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TRANSCRIPT
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GMS-2
TRAINING MANUAL FOR
GEOSPATIAL MAPPING
COASTAL COMMUNITIES
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TABLE of CONTENTS
1.) Topcon Overview - - - - - - - - - - - - - - - Page: 3
2.) Product Overview - - - - - - - - - - - - - - - - Page: 3
3.) GMS-2 Specifications - - - - - - - - - - - - - Page: 4
4.) Unit Identification - - - - - - - - - - - - - - - Page: 5
5.) Step-by-step - - - - - - - - - - - - - - - - - - - - Page: 7
6.) Collecting Points - - - - - - - - - - - - - - - - - Page: 10
7.) Recovering Points - - - - - - - - - - - - - - - - Page: 11
8.) Potential Problems and Solutions - - - Page: 14
9.) Appendix A: Infrastructure - - - - - - - - - -Page: 16
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Topcon Overview
Topcon Positioning Systems, Inc., provides surveyors, engineers, construction contractors, and many others in similar fields with innovative positioning technology.
The Topcon hand-held devices, including the GMS-2, incorporate a graphical Windows operating system on a color touch-screen. It contains anything a hand-held GPS would need.
Product Overview
The GMS-2 is Topcon’s industry leading integrated imaging and 50-channel dual constellation satellite tracking small hand-held GPS receiver. This system incorporates an integrated electronic compass, replaceable/ rechargeable battery, and an expandable memory slot. The internal GMS-2 digital camera allows users to take digital photos of GIS features while in the field. The picture is automatically linked to the GIS feature and the photo itself can even be geo-tagged with the GPS coordinate.
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GMS-2 Specifications
Physical:
Dimensions 197 x 90 x 46 mm
Weight 0.68 kg
Power:
Battery Life 7 operating hours
Internal Battery Li-Ion battery (rechargeable)
External Power Port DC Jack Type A ODU
Internal:
Microprocessor Intel PXA270 Bulverde
Operating System Microsoft Windows CE 5.0
Digital Camera Yes
LCD Display 3.5" 240x320 color QVGA w/
touch screen
Internal Memory SDRAM 128 MB
Tracking:
Channels 50 GPS, Glonass L1 tracking
WAAS/EGNOS Yes
CORS Beacon BR-1
Accuracy:
L1 Static H: 3.0 mm + 0.8 ppm
V: 4.0 mm + 1.0 ppm
L1 PP Kinematic H: 10.0 mm + 1.0 ppm
V: 15.0 mm + 1.0 ppm
Enviromental:
Waterproof IP66
Operating Temperature between -4 and 122 degrees Fahrenheit
-with camera between -14 and 122 degrees Fahrenheit
Storage Temperature between -22 and 140 degrees Fahrenheit
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IDENTIFICATION
The front of the GMS-2 is the primary interface with its components and installed software. The internal GPS antenna detects signals from GPS+ satellites and sends them to the GPS
receiver for processing.
The display screen and touch panel provides a graphical and tactile user interface for the unit.
The power button turns the receiver on and off.
The ESC (escape) button exits from the current screen or function. Pressing this button for one second or more opens the Microsoft Windows Start menu.
The ENT (enter) button applies settings, numerical values, and records points (depending on the setting of the internal software).
The charging LED indicates the level of charges in the battery: - Green: battery has a full charge - Red: Battery is charging - Red blinking: charging error
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IDENTIFICATION
FEATURES
- 1.3 MP camera (used for taking pictures in the field)
- Self storing Stylus used for the touch screen - Rechargeable/ Replicable battery (included) - Built in SD card insert
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STEP by STEP
Turn on:
1. Press power button
Setup Job:
1. After turning unit on, double click the TopSURV icon 2. If there is not a TopSurv Icon, double click My Devices, then click on
the following icons: a. Flash Disk b. TPS c. TopSurv d. Scroll down to TopSurv icon and double click.
3. Open the jobs tab
Double-Click the TopSURV Shortcut using the stylus.
Select New to create a new job for data collection.
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4. Select New Job
5. Type the job’s name in the space provided with the pop up keyboard.
6. Enter the names of your team members and yourself in the “Created By” blank and click “Next”.
7. Set the GPS+ Config (GPS configurations) to WAAS DGPS, then click “Next”.
8. Set the Projections to the area you will be using the TOPCON GMS-2 (for the coastal job)
a. Set SP83 – Alabama (West)
9. Set Dantum to NAD83
10. Set Geoid to G2003U07, and then click next
11. Set the settings to your preference (suggested use):
a. Distance to US Feet b. Angle to DMS c. Coord Type (Coordinate Type) to Grid d. Coordinate order to Northing, Easting, Elevation e. Azimuth origin to North f. Disp Dir (Display Direction) to azimuth
12. To finish creating a new job click the finish button on the top of
the screen 13. Once steps 1 – 19 have been carried out, the unit will open a
screen with a main menu and title bar (which should contain the title of the job name you have just created). Similar to image on following page.
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14. To add different data codes and attributes, click Edit Job, then Codes.
15. The top panel is for codes, and the bottom panel is for attributes.
16. Click Add next to the top panel for additional codes, and the Add button next to the bottom panel for additional attributes.
17. If drop down menus are necessary for the attribute, ensure the
menu next to Type says Menu.
18. Once this is set, another panel will open where you should type the name next to Add and then click the Add button for each additional attribute for that code.
19. If the screen appears similar to the picture above, you may
proceed to the “Collecting Data Points” section below.
20. However, if the screen does not appear the same, try the steps once more.
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Collecting Points:
1. After selecting the proper job, select the “collect” icon
2. Then select the “collect feature” icon
3. Once you are in location to collect a point click the “code” drop down tab and select or type in (using pop up keyboard) the object you are recording
4. Select the feature or features (in the case of a cluster) being plotted. (ex. Fire Hydrant, Water valves, Sewer/Manhole, Electric Transformers and Gas Utilities).
