 Polarity selection
Polarity, correct: 18.16 WAVFIX, fixing time correction
Polarity, realtive weight: 23.1.5 Program operation
Polarity, select for: 11.1.1 Input parameters for SELECT
Poles and zeros: 19.2 Waveform conversion programs | 41.1 Create instrument response files, | B. The SEISAN waveform file
Polygon: 37. Explosion filtering, EXFILTER
Polygon, select: 11.1.1 Input parameters for SELECT
Polygon, select in: 10.1 EPIMAP
Postal code: 42. Macroseismic data in SEISAN
Postscript: 3.2 Linux | 8.1 MULPLT main functions
Power spectral density: 32.1 Spec program
Power spectrum: 8.12 Spectral analysis, s(Spec) | 8.12 Spectral analysis, s(Spec)
PR_RESP: 41. Instrument response | 41.1 Create instrument response files,
Preprocessing of data: 8.6 Registering new events into | 8.15 Setting MULPLT parameters, MULPLT.DEF
Presp: 41. Instrument response
Presp.eps: 41.1 Create instrument response files,
Print S-file: 5.5 How EEV works
Print.out file: 7.1.19 HYP output
Printer: 3.2 Linux
Printing: 5.7 Printing
Printing on PC: 3.5 Windows
Probabilistic seismic hazard analysis: 33. Seismic risk related programs
Probable explosion: 11.1.1 Input parameters for SELECT
Problem HYP, location: 7.1.20 Problems
Problem HYP, Moho not found: 7.1.17 Station and model files
Problem MULPLT extract: 18.6 WAVETOOL, extract and convert
Problem WAVETOOL, zero output: 18.6 WAVETOOL, extract and convert
Problem, backup files in EEV: 5.5 How EEV works
Problem, Bouchon: 29. Making synthetic seismograms
Problem, EPIMAP: 10.1 EPIMAP
Problem, file name length: 2.3 File types used with
Problem, filenr.lis: 15. Using filenr.lis, DIRF and
Problem, HYP: 7.1.6 Criteria for a solution | 7.1.13 Alternative model | 7.1.16 Running HYP
Problem, instrument correction: 8.9 Instrument correction and magnitudes
Problem, MULPLT area: 10.1 EPIMAP
Problem, MULPLT spectra: 8.12 Spectral analysis, s(Spec)
Problem, no location: 7.1.4 Use of S-P and
Problem, PC: 3.5 Windows
Problem, picking amplitude: 8.7 Phase picking, amplitude, weight
Problem, q-correction: 8.12 Spectral analysis, s(Spec)
Problem, reading synthetic phase: 8.8 Theoretical arrival times for
Problem, RESP: 41.1 Create instrument response files,
Problem, rotation: 8.12 Spectral analysis, s(Spec)
Problem, Rotation and removing response: 8.10 Determine azimuth of arrival
Problem, select: 11.1.4 Select with input from
Problem, UPD: 14. Updating final locations in
Problem, UPDATE: 14. Updating final locations in
Problem, VELEST: 38.1 VELEST
Problem: Do not find waveform file: 2.2.2 Waveform data and formats
Problem: Response file naming: 41.1 Create instrument response files,
Problem: S-file changed name: 3.2 Linux
Problems in SEISAN: 5.11 Known problems in SEISAN
Profile, hypocenters: 10.1 EPIMAP
Profile.num: 10.1 EPIMAP | 10.1 EPIMAP
PSD: 18.4 CONNOI and EVANOI, noise
PSNSEI: 19.2 Waveform conversion programs
Public Seismic Network: 19.2 Waveform conversion programs
Python: 3.6 Python
Q as a function of depth: 8.12 Spectral analysis, s(Spec)
Q correction in SEISAN: 8.12 Spectral analysis, s(Spec)
Q, determine by spectral fitting: 8.12 Spectral analysis, s(Spec)
QMLNOR: 19.1.1 Nordic to QuakeML converter
QNX: 19.2 Waveform conversion programs
QNXSEI: 19.2 Waveform conversion programs
Qstat: 27.4 Program QSTAT
QuakeMl: 19.1 Parameter files | 19.1 Parameter files | 19.1.1 Nordic to QuakeML converter
Quality factor: 27. Calculation of coda q,
Quality factor, correct for: 32.1 Spec program
Quality factor, determine by spectra: 32.1 Spec program
Quality factor, determine with coda: 27.1 Codaq
