Introduction
The APACHE 3 USV User Guide describes how to set up and use the CHC® APACHE 3 USV. In
this manual, “the USV” refers to the APACHE 3 USV unless otherwise stated.
Even if you have used other Unmanned Surface Vessel before, CHC recommends that you
spend some time reading this manual to learn about the special features of this product. If
you are not familiar with USV, go to
www.chcnav.com for an interactive look at CHC and USV
safety information.
Warnings and Cautions
An absence of specific alerts does not mean that there are no safety risks involved. A Warning or Caution information is intended to minimize the risk of personal injury and/or
damage to the equipment.
Regulations and Safety
The receivers contain a built-in wireless modem for signal communication through wireless
technology. Regulations regarding the use of the wireless modem vary greatly from country
to country. In some countries, the unit can be used without obtaining an end-user license. However, in some countries, the administrative permissions are required. For license
information, consult your local dealer.
Before operating an APACHE 3 USV, determine if authorization or a license to operate the
unit is required in your country.
Use and Care
This APACHE 3 is designed to withstand the rough environment that typically occurs in the
field. However, the USV is high-precision electronic equipment and should be treated with
reasonable care.
1 Getting Started with APACHE 3
1.1 APACHE 3 brief introduction
Featuring triple-hulled and the shallow draught design, the APACHE 3 USV
offers a portable remotely controlled platform in small lakes, inland rivers, and coastal water for bathymetric surveys. Its overall 1-meter length and 7 kg
weight (without instrument) allows one person to operate the system easily.
Multiple data transfer options are available with RS232 connection and TCP
protocols along with multi-channel and high bandwidth transmission. It can
also carry single beam echo sounder, AP-2000 water quality and other
instruments to meet diverse application requirements.
1.2 Product Basic Supply
2. Hardware Installation
2.1 Preparing for conducting the survey
It is necessary to have an accumulator to supply power for external radio if you use
external radio mode. Full charge the remote controller and batteries with standard
charger. Figure 2-1 is about how to charge the batteries.
Firstly we connect the charger to the battery interface, pay attention to tighten the
nut, and then connect to 220v AC power supply. When the battery is not connected, only the POWER LED of the charger lights up, the CHARGE LED lights up red when
connected to the battery, and turns green when fully charged.
Maintenance instructions for batteries:
1. For the new arrival battery, please fully charge it as soon as possible.
2. Please charge the battery in time if the remaining power is less than 25% left.
3. Fully charged battery can be placed for 6 months. Please charge it in time if not
being used.
2.2 Setup RTK Base Station and Onshore Data Receiving System
Set RTK base station:
1.External radio mode
Prepare GNSS Base receiver, external radio and transmitting antenna, tripod, etc. Configure base receiver to send RTCM3.2 via external radio.
2.Ntrip mode
For detailed operation, please check 3.3.4 Rover
Check the accuracy of the rover station: Under the fixed solution state, compare the accuracy
of the RTK rover station with the coordinates of the known points to ensure that the
accuracy meets the measurement requirements before proceeding to the next operation.
2.3 Install Accessories for the USV System
2.3.1 Install the accessories of the boat
Note: Two large batteries are placed in the boat. Pay attention to the direction when
installing the battery power detection interface.
2.3.2 Debug before launching the boat
1). Boot the boat
Turn on the switches on both sides of the boat. Pay attention to the lights on both
sides, when the red satellite lights and green differential signal lights are always on, they are in normal working condition.
2). Turn on the remote control
The switch button is in the lower left corner. Press the key first, then long press
quickly, and wait until the indicator lights up gradually, showing that it has been
successful booted. The indicator light represents the power of the remote control. The operation of powering off the remote control shutdown is the same.
3). Debug the motors
Use the remote control to check whether the motors are working properly.
3 Software Operation for the USV System
3.1 Install the software
There are two software for the USV system, AutoPlanner and HydroSurvey.
1) When installing the AutoPlanner software, double-click the installation package, click Next until the installation driver and plug-in interface appears, tick ‘Install Tap
Driver’ and ‘Install Ezopen Plugin’, and then click Next until the installation is OK
2) When installing the HydroSurvey software, double-click the installation package
and click Next until the installation is complete.
