Conference PaperPDF Available

The validation of Varpasuo-Saari-Nikkari (2001) [4] GMPE equation for peak ground acceleration with the aid of the wave form registrations made by Uppsala University in the stations of Swedish National Seismic Network during the years 2004-2008.

Authors:
  • PVA Engineering Services

Abstract

The following four events and the corresponding seismograph recordings at the Uppsala University operated stations were utilized in this validation task: 1. Malmoe December16 2008 05:20 MLUPP=4.4 event. An earthquake of moderate size is recorded in Southern Sweden (Skane Region) approximately 50 km east of Malmoe. The earthquake was felt by many in the neighboring population centers such as Copenhagen. The earthquake was the largest in Sweden since 1985. The largest earthquake recorded in Scandinavia occurred in Norway, offshore southeastern continental shelf of Spitsbergen (Svalbard) with a magnitude 6.0. 2. Kaliningrad September 21 2004 13:32 MLUPP=5.2 event. 3. Enontekio (Finland) January 16 2007 19:13 MLUPP =1.4 event. 4. Sweden October 20 2005 10:08 MLUPP =1.7 event
International Workshop on “Best Practice in Physics-based Fault Rupture Models for Seismic Hazard
Assessment of Nuclear Installations”, (BestPSHANI), 18-20 November 2015, Vienna International
Centre, Board Room, M building, Vienna, Austria
The validation of Varpasuo-Saari-Nikkari (2001) [4] GMPE
equation for peak ground acceleration with the aid of the wave
form registrations made by Uppsala University in the stations of
Swedish National Seismic Network during the years 2004-2008.
Pentti Varpasuo,
PVA Engineering Services
INTRODUCTION
The following four events and the corresponding seismograph recordings at the Uppsala University
operated stations were utilized in this validation task:
1. Malmoe December16 2008 05:20 MLUPP=4.4 event.
An earthquake of moderate size is recorded in Southern Sweden (Skane Region) approximately 50 km
east of Malmoe. The earthquake was felt by many in the neighboring population centers such as
Copenhagen. The earthquake was the largest in Sweden since 1985. The largest earthquake recorded in
Scandinavia occurred in Norway, offshore southeastern continental shelf of Spitsbergen (Svalbard)
with a magnitude 6.0.
2. Kaliningrad September 21 2004 13:32 MLUPP=5.2 event.
3. Enontekio (Finland) January 16 2007 19:13 MLUPP =1.4 event.
4. Sweden October 20 2005 10:08 MLUPP =1.7 event
VARPASUO-SAARI-NIKKARI (2001) [4] ATTENUATION FIT TO MALMOE DECEMBER16
2008 05:20 EVENT, MLUPP=4.3
In the following Figure 1 the location map and denotation of the Swedish National Seismograph
Network (SNSN) is given [1].
1
Figure . Location map and denotation of Swedish seismograph stations after Eken (2011) [1].
In the following Table 1 the gain factors of the Swedish stations that recorded the Malmoe event are
given [2].
File/station name Gain factor [m/s/count]
HH/20081216_0520_ARN.HHZ 1.3e-10
HH/20081216_0520_ASP.HHZ 1.275e-10
HH/20081216_0520_BAC.HHZ 1.28e-10
HH/20081216_0520_BOR.HHZ 1.585e-10
HH/20081216_0520_BRE.HHZ 1.29e-10
HH/20081216_0520_BYX.HHZ 1.28e-10
HH/20081216_0520_DEL.HHZ 1.285e-10
HH/20081216_0520_EKS.HHZ 1.25e-10
HH/20081216_0520_ESK.HHZ 1.295e-10
HH/20081216_0520_FAB.HHZ 1.59e-10
HH/20081216_0520_FAL.HHZ 1.29e-10
HH/20081216_0520_FIN.HHZ 2.335e-09
HH/20081216_0520_FLY.HHZ 1.27e-10
HH/20081216_0520_FOR.HHZ 4.24e-10
HH/20081216_0520_GOT.HHZ 1.265e-10
HH/20081216_0520_HAR.HHZ 1.58e-10
HH/20081216_0520_HEM.HHZ 4.265e-10
HH/20081216_0520_KAL.HHZ 1.605e-10
HH/20081216_0520_LAN.HHZ 1.29e-10
HH/20081216_0520_MAS.HHZ 1.285e-10
HH/20081216_0520_NAS.HHZ 1.595e-10
HH/20081216_0520_NRT.HHZ 1.22e-10
HH/20081216_0520_OSK.HHZ 1.285e-10
HH/20081216_0520_ROT.HHZ 1.295e-10
HH/20081216_0520_SAL.HHZ 1.585e-10
HH/20081216_0520_SOL.HHZ 1.285e-10
HH/20081216_0520_TJO.HHZ 1.26e-10
HH/20081216_0520_UP1.HHZ 2.34e-10
HH/20081216_0520_VIK.HHZ 1.275e-10
HH/20081216_0520_VST.HHZ 4.29e-10
HH/20081216_0520_VXJ.HHZ 1.32e-10
Table The gain factors of Swedish seismograph stations that recorded the Malmoe event. The meaning of the gain factor is that the so called count
number recorded by the specific seismograph can be converted to velocity histories in meters per second by multiplying the count number by gain factor.
In the following Table 2 the basic data of the Malmoe event is given [3].
