Developers want to have test meter data for OED development that is consistent, stable and does not require having access to actual meters. This describes how to get and load such meter test data along with related groups, units & conversions.
What follows assumes you have a properly installed and working OED but have not yet loaded in the reading data described here. If they have already been loaded then the loading step for that meter will be skipped. At a minimum you should be able to see the main OED page in a web browser (normally URL of localhost:3000). Normally the database is automatically created and works fine. If you get errors about the database then you need to address them before you can do this or get the test data in (if you get errors during this process).
The simple and mathematical test data is created in OED by doing the following (they are described later):
npm run testData
. This may take a few minutes but when it
completes there should be new meters with data, new groups, the DB structures are all updated and the CSV
files used
will be removed unless there was an error. This generates all
the standard test data except the one where readings are every minute since that is a large dataset that is
less frequently used. See the next step before you
can use the new OED information within the OED web page.If you only want to load some of the data (not the common usage), you can look at package.json for the individual commands to insert the mathematical data. The others are so small/fast that they are done as above. See Mathematical test data section below.
When you do a compare graph, you choose how far from current time you compare. As a result, you need current readings and ones immediately before that time to get data for the comparison graph. If you are using meter data that does not have this, you will need to create it. Here is how to do it:
date +%Z
. For what
follows the timezone is assumed to be CDT but you should change if your timezone differs.
psql U oed
to access the database terminal and do the following within this
terminal. Verify timezone is correct by doing: select clock_timestamp() at time zone 'CDT';
.
Make sure that it shows the same time as on the clock on your computer that you found in the
previous step and replace CDT with the timezone using. You can now quit postgres by doing: \q
node e 'require("./src/server/util/developer.js").shiftReadings("meter name", "CDT")'
shifting meter "meter name" to timezone "CDT" The readings were shifted by: 10 days refreshing all views since readings changed [INFO@20231003T02:05:08.194+00:00] Refreshing All Reading Views... [INFO@20231003T02:05:08.196+00:00] Refreshing Materialized Daily Reading Views [INFO@20231003T02:05:08.197+00:00] Refreshing Materialized Hourly Reading Views [INFO@20231003T02:05:14.231+00:00] Daily View Refreshed [INFO@20231003T02:05:19.900+00:00] Materialized Hourly View Refreshed [INFO@20231003T02:05:19.902+00:00] ...Views Refreshed!
node e 'require("./src/server/util/developer.js").shiftReadings("meter name", "CDT", false)'
This process can be repeated as often as desired to keep the readings current. If you give an incorrect meter name that does not exist then an error similar to the following will appear:
[ERROR@20231002T22:56:40.591+00:00] Unhandled Promise Rejection: TypeError: Cannot read properties of null (reading 'humanize') Stacktrace: TypeError: Cannot read properties of null (reading 'humanize') at Object.shiftReadings (/usr/src/app/src/server/util/developer.js:36:71) at process.processTicksAndRejections (node:internal/process/task_queues:95:5) (node:288) PromiseRejectionHandledWarning: Promise rejection was handled asynchronously (rejection id: 1) (Use `node tracewarnings ...` to show where the warning was created)
The following figure shows the result after shifting the three amp meters to current time and then doing a comparison graphic for 1 week. There is no difference between the meters since they all have the same shape and only scaling of the readings.
The following assumes you have loaded the test data into your development OED system. You can use other meter data if you prefer.
Please use the admin map creating help for information on how to load and calibrate a map. This page only describes the necessary details of the test map. You need to be logged in as an admin to complete these steps.
Use the sample Happy Place map by downloading it. This is the map you upload into OED. We will call it "Happy Place" and you can use that name in OED or some other name. The map angle is 0.0 degrees.
During the calibration step, you will use a mythical GPS coordinate system of (030, 050) which are real GPS values but not usual for a map. This large area works because we will make a perfect calibration with no error. This means the lower, left corner of the map has GPS coordinate (0, 0) and the top, right has GPS coordinate (50, 30). The Plotly grid has values of (0, 0) for lower, left and (300, 500) for the top, right. This means the coordinates are reversed for GPS (latitude, longitude) compared to the grid (x, y) and are a factor of 10 smaller. During calibration, click on three places on the map. In principle it does not matter where but three spread out places on the map is better normally. When you do that, OED will show the grid coordinate you clicked on. As just explained, you need to reverse the coordinates and divide by 10. Thus, if you are told "input GPS coordinate that corresponds to the point: x: 277, y: 461 in this format > latitude,longitude" then you enter "46.1, 27.7" for the GPS value in the box and submit. Repeat this 3 times and you should then see an error of 0% for both directions. If not, start over. If yes, then save changes to the database.