Quanterra: 19.2 Waveform conversion programs
Rake: 23.1.5 Program operation
Raster file: 10.5.2 The advanced GMAP
Rays, plotting: 10.2 MAP, running EPIMAP without | 10.2 MAP, running EPIMAP without | 10.4 MAPG, a simple automatic
RDSEED: 5.2.1 System with digital data | 18.10 RDSEED_MANY, chop up seed | 19.2 Waveform conversion programs | 41. Instrument response
RDSEED.SEISAN.DEF: 5.2.1 System with digital data
RDSEED.STATION0.HYP: 5.2.1 System with digital data
RDSEED2SEISAN: 5.2.1 System with digital data
REA directory: 2.2.1 Phase data and hypocenters
REA.LOG: 5.3.2 Data base tools, content
Read S-file: 44.1 Programmers guide and some
Recover files from the DELET database: 5.5 How EEV works
Reference station: 5.5 How EEV works
REFTEK: 19.2 Waveform conversion programs | 19.2 Waveform conversion programs
REG_KEEP_AUTO: 8.6 Registering new events into
Register event: 18.2 AUTOREG, automatic registering of | 18.2 AUTOREG, automatic registering of
Register event, keep phases: 3.13 Setting general SEISAN defaults,
Register run process: 3.13 Setting general SEISAN defaults,
Registration: 8.1 MULPLT main functions
Registration and preprocessing: 8.6 Registering new events into
Relative spectra: 32.1 Spec program
Relative weight of polarity: 23.1.5 Program operation
Remove bad characters: 2.3 File types used with
REMOVE_TAB: 2.3 File types used with
Rename event type: 5.5 How EEV works
Reorder Hypocenters: 19.1 Parameter files
REPORT: 8.12 Spectral analysis, s(Spec) | 17.1 REPORT, extract data from
Report.inp: 17.1 REPORT, extract data from
Report.out: 17.1 REPORT, extract data from
Report_n.out: 17.1 REPORT, extract data from
Reporting agency: 7.1.17 Station and model files
RESET TEST: 7.1.18 RESET TEST parameters
Residual weight: 7.1.18 RESET TEST parameters
Resolution: 8.15 Setting MULPLT parameters, MULPLT.DEF
RESP: 5.2.2 Instrument response | 41. Instrument response | 41.1 Create instrument response files,
RESP response file format: C.4 RESP format
Response file: 2.3 File types used with | 8.9 Instrument correction and magnitudes | 41. Instrument response | B. The SEISAN waveform file
Response in header: B. The SEISAN waveform file
Response removal: 32.1 Spec program
Response, from where: 8.9 Instrument correction and magnitudes
Response, GSE: 19.2 Waveform conversion programs
Response, show curves: 8.9 Instrument correction and magnitudes
Rg phase velocity: 7.1.18 RESET TEST parameters
RMS as a function of depth: 5.5 How EEV works
RMSDEP: 5.5 How EEV works
Rotated seismograms: 8.10 Determine azimuth of arrival
RSAM: 18.6 WAVETOOL, extract and convert
RSASEI: 19.2 Waveform conversion programs
RT_SEIS: 19.2 Waveform conversion programs
RTU.INI: 19.2 Waveform conversion programs
S phase: 7.1.1 Phases
S-file: 2.2.1 Phase data and hypocenters | 2.3 File types used with | 5. Using SEISAN | 5.2 Getting data into the | 12. Extracting events from the
S-file changed name: 3.2 Linux
S-file, error: 5.5 How EEV works
S-file, parameters: 44.1 Programmers guide and some
S-file, print: 5.5 How EEV works
S-file, update: 5.5 How EEV works
S-files, collecting: 12. Extracting events from the
S-P and L-S differences: 7.1.3 Magnitudes
SAC: 2.2.2 Waveform data and formats | 20. Signal processing programs
SAC response: 41. Instrument response
SAC response file format: C.3 SAC format
SAC response file, GSR: 19.1 Parameter files
SACLIB: 3.2 Linux
SAMPLE_GRAPHICS: 44.1 Programmers guide and some
SAMPLE_INSTRUMENT_CORRECTION: 44.1 Programmers guide and some
SAMPLE_READ_ARC: 44.1 Programmers guide and some