2008 1216 0520 2.7 LQ 55.604 13.548 18.1 UPP 11 0.6 4.4LUPP 1
0.4 0.042 0.170 5.2 5
STAT SP IPHASW D HRMM SECON CODA AMPLIT PERI AZIMU VELO SNR AR TRES W DIS CAZ7
LUNU BZ P C 0520 5.47 -0.486 9 287
LUNU BH S 0520 7.51 -0.8 9 9 287
BJUU BZ P D 0520 13.67 0.541 62 326
BJUU BH S 0520 21.62 0.9 3 62 326
DELU BZ P D 0520 20.26 1.328 98 11
DELU BH S 0520 32.19 1.5 2 98 11
FABU BZ P 0520 30.04 0.216 164 341
FABU BH S 0520 49.76 0.5 1 164 341
VXJU BZ P C 0520 30.02 -0.6 7 169 30
GNOU BZ P 0520 32.68 -0.2 6 188 3
BORU BZ P D 0520 37.52 -0.6 2 231 348
OSKU BZ P D 0520 38.53 -0.2 2 236 40
EKSU BZ P 0520 40.11 0.5 2 243 25
BYXU BZ P C 0520 44.33 -0.1 2 283 47
TJOU BZ P D 0520 46.02 0.1 2 295 337
Table The basic data of the Malmoe event. In the two heading lines the time and epicenter location and depth as well as the local magnitude (4.4 Uppsala
University) are given. In the table body the first column gives the denotation of the seismograph station, the second column gives the denotation of the
earthquake motion component, the fifth and sixth columns gives the beginning time of the event and sixteenth column gives the epicentral distance of the
recording station
In the following Table 3 the peak ground accelerations in g registered in 29 Uppsala operated stations
of the Malmoe December16, 2008 05:20 event are given.
dist(km
)
malmoe
(2008)
mlupp_4_4
Ecomp pga
in g
statio
n
98 0.0017450 DEL
164 0.0008280 FAB
169 0.0024890 VXJ
231 0.0003040 BOR
236 0.0005971 OSK
243 0.0005850 EKS
272 0.0003970 ASP
283 0.0006270 BYX
290 0.0003338 VST
374 0.0003295 VIK
376 0.0001540 NAS
380 0.0004474 GOT
434 0.0001022 FIN
439 0.0002204 ESK
518 0.0000750 BAC
532 0.0000143 UP1
544 0.0000905 NRT
563 0.0000756 FAL
3
598 0.0001479 FOR
664 0.0000433 ROT
715 0.0000510 ARN
830 0.0000438 HEM
879 0.0000319 SOL
966 0.0000060 BRE
1243 0.0000112 HAR
1259 0.0000103 KAL
1341 0.0000077 SAL
1394 0.0000292 MAS
1455 0.0000060 LAN
Table The peak ground accelerations in g registered in 29 Uppsala operated stations of the Malmoe December16, 2008 05:20 event
In the following Figures 2-30 the 3600 second acceleration time histories of the E00 component of the
Malmoe event recorded at the stations of Table 1 are given. The resolution in the time histories is 0.01 s
so that the number of recorded points in each history is 360 000.
Figure In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=arn inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=61.692, sta.lon=17.378, sta.depth=Infinity, sta.elev=1.00000005e-4 , gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s,
timeUnits=sec, hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9,
hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=6.4390616, dist=715.05133, az=15.734959, baz=198.85722
Figure In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=asp, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=57.4185, sta.lon=16.5992, sta.depth=Infinity, sta.elev=1.0e-5, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s, timeUnits=sec,
hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9,
hypo.mo=-9.9, hypo.mag=-9.9, gcarc=2.4536421, dist=272.50485, az=39.40791, baz=221.80408
Figure In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=bac, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=57.4185, sta.lon=16.5992, sta.depth=Infinity, sta.elev=1.0e-5, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s, timeUnits=sec,
hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9,
hypo.mo=-9.9, hypo.mag=-9.9, gcarc=2.4536421, dist=272.50485, az=39.40791, baz=221.80408
5
Figure In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=bor, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=57.6345, sta.lon=12.7697, sta.depth=Infinity, sta.elev=1.75e-4, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s, timeUnits=sec,
hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9,
hypo.mo=-9.9, hypo.mag=-9.9, gcarc=2.1452792, dist=238.25671, az=346.213, baz=165.42116
Figure In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=bre, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=63.8908, sta.lon=18.5777, sta.depth=Infinity, sta.elev=1.00000005e-4, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s,
timeUnits=sec, hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9,
hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=8.706804, dist=966.82776, az=14.33074, baz=198.53062
Figure In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=byx, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=57.2899, sta.lon=17.0083, sta.depth=Infinity, sta.elev=1.0e-5, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s, timeUnits=sec,
hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9,
hypo.mo=-9.9, hypo.mag=-9.9, gcarc=2.5186162, dist=279.72177, az=45.13136, baz=227.86595
Figure In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=del, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=56.47, sta.lon=13.87, sta.depth=Infinity, sta.elev=1.0e-4, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s, timeUnits=sec,
hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9,
hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.9161576, dist=101.75257, az=5.2133374, baz=185.33746
7
Figure In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=eks, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=57.5726, sta.lon=15.3016, sta.depth=Infinity, sta.elev=2.5e-4, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s, timeUnits=sec,
hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9,
hypo.mo=-9.9, hypo.mag=-9.9, gcarc=2.19947, dist=244.2755, az=22.798162, baz=204.11557
Figure In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=esk, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=59.2311, sta.lon=16.3938, sta.depth=Infinity, sta.elev=5.0e-5, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s, timeUnits=sec,
hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9,
hypo.mo=-9.9, hypo.mag=-9.9, gcarc=3.954979, dist=439.22467, az=20.348072, baz=202.5974
Figure In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=fab, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=57.0011, sta.lon=12.7184sta.depth=Infinity, sta.elev=8.0e-5, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s, timeUnits=sec,
hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9,
hypo.mo=-9.9, hypo.mag=-9.9, gcarc=1.5489714, dist=172.03311, az=339.2767, baz=158.44527
Figure In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=fal, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=60.4943, sta.lon=15.8318, sta.depth=Infinity, sta.elev=1.5e-4, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s, timeUnits=sec,
hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9,
hypo.mo=-9.9, hypo.mag=-9.9, gcarc=5.0740523, dist=563.4862, az=11.902532, baz=193.69232
9
Figure In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=fin, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=59.4034, sta.lon=12.4789, sta.depth=Infinity, sta.elev=2.29e-4, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s, timeUnits=sec,
hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9,
hypo.mo=-9.9, hypo.mag=-9.9, gcarc=3.911912, dist=434.44016, az=350.65372, baz= baz=169.60863
Figure In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=for, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=60.387, sta.lon=18.1801, sta.depth=Infinity, sta.elev=1.0e5, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s, timeUnits=sec,
hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9,
hypo.mo=-9.9, hypo.mag=-9.9, gcarc=5.3901567, dist=598.5913, az=24.276825, baz=208.05487
Figure In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=got, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=57.6855, sta.lon=18.57, sta.depth=Infinity, sta.elev=5.0e5, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s, timeUnits=sec,
hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9,
hypo.mo=-9.9, hypo.mag=-9.9, gcarc=3.4232106, dist=380.18317, az=49.512867, baz=233.55612
Figure In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=har, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=66.1635, sta.lon=20.9752, sta.depth=Infinity, sta.elev=1.05e4, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s, timeUnits=sec,
hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9,
hypo.mo=-9.9, hypo.mag=-9.9, gcarc=11.199737, dist=1243.5795, az=15.322094, baz=201.67853
11
Figure In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=hem, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=62.676, sta.lon=18.0359, sta.depth=Infinity, sta.elev=1.0e4, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s, timeUnits=sec,
hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9,
hypo.mo=-9.9, hypo.mag=-9.9, gcarc=7.4734206, dist=829.89484, az=15.485631, baz=199.19077
Figure In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=kal, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=65.8596, sta.lon=23.3567, sta.depth=Infinity, sta.elev=3.0e5, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s, timeUnits=sec,
hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9,
hypo.mo=-9.9, .mag=-9.9 gcarc=11.340051, dist=1259.1666, az=20.495068, baz=208.92532
Figure In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=lan, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=68.0493, sta.lon=21.988, sta.depth=Infinity, sta.elev=5.0e4, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s, timeUnits=sec,
hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9,
hypo.mo=-9.9, .mag=-9.9 gcarc=13.108456, dist=1455.4514, az=13.791682, baz=201.1144
Figure In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=mas, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=67.4569, sta.lon=21.9983, sta.depth=Infinity, sta.elev=5.0e4, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s, timeUnits=sec,
hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9,
hypo.mo=-9.9, .mag=-9.9 gcarc=12.556473, dist=1394.1831, az=14.795056, baz=202.10225
13
Figure In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=nas, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=58.9278, sta.lon=13.1862, sta.depth=Infinity, sta.elev=5.0e5, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s, timeUnits=sec,
hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9,
hypo.mo=-9.9, .mag=-9.9 gcarc=3.3895347, dist=376.43198, az=355.3121, baz=174.86388
Figure In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=nrt, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=59.6769, sta.lon=18.6308, sta.depth=Infinity, sta.elev=4.0e5, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s, timeUnits=sec,
hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9,
hypo.mo=-9.9, .mag=-9.9 gcarc=4.8990197, dist=544.0591, az=30.572063, baz=214.71466
Figure In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=osk, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=57.1947, sta.lon=16.0994, sta.depth=Infinity, sta.elev=1.0e5, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s, timeUnits=sec,
hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9,
hypo.mo=-9.9, .mag=-9.9 gcarc=2.1064258, dist=233.94398, az=37.942013, baz=219.91954
Figure In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=rot, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=61.42, sta.lon=15.814, sta.depth=Infinity, sta.elev=1.00000005e-4, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s,
timeUnits=sec, hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9,
hypo.ml=-9.9, hypo.mo=-9.9, .mag=-9.9 gcarc=5.978947, dist=663.96106, az=9.711175, baz=191.49554
15
Figure In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=sal, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=67.3801, sta.lon=18.5067, sta.depth=Infinity, sta.elev=5.0e-4, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s, timeUnits=sec,
hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9,
hypo.mo=-9.9, .mag=-9.9 gcarc=12.074624, dist=1340.6865, az=8.876641, baz=193.09889
Figure In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=sol, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=63.247, sta.lon=17.258, sta.depth=Infinity, sta.elev=1.00000005e-4, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s,
timeUnits=sec, hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9,
hypo.ml=-9.9, hypo.mo=-9.9, .mag=-9.9 gcarc=7.9181995, dist=879.27344, az=11.6965, baz=194.74384
Figure … In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=up1, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=59.858, sta.lon=17.627, sta.depth=Infinity, sta.elev=1.4e-5, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s, timeUnits=sec,
hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9,
hypo.mo=-9.9, .mag=-9.9 gcarc=4.791492, dist=532.1155, az=24.30979, baz=207.60892
Figure …In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=vik, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=58.5017, sta.lon=16.6992, sta.depth=Infinity, sta.elev=1.00000005e-4, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s,
timeUnits=sec, hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9,
hypo.ml=-9.9, hypo.mo=-9.9, .mag=-9.9 gcarc=3.368823, dist=374.13553, az=27.66896, baz=210.16441
17
Figure In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=vst, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=57.66, sta.lon=16.5363, sta.depth=Infinity, sta.elev=3.0e-5, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s, timeUnits=sec,
hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9,
hypo.mo=-9.9, .mag=-9.9, gcarc=2.6183062, dist=290.79086, az=35.318626, baz=217.66582
Figure In the following lines the header info given in SNSN station registration data is given: SG2K_ASCII, event=Malmoe,
year=2008,jday=351,hour=5,min=20,sec=5.7, begTime=-1205.7, network=UP, sta=vxj, inst=?,chan=HHE, loc=?, comp=X, comp.az=90.0, comp.inc=90,
sta.lat=56.9212, sta.lon=14.9391, sta.depth=Infinity, sta.elev=1.8999999e-4, gain=-1.0, nPoints=360000, sampleInt=0.01, ampUnits=counts/s/s,
timeUnits=sec, hypo.lat=55.56, hypo.lon=13.72, hypo.depth=0.015, hypo.otime=2008,12,16,05,20,5.7, hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9,
hypo.ml=-9.9, hypo.mo=-9.9, .mag=-9.9, gcarc=1.524919, dist=169.36209, az=26.002594, baz=207.0141
In the following Figure 31 the attenuation fit of the registrations for Malmoe event with Varpasuo-Saari
-Nikkari GMPE (2001) [4] equation is given for epicentral distances from 98 km up to 439 km:
Figure The attenuation fit of the registrations for Malmoe event with Varpasuo-Saari-Nikkari GMPE (2001) [4] equation is given for epicentral distances
from 98 km up to 439 km, logarithmic standard deviation is 0.458
In the following Figure 32 the attenuation fit of the registrations for Malmoe event with Varpasuo-
Saari- Nikkari GMPE (2001) [4] equation is given for epicentral distances from 98 km up to 1455 km
Figure The attenuation fit of the registrations for Malmoe event with Varpasuo-Saari-Nikkari GMPE (2001) [4] equation is given for epicentral distances
from 98 km up to 1455 km
19
VARPASUO-SAARI-NIKKARI (2001) [4] ATTENUATION FIT TO KALININGRAD
SEPTEMBER21 2004 13:32 EVENT, MLUPP=5.2
In the following Table 4 the basic data of the Kaliningrad September21, 2004 13:32 event is given [3].
2004 0921 1332 33.2 RQ 54.754 19.792 15.0F UPP 31 0.5 5.2LUPP 1
2.0 0.143 0.153 0.0 5
STAT SP IPHASW D HRMM SECON CODA AMPLIT PERI AZIMU VELO SNR AR TRES W DIS CAZ7
BLEU BZ P D 1333 16.64 -0.2 1 305 306
BLEU BH S 1333 49.11 -0.5 0 305 306
BYXU BZ P D 1333 19.74 -0.3 1 332 330
GOTU BZ P D 1333 19.74 174.6 8 -0.8 1 336 347
GOTU BH S 1333 57.20 1.1 0 336 347
OSKU BZ P D 1333 23.20 145.9 8 0.2 1 357 321
OSKU BH S 1334 2.01 1.4 0 357 321
VSTU BZ P 1333 25.89 147.4 1 -0.3 1 383 329
DELU BZ P 1333 30.60 114.6 0 0.0 1 420 300
EKSU BZ P D 1333 30.92 138.2 2 0.2 1 420 320
VIKU BZ P D 1333 35.52 146.8 -8 0.1 1 460 337
LNKU BZ P 1333 36.62 136.0 -8 0.2 1 468 327
NYNU BZ P 1333 37.82 168.3 2 -0.7 1 486 348
ESKU BZ P D 1333 45.56 155.1 -1 0.6 1 540 339
ASKU BZ P D 1333 47.14 140.9 -4 0.8 1 552 329
NRTU BZ P 1333 46.37 165.4 -7 -0.1 1 553 353
UP1U BZ P 1333 50.46 0.4 0 584 348
BACU BZ P 1333 50.92 163.8 1 -0.0 0 591 345
NRAU BZ P D 1333 53.71 152.4 3 0.7 0 609 334
FLYU BZ P 1333 53.06 172.7 4 -0.1 0 610 350
GRAU BZ P D 1333 55.10 -0.0 0 627 354
OSTU BZ P 1333 55.09 156.8 -8 -0.5 0 631 346
FALU BZ P C 1334 2.16 0.5 0 682 341
IGGU BZ P 1334 2.61 160.3 -6 -0.9 0 698 349
ROTU BZ P 1334 13.34 167.7 7 0.4 0 779 344
ARNU BZ P D 1334 13.01 162.8 -6 -0.8 0 787 351
HASU BZ P 1334 20.64 158.5 -7 -0.1 0 846 349
HEMU BZ P 1334 26.06 177.2 4 0.3 0 889 354
SOLU BZ P 1334 34.29 153.6 -16 0.6 0 958 352
HUSU BZ P 1334 34.65 182.2 4 0.9 0 958 358
HUSU BH S 1336 7.97 1.0 0 958 358
NORU BZ P 1334 40.04 163.5 2 0.5 0 1009 346
NORU BH S 1336 17.46 0.2 0 1009 346
UMAU BZ P 1334 42.06 181.3 -2 1.4 0 1020 2
BREU BZ P 1334 41.80 179.3 4 0.9 0 1022 357
BURU BZ P 1334 51.37 183.7 -2 1.5 0 1100 4
Table The basic data of the Kaliningrad September21 2004 13:32 event. In the two heading lines the time and epicenter location and depth as well as the
local magnitude (5.2 Uppsala University) are given. In the table body the first column gives the denotation of the seismograph station, the second column
gives the denotation of the earthquake motion component, the fifth and sixth columns gives the beginning time of the event and sixteenth column gives the
epicentral distance of the recording station
In the following Table 5 the peak ground accelerations in g registered in 39 Uppsala operated stations
of the Kaliningrad September21, 2004 13:32 event are given.