The following meters and groups will automatically be placed at these locations:
If all went well, you should now see the following on the map page.
Sometimes you want to test a rotated map. In this case use Happy Place 30 Deg map that was rotated by 30 degrees. This does not impact the GPS coordinates but means the simple correspondence between the OED grid and GPS no longer holds. During calibration, use these points:
This will give: result: x: 3.127%, y: 0.647%. If you switch to this map then you should see the following Where items are shown at the same location but the map is rotated.
The simple/basic test data is not representative of real meter data nor mathematical but it is easy to use. Each meter has readings for five days and the line graphs should be a straight line. The following table gives the expected values for the line graphs for all units for these simple meters where NA indicates that unit is not allowed/not compatible. The item for each meter/row that is marked with a ^{*} indicates the default graphic unit if one is not already selected. All values are for per hour for the rate. Note kW and kWh are not impacted by a rate change. The Gallon and Gallon flow are available for testing the rate choices.
The table also contains the mathematical test data in the lower part.
Meter name  Dates  Notes  kWh  BTU  MJ  M^{3} Gas  100 W bulb  US Dollar  Euro  kg  Metric ton  kg of CO_{2}  Metric ton of CO_{2}  Fahrenheit  Celsius  kW  Gallon  Liter  Gallon per minute  Liter per hour 

Electric Utility kWh  6/15/2021  graphs as raw meter data  1  5^{*}  3412.08  17060.4  3.6  18  9.32e2  0.466  15  0.115  0.575  0.1012  0.506  NA  NA  0.709  3.545  7.09e4  3.545e3  NA  NA  NA  NA  NA  NA  NA 
Electric Utility kWh not displayable  6/15/2021  graphs as raw meter data; only if admin  1  5^{*}  3412.08  17060.4  3.6  18  9.32e2  0.466  15  0.115  0.575  0.1012  0.506  NA  NA  0.709  3.545  7.09e4  3.545e3  NA  NA  NA  NA  NA  NA  NA 
Electric Utility kWh 26  6/15/2021  graphs as meter data  2  6^{*}  6824.16  20472.48  7.2  21.6  0.186  0.559  2  6  0.23  0.69  0.2  0.6  NA  NA  1.418  4.254  1.418e3  4.254e3  NA  NA  NA  NA  NA  NA  NA 
Electric Utility kWh in BTU  6/15/2021  graphs as meter data  1  5  3412.08  17060.4^{*}  3.6  18  9.32e2  0.466  15  0.115  0.575  0.1012  0.506  NA  NA  0.709  3.545  7.09e4  3.545e3  NA  NA  NA  NA  NA  NA  NA 
Electric Utility kWh in MTon CO_{2}  6/15/2021  graphs as meter data  1  5  3412.08  17060.4^{*}  3.6  18  9.32e2  0.466  15  0.115  0.575  0.1012  0.506  NA  NA  0.709  3.545  7.09e4  3.545e3^{*}  NA  NA  NA  NA  NA  NA  NA 
Natural Gas BTU  6/15/2021  graphs as meter data  2.93e4  1.465e3  1  5^{*}  1.06e3  5.27e3  2.73e5  1.36e4  2.93e4  1.465e3  2.95e6  1.48e5  2.6e6  1.3e5  NA  NA  5.28e5  2.64e4  5.28e8  2.64e7  NA  NA  NA  NA  NA  NA  NA 
Natural Gas BTU in Dollar  6/15/2021  graphs as meter data  2.93e4  1.465e3  1  5  1.06e3  5.27e3  2.73e5  1.36e4  2.93e4  1.465e3  2.95e6  1.48e5^{*}  2.6e6  1.3e5  NA  NA  5.28e5  2.64e4  5.28e8  2.64e7  NA  NA  NA  NA  NA  NA  NA 
Natural Gas Dollar  6/15/2021  graphs as meter data  NA  NA  NA  NA  NA  1  5^{*}  0.884.4  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA 
Natural Gas Cubic Meters  6/15/2021  graphs as meter data  10.7  53.4  3.64e4  1.82e5  38.5  192.3  1  5^{*}  10.7  53.4  0.11  0.55  0.97  4.84  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA 
