Maker.io main logo

Getting Started with u-blox Thingstream and PointPerfect

2023-04-25 | By SparkFun Electronics

License: See Original Project GPS Wifi Wireless

Courtesy of SparkFun

Guide by BBOYHO

Introduction

Interested in high precision GNSS without setting up a base station? Try the u-blox Thingstream ‎and PointPerfect via Internet Protocol (IP)! This tutorial will go over how to use an ESP32 ‎microcontroller to connect to u-blox Thingstream and PointPerfect over Internet to push correction ‎data to a high precision GNSS.‎

Required Materials

To follow along with this tutorial, you will need the following materials at a minimum. You may not ‎need everything though depending on what you have. Add it to your cart, read through the guide, ‎and adjust the cart as necessary. Below is a wishlist of the parts that you need to get started.‎

Wishlist for High Precision GNSS with u-blox Thingstream and PointPerfect via ‎IP SparkFun Wish List

Arduino Microcontroller

You will need a microcontroller capable of connecting to WiFi. We recommend the ESP32. The IoT ‎RedBoard ESP32 is a good start. There is also the Thing Plus - ESP32 for users looking for a ‎smaller development board. Both of built in Qwiic connectors to easily connect to breakout board. ‎For users following the MicroMod route, you could use the MicroMod ESP32 Processor Board.‎

u-blox High Precision GNSS (HPG) Module

You will need a compatible u-blox High Precision GNSS (HPG) Module capable of using the service. ‎The following have been tested to work with u-blox Thing Stream and PointPerfect.‎

Multi-band Antenna

We recommend using a GNSS multi-band magnetic mount antenna for the full RF reception. The ‎length of the antenna cable was also useful in mounting it.‎

Note: If you want to try different GNSS antennas, the following antennas will work but are limited to ‎L1 frequencies so they will not enable the full L1/L2 capabilities of the ZED-F9P.

GPS Antenna Accessories

You can use the GPS antenna ground plate to improve your GPS antenna's performance. If you are ‎using the GNSS Multi-Band L1/L2 Surveying Antenna (TNC) - TOP106, you'll need to grab the ‎interface cable. You will also need an adapter depending on the connector that is populated on the ‎GNSS board and the GNSS Antenna.‎

Accessories

At a minimum, you will need a USB C cable to power and program the boards. Depending on your ‎application, you may want to grab a Qwiic cable to connect to the breakout boards.‎

Tools

For users using MicroMod, you will need a screwdriver to tighten the screw between the ‎processor/function board and carrier board.‎

You Will Also Need

You will also need Internet access and to purchase a pricing plan with the ThingStream PointPerfect ‎Location-as-a-Service over Internet Protocol (IP).‎

U-BLOX THINGSTREAM IOT LOCATION-AS-A-SERVICE: POINTPERFECT PRICING ‎OPTIONS

Note: If you are lucky and received a card insert with your board, there is a special ‎referral/redemption code that is included with the purchase of the HPG board. This provides 1-‎month of free, unlimited access to Point Perfect for a single device! This only applies to IP ‎service and not the L-band service.‎‎

getting_1

As stated on the coverage map from u-blox, the service includes homogeneous coverage in the ‎contiguous USA and Europe This includes up to 12 nautical miles (roughly 22 kilometers) off ‎coastlines. Make sure to check back on the u-blox's website to see if there is additional coverage in ‎your region. There are additional regions under consideration for the future.‎

service_2

PointPerfect Service Coverage as of January 10, 2023. Map provided courtesy of u-blox.

