MATCHES BETWEEN ELECTROMAGNETIC SIGNALS AND PAST EARTHQUAKES
Chart C above displays the latest
Averaged EM Signals Earthquake Forecasting data
The seven groups of charts below display the
latest Earthquake Precursor data
from the following Web site:
https://www.dynamicgravity.org/mereni2/
These are ground tilt measurements
that are being made in
no longer used coal mines etc. located in Europe and Asia areas.
Measurement date ranges are on the bottom of each of these
charts.
The slopes of the various lines
and gaps in the lines on these charts can be compared
with both my Averaged Signals EM Signal Data and my Individual
Signals EM Signal data.
The following Web pages provide important information
for understanding, evaluating, and using the data on
this Data.html
Web page and other Web pages on this Web site.
CHART
VIEWERS
The Chart Viewers are downloadable Web pages that make
the Earthquake Forecasting charts easy to work with.
Chart Viewer Examples can be seen
farther down on this present Web page.
Earthquake-Forecasting-Procedures
A number of the Web pages on
this Web site are undergoing significant updates.
That includes this present Data.html
Web page.
While the update efforts are underway, some of the Internet
and Multiple Window
Chart Viewer links etc. on this Web present page and other Web
pages on this site might not work.
Additionally, some of the charts and data tables might not be
current.
Some of the charts that are
presently being displayed on this Web page are scheduled
to be moved to the
Data-2.html and Data-3.html
Web pages.
The new Data.html
Web page should then download a lot faster.
COMMENTS REGARDING THE CHART BELOW
Web page visitors who do not
already know how to evaluate the Earthquake Precursor
Data
on this present Web page can find some explanation information
in this Web page's Introduction
Section.
An Internet browser's ZOOM
setting can be adjusted to display larger versions of the
text on this Web page. A zoom value of 150% should make
the text easily readable.
Several NOAA
Geomagnetic Storm Activity Charts are displayed in this
section of this Web page. See also the NOAA Space
Weather Forecast Web page.
There seem to be many more high intensity EM Signals generated when there are yellow lines on the storm charts showing that there is a geomagnetic storm in progress, versus the times when there is no geomagnetic storm activity. Additionally, at times, a high intensity EM Signal is detected at essentially exactly the same time as when yellow or orange Sudden Impulse Alert or Warning rectangles appear on the charts such as the Demonstration NOAA Geomagnetic Storm Chart shown below.
In my
opinion, there appears at times to be some type of link between
the geomagnetic storms and the times when some earthquakes are
getting ready to occur. Several research groups have
published papers proposing that earthquakes can occur during the
days after there are high levels of solar proton storm density
around the Earth. As far as I am aware, there have not yet
been any publications explaining what the solar proton storm -
earthquake interaction mechanism might be.
EM Signals are also detected at times when there are abrupt fluctuations in certain Earth crust twist and tilt measurements. Those apparent EM Signal - geomagnetic storm - ground twist and tilt - earthquake links are discussed in more detail in various sections of the Earthquake Forecasting Breakthroughs Web page.
The first
chart below shows present storm activity plus indicators of
storm activity that is expected during the next few days.
The second chart shows geomagnetic storm activity going back
several more days in time than the first chart. I have a
fairly complete set of those charts going back to the start of
the year 2015.
Various combinations of relatively simple comparison methods can be used.
Multiple copies of an Internet Browser Web page can be opened
and displayed for this Data.html page manually by doing the
following:
Step 1 - One copy of the Web page can
be opened.
Step 2 - With some or perhaps most Internet Browsers, a second or a third copy can be opened by simply pressing and holding CTRL on the keyboard and then pressing n.
Step 3 - Select any of the charts on
this Web page to display on any of the Browser Web pages.
Step 4 - Use the ALT
and TAB keys to move between Browser Web page.
Step 1 - One copy of the Web page can
be opened.
Step 2 - With some or perhaps most Internet Browsers, a second or a third copy can be opened by simply pressing and holding CTRL on the keyboard and then pressing n.
Step 3 - Select any of the charts on
this Web page to display on any of the Browser Web pages.
Step 4 - Use the Internet Browser's "Reduced
Size Window"
feature at the top right of the Browser Web page to select and
then
position each of the Browser Web pages so that several of them
display
at the same time on the computer monitor screen.
Step 5 - The computer mouse or the ALT
TAB keys can then be used to select or move between
the different
reduced size windows.
The Chart Viewers in this present section of this Web page
should enable
Web page visitors to easily compare various types of
chart data with one another.
