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    <title>IoT on Matthew Shields</title>
    <link>https://mshields.name/tags/iot/</link>
    <description>Recent content in IoT on Matthew Shields</description>
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    <copyright>© 2022 - 2026 Matthew Shields</copyright>
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      <title>Setting Up Raspberry Pi Camera on Ubuntu 20.04 64 bit for Raspberry Pi 4</title>
      <link>https://mshields.name/blog/2024-01-20-setting-up-rapberry-pi-camera-on-ubuntu-20-04-64-bit-for-raspberry-pi-4/</link>
      <pubDate>Sat, 20 Jan 2024 00:00:00 +0000</pubDate>
      
      <guid>https://mshields.name/blog/2024-01-20-setting-up-rapberry-pi-camera-on-ubuntu-20-04-64-bit-for-raspberry-pi-4/</guid>
      <description>Preamble This was a pig for no good reason, so hopefully someone else doesn’t have to go through the same pain I did.
For clarity I was using a Raspberry Pi 4 running Ubuntu 20.04 64 bit with a Pi Zero camera connected using an adapter ribbon cable. Ensure everything is properly connected before starting.
How To Edit your /boot/firmware/config.txt, adding the following… start_x=1 gpu_mem=512 disable_camera_led=1 start_file=start_4x.elf fixup_file=fixup_4x.dat sudo apt-get update sudo apt-get upgrade sudo reboot When your system comes back up you should now have your camera listed as a video device.</description>
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      <title>Using tmux to Manage a Fleet of Robots</title>
      <link>https://mshields.name/blog/2023-09-04-using-tmux-to-manage-a-fleet-of-robots/</link>
      <pubDate>Sun, 03 Sep 2023 00:00:00 +0000</pubDate>
      
      <guid>https://mshields.name/blog/2023-09-04-using-tmux-to-manage-a-fleet-of-robots/</guid>
      <description>Preamble The title of this post ought to be “Using tmux to Manage a Fleet of Robots Incorrectly”. When I say manage here, I am talking about system configuration, code deployment and systems administration type tasks. Long term you really should be utilising tools like Ansible, Docker and Airbotics to keep your fleets Linux systems running as you intend. However, in reality it is often needed to do some quick maintenance operation to many Linux systems (or robots) at once even in the early days of a robotics startup when you might have a small fleet and maybe not yet settled on a setup using one of the aforementioned “proper” tools.</description>
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    <item>
      <title>Using Chrony to Synchronise System Clocks for Robotic Platforms</title>
      <link>https://mshields.name/blog/2023-08-30-using-chrony-to-synchronise-system-clocks-for-robotic-platforms/</link>
      <pubDate>Tue, 29 Aug 2023 00:00:00 +0000</pubDate>
      
      <guid>https://mshields.name/blog/2023-08-30-using-chrony-to-synchronise-system-clocks-for-robotic-platforms/</guid>
      <description>Preamble If you are utilising multiple Ubuntu systems in your robotic deployment it can be advantageous to have the system clocks synchronised. This is a fairly common occurrence with engineers looking to utilise the distributed nature of ROS and other middleware. If you are interested in this you might also be interested in my previous post on sharing internet connections over a LAN.
Requirements For this you’ll need at least two separate Ubuntu systems connected to each other over a LAN, VPN or similar.</description>
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    <item>
      <title>Running ROS Nodes on Boot</title>
      <link>https://mshields.name/blog/2022-03-16-running-ros-nodes-on-boot/</link>
      <pubDate>Wed, 16 Mar 2022 00:00:00 +0000</pubDate>
      
      <guid>https://mshields.name/blog/2022-03-16-running-ros-nodes-on-boot/</guid>
      <description>Preamble This is a reworking of a blog post that used to be on the Rover Robotics blog, which they have since taken down - sad face.
We often want our robots to be ready to use at the point of power on. We don’t want to be having to call every ROS launch in our stack every time we want to run our robot. Even if you combine all your ROS launch files into one ROS launch to rule them all the following guide will be useful to get you to a more polished robotic product, instead of a development tool.</description>
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    <item>
      <title>Connecting to a ROS Master Over a VPN</title>
      <link>https://mshields.name/blog/2022-03-12-connecting-ros-master-over-vpn/</link>
      <pubDate>Sat, 12 Mar 2022 00:00:00 +0000</pubDate>
      
      <guid>https://mshields.name/blog/2022-03-12-connecting-ros-master-over-vpn/</guid>
      <description>Preamble This is a nice build on from my previous post on creating a VPN server. If you are using ROS and a VPN server it is possible to remotely connect to the ROS master on one of your robots from either another robot or other device. Basically the only requirement is that both systems are clients on the VPN and can run ROS. It also helps if you have provisioned each system with a static IP address, again details are in my previous post on creating a VPN server.</description>
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    <item>
      <title>Custom SSH Banner on Login</title>
      <link>https://mshields.name/blog/2022-03-10-custom-ssh-banner-on-login/</link>
      <pubDate>Thu, 10 Mar 2022 00:00:00 +0000</pubDate>
      