Suggested Reading

If you are using MicroMod, we recommend reading here for an overview. We recommend ‎reading here for an overview if you decide to take advantage of the Qwiic connector.‎

system_3

MicroMod Ecosystem     Qwiic Connect System

If you aren’t familiar with the following concepts, we recommend checking out these tutorials before ‎continuing. We will be using the IoT RedBoard with the ESP32 to connect to the Internet in this ‎tutorial. If you are using another ESP32 development board or WiFi module, make sure to check ‎out its associated tutorial. You may need to install a board definition or a different driver.‎

Be sure to check out our What is GPS RTK? tutorial. Also, make sure to check out your respective ‎breakout boards for more information.‎

Hardware Hookup

Note: If you ordered a ZED-F9P breakout, you will need to make sure to check and update the ‎ZED-F9P module's firmware so that the module can interpret the correction data. We tested it using ‎the "ZED-F9P FW 1.00 HPG 1.32."‎

To add GNSS correction data to your high precision GNSS receiver like the ZED-F9P, you can ‎connect any of the serial ports between the two boards. If you are using SPI to connect, just make ‎sure to enable the SPI port by adding a solder jumper to the SPI jumper pads. For an embedded ‎application, we recommend adding an ESP32 to the setup. The ESP32 will allow you to use the ‎Thingstream PointPerfect over Internet Protocol (IP) using MQTT.‎

Below is one example to connect using the I2C port and Qwiic. Simply insert a Qwiic cable between ‎the ZED-F9P and Arduino microcontroller's Qwiic connectors. Plug in a compatible antenna with ‎SMA connector to the ZED-F9P. For the ZED-F9P, you will need the multiband antenna that is ‎capable of receiving L1/L2 bands. For boards that have a u.FL connector, make sure use a u.FL to ‎SMA adapter cable. Secure the connection on both antennas using the hex nut until it is finger tight. ‎For power, we will use a USB-C cable to power the ESP32 development board. You can also use ‎this cable to connect each breakout to your computer when using the u-blox u-center software.‎

hookup_4

For users going the MicroMod route, you will just need to insert the board(s) into the M.2 socket ‎and secure the boards with the screw. Then insert the USB cable and connect a multiband antenna ‎into its respective connector. Note that you may need a second USB C cable to update the firmware ‎on the ZED-F9P. For more information about connecting a MicroMod board to the M.2 connector, ‎make sure to check out their respective hookup guides.‎

connect_5

For users with the GNSS Multi-Band Magnetic Mount Antenna - 5M (SMA) or the MagmaX2 Active ‎Multiband GNSS Magnetic Mount Antenna - AA.200, we suggest placing the antenna on the ‎antenna ground plane to improve the GNSS antenna's performance. Of course, if users received ‎the GNSS Multi-Band L1/L2 Surveying Antenna (TNC) - TOP106, there is already a ground plane ‎embedded in the antenna's design! Just make sure to secure the adapter cable on the GNSS Multi-‎Band Surveying Antenna to the SMA connector. When you are ready, mount the antenna to a ‎monopod, tripod, or your preferred surface.‎

tripod_6

u-blox Firmware Update

Note: Make sure that you are using a u-blox high precision GNSS (HPG) module that supports the ‎SPARTN formatted corrections (i.e., UBX-RXM-COR). At the time of writing, the ZED-F9P supports ‎the SPARTN formatted corrections sent with FW 1.00 HPG 1.30 and above. We tested using the ‎latest FW 1.00 HPG 1.32+. Check your module's firmware release notes if you are unsure if the ‎version number supports the SPARTN formatted corrections.‎

We recommend checking the firmware on your high precision GNSS (HPG) module (in this case, ‎the ZED-F9P). If the firmware is old, you will need to upgrade the firmware on the HPG module.‎

upgrade_7

How to Upgrade Firmware of a u-blox GNSS Receiver

A few steps and you'll upgrade to the latest features on a u-blox GNSS receiver.‎

You can download the latest firmware from u-blox. Below is a link to the ZED-F9P module's product ‎page. Click the "Documentation & resources" tab and look for the latest firmware under the ‎section Firmware Update. You may need to hit the Load more button a few times before you can ‎see the firmware.‎

U-BLOX: ZED-F9P MODULE PRODUCT PAGE

Note: At the time of writing, the thingstream and PointPerfect works with the ZED-F9P. Other ‎models with the u-blox F9 engine (such as the ZED-F9R) may work as long as the firmware ‎supports the SPARTN formatted corrections (i.e., UBX-RXM-COR). Make sure to check the associated ‎datasheets for your high precision GNSS module for more information.‎

u-blox Thingstream Services

There are two key steps to be able to achieve centimeter positioning accuracy using the ZED-F9P ‎through u-blox thingstream and PointPerfect services.‎

