FOSDEM 2024 schedule – Open-source embedded, mobile, IoT, robotics, RISC-V, etc..

FOSDEM 2024

FOSDEM – which stands for Free and Open Source Software Developers’ European Meeting – is a free-to-participate event where thousands of developers meet in Brussels on the first week-end of February to discuss open-source software & hardware projects. FOSDEM 2024 will take place on February 3-4 with 880 speakers, 818 events, and 66 tracks. Although I won’t attend, I’ve created a virtual schedule like every year with sessions most relevant to the topics covered on CNX Software from the “Embedded, Mobile and Automotive” and “Open Hardware and CAD/CAM” devrooms, but also other devrooms including “FOSS Mobile Devices”, “ Energy: Reimagining this Ecosystem through Open Source”, “RISC-V”, and others. FOSDEM Day 1 – Saturday, February 3, 2024 10:30 – 10:55 – Screen Sharing on Raspberry Pi 5 Using VNC in Weston and Wayland with the Yocto Project and OpenEmbedded by Leon Anavi In 2023, embedded Linux developers received eagerly awaited news: […]

Giveaway Week 2023 – TBS7901 mini PCIe DVB-S2X/S2 module

TBS7901 mini PCIe DVB- S2X/S2 module giveaway

The second prize of Giveaway Week 2023 is a TBS7901 mini PCIe DVB-S2X/S2 module designed to be connected to a PC or board with a mini PCIe socket in order to watch, record, or broadcast free-to-air video received from a satellite dish. I received both M.2 and mPCIe DVB-S2X modules last August, but I haven’t had time to test any of those yet. So I’m keeping the M.2 module for my own testing once time permits and will be giving away the mini PCIe module to one of CNX Software readers. The module comes with a coaxial antenna cable, as well as a TBS-7901PW power board and SATA power cable since DVB-S/S2/S2X satellite TV requires 13V and 18V DC as well which will be outputted won’t the power board using the 12V from a PSU. You’ll probably need a Windows machine too since TBS provides Windows drivers for the TBS7901 […]

Gateworks GW7400 networking SBC features 6 Gigabit Ethernet ports, M.2 & mini PCIe sockets for wireless connectivity

NXP I.MX 8M Networking SBC 6 Ethernet ports

Gateworks Venice GW7400 is a rugged industrial single board computer for networking and gateway applications with six Gigabit Ethernet ports, and one M.2 and three mini PCIe sockets for WiFi, cellular, and other wireless options. We first mentioned the GW7400 board around three years ago, when the company introduced the Venice family powered by NXP i.MX 8M processor. But the board launched today has a different design with more Ethernet, an NXP i.MX8M Plus AI processor, up to 4GB RAM, up to 64GB eMMC flash, and various interfaces such as USB 3.0, dual CAN Bus, DIO, I2C, SPI, and UART. Gateworks GW7400 specifications: SoC – NXP i.MX 8M Plus CPU – Quad-core Cortex-A53 @ up to 1.6 GHz (industrial-grade) Real-time core – Arm Cortex-M7 @ up to 800 MHz GPU – Vivante GC7000UL 3D GPU, Vivante GC520L 2D GPU VPU – Up to 1080p60 video encoding and decoding AI accelerator […]

Affordable RTK GNSS receiver supports USB or/and Ethernet interfaces (Crowdfunding)

Raspberry Pi 4 RTK GNSS rover

HYFIX’s RTK Rover is an affordable, centimeter-accurate RTK (Real-time Kinematic) GNSS receiver with either a USB interface or/and Ethernet connectivity with the latter relying on a Raspberry Pi 4 SBC. As a reminder, RTK relies on traditional GNSS networks like GPS and works with a Base station at a fixed location and a Rover station that can be fitted to a drone or mobile robot in order to determine the position with up to one-centimeter accuracy. The RTK Rover from HYFIX is equipped with a dual-band LC29H GNSS module from Quectel and an onboard IMU sensor that tracks position through dead reckoning when GNSS connectivity is lost. RTK Rover specifications: MiniPCIe card with Dual-Band L1/L5 RTK Receiver (Quectel LC29H) Antenna – External antenna (6x5x2 cm) connected to SMA connector Sensor – IMU Interfaces USB Type-C port for power and serial Interface Ethernet Rover Kit only – Gigabit Ethernet and  USB ports […]

