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Posts Tagged ‘raspberry pi’

Janz Tec emPC-A/RPI3 is an Industrial Embedded Controller Based on Raspberry Pi 3 Board

February 15th, 2017 No comments

We see more and more industrial devices making use of Raspberry Pi boards, after Kunbus RevolutionPi RevPi Core industrial computer based on Raspberry Pi Computer Module, and RailPi 2.0 embedded computer equipped with a Raspberry Pi 3 (or ODROID-C2) board, Janz Tec is now offering another option with emPC-A/RPI3 industrial embedded controller featuring Raspberry Pi 3 board, and supporting variable DC power input, 24V digital inputs and outputs, and interfaces such as CAN, RS485…

Janztec emPC-A/RPI3 specifications:

  • SoC – Broadcom BCM2837  quad core ARM Cortex-A53 processor @ 1.2 GHz (but limited to 4x 600 MHz on purpose to avoid overheating) and VideoCore IV GPU
  • System Memory – 1GB DDR2 RAM
  • Storage – externally accessible micro SD slot
  • Video Output – HDMI 1.4 port
  • Connectivity – 10/100M Ethernet port, 802.11 b/g/n WiFi and Bluetooth LE (BCM43143)
  • USB – 4x USB 2.0 ports
  • Debugging – 1x 9-pin D-SUB connector for serial debug console (RS232 only with RxD and TxD)
  • I/O connector with:
    • 1x CAN (ISO/DIS 11989-2, opto-isolated, term. settings via jumper, SocketCAN supported)
    • 1x RS232 (Rx, Tx, RTS, CTS) or switchable to RS485 (half duplex; term. settings via jumper)
    • 4x digital inputs (24V DC)
    • 4x digital outputs (24V DC)
  • Misc – Real-time clock, battery buffered
  • Power Supply – 9 … 32 V DC
  • Dimensions – 99.8 x 96.7 x 30.0 mm
  • Temperature Range – Operating: 0 °C … 35/40°C; storage: -20 °C … 75 °C
  • Humidity – 5 % ~ 95 %, non-condensing

The enclosure supports desktop, wall or DIN rail mounting. While customers can boot the operating system of their choice from micro SD card, the company offers support for Raspbian JESSIE Lite operating system, and can also provide – at extra cost – CODESYS V3 runtime environment, Oracle Java Embedded, and CANopen protocol stack and tools.


As with all other industrial solutions, the added features come at a costs, as Janz Tec emPC-A/RPI3 pricing starts at 250 Euros without micro SD card, power supply, nor any optional software options. The embedded computer can be purchased on Saelig website, and you may want to visit the product page for more information.

Via LinuxGizmos

Dride is a Voice Controlled Dashcam Driving Assistant Powered by a Raspberry Pi Board (Crowdfunding)

February 8th, 2017 3 comments

Next Thing introduced Dashbot Car Dashboard Assistant based on CHIP Pro module late last year, and it will get some competition with Dride, a driving assistant powered by Raspberry Pi, that can also be voice controlled like Dashbot, but includes a Pi camera to record videos, and alert the users of dangers using computer vision, for example when they drive too close to the car in front.

The system leverages Raspberry Pi board and Pi Camera, and adds an outer shell, Dride’s Raspberry Pi HAT, and a car charger & cable. Some of the key features listed for the Dride include:

  • Cloud support – Upload and store driving videos to your Dride profile
  • ADAS – Safety alerts in case of lane deviation or frontal collision
  • Voice – Voice commands for navigation & messaging
  • Connectivity – Bluetooth, WiFi, and GPS

The developers also provide “Dride – Passenger Seat Driver” app for Android & iOS in order to easily share videos, and use third party services like Google Maps, Alexa Assistant, or Spotify. The video below will give you a good idea of what Dride is capable of.

Dride software will be open source, and you can already find some documentation about the SDK.

The project has just launched on Kickstarter with the goal of raising $100,000 for mass production. If you already own a Raspberry Pi and Pi camera, a $99 pledge will get you the extra parts with the HAT, outer shell, and car charger. A complete system with the board, camera, and micro SD card pre-installed with DrideOS, requires a $139 pledge (Early bird). Shipping adds $20, and deliver is planned for September 2017.

Source: Raspberry Pi Spy, via Nanik

Embedded Linux Conference & OpenIoT Summit 2017 Schedule

February 4th, 2017 1 comment

The Embedded Linux Conference 2017 and the OpenIoT Summit 2017 will take place earlier than last year, on February  20 – 24, 2017 in Portland, Oregon, USA. This will be the 12th year for ELC, where kernel & system developers, userspace developers, and product vendors meet and collaborate. The schedule has been posted on the Linux Foundation website, and whether you’re going to attend or not, it’s always informative to check out the topics.

So as usual, I’ll make a virtual schedule for all 5 days.

Monday, February 20

For the first day, the selection is easy, as choices are limited, and the official first day it actually on Tuesday. You can either attend a full-day paid training sessions entitled “Building A Low Powered Smart Appliance Workshop“, and the only session that day:

  • 14:30 – 15:20 – Over-the-air (OTA) Software Updates without Downtime or Service Disruption, by Alfred Bratterud, IncludeOS

Millions of consumers are at risk from security vulnerabilities caused by out-of-date software. In theory all devices should update automatically, but in practice, updating is often complicated, time-consuming and requires manual intervention from users. IncludeOS is a unikernel operating system that enables over-the-air (OTA) software updates of connected devices without downtime or service disruption.

The talk starts with a brief introduction to unikernels, their capabilities and how they can be very beneficial for IoT products from security, performance and operational perspectives. Then we give an overview of the IncludeOS Live Update functionality, which we use to demonstrate an atomic update of a device using Mender.io.

Tuesday, February 21

  • 10:30 – 11:20 – Bluetooth 5 is here, by Marcel Holtmann, Open Source Technology Center, Intel

The next version of Bluetooth has been released just a few month ago. This presentation gives an introduction to Bluetooth 5 and its impacts on the ecosystem. It shows new and exciting use cases for low energy devices and IoT with the focus on Linux and Zephyr operating systems.