SAMPLE_READ_CONT: 44.1 Programmers guide and some
SAMPLE_READ_WAV: 44.1 Programmers guide and some
SAMPLE_READ_WRITE_SEED: 44.1 Programmers guide and some
SAMPLE_UDP_MESSAGE: 44.1 Programmers guide and some
SAMPLE_WRITE_WAV: 44.1 Programmers guide and some
Scpnor: 21.8 SCPNOR, getting detections from
SE local data base, waveform files: 4. Seisan Explorer User Guide
SE working directory: 4. Seisan Explorer User Guide
Search: 5.5 How EEV works
Search by day and hour: 5.5 How EEV works
Searching in the data base: 11. Searching in the database,
SEED: 2.2.2 Waveform data and formats | 19.2 Waveform conversion programs
SEED data, time gap: 8.1 MULPLT main functions
Seed reading: 8. Trace plotting, phase picking
SEED response: 41. Instrument response
SEED, extract data: 18.10 RDSEED_MANY, chop up seed
SEI2PSXY: 19.2 Waveform conversion programs
SEIASC: 18.11 SEIASC, converting SEISAN waveform
SEIASC format: B. The SEISAN waveform file
SEIBINASC: 44.1 Programmers guide and some
SEICUT: 18.12 SEICUT, extract part of
SEIDEL: 18.13 SEIDEL, splitting a SEISAN | 18.14 SEISEI, splitting and merging
Seidim.inc: 3.2 Linux
SEIGMT: 19.1 Parameter files
SEIM88A: 19.2 Waveform conversion programs
SEIPITSA: 19.2 Waveform conversion programs
SEIS2VIEWER: 10.6 SEIS2VIEWER, Plotting hypocentres in
SEISAF: 19.2 Waveform conversion programs
SEISAN ASCII format: B. The SEISAN waveform file
SEISAN continous data: 2.2.3 Continuous waveform data
Seisan Explorer User Guide: 4. Seisan Explorer User Guide
Seisan extension: 3.2 Linux
SEISAN waveform file: 2.3 File types used with
SEISAN waveform files to or from ascii: 18.11 SEIASC, converting SEISAN waveform
SEISAN.bash: 3.2 Linux
SEISAN.csh: 3.2 Linux
SEISAN.DEF: 3.13 Setting general SEISAN defaults,
SEISAN.DEF in SE: 4. Seisan Explorer User Guide
SEISAN2MSEED: 19.2 Waveform conversion programs
SEISAN_EDITOR.: 3.2 Linux
SEISAN_TOP: 3.2 Linux | 3.2 Linux
SeisanExplorer source code: 3.11 Compiling SEISAN programs
SEISANPR: 3.5 Windows
SEISARCH: 3.2 Linux
SeiscomP archive data: 2.2.3 Continuous waveform data
SeisComP, get data: 21.8 SCPNOR, getting detections from
SEISEI: 18.14 SEISEI, splitting and merging
SeisGram: 19.2 Waveform conversion programs
SEISLOG: 19.2 Waveform conversion programs | 19.2 Waveform conversion programs
Seismic design spectra: 33. Seismic risk related programs
Seismic hazard analysis: 33.1 Useful programs for hazard
Seismic moment: 5.1.4 Magnitudes in SEISAN
Seismic moment, average: 7.1.19 HYP output
Seismic noise: 8.12 Spectral analysis, s(Spec) | 8.12 Spectral analysis, s(Spec)
Seismic risk related programs: 33. Seismic risk related programs
Seismic source zones: 33. Seismic risk related programs
SeismityViewer: 19.1 Parameter files
Seismogram: 8.4 Continuous plotting of one | 8.4 Continuous plotting of one
Seismometer constants: 41.1 Create instrument response files,
SEISNET: 8.6 Registering new events into
SELECT: 2.2.1 Phase data and hypocenters | 5.1.4 Magnitudes in SEISAN | 5.5 How EEV works | 11. Searching in the database,
Select epicenters in an area: 10.1 EPIMAP
Select events from database: 5.5 How EEV works
Select for phase: 11.1.1 Input parameters for SELECT
select.inp: 11.1.3 Historical data
Select.out: 11.1 SELECT
Selection in polygon: 10.1 EPIMAP
Selection on errors: 11.1.1 Input parameters for SELECT
SELMAP: 10.6 SEIS2VIEWER, Plotting hypocentres in | 19.1 Parameter files
Serial number, instrument: 19.2 Waveform conversion programs
SESAME: 19.2 Waveform conversion programs
SFORMAT: 44.1 Programmers guide and some
Sg phase: 7.1.1 Phases
SGRSEI: 19.2 Waveform conversion programs