TO USE A MULTIPLE WINDOWS
CHART VIEWER
LEFT CLICK THE LINKS BELOW TO SELECT THE UPPER AND
LOWER WINDOW CONTENTS FOR THE VIEWER BELOW
UPPER Window
Chart C Earthquakes plus EM Signals Significant - Date Sort Significant - Longitude Sort EM Signals Chart A Year Chart Significant plus Precursors
LOWER Window
Chart C Earthquakes plus EM Signals Significant - Date Sort Significant - Longitude Sort EM Signals Chart A Year Chart Significant plus Precursors
Click Here To
Re-position The Viewer After Selecting The Charts
Click Here To Re-position The Viewer Selecting
The Charts
THE UPPER AND LOWER WINDOW CONTENTS FOR THE ABOVE VIEWER
UPPER Window
Chart C Earthquakes plus EM Signals Significant - Date Sort Significant - Longitude Sort EM Signals Chart A Year Chart Significant plus Precursors
LOWER Window
Chart C Earthquakes plus EM Signals Significant - Date Sort Significant - Longitude Sort EM Signals Chart A Year Chart Significant plus Precursors
LEFT CLICK THE LINKS BELOW TO SELECT THE UPPER AND
LOWER WINDOW CONTENTS FOR THE VIEWER BELOW
UPPER Window
Chart C Earthquakes plus EM Signals Significant - Date Sort Significant - Longitude Sort EM Signals Chart A Year Chart Significant plus Precursors
LOWER Window
Chart C Earthquakes plus EM Signals Significant - Date Sort Significant - Longitude Sort EM Signals Chart A Year Chart Significant plus Precursors
Click Here To
Re-position The Viewer After Selecting The Charts
Click Here To Re-position The Viewer Selecting
The Charts
THE UPPER AND LOWER WINDOW CONTENTS FOR THE ABOVE VIEWER
Upper Window
Chart C Earthquakes plus EM Signals Significant - Date Sort Significant - Longitude Sort EM Signals Chart A Year Chart Significant plus Precursors
LOWER Window
Chart C Earthquakes plus EM Signals Significant - Date Sort Significant - Longitude Sort EM Signals Chart A Year Chart Significant plus Precursors
LEFT CLICK THE LINKS BELOW TO SELECT THE
WINDOW CONTENTS FOR THE VIEWER BELOW
UPPER Window
Chart C Earthquakes plus EM Signals Significant - Date Sort Significant - Longitude Sort EM Signals Chart A Year Chart Significant plus Precursors
SECOND Window
Chart C Earthquakes plus EM Signals Significant - Date Sort Significant - Longitude Sort EM Signals Chart A Year Chart Significant plus Precursors
THIRD Window
Chart C Earthquakes plus EM Signals Significant - Date Sort Significant - Longitude Sort EM Signals Chart A Year Chart Significant plus Precursors
FOURTH Window
Chart C Earthquakes plus EM Signals Significant - Date Sort Significant - Longitude Sort EM Signals Chart A Year Chart Significant plus Precursors
FIFTH Window
Chart C Earthquakes plus EM Signals Significant - Date Sort Significant - Longitude Sort EM Signals Chart A Year Chart Significant plus Precursors
SIXTH Window
Chart C Earthquakes plus EM Signals Significant - Date Sort Significant - Longitude Sort EM Signals Chart A Year Chart Significant plus Precursors
BOTTOM Window
Chart C Earthquakes plus EM Signals Significant - Date Sort Significant - Longitude Sort EM Signals Chart A Year Chart Significant plus Precursors
Click Here To
Re-position The Viewer After Selecting The Charts
Click Here To Re-position The Viewer After Selecting Charts
WINDOW CONTENTS FOR THE
ABOVE VIEWER
UPPER Window
Chart C Earthquakes plus EM Signals Significant - Date Sort Significant - Longitude Sort EM Signals Chart A Year Chart Significant plus Precursors
SECOND Window
Chart C Earthquakes plus EM Signals Significant - Date Sort Significant - Longitude Sort EM Signals Chart A Year Chart Significant plus Precursors
THIRD Window
Chart C Earthquakes plus EM Signals Significant - Date Sort Significant - Longitude Sort EM Signals Chart A Year Chart Significant plus Precursors
FOURTH Window
Chart C Earthquakes plus EM Signals Significant - Date Sort Significant - Longitude Sort EM Signals Chart A Year Chart Significant plus Precursors
FIFTH Window
Chart C Earthquakes plus EM Signals Significant - Date Sort Significant - Longitude Sort EM Signals Chart A Year Chart Significant plus Precursors
SIXTH Window
Chart C Earthquakes plus EM Signals Significant - Date Sort Significant - Longitude Sort EM Signals Chart A Year Chart Significant plus Precursors
BOTTOM Window
Chart C Earthquakes plus EM Signals Significant - Date Sort Significant - Longitude Sort EM Signals Chart A Year Chart Significant plus Precursors
THE MOST IMPORTANT
RECENT CHARTS
The chart below is a variation of Chart C that has data lines are based on the best matches between the EM Signals associated with that Time Window and 50 past earthquakes that produced at least 1 fatality plus 50 past earthquakes that did not produce any fatalities.
The chart below is a version of the Year Chart for the present year that has the same format as the above Chart A. The data lines are based on the best matches between the EM Signals associated with that Time Window and 50 past earthquakes that produced at least 1 fatality plus 50 past earthquakes that did not produce any fatalities. The various numbers on the left and right sides are the same as the Year Chart.
The two charts below display averaged EM Signals plus significant earthquakes including all 8 and higher magnitude ones that have occurred since the start of 2001. They show the same types of latitude, longitude, and depth earthquake data as are displayed on the Year Charts.
INTRODUCTION SECTION
The Web pages
on this Web site are related to earthquake forecasting and
earthquake research. They include this present Data.html
Web page and also the Data-2.html,
Data-3.html,
and Earthquake
Forecasting Breakthroughs Web pages. Each Web page
was created for a specific purpose. The Breakthroughs
Web page discusses many more subjects than the three Data
Web pages. And it contains by far the most explanation
information.