Trash Kg  6/15/2021  graphs as meter data  NA  NA  NA  NA  NA  NA  NA  1  5^{*}  1e3  5e3  NA  NA  NA  NA  NA  NA  NA  NA  NA 
Temp Fahrenheit 0212  6/15/2021  graphs as meter data  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA  0  212^{*}  17.78  100  NA  NA  NA  NA  NA 
Temp Fahrenheit in Celsius  6/15/2021  graphs as meter data  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA  0  212  17.78  100^{*}  NA  NA  NA  NA  NA 
Electric kW  6/15/2021  graphs as meter data  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA  1  5^{*}  NA  NA  NA  NA 
Electric kW 26  6/15/2021  graphs as meter data  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA  2  6^{*}  NA  NA  NA  NA 
Water Gallon  6/15/2021  graphs as meter data  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA  15^{*}  3.7918.93  NA  NA 
Water Gallon flow 15 per minute  6/15/2021  graphs as meter data  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA  NA  15^{*}  227.121135.6 
Sin 4 Day kWh  2020  graphs as 4 day/raw meter  0  3 sine^{*}  0  ~10233  0  ~10.8  0  ~0.28  0  3  0  ~0.35  0  ~0.303  NA  NA  0  ~2.13  0  2.13e3  NA  NA  NA  NA  NA  NA  NA 
Sin 4 Hour kWh  2020  graphs daily but not less than 4 hour/raw if zoomed  0  3 sine^{*}  0  ~10233  0  ~10.8  0  ~0.28  0  3  0  ~0.35  0  ~0.303  NA  NA  0  ~2.13  0  2.13e3  NA  NA  NA  NA  NA  NA  NA 
Sin 15 Min kWh  2020  graphs daily  0  3 sine^{*}  0  ~10233  0  ~10.8  0  ~0.28  0  3  0  ~0.35  0  ~0.303  NA  NA  0  ~2.13  0  2.13e3  NA  NA  NA  NA  NA  NA  NA 
Sin 23 Min kWh  2020  graphs as daily  0  3 sine^{*}  0  ~10233  0  ~10.8  0  ~0.28  0  3  0  ~0.35  0  ~0.303  NA  NA  0  ~2.13  0  2.13e3  NA  NA  NA  NA  NA  NA  NA 
Sin 15 Min kWh  2020  graphs as daily  0  3 sine^{*}  0  ~10233  0  ~10.8  0  ~0.28  0  3  0  ~0.35  0  ~0.303  NA  NA  0  ~2.13  0  2.13e3  NA  NA  NA  NA  NA  NA  NA 
Sin Amp 1 kWh  202021  graphs as daily  0  1 sine^{*}  0  ~3402  0  ~3.6  0  ~0.093  0  1  0  ~0.115  0  ~0.101  NA  NA  0  ~0.708  0  7.08e4  NA  NA  NA  NA  NA  NA  NA 
Sin Amp 2 kWh  202021  graphs as daily  0  2 sine^{*}  0  ~6804  0  ~7.2  0  ~0.18  0  2  0  ~0.23  0  ~0.202  NA  NA  0  ~1.42  0  1.42e4  NA  NA  NA  NA  NA  NA  NA 
Sin Amp 3 kWh  202021  graphs as daily  0  3 sine^{*}  0  ~10206  0  ~10.8  0  ~0.28  0  3  0  ~0.345  0  ~0.303  NA  NA  0  ~2.12  0  2.123  NA  NA  NA  NA  NA  NA  NA 
Sin Sq kWh  2020  graphs as daily  0  2.5 sine^{*}  0  ~8520  0  ~9.0  0  ~0.23  0  2.5  0  ~0.29  0  ~0.252  NA  NA  0  ~1.77  0  1.773  NA  NA  NA  NA  NA  NA  NA 
Cos Sq kWh  2020  graphs as daily  0  2.5 sine^{*}  0  ~8520  0  ~9.0  0  ~0.23  0  2.5  0  ~0.29  0  ~0.252  NA  NA  0  ~1.77  0  1.773  NA  NA  NA  NA  NA  NA  NA 
Cos 23 Min kWh  2020  graphs as daily  0  3 sine^{*}  0  ~10233  0  ~10.8  0  ~0.28  0  3  0  ~0.35  0  ~0.303  NA  NA  0  ~2.13  0  2.13e3  NA  NA  NA  NA  NA  NA  NA 
For bar graphs, you can easily check the day bars for the simple data. Wider bars will only show for data with more days as OED does not show bars with days missing at the start or end. The value can be found by taking the day value on the line graph (shown in the table above) and multiplying by 24. For example, Electric Utility kWh as kWh has line values of 15 and bar values of 24120. In US Dollars it is 0.115  0.575 on line and 2.7613.8 on bar. Tis is because it is 24 times larger as the sum over the 24 hours of the rate/day. This holds for both quantity and flow units.