Short user guide: 5.1 Short user guide
Signal duration: 21.3 AUTOSIG
Signal, damped: 44.1 Programmers guide and some
Signal.out: 8.11 Data manipulation commands
SILSEI: 19.2 Waveform conversion programs
Simulate drum recording: 8.4 Continuous plotting of one
Single channel files: 18.14 SEISEI, splitting and merging
Single files: 2.2.1 Phase data and hypocenters
Single station location: 7.1.2 Azimuth and single station
Single trace mode: 8.5 Commands in MULPLT, overview
Sismalp: 19.2 Waveform conversion programs
SISSEI: 19.2 Waveform conversion programs
Site effects: 33. Seismic risk related programs
Size of graphics window: 3.10 Color settings
Small real numbers in waveform files: 2.2.2 Waveform data and formats
Sn phase: 7.1.1 Phases
Soil amplification: 32.1 Spec program
Sonic boom: 11.1.1 Input parameters for SELECT
Sorting in MULPLT: 26.1 Moment Tensor inversion in
Source displacement spectrum: 8.12 Spectral analysis, s(Spec)
Source parameters: 8.12 Spectral analysis, s(Spec)
Source radius: 8.12 Spectral analysis, s(Spec)
Source time function: 29. Making synthetic seismograms
Spain: 19.1 Parameter files | 19.2 Waveform conversion programs
SPEC: 32. Calculating spectra and attenuation
Spec.out: 8.12 Spectral analysis, s(Spec)
Spec.par: 32.1 Spec program
spec_amp.out: 32.1 Spec program
spec_kappa_z: 32.3 Sorting kappa values, KAPPA_SORT
Spectral analysis: 32. Calculating spectra and attenuation
Spectral fitting: 8.12 Spectral analysis, s(Spec)
Spectral model: 8.12 Spectral analysis, s(Spec)
Spectral output file: 32.1 Spec program
Spectral parameters: 8.15 Setting MULPLT parameters, MULPLT.DEF | 17.1 REPORT, extract data from | 21.3 AUTOSIG | 32.1 Spec program | 34. Magnitude and spectral relations,
Spectral parameters, search for: 11.1.2 Option for codaq
Spectral parameters, update: 14. Updating final locations in
Spectral ratio: 32.1 Spec program
Spectrogram: 8.13 Spectrogram
Spherical harmonic station corrections: 7.1.17 Station and model files
SPLIT: 5.2.3 System without digital data | 12. Extracting events from the | 13. Inserting events into the
Split an event: 5.5 How EEV works
Sprengnether: 19.2 Waveform conversion programs
SSA, Kinemtrics: 19.2 Waveform conversion programs
SSR, Kinemetrics: 19.2 Waveform conversion programs
STA/LTA: 21.3 AUTOSIG
Stand-alone programs: 5.8 General Work with SEISAN
Start and end date: 5.8 General Work with SEISAN
Start depth: 7.1.9 Starting location
Start time: 3.8 Database directories for your
Starting location: 7.1.8 Determining which travel time | 7.1.18 RESET TEST parameters | 7.1.18 RESET TEST parameters
STASEI: 19.1 Parameter files
Station and channel codes: 41.1 Create instrument response files,
Station azimuth: 8.10 Determine azimuth of arrival
Station coordinates: 3.9 Default parameter files for | 19.1 Parameter files | 19.1 Parameter files
Station listing in print.out: 7.1.19 HYP output
Station selection: 19.1 Parameter files
Station, only 4 characters: 19.1 Parameter files
STATION0.HYP: 3.9 Default parameter files for | 7.1.17 Station and model files
STATION0.HYP in SE: 4. Seisan Explorer User Guide
STATIS: 17.3 STATIS, statistics of databases | 17.3 STATIS, statistics of databases
Statistics: 17.3 STATIS, statistics of databases | 17.4 CATSTAT, statistics of catalogs
Statistics of phases used by HYP: 38.2 Grid search to obtain
STATSTAT: 17.6 STATSTAT, number of events
Storing magnitudes: 5.1.4 Magnitudes in SEISAN
Stress drop: 8.12 Spectral analysis, s(Spec) | 8.12 Spectral analysis, s(Spec) | 11.2 Getstressdrop
Strike: 23.1.5 Program operation