The Data.html,
Data-2.html, and Data-3.html Web pages
present data for the following purposes and others:
--- Researchers can examine the data and
learn things regarding how, why, and when
earthquakes occur and also learn things about EM Signal
generation processes. For example, I believe that the data
on this Web page clearly show that powerful earthquakes often
occur at times that can be partially or largely controlled by
the gravitational pulls of the sun and the moon.
That information is important because there are several
different data evaluation procedures that can be used to
interpret the data on each of this Web page's charts.
And the correct procedure needs to be used with each
evaluation. If an incorrect one is used for a
particular evaluation then the resulting conclusions could
be totally wrong!
It
should be noted that the processes responsible for the
generation of these EM Signals appear to be almost indescribably
complex.
The EM Signal generation processes are not presently well understood by the Web page author. And very few if any other earthquake researchers appear to even be aware that these EM Signals are being generated before a good percentage of our powerful earthquakes occur. That is probably partly because the EM Signals often have duration times of only about 20 seconds. And that likely makes it impossible to detect the signals using most technologies.
One of
the consequences of this could be that the effective use of
these EM Signal data for determining when the first major
earthquake is about to occur in some area might be
difficult for most earthquake researchers who are not
working for large government agencies. For
accuracy and confirmation purposes the EM Signal data need to be
compared with other types of earthquake precursor data.
And that would require resources that might be available only
to people working for large organizations.
Earthquake Aftershocks -
That situation can be dramatically different for earthquake
aftershocks as we already know where
an aftershock is going to occur. And so, we only need to
determine when one is likely to occur.
As a result, the EQ-EMS Chart Data and the EMS Chart Data on this Web page
should be especially helpful with determining when
significant earthquake aftershocks might be about to occur.
The Forecasting
Earthquake Aftershocks section of the Earthquake
Forecasting Breakthroughs Web page has a detailed
discussion of that subject matter.
It should be remembered that my detection of these EM Signal data is largely dependent on daily schedules. Because of that, at best, only 1 in 3 of these EM Signals is probably presently being detected. And so, perhaps 2 in 3 signals that are being generated are not being detected or displayed on this Web page's EQ-EMS and EMS charts.
Earthquake Triggering Processes
- The three Data Web pages and the Earthquake
Forecasting Breakthroughs Web page are also intended to
provide earthquake researchers with information that should help
them better understand why many of our powerful earthquakes are
occurring at the times when they are occurring.
It is probably universally accepted that earthquakes occur because strain has built in an earthquake fault zone. However, forces associated with the gravitational pulls of the sun and the moon, and also apparently, with solar and geomagnetic storms, are often causing the earthquakes to occur at specific times. The triggering times for many powerful earthquakes are not simply random events.
INTERPRETING THE
CHART C, CHART A, EQ-EMS,
EMS, DATE SORT, LONGITUDE
SORT, AND YEAR CHART DATA
This Web page
provides people with certain types of earthquake precursor
data. The assumption is that Web page visitors already
know how to evaluate those data.
For Web page visitors who do not know how to evaluate these data there are detailed instructions for evaluating and using the data in the How People Can Predict Their Own Local Earthquakes section of the Earthquake Forecasting Breakthroughs Web page. The following are brief explanations of the information on this Web page's charts.
ABBREVIATED EXPLANATIONS FOR THE
CHARTS
INTERPRETING THE CHART C AND CHART A DATA (An Older Web page)
INTERPRETING
THE YEAR CHART DATA (An Older
Web page)
Those older Web pages have More Detailed
Explanations of the Chart C, Chart A,
and Year Chart data than are presented in the following
sections of this present Web page.
It might appear that
the correlation between the longitudes of the earthquakes
displayed on the various charts, and the longitudes of the
EM Signal line peaks (or the earthquake line peaks) is not
very good. There are a number of possible reasons for
that including the following:
1. Perhaps the most common factor is
that when an earthquake does finally occur, it might
not have been triggered by the same combination of
sun and moon gravity related forces that caused other
earthquakes along that longitude line to be triggered.
2. The fault zone where the earthquake is going to occur might not be the one generating the EM Signals. Instead for example, with relatively small tectonic plates the signals might be generated in fault zones located on the opposite side of the tectonic plate from where the earthquake is going to occur.
The
following Web pages have more information regarding the
correlation between earthquakes and line peak
locations: Earthquake
Forecasting Breakthroughs Ground
Tilt Sensor Network
The EQ-EMS and EMS charts display data for individual EM Signals rather than the averaged groups of EM Signals that can be seen on Chart C, Chart A, and the Year Charts.
The EMS
Chart (EM
Signals) displays the following EM
Signal data for the present year with the most recent data
at the top of the chart:
--- EM Signal detection dates
The EQ-EMS
Charts (EarthQuakes
and EM
Signals) in the section below for the
years 2001 to the present display the following types of EM
Signal data with the most recent data at the top of the
charts:
--- Significant earthquakes such
as ones having magnitudes lower than 6.5 that produced
fatalities,
and lower magnitude
ones that are important for research purposes.
That could include certain foreshock
and aftershock earthquakes.