Qualcomm 212S and 9205S Satellite IoT modems target remote monitoring and asset tracking

Qualcomm 212S block diagram

Qualcomm has just unveiled the Qualcomm 212S and Qualcomm 9205S Satellite IoT modems developed in collaboration with Skylo, an NTN service provider, to enable IoT devices connectivity across satellite and cellular networks for remote monitoring and asset tracking. At the beginning of the year, Qualcomm launched Snapdragon Satellite for two-way messaging on smartphones, but the company has now expanded its use of satellite data connectivity with the Qualcomm 212S and 9205S modems optimized for 5G IoT use cases relying on NTN (Non-Terrestrial Networks). Qualcomm 212S Satellite IoT modem Qualcomm 212S (QCX212S) modem specifications: CPU – Arm Cortex-M3 CPU @ up to 204 MHz Cellular connectivity Cellular Technology – Rel.14 LTE Cat-NB2, Rel.17 NB-IoT over NTN RF LTE low bands – B85, B5, B8, B18, B19, B12, B13, B17, B14, B28, B26, B20 LTE mid bands – B70, B25, B66, B4, B3, B2, B1, B23, N255, N256 Network Protocols – SSL, […]

$99 Motorola Defy Satellite Link enables 2-way satellite communications on smartphones through 3GPP NTN technology

Motorola Defy Satellite Link

Motorola Defy Satellite Link is a Bluetooth device that can affordably bring 2-way satellite communication to any smartphone thanks to the latest 3GPP NTN (Non-Terrestrial Network) technology implemented in the MediaTek MT6825 connecting to the Bullitt Satellite Connect platform. Satellite phones and hotspot has been around for years through products such as the Iridium Go! Satellite Wi-Fi hotspot that goes for over $1,000 without a data plan, pricing that does not make it conducive to mass adoption. But silicon vendors and phone manufacturers have started to add more affordable 2-way satellite connectivity to smartphones, for example with the Snapdragon Satellite initiative, currently using Iridium, but with plans to switch to 5G NTN in due time. Motorola Defy Satellite Link key features and specifications: SoC – MediaTek M6825 chip compliant with 3GPP R17 NTN standard (bands: 23/255/256), support for Geosynchronous Equatorial Orbit (GEO) constellations GNSS – GPS, Glonass, Galileo, Beidou Host […]

ROCK Base triple-frequency RTK/GNSS base station works with Web3 GEODNET decentralized network

ROCK Base RTK network base station

ROCK Robotic has announced the ROCK Base triple-band multi-constellation RTK/GNSS base station that works with the Web3 GEODNET decentralized GNSS reference network, with the solution designed to offer centimeter accuracy to support applications such as civil surveying, high-definition mapping, digital twin creation, and robotic solutions. Real-time Kinematic (RTK) is a relative positioning technique relying on GNSS (GPS,  Galileo, GLONASS, Beidou …) and allowing centimeter positioning accuracy. The technique requires an RTK “Base station” like the ROCK Base and a lower-cost “Rover station” typically attached to a vehicle or drone. For higher accuracy, it’s also possible to use a Network RTK: Network RTK is based on the use of several widely spaced permanent stations. Data from reference stations is combined in a common data processing in a control center. The control center computes corrections for the spatially correlated errors within the network. These corrections are transmitted to the rover. Comparing to […]

Qualcomm Snapdragon Satellite enables two-way messaging using the Iridium network

Snapdragon Satellite

You may soon be able to get true global coverage even in remote areas thanks to Qualcomm Snapdragon Satellite which will offer pole-to-pole coverage and two-way messaging for emergency use, SMS texting, and other messaging applications. Qualcomm made this possible through a partnership with Iridium to bring satellite-based connectivity to next-generation premium Android smartphones starting with devices based on Snapdragon 8 Gen 2 Mobile Platform, while emergency messaging support was done in collaboration with Garmin. You’ll just need to point your phone to the sky to send and/or receive messages, and the connection should take place within a few seconds. Note it can only be used for text, and the bandwitdh would not be sufficient for audio, pictures, and videos. The solution relies on Snapdragon 5G Modem-RF Systems such as the Snapdragon X70 modem to connect to the Iridium low-earth orbit satellite constellation using the L-band spectrum (1 to 2 […]

UP 7000 x86 SBC