dist(km
)
kaliningrad (2007)
mw_5_2 Ecomp pga
in g
statio
n
305 0.0008678000 BLE
332 0.0014750000 BYX
336 0.0005940000 GOT
357 0.0009620000 OSK
383 0.0005140000 VST
383 0.0006664000 VXJ
420 0.0004280000 EKS
420 0.0003240000 DEL
460 0.0003080000 VIK
468 0.0004420000 LNK
494 0.0002493248 NYN
535 0.0001967990 ESK
551 0.0002174601 NRT
552 0.0002325000 ASK
580 0.0000155891 UP1
587 0.0002319629 BAC
603 0.0001716494 NRA
623 0.0001760487 GRA
624 0.0001595096 OST
632 0.0001599933 FLY
675 0.0001444632 FAL
697 0.0000777253 IGG
771 0.0000600608 ROT
782 0.0000879021 ARN
835 0.0000677391 HAS
884 0.0000691783 HEM
954 0.0000133328 HUS
982 0.0000079182 NOR
1017 0.0000222461 BRE
1023 0.0000504713 UMA
1133 0.0000396722 BUR
1175 0.0000139192 LIL
1215 0.0000100269 SJU
1315 0.0000062220 ERT
1362 0.0000050355 DUN
1369 0.0000037475 PAJ
1414 0.0000039539 MAS
1462 0.0000040195 NIK
1472 0.0000012836 KUR
1480 0.0000045950 LAN
Table The peak ground accelerations in g registered in 40 Uppsala operated stations of the Kaliningrad September21, 2004 13:32 event
In the following Figures 33-72 the 300 second acceleration time histories of the E00 component of the
Kaliningrad event recorded at the forty Uppsala operated stations are given. The resolution in the time
histories is 0.01 s so that the number of recorded points in each history is 30 000.
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13 min=32, sec=0.0, begTime=0.0, network=si, sta=ask, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=552, az=0.0, baz=0.0
21
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13 min=32, sec=0.0, begTime=0.0, network=si, sta=ble, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=305, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13 min=32, sec=0.0, begTime=0.0, network=si, sta=byx, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=332, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13 min=32, sec=0.0, begTime=0.0, network=si, sta=del, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=420, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13 min=32, sec=0.0, begTime=0.0, network=si, sta=eks, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=420, az=0.0, baz=0.0
23
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13 min=32, sec=0.0, begTime=0.0, network=si, sta=got, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=336, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13 min=32, sec=0.0, begTime=0.0, network=si, sta=lnk, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=468, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=osk, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=357, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=vik, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=460, az=0.0, baz=0.0
25
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=vst, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=383, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=vxj, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=395, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=arn, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=782, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=bac, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=587, az=0.0, baz=0.0
27
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=bre, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=1017, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=bur, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=1133, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=dun, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=1362, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=ert, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=1315, az=0.0, baz=0.0
29
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=esk, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=535, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=fal, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=675, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=fly, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=632, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=gra, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=623, az=0.0, baz=0.0
31
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=has, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=835, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=hem, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=884, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=hus, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=954, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=igg, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=697, az=0.0, baz=0.0
33
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=kur, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=1472, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=lan, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=1480, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=lil, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=1175, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=mas, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=1414, az=0.0, baz=0.0
35
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=nik, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=1462, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=nor, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=982, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=nra, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=603, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=nrt, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=551, az=0.0, baz=0.0
37
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=nyn, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=494, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=ost, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=624, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=paj, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=1369, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=rot, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=771, az=0.0, baz=0.0
39
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=sju, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=1215, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=uma, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=1023, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Kaliningrad, year=2004, jday=265, hour=13, min=32, sec=0.0, begTime=0.0, network=si, sta=up1, inst=UP, chan=E00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=54.754, hypo.lon=19.792, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.mlupp=5.2, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=580, az=0.0, baz=0.0
In the following Figure 73 the attenuation fit of the registrations for Kaliningrad Septenber21 2004
13:32 event with Varpasuo-Saari -Nikkari GMPE (2001) [4] equation is given for epicentral distances
from 305 km up to 552 km:
Figure The attenuation fit of the registrations for Kaliningrad Septenber21 2004 13:32 event with Varpasuo-Nikkari-Saari GMPE (2001) [4] equation is
given for epicentral distances from 305 km up to 552 km, logarithmic standard deviation is 0.304.
41
In the following Figure 74 the attenuation fit of the registrations for Kaliningrad Septenber21 2004
13:32 event with Varpasuo-Saari -Nikkari GMPE (2001) [4] equation is given for all epicentral
distances registered by 40 Uppsala operated stations from 305 km up to 1480 km
Figure The attenuation fit of the registrations for Kaliningrad Septenber21 2004 13:32 event with Varpasuo-Saari-Nikkari GMPE (2001) [4] equation is
given for all 40 Uppsala operated stations with epicentral distances from 305 km up to 1480 km.