If the custom slider is used and the bar width is 2 days then you get two bars: June 23 and Jun 45. The value is 120 (48 + 72) and 216 (96 + 120).
The following table gives groups that are created from the meters above as well as the mathematical meter data described below. All area units are sq. meters and not set/zero if left off.
Group name  Default graphic unit  Values for default unit  area  Included meters  Included groups  All meters included  Compatible units  Note 

Electric Utility 15 + 26 kWh  kWh  3  11  10  Electric Utility kWh, Electric Utility kWh 26  none  Electric Utility kWh, Electric Utility kWh 26  see Electric Utility kWh  
Electric Utility 15 + 26 Dollar  US Dollar  0.345  1.265  10  Electric Utility kWh, Electric Utility kWh 26  none  Electric Utility kWh, Electric Utility kWh 26  see Electric Utility kWh  
Natural Gas Dollar Euro  Euro  0.88  4.4  Natural Gas Dollar  none  Natural Gas Dollar  see Natural Gas Dollar  
Electric Utility 15 + Natural Gas Dollar Euro  Euro  0.9812  4.906  Electric Utility kWh, Natural Gas Dollar  none  Electric Utility kWh, Natural Gas Dollar  see Natural Gas Dollar  
Electric Utility 15 kWh not displayable  kWh  1  5  Electric Utility kWh  none  Electric Utility kWh  see Electric Utility kWh  This should only been seen and graphable by an admin  
Electric kW + 26 kW  kW  3  11  100  Electric kW, Electric kW 26  none  Electric kW, Electric kW 26  see Electric Utility kWh  
SqSin + SqCos kWh  kWh  very close to 2.5  10  testSqSin kWh, testSqCos kWh  none  testSqSin kWh, testSqCos kWh  see Electric Utility kWh  
SqSin + SqCos no unit  none  same as above  testSqSin kWh, testSqCos kWh  none  testSqSin kWh, testSqCos kWh  see Electric Utility kWh  Will graph once a unit compatible with kWh is chosen  
Sin Amp 1 + 2 kWh  kWh  sine from 03  1000  Sin Amp 1 kWh, Sin Amp 2 kWh  none  Sin Amp 1 kWh, Sin Amp 2 kWh  see Electric Utility kWh  
Sin Amp 2 + 3 kWh  kWh  sine from 05  1000  Sin Amp 2 kWh, Sin Amp 3 kWh  none  Sin Amp 2 kWh, Sin Amp 3 kWh  see Electric Utility kWh  
Sin Amp 1 + (2  3) kWh  kWh  sine from 06  10000  Sin Amp 1 kWh  Sin Amp 2 + 3 kWh  Sin Amp 1 kWh, Sin Amp 2 kWh, Sin Amp 3 kWh  see Electric Utility kWh  includes group 
Amp 1 + 2 + (1 + 2) + (2 3) kWh  kWh  sine from 06  10000  Sin Amp 1 kWh, Sin Amp 2 kWh  Sin Amp 1 + 2 kWh, Sin Amp 2 + 3 kWh  Sin Amp 1 kWh, Sin Amp 2 kWh, Sin Amp 3 kWh  see Electric Utility kWh  includes 2 groups and 2 duplicate meters 
The OED test data generation code can generate sine and cosine based data. It has several advantages:
Note that the values are shifted so the minimum is 0 since most meter data is like that. It is easy to use this data by following these steps
The following table gives a list of the available data and information about it. The meter name assumes you use
the provided script to load the data. (If you want to generate the test data outside the usual script, the
<command name> is what you use to create this dataset manually with
npm run <command name>
in a web/vsc Docker container terminal. You will then need to
load the reading data into OED as described on the reading
import page. The file will have the name indicated and is located in the
src/server/test/db/data/automatedTests/
directory. It is important to properly set the reading
frequency to see the expect result.) The meter name is the one if the testData script is used to create and load
this data.