With Bluetooth 5, the wireless technology continues to evolve to meet the needs of the industry as the global wireless standard for simple and secure connectivity. With 4x range, 2x speed and 8x broadcasting message capacity, the enhancements of Bluetooth 5 focus on increasing the functionality of Bluetooth for the IoT. These features, along with improved interoperability and coexistence with other wireless technologies, continue to advance the IoT experience by enabling simple and effortless interactions across the vast range of connected devices.

  • 11:30 – 12:20 – Embedded Linux Size Reduction Techniques, by Michael Opdenacker, Free Electrons

Are you interested in running Linux in a system with very small RAM and storage resources? Or are you just trying to make the Linux kernel and its filesystem as small as possible, typically to boot faster?

This talk will detail approaches for reducing the size of the kernel, of individual applications and of the whole filesystem. Benchmarks will you show how much you can expect to save with each approach.

  • 14:00 – 14:50 – Moving from IoT to IIoT with Maker Boards, Linux, and Open-Source Software Tools, by Matt Newton, Opto 22

In this session, developers will learn how to use the open-source tools, maker boards, and technology they’re already familiar with to develop applications that have the potential to deliver a massive positive impact on society. There are billions of devices–sensors, I/O, control systems, motors, pumps, drives–siloed behind proprietary control and information systems, waiting to be tapped into. This workshop is geared towards teaching the developer community how to use the tools they’re already familiar with to access, monitor, and manage these assets to create a potentially huge positive impact on our way of life.

  • 15:00 – 15:50 – Debugging Usually Slightly Broken (USB) Devices and Drivers, by Krzysztof Opasiak, Samsung R&D Institute Poland

USB is definitely the most common external interface. Millions of people are using it every day and thousands of them have problems with it. Driver not found, incorrect driver bound, kernel oops are just examples of common problems which we are all facing. How to solve them or at least debug? If you’d like to find out, then this talk is exactly for you!

We will start with a gentle introduction to the USB protocol itself. Then standard Linux host side infrastructure will be discussed. How drivers are chosen? How can we modify matching rules of a particular driver? That’s only couple of questions which will be answered in this part. Final part will be an introduction to USB communication sniffing. Krzysztof will show how to monitor and analyze USB traffic without expensive USB analyzers.

  • 16:20 – 17:10 – SDK in the Browser for Zephyr Project, by Sakari Poussa, Intel

Starting a development for embedded IoT system can be a tedious task, starting with the tools and SDK installations. You also need to have proper operating system, cables and environment variables set up correctly in order to do anything. This can take hours if not days. In this tutorial, we present an alternative, fast and easy way to start IoT development. All you need is your Zephyr board, USB cable and Web Browser. The Zephyr will be running JavaScript Runtime for Zephyr including a “shell” developer mode and Web USB. The Browser has the IDE where you can edit and download code to your board. No compiling, flashing or rebooting is required. During the tutorial, we have few boards available and participants can start developing applications for zephyr in 5 minutes.

  • 17:20 – 18:10 – Fun with Zephyr Project and BBC micro:bit, by Marcel Holtmann, Open Source Technology Center, Intel

This presentation shows how Zephyr empowers the BBC micro:bit devices and its Bluetooth chip to do fun things.

  • 18:15 – 19:00 – Yocto Project & OpenEmbedded BoF, by Sean Hudson, Mentor

Got a comment, question, gripe, praise, or other communication for the Yocto Project and/or OpenEmbedded technical leaders? Or maybe you just want to learn more about these projects and their influence on the world of embedded Linux? Feel free to join us for an informal BoF.

Wednesday, February 22

  • 10:40 – 11:30 – Journey to an Intelligent Industrial IOT Network, by Giuseppe (Pino) de Candia, Midokura

There are 66 million networked cameras capturing terabytes of data. How did factories in Japan improve physical security at the facilities and improve employee productivity? With the use of open systems, open networking, open IOT platforms of course!

Edge Computing reduces possible kilobytes of data collected per second to only a few kilobytes of data transmitted to the public cloud every day. Data is aggregated and analyzed close to sensors so only intelligent results need to be transmitted to the cloud while non-essential data is recycled. The system captures all flow information, current and historical.

Pino will draw from real IIOT use cases and discuss the variety of operations and maintenance tool to support proactive policy-based flow analysis for edge computing or fog nodes enabling IT and OT end to end visibility from a network perspective.

  • 11:40 – 12:30 – SecurityPI: IronClad your Raspberry Pi, by Rabimba Karanjai

Raspberry Pi has garnered huge interest in last few years and is now one of the most popular Linux boards out there sparking all kinds of DIY projects. But most of these function with the default settings and connect to the Internet. How secure is your Pi? How easy is it for someone to take over and make it part of a botnet or sneak peek on your privacy?

In this talk Rabimba Karanjai will show how to harden the security of a Raspberry Pi 3. He will showcase different techniques with code examples along with a toolkit made specifically to do that. This cookbook will harden the device and also provide a way to audit and analyze the behavior of the device constantly. After all, protecting the device finally protects us all, by preventing another dyndns DDOS attack.

  • 14:00 – 14:50 – IoTivity-Constrained: IoT for Tiny Devices, by Kishen Maloor, Intel Corporation

The IoT will be connected by tiny edge devices with resource constraints. The IoTivity-Constrained project is a small-footprint implementation of the Open Connectivity Foundation’s (OCF) IoT standards with a design that caters to resource-constrained environments. It is lightweight, maintainable and quickly customizable to run on any hardware-software deployment.

This talk will present IoTivity-Constrained’s architecture, features, APIs, and its current integration with a few popular real-time operating systems. It will end with a discussion of IoTivity-Constrained’s adaptation for the Zephyr RTOS.