VARPASUO-SAARI-NIKKARI (2001) [4] ATTENUATION FIT TO ENONTEKIO JANUARY16
2007 19:13 EVENT WITH MLUPP=1.4
In the following Table 6 the basic data of the Enontekio January 16, 2007 19:13 event is given [3].
2007 0116 1913 43.2 LQ 68.364 23.731 15.9 UPP 6 0.3 1.4LUPP 1
0.9 0.044 0.101 4.1 5
STAT SP IPHASW D HRMM SECON CODA AMPLIT PERI AZIMU VELO SNR AR TRES W DIS CAZ7
LANU BZ P 1913 56.64 0.134 80 245
LANU BH S 1914 6.25 -0.1 2 80 245
KURU BZ P 1914 6.90 61.2 -9 -0.518 148 254
PAJU BZ P 1914 7.63 -0.318 152 190
PAJU BH S 1914 25.63 -0.3 1 152 190
DUNU BZ P 1914 13.31 0.2 6 193 225
NIKU BZ P 1914 14.23 -0.2 2 203 256
ERTU BZ P 1914 15.96 0.4 2 213 199
Table The basic data of the Enontekio January 16 2007 19:15 event. In the two heading lines the time and epicenter location and depth as well as the
local magnitude (1.4 Uppsala University) are given. In the table body the first column gives the denotation of the seismograph station, the second column
gives the denotation of the earthquake motion component, the fifth and sixth columns gives the beginning time of the event and sixteenth column gives the
epicentral distance of the recording station
In the following Table 7 the peak ground accelerations in two perpendicular horizontal directions in g
registered in 7 Uppsala operated stations of the Enontekio January16, 2007 19:13 event are given.
dist(km
)
finland (2007)
mw_1_4
Ecomp+Ncomp
pga in g
stat
ion
80 0.0000157058
LA
N
80 0.0000130290
LA
N
148 0.0000026455
K
U
R
148 0.0000019097
K
U
R
152 0.0000068375
PA
J
152 0.0000069107
PA
J
193 0.0000041093
D
U
N
193 0.0000038701
D
U
N
203 0.0000060116
NI
K
203 0.0000057005
NI
K
213 0.0000019162
E
R
T
213 0.0000026000
E
R
T
275 0.0000031632
H
A
R
275 0.0000038410
H
A
R
Table The peak ground accelerations in two perpendicular horizontal directions in g registered in 7 Uppsala operated stations of the Enontekio January16,
2007 19:13 event
In the following Figures 75-88 the 300 second acceleration time histories of the E00 component and
N00 component of the Enontekio event recorded at the seven nearest to the event stations of Table 6
are given. The resolution in the time histories is 0.01 s so that the number of recorded points in each
history is 30 000.
43
Figure SG2K_ASCII, event=Enontekio, year=2007, jday=2, hour=19, min=13, sec=0.0, begTime=0.0, network=si, sta=dun, inst=UP, chan=E00, loc=__,
comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=193, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Enontekio, year=2007, jday=2, hour=19, min=13, sec=0.0, begTime=0.0, network=si, sta=dun, inst=UP, chan=N00, loc=__,
comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=213, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Enontekio, year=2007, jday=2, hour=19, min=13, sec=0.0, begTime=0.0, network=si, sta=ert, inst=UP, chan=E00, loc=__,
comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=193, az=0.0, baz=0.0
Figure 47 SG2K_ASCII, event=Enontekio, year=2007, jday=2, hour=19, min=13, sec=0.0, begTime=0.0, network=si, sta=ert, inst=UP, chan=N00,
loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=193, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Enontekio, year=2007, jday=2, hour=19, min=13, sec=0.0, begTime=0.0, network=si, sta=har, inst=UP, chan=E00, loc=__,
comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=275, az=0.0, baz=0.0
45
Figure SG2K_ASCII, event=Enontekio, year=2007, jday=2, hour=19, min=13, sec=0.0, begTime=0.0, network=si, sta=har, inst=UP, chan=N00, loc=__,
comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=275, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Enontekio, year=2007, jday=2, hour=19, min=13, sec=0.0, begTime=0.0, network=si, sta=kur, inst=UP, chan=E00, loc=__,
comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=148, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Enontekio, year=2007, jday=2, hour=19, min=13, sec=0.0, begTime=0.0, network=si, sta=kur, inst=UP, chan=N00, loc=__,
comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=148, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Enontekio, year=2007, jday=2, hour=19, min=13, sec=0.0, begTime=0.0, network=si, sta=lan, inst=UP, chan=E00, loc=__,
comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=80, az=0.0, baz=0.0
47
Figure SG2K_ASCII, event=Enontekio, year=2007, jday=2, hour=19, min=13, sec=0.0, begTime=0.0, network=si, sta=lan, inst=UP, chan=N00, loc=__,
comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=80, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Enontekio, year=2007, jday=2, hour=19, min=13, sec=0.0, begTime=0.0, network=si, sta=nik, inst=UP, chan=E00, loc=__,
comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=203, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Enontekio, year=2007, jday=2, hour=19, min=13, sec=0.0, begTime=0.0, network=si, sta=nik, inst=UP, chan=N00, loc=__,
comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=203, az=0.0, baz=0.0
Figure SG2K_ASCII, event=Enontekio, year=2007, jday=2, hour=19, min=13, sec=0.0, begTime=0.0, network=si, sta=paj, inst=UP, chan=E00, loc=__,
comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=152, az=0.0, baz=0.0
49
Figure SG2K_ASCII, event=Enontekio, year=2007, jday=2, hour=19, min=13, sec=0.0, begTime=0.0, network=si, sta=paj, inst=UP, chan=N00, loc=__,
comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-1.0, nPoints=30000,
sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity, hypo.otime=9999,01,01,00,00,0. hypo.ms=-
9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=152, az=0.0, baz=0.0
In the following Figure 89 the attenuation fit of the registrations for Enontekio January 16 2007 19:13
event with Varpasuo-Saari -Nikkari GMPE (2001) [4] equation is given for epicentral distances from
80 km up to 275 km:
Figure The attenuation fit of the registrations for Enontekio January 16 2007 19:15 event with Varpasuo-Saari-Nikkari GMPE (2001) [4] equation is
given for epicentral distances from 80 km up to 275 km, logarithmic standard deviation is 0.682
VARPASUO-SAARI-NIKKARI (2001) [4] ATTENUATION FIT TO SWEDEN OCTOBER 20
2005 10:08 EVENT WITH MLUPP=1.7
In the following Table 8 the basic data of the Sweden October 20 2005 10:08 Event with MLUPP=1.7 is
given [3].