  • Register with u-blox Thingstream and sign up for a PointPerfect IP (Internet Provider) plan ‎‎(data stream)
  • Configure the ZED-F9P with encryption key(s) so it can decrypt and use the correction data

By default, the ZED-F9P is configured such that the correction data is passed from a correction ‎source to the ZED using the UART2 interface. However, it is also possible to read the correction ‎data and push (write) it to the ZED using I2C. We just need to configure the modules so that the I2C ‎port is enabled and set the protocol.‎

Thingstream and PointPerfect Services

You will need to use u-blox Thingstream and PointPerfect service.‎

ublox_8

Thingstream is u-blox service delivery platform for IoT Communication-as-a-Service, IoT Security-‎as-a-Service, and IoT Location-as-a-Service.‎

point_9

PointPerfect is u-blox GNSS augmentation service which is designed to provide high-precision ‎GNSS corrections to suitable receivers with decimeter-level location accuracy. The following ‎webinar from u-blox has an excellent explanation of the service and how the system works.‎

 

PointPerfect data is delivered through Thingstream. The first step is to register with Thingstream ‎and then request an IP plan. You can find the current pricing on u-blox portal. Select IoT Location-‎as-a-Service and then PointPerfect.‎

pricing_10

PointPerfect pricing (correct on January 9, 2023).‎

You may need to contact u-blox first, to enable the option to purchase the plan through your ‎Thingstream account.‎

The PointPerfect IP plan provides unlimited access to the correction data stream via Internet ‎Protocol (MQTT).‎

Once IP permissions are enabled on your Thingstream account, you will be able to add a new IP ‎Location Thing and view its credentials:

  • Login to Thingstream
  • Select Location Services and then Location Things
  • The Add Location Thing button (top right) will allow you to select and activate an IP plan
  • Add PointPerfect Thing, enter a name for the thing, and hit the Create button
  • Once your IP plan is active, you will be able to monitor your Activity and view ‎your Credentials via the appropriate tabs

Note: If you are lucky and received a card insert with your board, there is a special ‎referral/redemption code that is included with the purchase of the HPG board. This provides 1-‎month of free, unlimited access to Point Perfect for a single device! This only applies to IP ‎service and not the L-band service.‎‎

getting_1

The steps to active the IP plan with the special redemption code is similar to the process listed ‎above: ‎

  • Login to Thingstream
  • Select Location Services and then Location Things
  • The Add Location Thing button (top right) will allow you to select and activate an IP plan
  • Select the Use a code and then Redeem your Thing
  • Enter the code provided on the card (under "Your Referral/Redemption Code:") into the field ‎and follow the prompts to activate the promotion code
  • Once your IP plan is active, you will be able to monitor your Activity and view ‎your Credentials via the appropriate tabs

Software Installation

Note: This example assumes you are using the latest version of the Arduino IDE on your desktop. ‎If this is your first-time using Arduino IDE, library, or board add-on, please review the following ‎tutorials. ‎

If you've never connected an CH340 device to your computer before, you may need to install ‎drivers for the USB-to-serial converter. Check out our section on How to Install CH340 Drivers for ‎help with the installation.‎‎

The SparkFun u-blox Arduino library enables the reading of all positional datums as well as sending ‎binary UBX configuration commands over I2C. This is helpful for configuring advanced modules like ‎the ZED-F9P but also the NEO-M8P-2, SAM-M8Q and any other u-blox module that use the u-blox ‎binary protocol.‎

Note: We support two versions of the SparkFun u-blox GNSS library. Version 2 and Version ‎‎3. Version 3 uses the u-blox Configuration Interface (VALSET and VALGET) to configure the ‎module, instead of the deprecated UBX-CFG messages. For modules like the F9 and M10, we ‎recommend upgrading to Version 3. However, older modules like the M8 do not support the ‎Configuration Interface. For those you will need to keep using Version 2 of the library. We will ‎continue to support both.‎

