Configuring correction is required if you want to go beyond standalone positioning. Reach supports following correction formats as input: RTCM2, RTCM3, OEM4, OEM3, UBX, SS2, HEMIS, SKYTRAQ, SP3. RTCM3 is the most popular format in the industry. Data in any of these formats can be received via Serial, TCP, NTRIP, Bluetooth or LoRa for Reach RS/RS+ and Reach RS2.
Serial port connection is available through several hardware connection options. All of them support following baud rates: 4800, 9600, 14400, 19200, 28800, 38400, 56000, 57600, 115200, 128000, 153600, 230400, 256000, 460800, 921600.
Corresponds to TTL UART on Reach and Reach M+ modules or to RS232 port on Reach RS/RS+ and Reach RS2 extension connector. Common way to connect radio or another device providing correction.
When connected over USB to a PC Reach will show up as several devices, one of them will be a serial port. You can use this serial port to send corrections to the device.
Use a micro-USB OTG cable to connect USB accessories. In this mode only USB devices that emulate a serial port could be used. Example of popular chips that are supported: FT232, CP2102. There are numerous devices built on these chips that will provide you a TTL UART or RS232 port. This is an easy way to connect radio modems as well.
NTRIP is industry standard way of transferring GNSS corrections over Internet, with ReachView you can use any public service or your own private caster. NTRIP does not support point-to-point communication e.g. you can not use it to transfer corrections from one Reach to another directly. In NTRIP terminology there are servers, clients and caster. Server sends correction to a caster and clients can receive them by connecting to that caster.
In order to receive correction from NTRIP caster you need to know:
- IP address or domain name of the caster
- Mount point
- Format (usually RTCM3)
When connecting to a mount point that has VRS or Nearest feature, that automatically provides you with a connection to closest base station it is required to send your position back to the caster. Tick the “Send NMEA GGA messages to the corrections provider” and after Reach obtains single solution it will start sending it to the caster.
Typical scenario for using TCP correction input is when both base and rover are on the same network. Note that when devices are on different networks you can not send data directly unless public IP addresses are known and routers are setup for port forwarding. TCP can also be used to send data to or receive from a remote server with public IP.
TCP supports two roles:
You need to specify port and after that clients will be able to connect to this device on it’s IP address. Many clients can be connected to the same server.
You need to specify IP address of the server and port number.
If ReachView does not allow to set a certain port number it means that it is reserved for internal use.
Reach RS/RS+ and Reach RS2 have internal LoRa radio which is used for receiving or sending corrections. For Reach M+ external LoRa radio is available, it can be connected via USB or S1/S2 port. The radio works only in one way, it could either be configured to send corrections (on base) or to receive them (on rover). Using LoRa modulation it is possible to hit up to 19km in line of sight or a few km in urban areas with just 20 dBm power output. As long as frequency and air rate settings match an unlimited number of rovers can listen for correction from the same base.
Frequency and air rate settings must match what was configured on the base.
You can use Bluetooth for correction input. For example you can use your phone to pass NTRIP corrections via Bluetooth to Reach. Check out Bluetooth section to learn more about connecting your device via Bluetooth.