The Multiple Window Chart
Viewers located near the top of this Web page can be
used to compare EMS and EQ-EMS chart lines with one another
and with other charts.
NOTE: Depending on your download and
computer speeds, these fairly large charts can take some a
while to download and then display.
Some of the charts that are presently being displayed on
this Web page are scheduled
to be moved to the
Data-2.html and Data-3.html
Web pages
so that this present Web page will more quickly download and
display data.
As with the other charts, the EQ-EMS and EMS charts are intended to make help earthquake forecasters tell when a significant earthquake might be about to occur at some location.
Each EM # LINE on Charts EME represents matches between what is believed to be a single recent earthquake fault zone activity-related electromagnetic signal (EM Signal), and all of the more than 100,000 past earthquakes in my earthquake database file.
Earthquake Aftershocks
- The EQ-EMS and EMS chart data should be especially
helpful with determining when significant earthquake
aftershocks might be about to occur as we
already know where an aftershock is going to
occur. So we only need to determine when
one is likely to occur. EM Signal generation times can
help with that.
The Forecasting
Earthquake Aftershocks section of the Earthquake
Forecasting Breakthroughs Web page has a detailed
discussion of that subject matter.
Demonstration EQ-EMS
Chart - That chart shows
what some future version of the EQ-EMS chart might look
like. It contains examples of other types of
earthquake precursor data in addition to the present EM
Signal data.
The
nature of the EM Signals in the EQ-EMS chart is discussed in
detail in the EM
Signal Theories section of the Earthquake
Forecasting Breakthroughs Web page.
However,
it should be noted that the processes responsible for
the generation of these EM Signals appear to be almost indescribably
complex.
Those signal generation processes are not presently well understood by the Web page author. And very few if any other earthquake researchers appear to even be aware that these EM Signals are being generated before a good percentage of our powerful earthquakes occur. That is probably partly because the EM Signals often have duration times of only about 20 seconds. And that likely makes it impossible to detect the signals using most technologies.
One
of the consequences of this could be that the effective use
of these EM Signal data for determining when the first major
earthquake is about to occur in some area might be
difficult for most earthquake researchers who are not
working for large government agencies. For
accuracy and confirmation purposes the EM Signal data need
to be compared with other types of earthquake precursor
data. And that would require resources that might be
available only to people working for large
organizations.
That
earthquake database file contains records for more than
100,000
five 5 and higher magnitude earthquakes that occurred since
the start of 1973.
Each EARTHQUAKE
# LINE on Charts EQ-EMS represents
matches between that particular earthquake and
all of the past earthquakes in my database file.
The UTC date and time on the left side of each Earthquake Line is the day and time when the earthquake occurred. The line just below that one shows the earthquake latitude, longitude, and depth.
The UTC date on the left side of each EM # Line is the day when the EM Signal was detected. That is followed by the EM Signal strength.--- Sharp pulse EM Signals that have durations of only about 0.25 seconds.
EM
2 signals generally last about 10 seconds and
give the appearance of having frequencies of around 7500
cycles per second. However, that apparent frequency
might be deceptive and just something associated with the
detection method. The actual frequency could be
different. Or there might not be any true frequency at
all.
EM 3
signals normally last
around 20 seconds. They can at times last as long as 3
minutes. Most have frequencies around 5 to 10 cycles
per second. They can occasionally be as high as 50
cycles per second.
The most
important EM Signals for this earthquake forecasting method
are the EM 4 through EM 9 signals.
EM 5 to EM 9 The higher the EM number for EM 5 to EM 9 signals, the stronger the signal. They normally last between 5 seconds and perhaps 20 seconds and are at times preceded by or followed by EM 3 signals. Other than that EM 3 signal link, so far, there have not been any detectable frequency components associated with the EM 5 to EM 9 signals.
The EM 6 to EM 7 signals are probably the most frequently detected signals in the EM 4 to EM 9 signal range.
Relatively few of the very high intensity EM 9 signals have
been detected since 1993. Only one or two might be
detected in a given year.
The most powerful EM Signal (EM 9) ever detected, having a strength value of 100 on a 1 to 100 scale was detected some time around September 27, 1993, a day or two before the following highly destructive earthquake occurred in India.
1993/09/29 22:25:48 18.07N 76.45E 7 6.2 "Maharashtra, India"
Permanent EM Signal records were not being kept at that time and the exact signal date is not known.
It is difficult to understand how that signal could have been so strong considering the relatively low magnitude of the earthquake (6.2). Perhaps its shallow depth (7 kilometers) was the major factor. Or, it might have had something to do with the fault zone environment or its north - south or east - west direction orientation.
It is my understanding that another researcher also observed very strong precursors in that area around that time. And there were reports of various animals in the area acting strangely.
The second most powerful EM Signal having a strength value of 50 was detected on December 30, 1994, two days after a 7.8 magnitude Japan area earthquake and about 2 1/2 weeks before a highly destructive earthquake occurred in Kobe, Japan.
From 1993 to the present, only a few EM Signals having strength values greater than perhaps 30 have been detected.
Perhaps 50% of the time when two or more EM 3 to EM 9 signals are detected within a few hours of one another, there will be a powerful earthquake within the next 5 days. Present theories for why that might be happening are too complex to discuss here.