  • 15:00 – 15:50 – RIOT: The Friendly Operating System for the IoT (If Linux Won’t Work, Try RIOT), by Thomas Eichinger, RIOT-OS

This presentation will start with RIOT’s perspective on the IoT, focusing on CPU- and memory-constrained hardware communicating with low-power radios. In this context, similarly to the rest of the Internet, a community-driven, free and open source operating system such as RIOT is key to software evolution, scalability and robustness. After giving an overview to RIOT’s overall architecture and its modular building blocks, the speaker will describe in more detail selected design decisions concerning RIOT’s kernel, hardware abstraction and network stack. Furthermore, the talk will overview the development and organizational processes put in place to help streamline the efforts of RIOT’s heterogeneous community. The presentation will end with an outlook on upcoming features in RIOT’s next releases and longer-term vision.

  • 16:20 – 17:10 – Graphs + Sensors = The Internet of Connected Things, by William Lyon, Neo4j

There is no question that the proliferation of connected devices has increased the volume, velocity, and variety of data available. Deriving value and business insight from this data is an ever evolving challenge for the enterprise. Moving beyond analyzing just discrete data points is when the real value of streaming sensor data begins to emerge. Graph databases allow for working with data in the context of the overall network, not just a stream of values from a sensor. This talk with cover an architecture for working with streaming data and graph databases, use-cases that make sense for graphs and IoT data, and how graphs can enable better real-time decisions from sensor data. Use cases covered will include data from oil and gas pipelines and the transportation industry.

Thursday, February 23

  • 9:00 – 9:50 – Android Things: High Level Introduction, by Anisha Dattatraya & Geeta Krishna, Intel Corporation

An overview of the basic concepts behind Android things and its structure and components is presented. Upon completion of this session, you should have a good overview of how Android Things brings simplicity to IoT software and hardware development by providing a simple and secure deployment and update model. This presentation provides the context needed for the Android Things Tutorial and other deep dive sessions for Android Things.

  • 10:00 – 10:50 – 2017 is the Year of the Linux Video Codec Drivers, by Laurent Pinchart, Ideas on Board

Codecs have long been the poor relation of embedded video devices in the Linux kernel. With the embedded world moving from stateful to stateless codecs, Linux developers were left without any standard solution, forcing vendors and users to resort to proprietary APIs such as OpenMAX.

Despair no more! Very recent additions to V4L2 make it possible to support video codecs with standard Linux kernel APIs. The ChromeOS team has proved that viable solutions exist for codecs without resorting to the proprietary options. This presentation will explain why video codecs took so long to properly support, and how the can be implemented and used with free software and open APIs.

  • 11:10 – 12:00 – Embedded Linux – Then and Now at iRobot, by Patrick Doyle, iRobot

Mr. Doyle will review the history of the use of embedded Linux at a commercial company (iRobot) and discuss the challenges faced (and overcome) then and now. While home routers and WiFi Access Point developers have enjoyed the benefits (and risks) of deploying Linux based products, that has not always been the case for other products. With the advent of low cost cell phone processors and vendor support for Linux, it is now possible to embed a Linux based solution in a consumer retail product such as a vacuum cleaner, minimizing risk and development time in the process.

  • 12:10 – 13:00 – Mainline Linux on AmLogic SoCs, by Neil Armstrong, BayLibre

Inexpensive set-top boxes are everywhere and many of them are powered by AmLogic SoCs. These chips provide 4K H.265/VP9 video decoding and have fully open source Linux kernel and U-boot releases. Unfortunately most of the products based on these devices are running an ancient 3.10 Android kernel. Thankfully AmLogic has put a priority on supporting their chips in the mainline Linux kernel.

Neil will present the challenges and benefits to pushing support for these SoCs upstream, as well as the overall hardware architecture in order to understand the Linux upstreaming decisions and constraints. He will also detail the future development plans aiming to offer a complete experience running an Upstream Linux kernel.

  • 14:30 – 15:20 – OpenWrt/LEDE: When Two become One, by Florian Fainelli, Broadcom Ltd

OpenWrt is a popular Linux distribution and build system primarily targeting the Wi-Fi router/gateway space. The project has been around for more than 12 years, but has recently experienced a schism amongst the developers over various issues.  This resulted in the formation of the LEDE project.  This split has caused confusion among the community and users. This presentation will cover what OpenWrt/LEDE projects are, what problems they are solving in the embedded Linux space, and how they do it differently than the competition. We will specifically focus on key features and strengths: build system, package management, ubus/ubox based user space and web interface (LuCI). We will demonstrate a few typical use cases for the audience. Finally, the conclusion will focus on the anticipated reunification of the two projects into one and what this means for the community and the user base.

  • 15:30 – 16:20 – Unifying Android and Mainline Kernel Graphics Stack, by Gustavo Padovan, Collabora Ltd.

The Android ecosystem has tons of out-of-tree patches and a good part of them are to support Graphics drivers. This happened because the Upstream Kernel didn’t support everything that is needed by Android. However the Mainline Graphics Stack has evolved in the last few years and features like Atomic Modesetting and Explicit Fencing support are making the dream of running Android on top of it possible. In other words, we will have Android and Mainline Kernels sharing the same Graphics stack!

This talk will cover what has been happening both on Android and Mainline Graphics Stacks in order to get Android to use the Upstream Kernel by default, going from what Android have developed to workaround the lack of upstream support to the latest improvements on the Mainline Graphics Stack and how they will fit together.

  • 16:30 – 17:20 – Developing Audio Products with Cortex-M3/NuttX/C++11, by Masayuki Ishikawa, Sony

Sony released audio products with Cortex-M3 in late 2015. Considering development efficiency, code reusability, feature enhancements and training costs, we decided to port POSIX-based open source RTOS named NuttX to ON Semiconductor’s LC823450 by ourselves, modified the NuttX for fast ELF loading, implemented minimum adb (Android debug bridge) protocols for testing purpose, DVFS in autonomous mode with a simple CPU idle calculation, wake_lock and stack trace which are popular in Linux/Android worlds. Middleware and Applications were developed in C++11 with LLVM’s libc++ which are also popular for large software systems. To debug the software, we implemented NuttX support for OpenOCD so that we can debug multi threaded applications with gdb. In addition, we used QEMU with the NuttX to port bluetooth stack and in-house GUI toolkit and finally got them work before we received LC823450 FPGA.