3)Check the frequency of WIFI on your computer, it should be support 5GHZ because
the whole system use 5GHZ frequency to transmit the data from the boat to ground
station.
3.2 AP Software Configurations
3.2.1 Change the Server IP via webpage
1. connect to the boat via WIFI(SN of main control)
2. go to webpage
a. open a google browser
b. enter IP address:192.168.53.254
c. input the user name and password
user name is admin
password is Admin1234
3. go to [system settings], choose [ N2N Setting]. Server type is [ International
Server], then click [confirm] to complete the N2N setting.
3.2.2 INTER Connection for AP Software
a. Computer connected to the Internet by a hotspot shared by the phone in the
field working.
b. Double-click the AP software icon to open it, select [INTER], and click [Connect].
c. Select the server by your location, and the User Name is SN of main control, the
Password is "Admin1234"
3.2.3 Plan Route for AP Software
(1)Connect the computer to the network, and load the surrounding satellite image maps through the positioning of the boat. Select [NAVIGATION PLAN] on the main
interface, and select the appropriate satellite image map. Commonly used are Bing
satellite maps and Google satellite maps.
(2)Plan work area
Right-click on the interface and select [Draw Polygon] → [Add Polygon Point].
Note:
1) The satellite image is not updated in real time, so pay attention to the actual area
when planning the polygon.
2) The role of the home point: a. The home point is the return point. b. The logic for
generating the automatic route is to generate the waypoint 1 near the home point, and the other waypoints are generated in sequence.
(3)Edit auto waypoints
Right click the interface and select [Auto WP] [WP Grid].
[Angle]: Adjust the angle of the route.
[Distance between lines]: The distance between routes.
[Spacing inline]: The distance between points on the route, the value set should be
greater than the true distance of the route, so as to ensure that there are only two
points on a route. The automatic waypoint spacing here is not the same as the data
collection spacing.
(4)Write waypoints to boat
[Save WP File]: Save the currently planned route to computer.
[Load WP File]: Load the WP file from computer.
[Read WP File]: Read the current mission waypoint from the boat.
[Write WP File]: Write the planned waypoints data to the central control.
3.2.4 Login HD Camera for AP Software
a. Click [Navigation Data][Spread/Shrink Hud and Video][Intranet]
b. Enter camera serial number(Posted beside the GD100)
c. Click [Login] first, click [Play] while you have logged in successfully.
3.2.5 Other common functions for AP Software
1. Control USV via AP software
Click [Shrink Remote-Control], remotely control USV by dragging the blue dot.
2. Useful functions
[Set WP]: Set a new waypoint quickly without clicking the navigation plan interface.
[Restart mission]:back to the first point and start a new mission.
[Clear track]:clear the track line of the interface you have run.
[Keep loiter]:change the state of the boat.
3. Convenient switch
Now we can turn on the switch when you need in software instead of Web page.
shoal: set a shoal depth to ensure your boat's safety.
avoid obstacles: set a distance to ensure your boat will not crash into some
objects in water.
low power return: makes you boat return to home point automatically.
lost connection and return : makes you boat return to home point automatically
when your boat has lost connection for few times.
3.3 Webpage Setting for GD100
3.3.1 Login webpage
Input 192.168.0.254 on the browser.
Username: admin
Password: Admin12
3.3.2. Register the receiver
Click [Firmware][GNSS Registration]. Send the receiver SN to the dealer or sales
branch to obtain the registration code. Enter and apply the correct registration code. Enter and apply the correct registration code.
There are two kinds of working modes for rover station:
1) CORS mode 2) Internal radio mode
1. Set CORS mode. Click [I/O Setting][RTK Client][Connect]. Select [Connection
Protocol] as NTRIP protocol, input the CORS parameters. Then click [Confirm].
2. Set internal radio mode. [System Setup][Radio Settings].
3.2.5 System State
Click [Unmanned Ship Status][System State]
The status of USV, positioning status, battery status, sounder status, etc. can be
viewed in this Interface.