Subroutines in SEISAN: 44.3 CONTENTS OF PRO, LIB,
Subset of database: 5.8 General Work with SEISAN
SUD2ASC: 19.2 Waveform conversion programs
SUDS: 19.2 Waveform conversion programs
SUDS format: B. The SEISAN waveform file
SUDSEI: 19.2 Waveform conversion programs
Sun and PC differences: 2.2.2 Waveform data and formats | B. The SEISAN waveform file
Surface wave: 7.1.3 Magnitudes
Surface wave analysis: 8.12 Spectral analysis, s(Spec)
Surface wave dispersion: 8.12 Spectral analysis, s(Spec)
Swarm, identify: 17.5 SWARM, finding earthquake swarms
Swarm, seismic: 17.5 SWARM, finding earthquake swarms
Swarm.out: 17.5 SWARM, finding earthquake swarms
Synchronize S-file name and ID with origin time: 5.5 How EEV works
SYNT: 29. Making synthetic seismograms
Synt_seis.out: 26.1 Moment Tensor inversion in
Synthetic seismograms: 29. Making synthetic seismograms
Synthetic test of FOCMEC: 23.1.6 Making synthetic amplitudes and
T and P-axis: 23.1.5 Program operation
T-phase: 7.1.18 RESET TEST parameters
Taper in MULPLT: 8.9 Instrument correction and magnitudes
Terra Technology: 19.2 Waveform conversion programs
TERSEI: 19.2 Waveform conversion programs
Test graphics: 44.1 Programmers guide and some
Test mouse: 44.1 Programmers guide and some
Test programs: 44. Programming in SEISAN and
Test signals, make: 44.1 Programmers guide and some
Text string search: 11.1.1 Input parameters for SELECT
Theoretical amplitudes for FOCMEC: 23.1.6 Making synthetic amplitudes and
Theoretical arrival times, TTLOCAL: 38.2 Grid search to obtain
Theoretical phases: 5.5 How EEV works | 8.8 Theoretical arrival times for
Three component plotting: 8.5 Commands in MULPLT, overview
Threshold magnitude: 33.1 Useful programs for hazard
Time correction: 18.16 WAVFIX, fixing time correction
Time delay: 18.16 WAVFIX, fixing time correction
Time gap: 8.1 MULPLT main functions
Time gaps: 8. Trace plotting, phase picking
Time shift data: 18.15 P_ALIGN: Time shifting waveform
Time, uncertain flag in waveform file: 19.2 Waveform conversion programs
Timing error: 8.4 Continuous plotting of one | 8.5 Commands in MULPLT, overview
Timing indicator: B. The SEISAN waveform file
TMP: 2.2.2 Waveform data and formats
Top directory: 3.2 Linux
Trace plotting: 5.1.1 Routine processing | 8. Trace plotting, phase picking | 9. Distance trace plot with | 19.2 Waveform conversion programs
TRACE_PLOT: 9. Distance trace plot with
Travel time correction: 7.1.10 Station travel time delay
Travel time error: 7.1.18 RESET TEST parameters
Travel time outlier, eliminate: 7.1.7 Eliminating outliers
Travel times, calculate: 30.3 Calculating of local phases:
Trigger: 21.6 Detection program for continuous
Tsd.out: 18.15 P_ALIGN: Time shifting waveform
TSIG: 44.1 Programmers guide and some
TTLAYER: 30.2 Calculation of travel times
TTLOCAL: 30.3 Calculating of local phases: | 38.2 Grid search to obtain
TTPLOT: 5.5 How EEV works | 30.4 Plotting of travel times,
TTPLOT.EPS: 30.4 Plotting of travel times,
TTPLOT.OUT: 30.4 Plotting of travel times,
UDP: 44.1 Programmers guide and some
Uncertain time: 8.5 Commands in MULPLT, overview
Uncertain timing flag: 19.2 Waveform conversion programs
Unformatted read and write: B. The SEISAN waveform file
Units: 8.12 Spectral analysis, s(Spec) | 41.1 Create instrument response files,
Unknown type: 11.1.1 Input parameters for SELECT
UPD: 14. Updating final locations in
UPDATE: 5.4 Interactive work with earthquake | 5.5 How EEV works | 5.5 How EEV works | 5.8 General Work with SEISAN | 8.12 Spectral analysis, s(Spec) | 14. Updating final locations in | 14. Updating final locations in