That’s all. I had to make choice, and did not include some sessions I found interested due to scheduling conflicts such as “Comparing Messaging Techniques for the IoT” by Michael E Anderson, The PTR Group, inc, and “Improving the Bootup Speed of AOSP” by Bernhard Rosenkränzer, Linaro.

You’ll need to register and pay an entry fee if you want to attend the Embedded Linux Conference & OpenIoT Summit:

  • Early Registration Fee: US$550 (through January 15, 2017)
  • Standard Registration Fee: US$700 (January 16, 2017 – February 5, 2017)
  • Late Registration Fee: US$850 (February 6, 2017 – Event)
  • Academic Registration Fee: US$175 (Student/Faculty attendees will be required to show a valid student/faculty ID at registration.)
  • Hobbyist Registration Fee: US$175 (only if you are paying for yourself to attend this event and are currently active in the community)

Kodi 17 “Krypton” Released, Kodi 18 “Leia” Development Started

February 3rd, 2017 1 comment

Although not officially announced yet, Kodi developers have finally released Kodi 17 “Krypton” which you can download for Windows, Linux, Mac OS X, Android, and iOS, as well as Raspberry Pi and some other development boards, and several Linux versions specific to TV box such as Nvidia Shield Android TV, Amazon Fire, or WeTek Hub. The most visible changes of the update are the new Estuary and Estouchy default skins, and people who have bought recent Amlogic based Android TV boxes may have already experienced them as several TV boxes shipped with Kodi 17 Beta versions.

There’s a long list of changes, but some noticeable ones include:

  • Lots of changes and updated to the Live TV and PVR (Personal Video Recorder) include PVR backend clients addons
  • New Settings user interface
  • Media library improvements with multiple sources support, more filtering & rating options, and better scanning & database performance
  • Audio Engine improvements on most platforms using ActiveAE
  • New default web interface called Chorus2

Click to Enlarge

There are also some Android specific changes, with the most important being that you now need Android 5.0 or greater to run the latest version of Kodi:

  • Moved to Android API 21 and SDK 21 with NDK 10 as minimum, meaning at least Android 5.0 is now required
  • Moved jni into its own separate project / submodule (jni backports from SPMC)
  • Added support for audio pass-through for DTS-HD, DTS-X, Dolby TrueHD, and Dolby ATMOS
  • Added support in CMake to debug binary-addon packaging issues on Android
  • Improved MediaCodec API video decoding implementations support for Android 5.0 (API level 21) and later
  • Improved automatic refresh rate switching support for video playback on Android 5.0 & later (>= API 21), inc. Android TV
  • Improved support for UltraHD decoding / 4K resolution output when HW supports it
  • Improved playback of HEVC, VC-1 / WMV 9, and VP9 hardware video decoding when using Android’s MediaCodec API
  • Removed AMLCodec hardware accelerated video decoding support for Android on Amlogic device

Now that Kodi 17 has been released, no new features will be added, but bug fixing will still occur, and a dot release might be available later on. New features are now developed on Kodi 18 “Leia”.

Via Liliputing

FOSDEM 2017 Open Source Meeting Schedule

January 31st, 2017 4 comments

FOSDEM (Free and Open Source Software Developers’ European Meeting) is a 2-day free event for software developers to meet, share ideas and collaborate that happens on the first week-end of February, meaning it will take place on February 4 & 5, 2017 this year. FOSDEM 2017 will features 608 speakers, 653 events, and 54 tracks, with 6 main tracks namely: Architectures, Building, Cloud, Documentation, Miscellaneous, and Security & Encryption.
I won’t be there, but it’s always interesting to look at the schedule, and I made my own virtual schedule focusing especially on talks from “Embedded, mobile and automotive” and “Internet of Things” devrooms.

Saturday 4, 2017

  • 11:00 – 11:25 – Does your coffee machine speaks Bocce; Teach your IoT thing to speak Modbus and it will not stop talking, by Yaacov Zamir

There are many IoT dashboards out on the web, most will require network connection to a server far far away, and use non standard protocols. We will show how to combine free software tools and protocols from the worlds of IT monitoring, Industrial control and IoT to create simple yet robust dashboards.

Modbus is a serial communication protocol developed in 1979 for use with programmable logic controllers (PLCs). In simple terms, it is a method used for transmitting information over serial lines between electronic devices., it’s openly published, royalty-free, simple and robust.

Many industrial controllers can speak Modbus, we can also teach “hobby” devices like Arduino boards and ESP8266 to speak Modbus. Reliable, robust and simple free software Modbus client will be used to acquire the metrics from our device, then the metrics will be collected and sent to Hawkular and Grafana to store and visualize our data.

  • 11:30 – 11:55 – Playing with the lights; Control LIFX WiFi-enabled light bulbs, by Louis Opter

In this talk we’ll take a close look at a one of the “smart” (WiFi-connected) light-bulbs available on the market today. The bulbs expose a small API over UDP that I used to run an interface on a programmable buttons array. We will see how topics like reverse engineering, security, licensing, “self-hosting” and user experience came into play.

monolight is an user interface to control LIFX WiFi-enabled light bulbs. monolight runs on a programmable button array; it is written in Python 3.6 (to have type annotations and asyncio), and it interfaces with the bulbs through a more complex daemon written in C: lightsd.

This talk will start with a live demo of the button grid remotely controlling the light bulbs. We will then explore how it works and some of the motivations behind it (network isolation, trying to not depend on the “cloud”, reliability, user-experience). Finally, we will look into what kind of opportunities even more open IoT products could bring, and open leave the place to Q&A and discussion.