There are other EM signals not shown on the EQ-EMS and EMS charts that are detected perhaps three times a year. They can last between perhaps 3 and 12 hours and are presently believed to possibly be related to volcano activities.
Line peak heights and widths on the Chart EQ-EMS Earthquake Lines indicate the degree to which the sun and moon data etc. related to the time when the earthquake occurred matched those types of data for powerful earthquakes that occurred since January of 1973 at the Line Peak's longitude.
In theory
there should be a strong Line Peak on an Earthquake Line at
the earthquake's actual longitude. However, that is
the case only part of the time because individual
earthquakes can be triggered by various combinations of sun
and moon gravity-related forces. Additionally, many
earthquakes, especially lower magnitude ones, likely occur
at random times.
THE ACTUAL EQ-EMS
And EMS CHARTS
The following EQ-EMS charts (in descending order) are for the years 2001 through the present.
MOST OF THE CHARTS DISPLAYED FULL SIZE
REDUCED SIZE CHARTS
The compact version charts shown below should be fully visible in the window of almost any computer monitor.
THE YEAR CHARTS
INTERPRETING
THE YEAR CHART DATA (An
Older Web page)
The Year
Chart refers to the present year. The Year
Charts refers to the same type of data. But it
covers the time period from 2001 to the present.
Both
types of charts have been prepared
with the regular format and the "A" type of format
that is weighted towards fatal earthquakes.
The following list displays the chart's significant earthquakes, in roughly this order. On the chart, most of the significant earthquakes are displayed in BOLD to make them easy to locate on the chart and then study. Several are repeated at the very bottom of the chart. 2018/10/07 00:11:51 20.03N 73.02W 24 5.9 "21km WNW of Ti Port-de-Paix, Haiti" 2010/01/12 21:53:10 18.44N 72.57W 13 7.0 "Haiti region" 1994/03/02 03:38:03 19.80N 72.80W 59 5.4 "Haiti region" 2015/05/12 07:05:19 27.84N 86.08E 15 7.3 "18km SE of Kodari, Nepal" 2015/04/25 06:11:26 28.15N 84.71E 15 7.8 "34km ESE of Lamjung, Nepal" 2011/03/11 05:46:24 38.30N 142.37E 29 9.1 "near the east coast of Honshu, Japan" 1995/01/16 20:46:52 34.58N 135.02E 22 6.9 "near the south coast of western Honshu, Japan" 1994/12/28 12:19:23 40.53N 143.42E 27 7.8 "off the east coast of Honshu, Japan" 2005/10/08 03:50:40 34.54N 73.59E 26 7.6 "Pakistan" 2004/12/26 00:58:53 3.3N 95.98E 30 9.1 "off the west coast of northern Sumatra" 2003/12/26 01:56:52 29.00N 58.31E 10 6.6 "southeastern Iran" 2001/02/28 18:54:32 47.15N 122.73W 52 6.8 "Puget Sound region, Washington" 2001/02/13 14:22:05 13.67N 88.94W 10 6.6 "El Salvador" 2001/01/26 03:16:40 23.42N 70.23E 16 7.7 "Gujarat, India" 2001/01/13 17:33:32 13.05N 88.66W 60 7.7 "offshore El Salvador" 1999/11/12 16:57:19 40.76N 31.16E 10 7.2 "western Turkey" 1999/09/29 00:13:05 40.74N 29.35E 10 5.2 "western Turkey" 1999/08/17 00:01:39 40.75N 29.86E 17 7.6 "western Turkey" 1998/05/30 06:22:28 37.11N 70.11E 33 6.6 "Hindu Kush region, Afghanistan" 1998/02/04 14:33:21 37.08N 70.09E 33 5.9 "Hindu Kush region, Afghanistan"
EARTHQUAKE AND EM SIGNAL TABLES
The
earthquake forecasting computer programs that generate the
chart data can also generate probability tables and maps
that display any number of Significant earthquakes
or All earthquakes that are the best matches for a
given earthquake of EM Signal.
The 6
tables below display the 20 best matches between the two
Haiti earthquakes and one EM Signal and the roughly 800
Significant earthquakes in my data files. The
first table in each group is sorted by
probability. The second is sorted by earthquake
longitude.
It
can easily be seen that the two earthquakes and the EM
Signal are all high quality matches for one another.
