@Alex-Kushleyev Hi Alex, Thank you for your reply. I also have 2 pairs of stereo sensors, is it possible to use them together with the configuration which you have mentioned above? Basically, I want to use a Hi-res (with coax adapter), a tracking and two pairs of stereo sensors together.
Thank you.

@tom This is the SOM, our company only gets the QRB5165M and we've been flashing the same system image for months so I'm confident that's not where the issue is:

D9A703E0-16D4-4F5A-A0BC-90FC297A6BDC.jpg

Another way to do it, maybe more in line with the way modal ai intended it is this :

Update dhcpcd.conf for Static IP
Open the dhcpcd.conf file for editing:

nano /etc/dhcpcd.conf

Add the following lines at the end of the file to configure a static IP for wlan0:

interface wlan0 static ip_address=192.168.XX.XX/24 static routers=192.168.XX.1 static domain_name_servers=8.8.8.8 1.1.1.1

Explanation:

interface wlan0: Specifies the network interface to configure.
static ip_address=192.168.XX.XX/24: Assigns the static IP and subnet mask.
static routers=192.168.XX.1: Sets the gateway address.
static domain_name_servers=8.8.8.8 1.1.1.1: Configures DNS servers (Google and Cloudflare in this case).
Save and exit the file.

Restart dhcpcd Service
Apply the changes by restarting the dhcpcd service:

systemctl enable dhcpcd systemctl restart dhcpcd

@Zachary-Lowell-0

offboard mode:
d5d4a98e-4bf0-4aa7-baee-522cb331b4a7-image.png

The drone does NOT arm from the ROS2 command but it can be armed with the RC

3)rb5:~$ voxl-inspect-services
Scanning services...
bea8dc77-6e7c-4635-b0b0-c7b9a5ec7676-image.png

4)/usr/bin/voxl-px4-start
466822e7-ff3f-4c08-a6c4-780b619665d0-image.png

Best wishes,

@Zachary-Lowell-0 I tried to follow the instructions and these are the errors I got. I tried it on a parent computer. Also, I don't have a Voxl2, I have a voxl-flight. is it only supposed to work on the voxl2?

@Zachary-Lowell-0 does this modal_voxl2 could run of voxl2_emulator, ???

Hi @Jetson-Nano
No difference in data rate on any MH board. They are all USB2 rates.

Hope that helped!

Thank you @Eric-Katzfey ,for the confirmation with respect to the approach. Can you help me the code, maybe with providing a sample code.

I wrote a code to receive the data but the code was not connecting the Flight controller. I am providing the code here, Can you verify the code.

from pymavlink import mavutil import time import logging logging.basicConfig(level=logging.INFO) # Connection string for voxl-mavlink-server connection_string = 'udp:192.168.8.1:14558' # Function to send a heartbeat message def send_heartbeat(mavlink_connection): mavlink_connection.mav.heartbeat_send( mavutil.mavlink.MAV_TYPE_GCS, # Type: Ground Control Station mavutil.mavlink.MAV_AUTOPILOT_INVALID, # Autopilot: Not a specific autopilot 0, # Base mode 0, # Custom mode mavutil.mavlink.MAV_STATE_ACTIVE # State: Active ) logging.info("Heartbeat sent.") def main(): try: logging.info(f"Connecting to {connection_string}...") # Establish MAVLink connection mav = mavutil.mavlink_connection(connection_string) # Send an initial heartbeat to register as a GCS logging.info("Sending initial heartbeat...") send_heartbeat(mav) # Wait for heartbeat from the flight controller logging.info("Waiting for heartbeat from the flight controller...") mav.wait_heartbeat(timeout=10) logging.info(f"Heartbeat received! System_ID: {mav.target_system}, Component_ID: {mav.target_component}") # Request RC_CHANNELS data stream at 1 Hz mav.mav.request_data_stream_send( mav.target_system, mav.target_component, mavutil.mavlink.MAV_DATA_STREAM_RC_CHANNELS, 1, # Stream rate in Hz (1 Hz) 1 # Enable the stream ) # Periodically send heartbeats to keep the connection alive last_heartbeat_time = time.time() while True: # Send a heartbeat every 1 second current_time = time.time() if current_time - last_heartbeat_time > 1: send_heartbeat(mav) last_heartbeat_time = current_time # Listen for incoming messages msg = mav.recv_match(blocking=True) if msg: msg_type = msg.get_type() logging.info(f"Received message: {msg_type}") # If it's an RC_CHANNELS message, print the values if msg_type == 'RC_CHANNELS': logging.info(f"Channel 1: {msg.chan1_raw}") logging.info(f"Channel 2: {msg.chan2_raw}") logging.info(f"Channel 3: {msg.chan3_raw}") logging.info(f"Channel 4: {msg.chan4_raw}") except KeyboardInterrupt: logging.info("Exiting program.") except Exception as e: logging.error(f"An error occurred: {e}") if __name__ == "__main__": main()