  • 12:00 – 12:30 – Creating the open connected car with GENIVI, by Zeeshan Ali, GENIVI Development Platform (GDP) technical lead

A number of new components have matured in GENIVI to provide a true connected car experience. A couple of them are key connectivity components; namely SOTA (Software Over the Air) and RVI (Remote Vehicle Interface). This talk will discuss both these components, how they work together, the security work done on them and their integration into the GENIVI Development Platform.

This talk will also run down the overall status of GENIVI’s development platform and how it can enable an automotive stack to speak not just with the cloud, but with IoT devices via Iotivity interface.

  • 12:30 – 13:00 – Making Your Own Open Source Raspberry Pi HAT; A Story About Open Source Harware and Open Source Software, by Leon Anavi

This presentation will provide guidelines how to create an open source hardware add-on board for the most popular single board computer Raspberry Pi using free and open source tools from scratch. Specifications of Raspberry Pi Foundation for HAT (Hardware Attached on Top) will be revealed in details. Leon Anavi has been developing an open source Raspberry Pi HAT for IoT for more than a year and now he will share his experience, including the common mistakes for a software engineer getting involved in hardware design and manufacturing. The presentation is appropriate for anyone interested in building entirely open source products that feature open source hardware and open source software. No previous experience or hardware knowledge is required. The main audience are developers, hobbyists, makers, and students. Hopefully the presentation will encourage them to grab a soldering iron and start prototyping their DIY open source device.

  • 13:00 – 13:25 – Building distributed systems with Msgflo; Flow-based-programming over message queues, by Jon Nordby

MsgFlo is a tool to build systems that span multiple processes and devices, for instance IoT sensor networks. Each device acts as a black-box component with input and output ports, mapped to MQTT message queues. One then constructs a system by binding the queues of the components together. Focus on components exchanging data gives good composability and testability, both important in IoT. We will program a system with MsgFlo using Flowhub, a visual live-programming IDE, and test using fbp-spec.

In MsgFlo each process/device is an independent participant, receiving data on input queues, and sending data on output queues. A participant do not know where the data comes from, nor where (if anywhere) the data will go. This strong encapsulation gives good composability and testability. MsgFlo uses a standard message queue protocol (MQTT or AMQP). This makes it easy to use with existing software. As each participant is its own process and communicate over networks, they can be implemented in any programming language. Convenience libraries exist for C++, Python, Arduino, Node.js and Rust. On top of the message queue protocol, a simple discovery mechanism is added. For existing devices without native Msgflo support, the discovery messages can be sent by a dedicated tool.

  • 13:30 – 13:55 – 6LoWPAN in picoTCP, and how to support new Link Layer types, by Jelle De Vleeschouwer

6LoWPAN enables, as the name implies, IPv6-communication over Low-power Wireless Personal Area Networks, e.g. IEEE802.15.4. A lot of resources are available to allow 6LoWPAN over IEEE802.15.4, but how can one extend the 6LoWPAN feature-set for the use with other link layer types? This talk will cover the details about a generic implementation that should work with every link layer type and how one can provide support for ones own custom wireless network. The goal is to give quite a technical and detailed talk with finally a discussion about when 6LoWPAN is actually useful and when is it not.

Last year, as a summer project, a generic 6LoWPAN adaption layer was implemented into picoTCP, an open source embedded TCP/IP-stack developed by Altran Intelligent Systems, with an eye on the IoT. The layer should also be able to allow multiple link-layer extensions, for post-network-layer processing. This could be used for mesh-under routing, link layer security, whatever you want. This talk will cover how one can take advantage of these features and caveats that come with it.

  • 14:00 – 15:00 – Groking the Linux SPI Subsystem by Matt Porter

The Serial Peripheral Interconnect (SPI) bus is a ubiquitous de facto standard found in many embedded systems produced today. The Linux kernel has long supported this bus via a comprehensive framework which supports both SPI master and slave devices. The session will explore the abstractions that the framework provides to expose this hardware to both kernel and userspace clients. The talk will cover which classes of hardware supported and use cases outside the scope of the subsystem today. In addition, we will discuss subtle features of the SPI subsystem that may be used to satisfy hardware and performance requirements in an embedded Linux system.

  • 15:00 – 15:25 – Frosted Embedded POSIX OS; a free POSIX OS for Cortex-M embedded systems, by Brabo Silvius

FROSTED is an acronym that means “FRee Operating System for Tiny Embedded Devices”. The goal of this project is to provide a free kernel for embedded systems, which exposes a POSIX-compliant system call API. In this talk I aim to explain why we started this project, the approach we took to separate the kernel and user-space on Cortex-M CPU’s without MMU, and showcase the latest improvements on networking and supported applications.

  • 15:30 – 16:00 – How to Build an Open Source Embedded Video Player, by Michael Tretter

Video playback for embedded devices such as infotainment systems and media centers demands hardware accelerators to achieve reasonable performance. Unfortunately, vendors provide the drivers for the accelerators only as binary blobs. We demonstrate how we built a video playback system that uses hardware acceleration on i.MX6 by using solely open source software including Gstreamer, Qt QML, the etnaviv GPU driver, and the coda video decoder driver.

The Qt application receives the video streams from a Gstreamer pipeline (using playbin). The Gstreamer pipeline contains a v4l2 decoder element, which uses the coda v4l2 driver for the CODA 960 video encoder and decoder IP core (VPU in the Freescale/NXP Reference Manual), and a sink element to make the frames available to the Qt application. The entire pipeline including the Gstreamer to Qt handover uses dma_bufs to avoid copies in software.This example shows how to use open source drivers to ease the development of video and graphics applications on embedded systems.

  • 16:00 – 16:25 – Project Lighthouse: a low-cost device to help blind people live independently, by David Teller

The Word Health Organization estimates that more than 250 million people suffer from vision impairment, 36 millions of them being entirely blind. In many cases, their impairment prevents them from living independently. To complicate things further, about 90% of them are estimated to live in low-income situations.