3.2.6 Firmware upgrade
We have updated the firmware frequently, you can upgrade the control firmware, host firmware and Echo Sounder control firmware when you need.
3.4 Set Hydrosurvey
3.4.1 New project and connect to the boat
1)Open HydroSurvey7 , click on [Project] - [New Project].
"Project name" is default and can be renamed if you need. And it also can be saved as
a template via clicking [Save coord template]. It is important to input the deviation if
you perform the base shift.
3.4.2 Record control
As shown in the following figure 3-27, click on [Setting] – [Record control]. If [By
Distance] is set to 1 M, a point will be recorded for every meter; if [By Time] is set to
1 S, a point will be recorded for every second; if [By Space] is ticked, a point will be
recorded once you click the space bar.
In terms of Limitation selection, [Fixed] is recommended when RTK is used and [Float]
is recommended when beacon is used.
3.4.3 start work
When the new projects, parameters, data, settings and other preparations are done well, data can be recorded.
①Choose [measure mode]
③In order to facilitate post processing and prevent massive loss of data in
unexpected cases, it is suggested to change a line every 300 or 500 points. ④When the data in the test area is measured, click on [stop] and then to save the
project by clicking [Project] – [Save Project] before closing the software.
When the unmanned boat travels to the designated route to be measured, click
[Measure] → [Start] then pop up the setting line information interface. The line
name and line number are set by default. The auto switch selects 2000 points for
automatic line change.
Click [Measure] → [End] after the measurement area task is completed
Stop here, you can start measuring work.
3.4.4 Download depth file from boat (skip this step if you need not)
1. connect the wifi of boat(serial number of the boat)
Open a file maybe 'This PC' on your computer, and input
IP:ftp://192.168.53.254
3. Username: admin
Password: Admin1234
4. Copy the files from record2 file
Dep files record the original data.
Sd files record the waveform.
5. process the dep files via Hydrosurvey
4 Data Processing
4.1 Water depth sampling
Water depth sampling is a process that correct the depth data and handle the wrong
depth data. We will get a htt file including all data that can be select in the data
export section after sampling. This process will be divided into four steps.
1.Correct the depth via sound velocity correction
tick [All], select [Correct] to get the edit interface
As the figure 4-2 shows, there are three ways to correct the sound velocity: Single
Sound velocity, Depth +Sound velocity, Depth+ Correction. Take the second method
as an example
(1) Import the sound velocity file via clicking [Import] button, the format should
be as follows:
The first column is depth, and the second one is the sound velocity.
(2) the imported sound velocity will be shown in the list.
(3) Calculate correction and apply it to all raw data.
Click [Correct] button, then it will pop up successfully applying information
(4) Skip Delay correct and attitude correct
The delay correct is the correction for GPS and depth transmission delay. The
impact of time delay on bathymetric data can be reduced. The time delay value for
the whole system is a fixed. Enter a known time delay value or calculate it via a
special method if necessary. Hydrosurvey also support adjust the beam angle to
recalculate depth. For more detail, please directly contact with technical support
engineer of CHC.
2. Handle the depth data
Double click a depth file in the depth file list.
As the figure 4-6 shows, the green line on the top of main interface shows the
elevation of surface of water and fixed state (yellow represent floating and red
represent a single point), the main interface can be changed by adjusting the [Depth
H]and [Width]. the green line displayed on the bottom interface shows depth, the
red line is simulative echo signal. If these two match well, the depth can be trust and
accurate. If not, just select the wrong depth points, then click[Eraser] to delete the
points. It is suggested that the dep files should be handled in turns.
3. Select a proper[Interval]
Choose a interval for exporting the data. Select a value in the [interval] setting, then click [2.Interval]
4. You also can change the interval via clicking [Manual] button.
5. Click [4.Export htt]
When the interval setting is complete, click [4.Export htt] to save htt files
4.2 Data export
Click on [Data processing] – [Data Export], Select the Htt files and choose a file type, there are some default format for option, and the format also can be modified via
[Customer]. At last export data to desktop via clicking [Export].
Select the [Save Path] and click on [Export], the final result will be acquired.