TEST EM SIGNAL AND TEST EARTHQUAKE MATCHES WITH DATABASE FILE EARTHQUAKES The Pa and Pd ranges are 1 to 100 with 100 being the best quality match between the test EM Signal or earthquake, with any earthquake in the earthquake database file (Pa), or any earthquake in that file that produced fatalities (Pd). EM # is EM Signal strength, range 1 to 9, with EM 9 being the highest possible value. Fatal is the reported number of fatalities for the earthquake on the data line. Results in each earthquake group are sorted by either Pa value or earthquake longitude. Probability Sort Earthquake Matches For: 2010/01/12 21:53:10 18.44N 72.57W 13 7.0 "Haiti region" Pa Pd Fatal Earthquake Data 100 100 41 1976/08/23 03:30:07 32.49N 104.18E 33 6.7 "Sichuan-Gansu border region, China" 94 94 250000 2010/01/12 21:53:10 18.44N 72.57W 13 7.0 "Haiti region" 88 88 6 1993/04/18 09:16:23 11.65S 76.53W 106 6.3 "central Peru" 87 87 7 2006/12/17 21:10:21 4.81N 95.02E 36 5.8 "northern Sumatra, Indonesia" 87 87 6500 2006/05/26 22:53:58 7.96S 110.45E 13 6.3 "Java, Indonesia" 85 85 36 1995/10/23 22:46:50 26.00N 102.23E 10 6.2 "Sichuan-Yunnan border region, China" 84 84 1 1975/10/31 08:28:02 12.54N 125.99E 50 7.2 "Samar, Philippines" 83 83 12 1979/03/15 12:52:29 23.16N 101.14E 33 6.2 "Yunnan, China" 83 83 1 1986/06/06 10:39:46 38.00N 37.92E 10 5.8 "central Turkey" 80 80 2 1985/03/19 10:28:36 18.63S 63.66W 33 5.8 "Santa Cruz, Bolivia" 80 80 18 2004/07/01 22:30:09 39.77N 43.98E 5 5.1 "eastern Turkey" 80 80 1 1998/03/26 16:26:11 43.26N 12.97E 10 5.4 "central Italy" 78 78 3 1981/10/25 03:22:15 18.05N 102.08W 33 7.3 "Guerrero, Mexico" 75 75 2 1987/12/17 02:08:19 35.36N 140.21E 63 6.7 "near the east coast of Honshu, Japan" 75 75 2 1992/10/23 09:11:09 31.35N 4.32W 29 5.6 "Morocco" 75 75 1 1982/11/16 23:41:21 40.88N 19.59E 21 5.6 "Albania" 74 74 9 1995/11/22 04:15:11 28.83N 34.80E 10 7.2 "Egypt" 74 74 1 1995/12/19 20:56:06 15.30N 90.15W 10 5.4 "Guatemala" 74 74 4 1994/03/02 03:38:03 19.80N 72.80W 59 5.4 "Haiti region" 73 73 7 1996/02/21 12:51:01 9.59S 79.59W 10 7.5 "off the coast of northern Peru" Longitude Sort Earthquake Matches For: 2010/01/12 21:53:10 18.44N 72.57W 13 7.0 "Haiti region" Pa Pd Fatal Earthquake Data 75 75 2 1987/12/17 02:08:19 35.36N 140.21E 63 6.7 "near the east coast of Honshu, Japan" 84 84 1 1975/10/31 08:28:02 12.54N 125.99E 50 7.2 "Samar, Philippines" 87 87 6500 2006/05/26 22:53:58 7.96S 110.45E 13 6.3 "Java, Indonesia" 100 100 41 1976/08/23 03:30:07 32.49N 104.18E 33 6.7 "Sichuan-Gansu border region, China" 85 85 36 1995/10/23 22:46:50 26.00N 102.23E 10 6.2 "Sichuan-Yunnan border region, China" 83 83 12 1979/03/15 12:52:29 23.16N 101.14E 33 6.2 "Yunnan, China" 87 87 7 2006/12/17 21:10:21 4.81N 95.02E 36 5.8 "northern Sumatra, Indonesia" 80 80 18 2004/07/01 22:30:09 39.77N 43.98E 5 5.1 "eastern Turkey" 83 83 1 1986/06/06 10:39:46 38.00N 37.92E 10 5.8 "central Turkey" 74 74 9 1995/11/22 04:15:11 28.83N 34.80E 10 7.2 "Egypt" 75 75 1 1982/11/16 23:41:21 40.88N 19.59E 21 5.6 "Albania" 80 80 1 1998/03/26 16:26:11 43.26N 12.97E 10 5.4 "central Italy" 75 75 2 1992/10/23 09:11:09 31.35N 4.32W 29 5.6 "Morocco" 80 80 2 1985/03/19 10:28:36 18.63S 63.66W 33 5.8 "Santa Cruz, Bolivia" 94 94 250000 2010/01/12 21:53:10 18.44N 72.57W 13 7.0 "Haiti region" 74 74 4 1994/03/02 03:38:03 19.80N 72.80W 59 5.4 "Haiti region" 88 88 6 1993/04/18 09:16:23 11.65S 76.53W 106 6.3 "central Peru" 73 73 7 1996/02/21 12:51:01 9.59S 79.59W 10 7.5 "off the coast of northern Peru" 74 74 1 1995/12/19 20:56:06 15.30N 90.15W 10 5.4 "Guatemala" 78 78 3 1981/10/25 03:22:15 18.05N 102.08W 33 7.3 "Guerrero, Mexico" Probability Sort Earthquake Matches For: 2010/01/11 02:35:00 EM 8 Pa Pd Fatal Earthquake Data 84 100 6 1993/04/18 09:16:23 11.65S 76.53W 106 6.3 "central Peru" 82 99 