Project Lighthouse was started by Mozilla to try and find low-cost technological solutions that can help vision-impaired people live and function on their own. To this date, we have produced several prototypes designed to aid users in a variety of situations. Let’s look at some of them. This will be a relatively low-tech presentation.

  • 16:30 – 16:55 – Scientific MicroPython for Microcontrollers and IoT, IoT programming with Python, by Roberto Colistete Jr

MicroPython is a implementation of Python 3 optimised to run on a microcontroller, created in 2013 by the Physicist Damien P. George. The MicroPython boards runs MicroPython on the bare metal and gives a low-level Python operating system running interactive prompt or scripts.

The MicroPython boards currently use 32 bit microcontrollers clocked at MHz and with RAM limited to tens or hundreds of Kbytes. These are the microcontroller boards with official MicroPython support currently in the beginning 2017 : Pyboard, Pyboard Lite, WiPy 1/2, ESP8266, BBC Micro:bit, LoPy, SiPy, FiPy. They cost between USD3-40, are very small and light, about some to tens of mm in each dimension and about 5-10 g, have low power consumption, so MicroPython boards are affordable and can be embedded in almost anything, almost anywhere.

Some hints will be given to the FOSS community to be open minded about MicroPython : be aware that MicroPython exists, MicroPython is a better programming option than Arduino in many ways, MicroPython boards are available and affordable, porting more Python 3 scientific modules to MicroPython, MicroPython combines well with IoT.

  • 17:00 – 17:25 – Iotivity from devices to cloud; how to make IoT ideas to real using FLOSS, by Philippe Coval & Ziran Sun (Samsung)

The OCF/IoTivity project aims to answer interoperability issues in the IoT world from many different contexts to accommodate a huge range devices from microcontrollers, to consumer electronics such as Tizen wearables or your powerful GNU/Linux system The vision of Iotivity is not restricted to ad hoc environment but also can be connected to Internet and make the service easily accessible by other parties. With cloud access in place, usage scenarios for IoT devices can be enriched immensely.

In this talk we walk through the steps on how to practically handle IoT use cases that tailored towards various topologies. To introduce the approach used in IoTivity, we first give a detailed background introduction on IoTivity framework. Then we will present a demo that shows a few examples, from setting up a basic smart home network to accessing the IoT resource via a third party online service. Challenges and solutions will be addressed from development and implementation aspects for each step of the demo.

We hope this talk will inspire developers to create new IoT prototypes using FLOSS.

  • 17:30 – 17:55 – Open Smart Grid Platform presentation, an Open source IoT platform for large infrastructures, by Jonas van den Bogaard

The Open Smart Grid Platform is an open source IoT platform. The open smart grid platform is a generic IoT platform, built for organizations that manage and/or control large-scale infrastructures. The following use cases are now readily available: smart lighting, smart metering, tariff switching, and microgrids. Furthermore the following use-cases are in development: distribution automation, load management and smart device management. The architecture of the open smart grid platform is modular and consists multiple layers.

The open smart grid platform is highly unique for embracing the open source approach and the following key features:

  • Suitable for scalable environments delivering high performance
  • High availability and multitenant architectures
  • Built with security by design and regularly tested.
  • It has a generic architecture. More use cases and domains are easily added to the platform.
  • The open smart grid platform is based on open standards where possible.

We believe the platform is interesting for developers who have interest in working on use-cases for Smart Cities, Utility Companies and other large-scale infrastructure companies.

  • 18:00 – 19:00 – AGL as a generic secured industrial embedded Linux; factory production line controllers requirements are not that special, by Dominig ar Foll

There is no de facto secured embedded Linux distro while the requirement is becoming more and more critical with the rise of IoT in Industrial domains. When looking under the hood of the Yocto built AGL project (Automotive Linux), it is obvious that it can fit 95% of the most common requirements as a Secured Embedded Linux. We will look how non Automotive industries can easily reuse the AGL code and tools to build their own industrial product and why it’s a safer bet than to build it internally.

Industrial IoT cannot be successful without a serious improvement of the security coverage. Unfortunately there is as today, no of-the-shelves offer and the skills required to create such solution, are at best rare, more often out of reach. AGL as created a customizable embedded Linux distro which is nicely designed for reuse in many domains outside of Automotive. During the presentation we will see how to: – start your development with boards readily available on the Net, – change the BSP and add peripherals using Yocto layers or project like MRAA, – integrate a secure boot in your platform, – add your middleware and your application without breaking the maintained Core OS – develop a UI on the integrated screen and/or an HTML remote browser – update the core OS and your add-ons. – get support and influence the project.

Sunday 5, 2017

  • 10:00 11:00 – How I survived to a SoC with a terrible Linux BSP, Working with jurassic vendor kernels, missing pieces and buggy code, by Luca Ceresoli

In this talk Luca will share some of his experiences with such vendor BSPs, featuring jurassic kernels, non-working drivers, non-existing bootloaders, code of appallingly bad quality, ineffective customer support and Windows-only tools. You will discover why he spent weeks in understanding, fixing and working around BSPs instead of just using them. The effects on the final product quality will be described as well. Luca will also discuss what the options are when you face such a BSP, and what both hackers and vendors can do to improve the situation for everybody’s benefit.

  • 11:00-12:00 – Open Source Car Control, by Josh Hartung

This fall my team launched the Open Source Car Control (OSCC) project, a by-wire control kit that makes autonomous vehicle development accessible and collaborative to developers at every level. In this presentation, we discuss the project and its implications on the development of autonomous cars in a vertically integrated and traditionally closed industry.

A primary barrier to entry in autonomous vehicle development is gaining access to a car that can be controlled with an off-the-shelf computer. Purchasing from an integrator can cost upwards of $100K, and DIY endeavors can result in unreliable and unsafe solutions. The OSCC project acts as a solution to these problems. OSCC is a kit of open hardware and software (based on Arduino) that can be used to take control of the throttle, brake, and steering in modern cars. The result is a fully by-wire test car that can be built for about $10K (USD), including the vehicle. In this discussion, we unpack the impetus and development of the OSCC project, challenges we encountered during development, and the role projects like OSCC have in a necessary “flattening” of the automotive industry.