2005 1020 1008 7.7 LE 61.424 13.856 0.0F UPP 11 0.2 1.7LUPP 1
0.4 0.019 0.061 0.0 5
STAT SP IPHASW D HRMM SECON CODA AMPLIT PERI AZIMU VELO SNR AR TRES W DIS CAZ7
ROTU BZ P 1008 25.34 260.9 -10 0.026 105 89
FALU BZ P 1008 32.55 318.3 3 -0.018 149 133
HASU BZ P 1008 35.11 243.2 1 -0.3 7 167 60
IGGU BZ P 1008 39.87 296.1 6 0.0 6 196 107
NRAU BZ P 1008 42.14 341.4 -2 -0.2 2 217 162
OSTU BZ P 1008 43.46 295.1 -13 0.4 2 223 125
NORU BZ P 1008 44.09 204.7 11 0.0 2 231 12
BACU BZ P 1008 46.05 329.2 13 -0.3 2 250 133
HEMU BZ P 1008 48.09 247.5 8 0.6 2 260 56
FLYU BZ P 1008 48.03 301.8 -3 0.1 2 263 122
Table The basic data of the Sweden October 20 10:08 event. In the two heading lines the time and epicenter location and depth as well as the local
magnitude (1.7 Uppsala University) are given. In the table body the first column gives the denotation of the seismograph station, the second column gives
the denotation of the earthquake motion component, the fifth and sixth columns gives the beginning time of the event and sixteenth column gives the
epicentral distance of the recording station
In the following Table 9 the peak ground accelerations in g registered in 10 Uppsala operated stations
of the Sweden October20, 2005 10:08 event are given.
dist(km
)
sweden (2005)
mLupp_1_7 Ecomp
pga in g
statio
n
105 0.0000156436 ROT
149 0.0000012010 FAL
167 0.0000020682 HAS
196 0.0000017095 IGG
217 0.0000010240 NRA
223 0.0000012580 OST
231 0.0000002592
NO
R
250 0.0000006600 BAC
260 0.0000006134
HE
M
263 0.0000012903 FLY
51
Table The peak ground accelerations in g registered in 10 Uppsala operated stations of the Sweden October20, 2005 10:08 event
In the following Figures 90-99 the 300 second acceleration time histories of the E00 component of the
Sweden event recorded at the ten nearest to the event epicenter stations of Table 5 are given. The
resolution in the time histories is 0.01 s so that the number of recorded points in each history is 30 000.
Figure SG2K_ASCII, event=Sweden October20 2005 10:08, year=2005, jday=14, hour=10, min=08, sec=0.0, begTime=0.0, network=si, sta=bac,
inst=UP, chan=E00, loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-
1.0, nPoints=30000, sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity,
hypo.otime=9999,01,01,00,00,0. hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=250, az=0.0,
baz=0.0
Figure SG2K_ASCII, event=Sweden October20 2005 10:08, year=2005, jday=14, hour=10, min=08, sec=0.0, begTime=0.0, network=si, sta=fal,
inst=UP, chan=E00, loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-
1.0, nPoints=30000, sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity,
hypo.otime=9999,01,01,00,00,0. hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=149, az=0.0,
baz=0.0
Figure SG2K_ASCII, event=Sweden October20 2005 10:08, year=2005, jday=14, hour=10, min=08, sec=0.0, begTime=0.0, network=si, sta=fly,
inst=UP, chan=E00, loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-
1.0, nPoints=30000, sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity,
hypo.otime=9999,01,01,00,00,0. hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=263, az=0.0,
baz=0.0
Figure SG2K_ASCII, event=Sweden October20 2005 10:08, year=2005, jday=14, hour=10, min=08, sec=0.0, begTime=0.0, network=si, sta=has,
inst=UP, chan=E00, loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-
1.0, nPoints=30000, sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity,
hypo.otime=9999,01,01,00,00,0. hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=167, az=0.0,
baz=0.0
53
Figure SG2K_ASCII, event=Sweden October20 2005 10:08, year=2005, jday=14, hour=10, min=08, sec=0.0, begTime=0.0, network=si, sta=hem,
inst=UP, chan=E00, loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-
1.0, nPoints=30000, sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity,
hypo.otime=9999,01,01,00,00,0. hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=260, az=0.0,
baz=0.0
Figure SG2K_ASCII, event=Sweden October20 2005 10:08, year=2005, jday=14, hour=10, min=08, sec=0.0, begTime=0.0, network=si, sta=igg,
inst=UP, chan=E00, loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-
1.0, nPoints=30000, sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity,
hypo.otime=9999,01,01,00,00,0. hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=196, az=0.0,
baz=0.0
Figure SG2K_ASCII, event=Sweden October20 2005 10:08, year=2005, jday=14, hour=10, min=08, sec=0.0, begTime=0.0, network=si, sta=nor,
inst=UP, chan=E00, loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-
1.0, nPoints=30000, sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity,