      <guid>https://mshields.name/blog/2022-03-10-custom-ssh-banner-on-login/</guid>
      <description>Preamble When logging into a Linux system over ssh you can greeted with a text banner prior to entering your password. There are a number of reasons you might want to do this.
adding company branding providing a brief description about how this system is being used providing warnings and reminders to users about access How To Log into your system over ssh or get local terminal access.
sudo nano /etc/ssh/sshd_config Down near the bottom you will be able to set the Banner path.</description>
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    <item>
      <title>SD Card Reading and Writing with Linux dd</title>
      <link>https://mshields.name/blog/2022-03-08-sd-card-reading-and-writing-with-linux-dd/</link>
      <pubDate>Tue, 08 Mar 2022 00:00:00 +0000</pubDate>
      
      <guid>https://mshields.name/blog/2022-03-08-sd-card-reading-and-writing-with-linux-dd/</guid>
      <description>Preamble Just a quick post as a personal note for a reminder on how to use the dd command to read and write SD card images. This can be useful when working locally with Raspberry Pi and NVidia Jetson style embedded computers.
Determine the Device Location We need to determine the path for the SD card we intend to use, whether the operation is reading or writing.
sudo fdisk -l Returns a list of all of the available partitions and drives.</description>
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    <item>
      <title>Remotely Connecting to a U-Blox GNSS Receiver</title>
      <link>https://mshields.name/blog/2022-02-26-remotely-connecting-to-a-ublox-gnss-receiver/</link>
      <pubDate>Mon, 07 Mar 2022 00:00:00 +0000</pubDate>
      
      <guid>https://mshields.name/blog/2022-02-26-remotely-connecting-to-a-ublox-gnss-receiver/</guid>
      <description>Preamble Being able to deploy over the air updates to your robot’s peripherals is a powerful thing. In the early stages it may also be useful for engineers to be able to connect directly to these devices as if they were connected to their personal computers. Here I’m going to detail one approach for this using ser2net. I’ll use connecting to a U-Blox Z-F9P GNSS receiver as a demonstration use case.</description>
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    <item>
      <title>Setting Up a Robot LAN with Internet Connection Sharing</title>
      <link>https://mshields.name/blog/2022-02-26-setting-up-a-robot-lan-with-internet-vpn-connection-sharing/</link>
      <pubDate>Sat, 26 Feb 2022 00:00:00 +0000</pubDate>
      
      <guid>https://mshields.name/blog/2022-02-26-setting-up-a-robot-lan-with-internet-vpn-connection-sharing/</guid>
      <description>Preamble It can be common to want to run multiple embedded computers on a robotic system. Having multiple systems on a hard LAN makes sense, to enable low latency communication between them. If the robot can connect to a local WiFi source that provides an internet connection then it can be quite easy for each embedded system to connect to the wireless network also, as most will come with a WiFi card.</description>
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    <item>
      <title>Setting Up an OpenVPN Server on AWS EC2</title>
      <link>https://mshields.name/blog/2022-02-26-setting-up-openvpn-server-on-aws-ec2/</link>
      <pubDate>Sat, 26 Feb 2022 00:00:00 +0000</pubDate>
      
      <guid>https://mshields.name/blog/2022-02-26-setting-up-openvpn-server-on-aws-ec2/</guid>
      <description>Preamble Using This Guide Cloud Compute Setup Creating an EC2 Instance Selecting an AMI Selecting an Instance Type Security Group Static/ Elastic IP Address Server Side Setup Connecting Using SSH Modify the Hostname Installing OpenVPN and Easy RSA Configuring the OpenVPN Server Packet Forwarding and Firewall Setting up the Server Side Keys and Certs Generating Client Keys Creating the Unified .ovpn Client File Client Setup Connecting Client Side Network Manager Options Alternatives Assigning Clients a Static IP Server Maintenance Operations Useful Commands Issuing Additional Clients the Easy Way Revoking a Client Resources and Further Reading Hey you!</description>
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    <item>
      <title>Operational Considerations for a Robotics as a Service</title>
      <link>https://mshields.name/blog/2022-02-15-reports-from-the-frontline-of-raas/</link>
      <pubDate>Tue, 15 Feb 2022 00:00:00 +0000</pubDate>
      
      <guid>https://mshields.name/blog/2022-02-15-reports-from-the-frontline-of-raas/</guid>
      <description>Preamble Surely whole point of a robotics as a service (RaaS) is to deploy robots and get paid. But there are a lot of considerations that are easy to overlook when making sure you are ready.
The idea for most people who get into this field often looks something like this:
Design a robot Build some of those robots Deploy them … Profit? But inside those ellipses be dragons. Let’s try and figure out how to conquer them.</description>
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