  • 12:00 – 13:00 – Kernel DLC Metrics, Statistic Analysis and Bug-Patterns, by Nicholas Mc Guire

SIL2LinuxMP strives to qualify a defined GNU/Linux subset for the use in safety-related systems by “assessment of non-compliant development”. To demonstrate that the kernel has achieved suitable reliability and correctness properties basic metrics of such properties and their statistic analysis can be used as part of the argument. Linux has a wealth of analytical tools built-in to it which allow to extract information on compliance, robustness of development, as well as basic metrics on complexity or correctness with respect to defined properties. While IEC 61508 Ed 2 always pairs testing and analysis, we believe that for a high complexity system traditional testing is of relatively low effectiveness and analytical methods need to be the primary path. To this ends we outline some approaches taken:

  • Bug-age analysis
  • Bug-rates and trend analysis
  • Code-complexity/bug relationship
  • Brain-dead correctness analysis
  • Interface and type-correctness analysis
  • API compliance analysis
  • Analysis of build-bot data

While much of the data points to robust and mature code there also are some areas where problems popped up. In this talk we outline the used methods and give examples as well as key findings. FLOSS development has reached a quite impressive maturity, to substantially go beyond we think it will need the use of quantitative process and code metrics – these results from SIL2LinuxMP may be a starting point.

  • 13:00 – 14:00 – Loco Positioning: An OpenSource Local Positioning System for robotics, presentation with a demo of autonomous Crazyflie 2.0 quadcopter, by Arnaud Taffanel

Positioning in robotics has alway been a challenge. For outdoor, robots GPS is solving most of the practical problems, but indoor, precise localization is still done using expensive proprietary systems mainly based on an array of cameras.

In this talk, I will present the loco positioning system: an open source Ultra Wide Band radio-based local positioning system, why we need it and how it works. I will also speak about its usage with the Crazyflie 2.0 open source nano quadcopter, of course ending with an autonomous flying demo.

  • 14:00 14:50 – Free Software For The Machine, by Keith Packard

The Machine is a hardware project at Hewlett Packard Enterprise which takes a new look at computer architecture. With many processors and large amounts of directly addressable storage, The Machine program has offered an equally large opportunity for developing new system software. Our team at HPE has spent the better part of two years writing new software and adapting existing software to expose the capabilities of the hardware to application developers.

As directly addressable storage is such a large part of the new hardware, this presentation will focus on a couple of important bits of free software which expose that to applications, including our Librarian File System and Managed Data Structures libraries. Managed Data Structures introduces a new application programming paradigm where the application works directly on the stable storage form for data structures, eliminating serialization and de-serialization operations.

Finally, the presentation will describe how the hardware is managed, from sequencing power to a rack full of high-performance computing hardware, through constructing custom Linux operating systems for each processor and managing all of them as parts of a single computing platform.

  • 15:00 – 15:25 – Diving into the KiCad source code, by Maciej Sumiński

Let’s be sincere, all of us would love to change something in KiCad. I bet you have an idea for a new tool or another killer feature that would make your life so much easier.

You know what? You are free to do so! Even more, you are welcome to contribute to the project, and it is not that difficult as one may think. Those who have browsed the source code might find it overwhelming at first, but the truth is: you do not have to know everything to create useful extensions.

I would like to invite you for a walk through the KiCad source code to demonstrate how easy it is to add this tool you have always been dreaming about.

  • 15:30 – 16:00 – Testing with volcanoes – Fuego+LAVA, embedded testing going distributed, by Jan-Simon Möller

LAVA and Fuego are great tools individually already. Combining and extending them allows for a much broader test coverage than each tool alone can provide.

The focus of this talk is to share the experiences made and lessons learned so people can integrate such tools better in their own environment. It also raises the pain-points and open issues when setting up a distributed environment.

Especially for Automotive, Long-Term-Support, CIP or Consumer Electronics, advancing the Test-harness is essential to raise the bar and strengthen the confidence in our embedded platforms. Automated testing can improve our ecosystem from two sides: during development (feature does work and does not break things) and during maintenance (no regressions through backports).

  • 16:00 – 16:30 – Adding IEEE 802.15.4 and 6LoWPAN to an Embedded Linux Device, by Stefan Schmidt

Adding support for IEEE 802.15.4 and 6LoWPAN to an embedded Linux board opens up new possibilities to communicate with tiny, IoT type of, devices.

Bringing IP connectivity to devices, like sensors, with just a few kilobytes of RAM and limited battery power is an interesting IoT challenge. With the Linux-wpan and 6LoWPAN subsystems we get Linux ready to support the needed wireless standards as well as protocols that connect these tiny devices into the wider Internet. To make Linux a practical border router or smart home hub for such networks.

This talk will show how to add the needed transceiver hardware to an existing hardware and how to enable and configure the Linux-wpan and 6LoWPAN mainline subsystems to use it. The demonstration will include setting up the communication between Linux and other popular IoT operating systems like RIOT or Contiki as well.

  • 16:30 – 17:00 – OpenPowerlink over Xenomai, by Pierre Ficheux

Industrial Ethernet is a successor of classic field bus such as CAN, MODBUS or PROFIBUS. POWERLINK was created by B&R Automation and provides performance and real­-time capabilities based on standard Ethernet hardware. openPOWERLINK is open source and runs on lots of platforms such as Linux, Windows, various RTOS and dedicated hardware (FPGA). We will explain how to use openPOWERLINK on top of Xenomai 3, a powerful real-time extension for Linux kernel based on co-­kernel technology.

FOSDEM 2017 will take place at the ULB Solbosch Campus in Brussels, Belgium, and no registration is required, you just need to show up in order to attend the event.