The SparkFun u-blox Arduino library can be downloaded with the Arduino library manager by ‎searching 'SparkFun u-blox GNSS v3' or you can grab the zip here from the GitHub repository to ‎manually install. Once the library is installed, you can take advantage of the examples for the ZED-‎F9P. For the scope of this tutorial, we will be using the PointPerfect Client example.‎

SPARKFUN U-BLOX ARDUINO LIBRARY V3 (ZIP)‎

Note: Some examples use the 'MicroNMEA' library by Steve Marple. Make sure to install the ‎library as well by searching for it in the Arduino library manager. You could also grab the zip here ‎from the GitHub repository to manually install.

MICRONMEA ARDUINO LIBRARY (ZIP)‎

Arduino Example 18: PointPerfect Client

From the menu, select the following: File > Examples > SparkFun u-blox GNSS v3 > ZED-‎F9P > Example18_PointPerfectClient.‎

Once open, you will need to adjust the code based on your region, WiFi credentials, and decryption ‎keys. Click on the secrets.h tab.‎

tab_11

Adjust for Region

By default, the example is set up for the US SPARTN 1.8 service. To adjust for Europe, simply ‎adjust the topic provided for the MQTT_TOPIC_SPARTN[] array.‎

Copy Code
const char MQTT_TOPIC_SPARTN[]     = "/pp/ip/eu"; // This topic provides the SPARTN corrections for IP only: choice of {eu, us}

At the time of writing, there were only three options for corrections. To view the available topics, ‎head back to Location Services > Location Things and select your Thing. Select the Topics tab. ‎There will be a few topics available. Look for your region listed under "IP correction topic for ‎‎_____ region" where "_____" is abbreviation for your region. You can also check out the available ‎MQTT topics from u-blox PointPerfect documentation.‎

Add WiFi Credentials Decryption Keys

Enter your WiFi network name and password into the by replacing <YOUR SSID> and <YOUR ‎PASSWORD>, respectively.‎

Copy Code
const char ssid[] = "<YOUR SSID>";
const char password[] = "<YOUR PASSWORD>";

Add Decryption Keys

Under Location Services > Location Things and select your Thing. Select the Credentials tab. ‎There are four arrays that need to be configured. Replace the following values listed below. Note ‎that the values below are listed with respect to thingstream.‎

  • Client ID (e.g., MQTT_CLIENT_ID[])‎
  • Client Key (e.g., AWS_CERT_PRIVATE[])‎
  • Client Certificate (e.g. AWS_CERT_CRT[])‎
  • Root Certificate (e.g., AWS_CERT_CA[])‎

The Arduino example code lists the Amazon Root Certificate first and the Client Key arrays last. ‎Make sure that you are copying and pasting the values exactly as provided and not missing any ‎characters within the quotes or parentheses.‎

Copy Code
// <Your PointPerfect Thing> -> Credentials -> Client Id
static const char MQTT_CLIENT_ID[] = "<ADD YOUR CLIENT ID HERE>";

// <Your PointPerfect Thing> -> Credentials -> Amazon Root Certificate
static const char AWS_CERT_CA[] PROGMEM = R"EOF(
-----BEGIN CERTIFICATE-----
<ADD YOUR CERTICICATE HERE>
-----END CERTIFICATE-----
)EOF";

// <Your PointPerfect Thing> -> Credentials -> Client Certificate
static const char AWS_CERT_CRT[] PROGMEM = R"KEY(
-----BEGIN CERTIFICATE-----
<ADD YOUR CERTICICATE HERE>
-----END CERTIFICATE-----
)KEY";

// Get this from Thingstream Portal
// <Your PointPerfect Thing> -> Credentials -> Client Key
static const char AWS_CERT_PRIVATE[] PROGMEM = R"KEY(
-----BEGIN RSA PRIVATE KEY-----
<ADD YOUR KEY HERE>
-----END RSA PRIVATE KEY-----
)KEY";