4 1994/03/02 03:38:03 19.80N 72.80W 59 5.4 "Haiti region" 80 96 250000 2010/01/12 21:53:10 18.44N 72.57W 13 7.0 "Haiti region" 78 93 70 1999/02/11 14:08:51 34.26N 69.36E 33 6.0 "central Afghanistan" 78 93 1 1987/08/13 15:23:06 17.90S 70.93W 37 6.6 "southern Peru" 77 92 8 1988/01/05 06:41:16 26.81S 26.64E 5 5.2 "South Africa" 77 92 41 1976/08/23 03:30:07 32.49N 104.18E 33 6.7 "Sichuan-Gansu border region, China" 76 91 7 2006/12/17 21:10:21 4.81N 95.02E 36 5.8 "northern Sumatra, Indonesia" 75 90 12 1979/03/15 12:52:29 23.16N 101.14E 33 6.2 "Yunnan, China" 75 89 6 1976/05/17 02:58:40 40.38N 63.47E 10 7.0 "western Uzbekistan" 74 88 35 1988/08/06 00:36:24 25.15N 95.13E 91 7.3 "Myanmar" 73 88 1 1993/09/10 19:12:54 14.72N 92.64W 34 7.2 "offshore Chiapas, Mexico" 73 88 1 1975/10/31 08:28:02 12.54N 125.99E 50 7.2 "Samar, Philippines" 71 85 2 1987/12/17 02:08:19 35.36N 140.21E 63 6.7 "near the east coast of Honshu, Japan" 70 84 4900 1980/11/23 18:34:53 40.91N 15.37E 10 6.9 "southern Italy" 68 82 33 1999/09/30 16:31:15 16.06N 96.93W 61 7.5 "Oaxaca, Mexico" 68 81 150 1981/01/23 21:13:51 30.93N 101.10E 33 6.8 "western Sichuan, China" 67 80 1 1998/03/26 16:26:11 43.26N 12.97E 10 5.4 "central Italy" 67 80 2 1988/02/06 14:50:45 24.69N 91.57E 33 5.9 "India-Bangladesh border region" 65 78 2 1985/03/19 10:28:36 18.63S 63.66W 33 5.8 "Santa Cruz, Bolivia" Longitude Sort Earthquake Matches For: 2010/01/11 02:35:00 EM 8 Pa Pd Fatal Earthquake Data 71 85 2 1987/12/17 02:08:19 35.36N 140.21E 63 6.7 "near the east coast of Honshu, Japan" 73 88 1 1975/10/31 08:28:02 12.54N 125.99E 50 7.2 "Samar, Philippines" 77 92 41 1976/08/23 03:30:07 32.49N 104.18E 33 6.7 "Sichuan-Gansu border region, China" 68 81 150 1981/01/23 21:13:51 30.93N 101.10E 33 6.8 "western Sichuan, China" 75 90 12 1979/03/15 12:52:29 23.16N 101.14E 33 6.2 "Yunnan, China" 76 91 7 2006/12/17 21:10:21 4.81N 95.02E 36 5.8 "northern Sumatra, Indonesia" 74 88 35 1988/08/06 00:36:24 25.15N 95.13E 91 7.3 "Myanmar" 67 80 2 1988/02/06 14:50:45 24.69N 91.57E 33 5.9 "India-Bangladesh border region" 78 93 70 1999/02/11 14:08:51 34.26N 69.36E 33 6.0 "central Afghanistan" 75 89 6 1976/05/17 02:58:40 40.38N 63.47E 10 7.0 "western Uzbekistan" 77 92 8 1988/01/05 06:41:16 26.81S 26.64E 5 5.2 "South Africa" 70 84 4900 1980/11/23 18:34:53 40.91N 15.37E 10 6.9 "southern Italy" 67 80 1 1998/03/26 16:26:11 43.26N 12.97E 10 5.4 "central Italy" 65 78 2 1985/03/19 10:28:36 18.63S 63.66W 33 5.8 "Santa Cruz, Bolivia" 78 93 1 1987/08/13 15:23:06 17.90S 70.93W 37 6.6 "southern Peru" 80 96 250000 2010/01/12 21:53:10 18.44N 72.57W 13 7.0 "Haiti region" 82 99 4 1994/03/02 03:38:03 19.80N 72.80W 59 5.4 "Haiti region" 84 100 6 1993/04/18 09:16:23 11.65S 76.53W 106 6.3 "central Peru" 73 88 1 1993/09/10 19:12:54 14.72N 92.64W 34 7.2 "offshore Chiapas, Mexico" 68 82 33 1999/09/30 16:31:15 16.06N 96.93W 61 7.5 "Oaxaca, Mexico" Probability Sort Earthquake Matches For: 4 1994/03/02 03:38:03 19.80N 72.80W 59 5.4 "Haiti region" Pa Pd Fatal Earthquake Data 99 100 4 1994/03/02 03:38:03 19.80N 72.80W 59 5.4 "Haiti region" 95 96 150 1981/01/23 21:13:51 30.93N 101.10E 33 6.8 "western Sichuan, China" 83 84 33 1999/09/30 16:31:15 16.06N 96.93W 61 7.5 "Oaxaca, Mexico" 82 83 2 1988/02/06 14:50:45 24.69N 91.57E 33 5.9 "India-Bangladesh border region" 82 83 1 1987/08/13 15:23:06 17.90S 70.93W 37 6.6 "southern Peru" 82 83 30 2013/07/02 07:37:02 4.64N 96.67E 13 6.1 "55km S of Bireun, Indonesia" 82 83 6 1976/05/17 02:58:40 40.38N 63.47E 10 7.0 "western Uzbekistan" 80 81 6 1993/04/18 09:16:23 11.65S 76.53W 106 6.3 "central Peru" 77 78 35 1988/08/06 00:36:24 25.15N 95.13E 91 7.3 "Myanmar" 76 77 3 2011/05/19 20:15:22 39.15N 29.10E 7 5.8 "western Turkey" 72 73 250000 2010/01/12 21:53:10 18.44N 72.57W 13 7.0 "Haiti region" 72 73 41 