BitScope Blade Industrial Mounting & Power Systems Support Up to 40 Raspberry Pi Boards

January 27th, 2017 12 comments

BitScope Designs, a manufacturer of embedded mixed signal test, measurement and data acquisition systems, has announced the launch of a new models of their industrial desktop, rack or wall mountable power and mounting power systems with BitScope Blade Uno, Duo, and Quattro supporting respectively 1, 2 and 4 Raspberry Pi 3/2/B+/A+ boards. The blades can also be mounted in a 19″ rack with up to 40 Raspberry Pi boards.

The three systems share many of the same specifications:

  • Power Supply

    40 Rapsberry Pi Rack with (Older Versions) of BitScope Blade Quattro

    • Unregulated 9V to 48V DC power, compatible with most 12V & 24V UPS, most DC solar power systems
    • 4A (peak) switch mode supply built-in
    • 2.1mm socket or industrial power tabs
    • Can be used with low cost passive PoE,
    • Can power external USB, HDD & SSD
    • 5V auxiliary power for example for Pi Display
  • Expansion& I/O ports
    • Full access to RPi’s I2C, SPI, UART & most GPIO
    • Slot for camera connector for each Pi
    • HDMI and audio accessible from Pi in BAY one
    • Blade HUB I/O expansion sockets for each Pi
    • Compatible with BitScope CAP industrial I/O
  • Mount System
    • Rack mount to build compute cluster solutions
    • 4 x 3mm tabs and wall mounting stand-offs

Wall Mounted BitScope Blade Duo (Older Version) with2 Raspberry Pi boards

Each model also has specific features:

  • BitScope Blade UNO (BB01B)
    • Designed for one Raspberry Pi and one HAT
    • Power and connect up to 4x BitScopes
    • Raspberry Pi power control header,
    • 2x USB power sockets
  • BitScope Blade DUO (BB02B)
    • Designed for 2x Raspberry Pi boards
    • Power and connect up to 8x BitScopes
    • Individual power and reset inputs for each Pi
  • BitScope Blade QUATTRO (BB04B)
    • Designed for 4x Raspberry Pi boards
    • Power and connect up to 16x BitScopes
    • Individual power and reset inputs for each Pi.

Back side of BitScope Blade Duo – Click to Enlarge

The HUB CAP expansion sockets are used to connect BitScope mixed signal scopes & analyzers, which can be controlled by BitScope DSO software running on the Raspberry Pi board with oscilloscope, logic analyzer, wave generator, and other modes of operation.

You’ll find a few more details on the press release, and the new BitScope Blades can be purchased exclusively on Element14 starting at 32.5 GBP (~$41 US). BitScope also has a “Blades” product page, but it is currently referring to the older versions.

NexDock is Working on a Hybrid Laptop Dock for Intel Compute Cards

January 18th, 2017 5 comments

NexDock first launched a 14″ laptop dock for smartphones, tablets, and development boards via a Indiegogo campaign in 2016, where they successfully raised over $350,000, and delivered rewards to backers last September and October. With the recent introduction of the Intel Compute Card, the company has now decided to work on a new NexDock that will take Intel’s cards.

We don’t have much details right now, but the company said that beside the Intel Compute Card, it will come support interchangeable USB type-C modules, and will still support Windows 10 smartphones with continuum feature, Raspberry Pi and other devices that can be connected through a USB-C port. The second drawing also suggests the keyboard will be detachable, and you’ll be able to use NexDock as a Windows tablet.

It could be nice to have an Intel laptop with Linux or Windows, and an ARM tablet with Android, but this won’t be possible, since Intel Compute Card are unlikely to be fitted with ARM processors.

Nevertheless, it’s an interesting development, as Intel appeared to target smart devices and business applications for their Compute Card when the announced it as CES 2017, but if the NexDock becomes reality, we will also find it in consumer devices, possibly around mid-2017 when the new NexDock is supposed to launch.

RailPi 2.0 DIN Rail Enclosure & Industrial Expansion Board is Designed for Raspberry Pi 3 & ODROID-C2 Boards

January 17th, 2017 1 comment

We’ve already seen the Raspberry Pi compute module used for industrial applications with RevolutionPi RevPi Core industrial computer with a DIN rail enclosure, support for digital I/O modules and fieldbus gateways. Hagedorn Software Engineering GmbH, another German company has designed a similar industrial computer, called RailPi 2.0, with a DIN rail enclosure integrating an add-on board designed for Raspberry Pi 3 and ODROID-C2 boards.

Click to Enlarge

RailPi 2.0 specifications (adapted from Google Translation of website):

  • I/Os
    • 4x digital outputs, short-circuit-proof, PWM-compatible, with diode for the connection of inductive loads such as relays.
    • 2x optically decoupled inputs, current-limited, with dimensions compliant with the S0 standard to allow them to be used with  pules counters / current meters.
    • RS485 interface
    • 1-Wire bus placed at the front of the RailPi
    • Bus connector for extensions with GND,I2C Clock (5V), I2C data (5V), 5V, and 12V
  • Misc – Real-time clock
  • Power Supply – Input voltage range of 9-36V DC

The Raspberry Pi 3 / ODROID-C2 ports are also exposed through the enclosure with 4 USB ports, Ethernet, and more. RailPi website provides some more details, especially if you can read German. The expansion board schematics have also been released in PDF format.

Click to Enlarge

This type of equipment is quite specialized and sold in low volume, so pricing might be higher than you would expect. You’ll find two models on RailPi store with RailPi 2.0 + Raspberry Pi 3 board sold for 236.81 Euros, and RailPi 2.0 + ODROID C2 for 248.71 Euros.

If you don’t really need to complete system with industrial input / output boards, but would just need a DIN rail enclosure for your board, there are much cheaper options with on RS Components starting at 4.74 GBP (<$6) although at this low price it might only be part of the case, as well as ModMyPi, and eBay.

Thanks to Sander for the tip.