hypo.otime=9999,01,01,00,00,0. hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=231, az=0.0,
baz=0.0
Figure SG2K_ASCII, event=Sweden October20 2005 10:08, year=2005, jday=14, hour=10, min=08, sec=0.0, begTime=0.0, network=si, sta=nra,
inst=UP, chan=E00, loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-
1.0, nPoints=30000, sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity,
hypo.otime=9999,01,01,00,00,0. hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=217, az=0.0,
baz=0.0
55
Figure SG2K_ASCII, event=Sweden October20 2005 10:08, year=2005, jday=14, hour=10, min=08, sec=0.0, begTime=0.0, network=si, sta=ost,
inst=UP, chan=E00, loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-
1.0, nPoints=30000, sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity,
hypo.otime=9999,01,01,00,00,0. hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=223, az=0.0
Figure SG2K_ASCII, event=Sweden October20 2005 10:08, year=2005, jday=14, hour=10, min=08, sec=0.0, begTime=0.0, network=si, sta=rot,
inst=UP, chan=E00, loc=__, comp=E00, comp.az=Infinity, comp.inc=Infinity, sta.lat=Infinity, sta.lon=Infinity, sta.depth=Infinity, sta.elev=Infinity, gain=-
1.0, nPoints=30000, sampleInt=0.01, ampUnits=counts/s, timeUnits=sec, hypo.lat=Infinity, hypo.lon=Infinity, hypo.depth=Infinity,
hypo.otime=9999,01,01,00,00,0. hypo.ms=-9.9, hypo.mb=-9.9, hypo.mw=-9.9, hypo.ml=-9.9, hypo.mo=-9.9, hypo.mag=-9.9, gcarc=0.0, dist=105, az=0.0
In the following Figure 100 the attenuation fit of the registrations for Sweden October 2005 10:08
event with Varpasuo-Nikkari-Saari GMPE (2001) [4] equation is given for epicentral distances from
105 km up to 263 km:
Figure the attenuation fit of the registrations for Sweden October 2005 10:08 event with Varpasuo-Saari -Nikkari GMPE (2001) [4] equation is given for
epicentral distances from 105 km up to 263 km, logarithmic standard deviation is 0.603.
CONCLUSION
For Malmoe 2008 event 29 horizontal acceleration time histories were processed and peak ground
acceleration value for each history was developed. For Kaliningrad 2004 event 39 horizontal
acceleration time histories were processed and peak ground acceleration value for each history was
developed. For Enontekio 2007 event14 horizontal acceleration time histories were processed and peak
ground acceleration value for each history was developed. For Sweden 2005 event10horizontal
acceleration time histories were processed and peak ground acceleration value for each history was
developed. Altogether 92 ground acceleration time histories with various lengths from 5 minutes up to
60 minutes and with sampling frequency of 0.01 seconds were processed and peak ground acceleration
values developed.
The obtained fit results with Varpasuo-Saari-Nikkari (201) [4] GMPE equation are given in Figures 31-
32 for Malmoe 2008 event, in Figures 73-74 for Kaliningrad 2004 event , In Figure 89 for Enontekio
2007 event and in Figure 100 for Sweden 2005 event. The fit can be judged very good for Malmoe
event the logarithmic standard deviation for epicentral distances less than 500 km is 0.458 and for
Kaliningrad event the logarithmic standard deviation for epicentral distances less than 500 km is 0.304.
These values are judged to very low the original fitting logarithmic standard deviation for Saguenay
data in Varpasuo-Saari-Nikkari (201) [4] GMPE equation was 0.49. For Enontekio 2007 and Sweden
2005 small magnitude events the logarithmic standards deviations were 0.682 0.603, respectively.
These values are higher than the original fitting logarithmic standard deviation for Saguenay data in
Varpasuo-Saari-Nikkari (201) [4] GMPE equation, but on the other hand the actual peak ground
acceleration values for these events were very low being in the limit for Varpasuo-Saari-Nikkari (201)
[4] GMPE equation estimations.
57
REFERENCES
[1] Geophys. J. Int. (2011) [doi: 10.1111/j.1365-246X.2011.05280.xGJI Seismology], "Effects of
seismic anisotropy on P-velocity tomography of the Baltic Shield", Tuna Eken, Jaroslava Plomerov,
Vladislav Babuska, Roland Roberts, Hossein Shomali and R. Bodvarsson
[2] Private communication between Dr. Bjorn Lund, Uppsala University and Pentti Varpasuo, Fortum
Power and Heat Oy.
[3] http://snsn.geofys.uu.se/
[4] Transactions of the 16th International Conference on Structural Mechanics in Reactor Technology
(SMiRT). Washington DC, USA, August 12-17, 2001, "SEISMIC HAZARD AND GROUND
MOTION FOR LENINGRAD NPP SITE", Pentti Varpasuo, Jouni Saari and Yrjo Nikkari, FORTUM
ENGINEERING, Vantaa, Finland
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