The following is the output I got and it was stuck here and not moving forward.

INFO:root:Connecting to udp:192.168.8.1:14559... INFO:root:Sending initial heartbeat... INFO:root:Heartbeat sent. INFO:root:Waiting for heartbeat from the flight controller... INFO:root:Heartbeat received! System_ID: 0, Component_ID: 0

@Allen-Wu Yes, there are multiple ways to use GPS hardware and data all controlled by PX4. Let me walk you through the possibilities in the order of coarse grain control to fine grain control below:

Unplugging the connector to the GPS unit: this will outright disable its capability (also losing magnetometer as well). In this case no gps data will be present in the system nor logged. This applies from power up to power down.

Disabling the GPS driver, done by using the PX4Shell and running "gps stop': GPS hardware is still running but data is not used by PX4 subsystems, hence why you still get raw data logged. You can access the PX4Shell via QGC-->[Analyze Tools]-->[MAVlink Console] (type 'help' will show you the command options). This is the scenario in the above video example.

Enable/Disable GPS processing: apply PX4 params.
Apply params using these parameters will include GPS data in the position estimate along with VIO.

Removing GPS data in flight: you can just alter these 2 values to add/remove GPS data in the position estimate.
EKF2_EV_CTRL
EKF2_GPS_CTRL
I'll refer to the QGC/PX4 docs on their function. note altering these in flight can cause jumps in the position estimate causing the drone to have aggressive, unpredictable motions until the position is reestablished.

From your request, it sounds like you want both VIO and GPS running, hence you can just apply option #3 until you're ready to turn off GPS.

@Zachary-Lowell-0
Due to project requirements, I cannot change the OS version
Please find the installation commands used
voxl2:/$ sudo sh -c 'echo "deb http://packages.ros.org/ros/ubuntu $(lsb_release -sc) main" > /etc/apt/sources.list.d/ros-latest.list'
voxl2:/$ sudo apt-key adv --keyserver 'hkp://keyserver.ubuntu.com:80' --recv-key C1CF6E31E6BADE8868B172B4F42ED6FBAB17C654
voxl2:/$ sudo apt update
voxl2:/$ apt install -y ros-melodic-ros-base ros-melodic-image-transport

@Jetson-Nano It should be no different than with any other flight controller hardware running PX4. The PX4 documentation should be able to explain how to do that.

@jcai, yes you are correct regarding the connections that will work on Voxl2 and Voxl2 mini.

Please reach out to https://modalai.com/contact and we will create a custom order for you. You should add a link to this thread. I will work with our team to get the right hardware for you.

You will need

M0159 M0181 two specific coax cables between those teo boards (18cm length?). M0155 (assuming you already have M0161 with a coax, but is your M0161 connected to M0173 camera front end?

You should also get a tool for removing coax connectors - check at the bottom of this guide: https://docs.modalai.com/micro-coax-user-guide/ . I dont think we sell the tool, but it looks like the tool is out of stock (Mouser) - you will need it to disconnect your M0161 from M0173.. i will check if we can provide it.

Regarding length, it looks like the longest cable we sell is 18cm : https://www.modalai.com/products/mcbl-00084?variant=48956821733680 , and this is what i am using for testing Hadron.

Alex

Hi @FIREBIRD
I answered on your other post: https://forum.modalai.com/topic/4098/power-module

Hi @FIREBIRD
Our standard power module is the same for VOXL 2 and VOXL 2 Mini. We just change the voltage settings.
Here is the link and the best we have is a PCB step file for this design (board only, no cables):
https://docs.modalai.com/power-module-v3-datasheet/
097f087f-5854-4015-9c3d-391d5a13cb73-image.png
Hope this helps!
Thanks!