Description  Meter name  # points/file size 

File produced 

Sine function with a period of 45 days and amplitude 3 for 1 year with points every 4 days  Sin 4 Day kWh  92 points/5kB  generateFourDayTestingData  fourDayFreqTestData.csv 
Sine function with a period of 45 days and amplitude 3 for 1 year with points every 4 hours  Sin 4 Hour kWh  2196 points/129kB  generateFourHourTestingData  fourHourFreqTestData.csv 
Sine function with a period of 45 days and amplitude 3 for 1 year with points every 23 minutes  Sin 23 Min kWh  22915 points/1.4MB  generateTwentyThreeMinuteTestingData  twentyThreeMinuteFreqTestData.csv. 
Sine function with a period of 45 days and amplitude 3 for 1 year with points every 15 minutes  Sin 15 Min kWh  35136 points/2.1MB  generateFifteenMinuteTestingData  fifteenMinuteFreqTestData.csv 
Cosine function with a period of 45 days and amplitude 3 for 1 year with points every 23 minutes  Cos 23 Min kWh  22915 points/1.4MB  generateCosineTestingData  23FreqCosineTestData.csv 
Sine squared function with a period of 45 days and amplitude 2.5 for 1 year with points every 1 day  Sin Sq kWh  366 points/21kB  generateSineSquaredTestingData  2.5AmpSineSquaredTestData.csv 
Cosine squared function with a period of 45 days and amplitude 2.5 for 1 year with points every 1 day  Cos Sq kWh  366 points/21kB  generateCosineSquaredTestingData  2.5AmpCosineSquaredTestData.csv 
Sine function with a period of 45 days and amplitudes 13 for 2 years with points every 15 minutes  Sin Amp 1 kWh, Sin Amp 2 kWh, Sin Amp 3 kWh  70176 points/4.2MB each; 12.6MB total  generateVariableAmplitudeTestingData  15Freq1AmpSineTestData.csv, 15Freq2AmpSineTestData.csv, 15Freq3AmpSineTestData.csv 
Sine function with a period of 45 days and amplitude 3 for 1 year with points every 1 minute. This is normally used for specialized testing of a large number of readings and not automatically generated by the script.  Sin 1 Min  527040 points/32MB  generateOneMinuteTestingData  oneMinuteFreqTestData.csv 
The following figure shows the kWh meters and groups as a line graph:
The following figure shows the kWh meters and groups as a 1 day bar graph:
OED will show a blank bar graphic in this case (and all the 5 day meters) for 1 or 4 weeks because it will not display bars with incomplete meter data at the start or end.
Same as the line graphic above but in kg of CO_{2} to show changing the unit:
Same as above but as a 1 day bar graph:
The following figure shows the water meter as a line graph where the rate is Day to show changing the rate and a different type of unit. Note KWh must be shown per hour.
The following figure shows the kW meters and groups as a line graph:
The following figure shows the kW meters and groups as a 1 day bar graph:
The following figure shows the water flow meter as a line graph where the rate is Minute to show changing the rate and a different type of unit. Note kW must be shown per hour.
The following figure shows a temperature meter that collects in Fahrenheit but has a default graphic unit of Celsius as a line graph:
The following picture shows the meters Sin 4 Day kWh, Sin 4 Hour kWh, Sin 23 Min kWh, Sin 15 Min kWh. It is designed to show how the number of points impact the line quality in OED and verify that varied reading rates do not impact the OED code. What you see is that the 4 day line is shifted due to the placement of the time values. The other meters are very similar in value. This shows that the daily averaging in OED is accurate. Note that in this and all line graphics, you will see the similar values as you zoom in to see hourly or meter level points. This is because the data is kW. The only change you will see is in the quality of the graphic if you zoom in so tight that you have limited points to graph.