Update header line: 7.1.3 Magnitudes
Update spectral parameters: 14. Updating final locations in
Update without relocation: 14. Updating final locations in
Updated S-files: 5.5 How EEV works | 14. Updating final locations in
Upper and lower case: 2.4 Upper and lower case
UPPER case: 8.7 Phase picking, amplitude, weight
USERCOM: 5.5 How EEV works
USGS: 5.2.5 Getting data from USGS | 19.1 Parameter files
USGSNOR: 19.1 Parameter files
Using azimuth phases: 7.1.18 RESET TEST parameters
Using c: 44.1 Programmers guide and some
VELEST: 19.2 Waveform conversion programs | 38.1 VELEST | 38.2 Grid search to obtain
Velest for Windows: 38.1 VELEST
VELMENU: 38.1 VELEST
VELNOR: 19.2 Waveform conversion programs
Velocity: 8.9 Instrument correction and magnitudes
Velout.dif: 38.1 VELEST
Version: 3.12 Program Version
Vincenty: 44.2 Routines for Geodetic computations
Volcanic: 11.1.1 Input parameters for SELECT
Volcanic event: 8.6 Registering new events into
Volcanic tremor: 39. Analysis of volcanic earthquakes
VOLCANO.DEF: 39. Analysis of volcanic earthquakes
VOLCSTAT: 39. Analysis of volcanic earthquakes | 39. Analysis of volcanic earthquakes
Vp/Vs ratio: 7.1.17 Station and model files
Vp/Vs, calculate: 31. Wadati
W_EMAP: 10.3 W_EMAP, Version Windows based
Wadati: 5.5 How EEV works | 31. Wadati
WAV data base: 2.2.2 Waveform data and formats
WAV directory: 2.2.2 Waveform data and formats
WAVASC: 19.2 Waveform conversion programs
Wavefor to ASCII file: 19.2 Waveform conversion programs
Waveform conversion programs: 19.2 Waveform conversion programs
Waveform file format: B. The SEISAN waveform file
Waveform file name: 18.16 WAVFIX, fixing time correction
Waveform file structure: B. The SEISAN waveform file
Waveform file, cut: 18.12 SEICUT, extract part of
Waveform file, delete: 8.11 Data manipulation commands
Waveform file, extract from: 8.11 Data manipulation commands
Waveform file, fix headers: 18.16 WAVFIX, fixing time correction
Waveform file, split: 18.13 SEIDEL, splitting a SEISAN
Waveform files: 2.2.2 Waveform data and formats
Waveform files, join: 18.1 APPEND, Append two or
Waveform files, merge: 8.11 Data manipulation commands
Waveform.for: 44.1 Programmers guide and some
Waveform.inc: 44.1 Programmers guide and some
Waveform_names.out: 11.1.3 Historical data
WAVETOOL: 18.6 WAVETOOL, extract and convert
WAVFIX: 18. Waveform file management tools
Wavfix.tim: 18.16 WAVFIX, fixing time correction
WAVFULLNAME: 18.18 WAVFULLNAME
WEB options: 11.1.4 Select with input from
Webinar: 1. Introduction | 5. Using SEISAN
Weigh key: 8.7 Phase picking, amplitude, weight
Weight: 7.1.6 Criteria for a solution | 7.1.18 RESET TEST parameters | 8.7 Phase picking, amplitude, weight
Weight, magnitude: 7.1.3 Magnitudes
WGS84: 44.2 Routines for Geodetic computations
WGSSEI: 19.2 Waveform conversion programs
Wildcard: 15. Using filenr.lis, DIRF and
WKBJ: 29. Making synthetic seismograms | 29. Making synthetic seismograms
Wood Anderson: 8.9 Instrument correction and magnitudes | 34. Magnitude and spectral relations,
Working directory in SE: 4. Seisan Explorer User Guide
WORLD.MAP: 3.9 Default parameter files for
Write S-file: 44.1 Programmers guide and some
Wrong S-file name: 3.2 Linux
X Windows: 3.2 Linux
X2Go: 5.11 Known problems in SEISAN
XCLUST: 43. Correlation of waveform signals,
Xnear and xfar: 7.1.17 Station and model files
Y5DUMP: 19.2 Waveform conversion programs
Yearly number of events: 17.4 CATSTAT, statistics of catalogs
Zoom in MULPLT: 8.5 Commands in MULPLT, overview