5. On the top right of the screen, the H & V symbol will show the accuracy of the satellite signal at the current time.
a. Wait about 10 seconds before collecting a data point, so that these numbers will potentially get better.
b. The lower the number at the time of “Data Collection” the better the accuracy of the collection.
6. The color in the box next to the “H” MUST BE GREEN in order to collect data…
a. If it is RED you have a BAD signal. Wait a few minutes for it to get a better signal.
7. Place the GPS directly over the data point or as close to the object being plotted as possible, in order to get the most accurate readings possible.
8. Once the satellite strength is good (the color is GREEN and there is a LOW “H&V”), Select “Start” or Press the Blue ENT button to collect the data points.
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9. Now, find the next closest point, and continue collecting data.
10. Keep track of the items plotted on the notebook paper provided, in case of equipment malfunction.
a. To properly keep a paper copy of the points plotted, be sure to number each point made.
b. Write down the feature being plotted at each point.
Recovering Points:
1. Once you have selected the correct job click the “navigate” icon from the main screen.
2. Click “points” icon.
3. Enter what point # point you want to begin to recover.
4. Click the navigate button at the bottom right of the display screen.
5. Follow the compass arrow on the display screen to be lead to your point location (hint: at times it can be much easier to just use the horizontal distance to find our way to the point because the arrow can move around due to signal interruption)
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6. The arrow changes to a crosshair when you get within 10 feet of the
data point.
7. When you locate the data point, MARK the point with color marking tape and flags. The color of the tape can be determined by the list below: a. Fire Hydrant – BLUE
b. Water Valve – BLUE
c. Sewer/Manhole – GREEN
d. Electric Transformer – RED
e. Gas utilities – YELLOW
8. To find the next collected point click the right arrow () next to the store button
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9. Repeat steps above to recover all collected location points.
* For best results stay in open spaces away from covered areas and large buildings.
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POTENTIAL PROBLEMS AND SOLUTIONS Warning: Do not attempt to repair technical equipment yourself, contact your Project Supervisor for any extreme problems with the GMS-2 hardware. Check This First!
If the software is not working, reset the software. To do this, see “Resetting the Software” below.
Check all external connections. Check all power sources. Is the battery drained or incorrectly
connected? Check to see that the software is current.
Resetting the Software The following steps can be used to reset the software, however: only attempt if you are competent to work on this device. To perform a software reset, use the stylus to push in the software reset button (see Figure 6-1, below).
Figure 6-1
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Charging/Powering Problems If the GMS-2 does not power up… The batteries may be discharged.
o Connect the GMS-2 to a ground outlet. o Or if given an extra battery, insert the extra fully charged battery.
The charging cable may be disconnected or damaged. The GMS-2 may have a defective charger or defective internal battery.
o If, after charging the battery, the GMS-2 still does not power up, you must get a new battery.
GMS-2 Problems The following are just a few of the problems that most commonly are encountered while working with the GMS-2. The GMS-2 is not finding the satellite signal to collect the data point. There may be a structure (such as a building) deterring the GPS unit
from connecting with satellites. Try to face a different direction in order to potentially connect with another satellite and move away from the tall structure.
If there is cloudy weather, it may take longer to retrieve data points and gain satellite signals. BE PATIENT!!!
If neither of the above are the case, and your GMS-2 will still not connect to a satellite, contact your Project Supervisor.
Installed software and other data have been erased. The battery in the GMS-2 has been completely drained or a hardware
reset has been unintentionally preformed. o Reinstall all software. Contact the Project Supervisor to do this!
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Appendix A: Infrastructure
The following pages contain many of the infrastructure items that will be points in utility units. The different items will be broken down by utility type. Each utility has a color that identifies it in the field. The color of each table distinguishes that utility’s field color. However, all the items contained in these tables may not be of interest to your team.
Utility Reference Guide
Water and Storm Water Utilities
Infrastructure Description Picture
Fire Hydrant an upright hydrant for
drawing water to use in fighting a fire
Valves device for controlling the
passage of water through a pipe
Meters meter for measuring the
quantity of water passing through an outlet
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Backflow Preventer
protects water supplies from contamination or
pollution
Fire Department Connection
piping connection through which the fire
department can pump water into a standpipe
system or sprinkler
Grate Inlets opening in the gutter
covered by one or more grates
Yard Inlets openings in a yard covered by a grate
Curb Inlets vertical openings in the
curb covered by a top slab
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Sewer Utilities
Infrastructure Description Picture
Manholes small covered opening
in the pavement to allow a person to enter
Pump/Lift Stations
point in the sewer system where the
wastewater needs to be pumped (lifted) to a
higher elevation
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Gas Utilities
Infrastructure Description Picture
Valves device for controlling
the passage of gas through a pipe
Meters
meter for measuring the amount of gas flowing through a particular
pipe
Regulators
device for controlling the delivery of gas at some substantially constant pressure
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Telecommunications Utilities
Infrastructure Description Picture
Switching Station/Cabinet
An assembly of switching and control
devices
Pedestal
Elevated containers that provide easy access to branch and drop splice
while protecting and storing loose Cables
Cable/Fiber Box
interface device used in connecting backbone
cables and distributing cables
Communications Manhole
small covered opening in the pavement to allow
a person to enter
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Electric Utilities
Infrastructure Description Picture
Electric Poles
pole used to support overhead power lines
and various other public utilities and related equipment such as
transformers and street lights
Electric Meter
meter for measuring the amount of electricity
flowing through a particular pipe
Electric Transformer
device that transfers electrical energy from one circuit to another through inductively coupled conductors