1976/08/23 03:30:07 32.49N 104.18E 33 6.7 "Sichuan-Gansu border region, China" 72 73 1 1993/09/10 19:12:54 14.72N 92.64W 34 7.2 "offshore Chiapas, Mexico" 70 71 7 2006/12/17 21:10:21 4.81N 95.02E 36 5.8 "northern Sumatra, Indonesia" 69 69 36 1995/10/23 22:46:50 26.00N 102.23E 10 6.2 "Sichuan-Yunnan border region, China" 68 69 12 1979/03/15 12:52:29 23.16N 101.14E 33 6.2 "Yunnan, China" 67 68 25 2007/09/12 11:10:26 4.44S 101.37E 34 8.4 "southern Sumatra, Indonesia" 66 67 1 2003/01/21 02:46:47 13.63N 90.77W 24 6.5 "offshore Guatemala" 65 66 6 1986/04/26 07:35:16 32.13N 76.37E 33 5.5 "Himachal Pradesh, India" 65 66 29 1989/10/18 14:57:22 39.89N 113.88E 10 5.4 "Shanxi, China" Longitude Sort Earthquake Matches For: 4 1994/03/02 03:38:03 19.80N 72.80W 59 5.4 "Haiti region" Pa Pd Fatal Earthquake Data 65 66 29 1989/10/18 14:57:22 39.89N 113.88E 10 5.4 "Shanxi, China" 72 73 41 1976/08/23 03:30:07 32.49N 104.18E 33 6.7 "Sichuan-Gansu border region, China" 69 69 36 1995/10/23 22:46:50 26.00N 102.23E 10 6.2 "Sichuan-Yunnan border region, China" 67 68 25 2007/09/12 11:10:26 4.44S 101.37E 34 8.4 "southern Sumatra, Indonesia" 95 96 150 1981/01/23 21:13:51 30.93N 101.10E 33 6.8 "western Sichuan, China" 68 69 12 1979/03/15 12:52:29 23.16N 101.14E 33 6.2 "Yunnan, China" 82 83 30 2013/07/02 07:37:02 4.64N 96.67E 13 6.1 "55km S of Bireun, Indonesia" 70 71 7 2006/12/17 21:10:21 4.81N 95.02E 36 5.8 "northern Sumatra, Indonesia" 77 78 35 1988/08/06 00:36:24 25.15N 95.13E 91 7.3 "Myanmar" 82 83 2 1988/02/06 14:50:45 24.69N 91.57E 33 5.9 "India-Bangladesh border region" 65 66 6 1986/04/26 07:35:16 32.13N 76.37E 33 5.5 "Himachal Pradesh, India" 82 83 6 1976/05/17 02:58:40 40.38N 63.47E 10 7.0 "western Uzbekistan" 76 77 3 2011/05/19 20:15:22 39.15N 29.10E 7 5.8 "western Turkey" 82 83 1 1987/08/13 15:23:06 17.90S 70.93W 37 6.6 "southern Peru" 72 73 250000 2010/01/12 21:53:10 18.44N 72.57W 13 7.0 "Haiti region" 99 100 4 1994/03/02 03:38:03 19.80N 72.80W 59 5.4 "Haiti region" 80 81 6 1993/04/18 09:16:23 11.65S 76.53W 106 6.3 "central Peru" 66 67 1 2003/01/21 02:46:47 13.63N 90.77W 24 6.5 "offshore Guatemala" 72 73 1 1993/09/10 19:12:54 14.72N 92.64W 34 7.2 "offshore Chiapas, Mexico" 83 84 33 1999/09/30 16:31:15 16.06N 96.93W 61 7.5 "Oaxaca, Mexico"
EARTHQUAKE AND EM SIGNAL MAPS
The 9
maps below are graphical representations of the 20
earthquake matches in the above tables.
The
first map in each of the 3 groups displays the
earthquakes on outlines of the Earth's continents.
The second map in each group displays the earthquakes on
a tectonic plate map. The third map displays the
earthquakes on a combination map of the contents and the
tectonic plates.
A
DEMONSTRATION EARTHQUAKE PRECURSORS
AND EARTHQUAKES CHART
The "Demonstration" chart below provides an example of how different types of earthquake precursors could be displayed on the same chart.
The
precursors could include EM Signals, radon gas
detection, Jet Stream Anomalies, earthquake clouds,
Total Electron Content measurements, other types of
electromagnetic signals, Sun Shadow Forecasting Method
data, and solar and geomagnetic storm data.
Through the use of such charts earthquake forecasters around the world would hopefully be able to determine when multiple earthquake precursors were pointing to the same location for a possible approaching earthquake.
The
EM Signal and earthquake data on this "Demonstration"
chart are real. The other data such as Total
Electron Content were not actually detected. They
were simply added to the chart for demonstration
purposes.
With
this "Demonstration" chart it can be seen that
quite a few earthquake precursors appeared around 95 E
during the month before the Burma earthquakes that
occurred at that longitude.
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