The following picture shows the same meters as above but as a bar graph with 4 week bars. In a perfect world, all the bars would have the same value for a given date range. As can be seen, there are small differences where the value varies more as the frequency of the readings goes down. This variation is due to the inaccuracy of low frequency readings as is normal.
The following picture shows a line graphic of the sin values for the 3 different amplitudes (13). As expected, they have the same period with a different amplitude. Plus, it looks nice!
The following picture shows a line graphic of a group containing all the sine amplitudes above but with 1 & 2 included twice. OED does not duplicate the values so the sum is a maximum of 6 or 1 + 2 + 3.
The following picture shows a sin and cos with the same amplitude. It should be noted that normally sin and cos are phase shifted so the high of one is the low of the other. You do not see that because the values were shifted to all be positive.
The following picture shows the meters Sin Sq kWh & Cos Sq kWh along with a group containing both meters (Sin Sq + Cos Sq kWh). If OED is working properly then the group should have a constant value since sin^2 + cos^1 = 1 or the value of the amplitude in this case. This is a good test of whether groups work (for simple groups of only two meters). If you want to see how accurate OED is then just graph this group and you will see that the value is always very close to 2.5.
The following image shows sin with readings every minute. It is a very high quality version of the first picture with points that are less frequent. It is zoomed in to less than a day to show the minute points. This data is not automatically generated and is normally only used to test OED's speed when there is lots of reading points. You would need to generate this data (placed in src/server/test/db/data/automatedTests/oneMinuteFreqTestData.csv) and then upload via CSV as described for the realworld data.
This data can show what happens with actual data. However, it is harder to see when things are off. It is provided as an alternative to the mathematical data but will probably be used less now that that data exists.
The table below lists the types of test data we have. The first four all have 3.5 years of electric data but for different meters so the values vary. The last one is a sample file that you can edit to create your own data.
Description  Readings CSV  Size of Readings File 

Contains actual electric data on an hourly basis for about 3.5 years (Oct. 2016Apr. 2020)  threeYearA.csv  1.3MB 
Contains actual electric data on an hourly basis for about 3.5 years (Oct. 2016Apr. 2020)  threeYearB.csv  1.3MB 
Contains actual electric data on an hourly basis for about 3.5 years (Oct. 2016Apr. 2020)  threeYearC.csv  1.3MB 
Contains actual electric data on an hourly basis for about 3.5 years (Oct. 2016Apr. 2020)  threeYearD.csv  1.3MB 
Sample file to edit for your own data  sampleReadings.csv  0 MB 
Choose the file you want where clicking on the link in a web browser will download that file. Note you can load as many test data files as you want into a single OED instance. The import of this data into OED uses the CSV import feature that is described in the CSV import help and pages linked from that page, esp. about readings. You do not need to know all those details but can get further information as needed.
You will want to have OED running during this process. Start it with Docker as you should have previously done. Log in as an admin user. Go to the CSV upload page using the "CSV" button in the top, right of the OED web page. You should default to the "Readings" tab which is what you want. Now do the following:
Below is a line graphic with the four 3.5 year meters. If all went well then this is what you should see.
If you don't see this then something is wrong and you should not continue this process and instead ask us for help. (See link at bottom of page)
You can download the sample data from the table above. You can edit the sampleReadings.csv file by opening it in you preferred editor where a spreadsheet program is fine as long as you make sure to save it as a CSV file. Remove the two sample readings on lines 2 and 3 of the file and create new lines with the data you want. Note that normally the end time of the previous point is equal to the start time of the next point in real meter data. You can put in as many lines as you want with readings. This file has a header row so it is easier to see what goes in each column. Once you are done editing and save the file in CSV format, import it the same way as the provided data above except you need to check the "Header Row" box since the file has a header row. Deal with any messages to correct problems and see the readings import page for more info on dealing with issues. Note if there are lots of errors then you need to look at the log or console where OED is running to see them all.
If you cannot load the data into the database or it disappears after shutting down OED, then you likely have a database issue. To test you can do the following:
You should now be done and have the test data in your OED development system. If something did not work then you can seek help from the project by contacting us.