Upload Code

When ready, select the correct board definition from the menu (in this ‎case, Tools > Boards > SparkFun ESP32 IoT RedBoard). The board definition will depend on ‎the ESP32 development board that you purchased. Then select the correct COM port that the ‎board enumerated to (in this case, it was COM13). Hit the upload button.‎

code_12

What You Should See

Open the Arduino Serial Monitor at 115200 baud. The ESP32 will attempt to connect to your WiFi ‎network. You will notice a period every second indicating that it is trying to connect to your WiFi ‎network.‎

open_13

Type a character to send a character to your Arduino and hit the Send button.‎

type_14

If all is well, you should see the following output indicating that the correction data is being received! ‎Data from the subscribed topic will be pushed to the ZED. The output will indicate if the correction ‎data is successfully decrypted for the ZED. Watch the accuracy converge and decrease to a smaller ‎number. Depending on what satellites are in view, it may take a little time before you reach the RTK ‎floating or fixed solution.‎

output_15

Below is the output once the RTK Fixed Solution was achieved. You will notice that the values ‎converged to a point with a horizontal accuracy of about 14mm! Your accuracy may vary depending ‎on the satellites in view and Internet connection.‎

values_16

Troubleshooting

Not working as expected and need help?

‎ If you need technical assistance and more information on a product that is not working as you ‎expected, we recommend heading on over to the SparkFun Technical Assistance page for some ‎initial troubleshooting.

SPARKFUN TECHNICAL ASSISTANCE PAGE‎

If you don't find what you need there, the SparkFun Forums and u-blox Forums are great places to ‎find and ask for help. For specific questions about the u-blox service, we recommend heading over ‎more to the u-blox Forums.

LOG INTO SPARKFUN FORUMS     LOG INTO U-BLOX FORUMS

Thingstream PointPerfect Coverage

The PointPerfect GNSS augmentation service is available on a continental scale with seamless ‎coverage in the "contiguous USA, Canada, Europe, South Korea, and Australia New South Wales ‎and Victoria regions." U-blox is continuously expanding their coverage according to market demand.‎

service_2

PointPerfect Service Coverage as of January 10, 2023. Map provided courtesy of u-blox. ‎

As stated earlier, make sure to check back on u-blox's website to see if there is additional coverage ‎in your region. Note that while they recently updated the coverage to support South Korea, Canada, ‎and Australia (New South Wales and Victoria regions), it seems to be available over IP only. There ‎are additional regions under consideration for the future, but they have not been included yet.‎

Resources and Going Further

Ready to get hands-on with GPS?‎

We've got a page just for you! We'll walk you through the basics of how GPS ‎works, the hardware needed, and project tutorials to get you started.‎

TAKE ME THERE!‎

hardware_17

Now that you've successfully got your ZED-F9P with PointPerfect over IP up and running, it's time ‎to incorporate it into your own project! Need more information? Check out some of the links below:‎

u-blox Resources

制造商零件编号 GPS-15136
GPS-RTK2 BOARD - ZED-F9P (QWIIC)
SparkFun Electronics
制造商零件编号 GPS-15192
GNSS MULTI-BAND MAGNETIC MOUNT A
SparkFun Electronics
制造商零件编号 CAB-14743
CABLE A PLUG TO C PLUG 3.28'
SparkFun Electronics
制造商零件编号 WRL-19177
SPARKFUN IOT REDBOARD - ESP32 DE
SparkFun Electronics
制造商零件编号 WRL-20168
THING PLUS ESP32 WROOM USB-C
SparkFun Electronics
制造商零件编号 WRL-16781
MICROMOD ESP32 PROCESSOR
SparkFun Electronics
制造商零件编号 GPS-16481
GPS-RTK-SMA ZED-F9P BREAKOUT
SparkFun Electronics
制造商零件编号 GPS-19663
SPARKFUN MICROMOD GNSS FUNCTION
SparkFun Electronics
制造商零件编号 KIT-15081
QWIIC CABLE KIT
SparkFun Electronics
制造商零件编号 PRT-14427
QWIIC CABLE - 100MM
SparkFun Electronics
Add all DigiKey Parts to Cart
TechForum

Have questions or comments? Continue the conversation on TechForum, DigiKey's online community and technical resource.

Visit TechForum