Lokale live trainingen met Embedded Systems in Nederland.
Machine Translated
Getuigenissen
Zeer goede inhoudelijke voorbereiding.
Magdalena Szumny
Cursus: Embedded C Application Design Principles
Machine Translated
Veel materialen en bronnen.
Michał Tyndel
Cursus: Embedded C Application Design Principles
Machine Translated
Testgedreven ontwikkeling, veel aanbevolen literatuur: een boek en een website
TRW Polska sp. z o.o. Centrum Inżynieryjne
Cursus: Embedded C Application Design Principles for Automotive Professionals
Machine Translated
Praktische ervaring van de trainer, de nieuwste curiosa en trends uit de embedded markt, een oefening op de tweede dag, waarbij refactoring en unit tests in één keer worden getoond.
TRW Polska sp. z o.o. Centrum Inżynieryjne
Cursus: Embedded C Application Design Principles for Automotive Professionals
Machine Translated
Ik vond de hands-on aard van het leuk.
Maurice Egan
Cursus: Embedded Linux Kernel and Driver Development
Machine Translated
Neem het eerste contact met embedded linux kernel
Analog Devices
Cursus: Embedded Linux Kernel and Driver Development
Machine Translated
Een goed overzicht van hoe een kernel voor Linux te bouwen, had graag meer aandacht gekregen in de ontwikkeling van de driver.
Analog Devices
Cursus: Embedded Linux Kernel and Driver Development
Machine Translated
Ik vond de praktische oefeningen op een cloudmachine leuk.
Thales Transport & Security (HK) Ltd.
Cursus: The Yocto Project - An Overview - hands-on
Machine Translated
Ik vond de oefeningen leuk.
Rehrig Pacific COmpany
Cursus: Introduction to IoT Using Arduino
Machine Translated
Ik geniet er echt van om een virtuele pc online te hebben, ik kan oefeningen doen wanneer ik maar wil
Dongfu Li - Northforge Innovations Inc
Cursus: Yocto Project
Machine Translated
De vakkennis van de trainer
Northforge Innovations Inc
Cursus: Yocto Project
Machine Translated
Hoge professionaliteit
Oleg Polyakov - Northforge Innovations Inc
Cursus: Yocto Project
Machine Translated
heb een aantal ontwikkeltools en debug-tools geleerd die in mijn werk kunnen worden gebruikt.
Northforge Innovations Inc
Cursus: Yocto Project
Machine Translated
Kwesties met betrekking tot het maken en gebruiken van macro's, een geïllustreerde beschrijving van de C-taalstandaard en uitleg over bruikbaarheid in embedded systemen, problemen met betrekking tot compilaties en compilers.
Tomasz Torzewicz - TRW Polska sp. z o.o. Centrum Inżynieryjne
Cursus: Embedded C Application Design Principles for Automotive Professionals
Machine Translated
De manier om kennis over te dragen, vele voorbeelden die de opgeworpen problemen uitleggen en bronnen bieden waar je later van kunt leren
Fryderyk Wiądzkowicz - TRW Polska sp. z o.o. Centrum Inżynieryjne
Cursus: Embedded C Application Design Principles for Automotive Professionals
Machine Translated
Oefeningen.
Instytut Lotnictwa
Cursus: FreeRTOS: Programming for Real Time Operating Systems
Machine Translated
De grondige kennis van de trainer Robert over de onderwerpen (Yocto Project, embedded systemen, etc.). Hij is in staat om vrijwel elk probleem dat je hem over deze onderwerpen stelt te beantwoorden en hij heeft een heel diepe achtergrond ...
ZITRO LABORATORY
Cursus: Yocto Project
Machine Translated
De uitgebreide kennis van de trainer, die verder gaat dan het trainingsprogramma en zijn ervaring in de industrie.
Andrzej Bodura - TRW Polska sp. z o.o. Centrum Inżynieryjne
Cursus: Introduction to Embedded Linux (Hands-on training)
Machine Translated
De mogelijkheid om vragen te stellen en de grote kennis van de trainer.
TRW Polska sp. z o.o. Centrum Inżynieryjne
Cursus: Introduction to Embedded Linux (Hands-on training)
Machine Translated
Het praktische deel van de training.
TRW Polska sp. z o.o. Centrum Inżynieryjne
Cursus: Introduction to Embedded Linux (Hands-on training)
Machine Translated
Een breed scala aan kennis die de heer Tomasz heeft over een bepaald onderwerp. Krijg snel antwoord op uw vragen.
TRW Polska sp. z o.o. Centrum Inżynieryjne
Cursus: Introduction to Embedded Linux (Hands-on training)
Machine Translated
Kennis, dwarsdoorsnede
Merit Poland sp. z o.o.
Cursus: Using C++ in Embedded Systems - Applying C++11/C++14
Machine Translated
Gebruik van kennis in de praktijk
TRW Polska sp. z o.o. Centrum Inżynieryjne
Cursus: Introduction to Embedded Linux (Hands-on training)
Machine Translated
Ik heb echtgenoten van de trainer kennis.
Aaron Swift - ITW Hobart
Cursus: FreeRTOS: Programming for Real Time Operating Systems
Machine Translated
Ik heb echtgenoten van de gepersonaliseerde.
ITW Hobart
Cursus: FreeRTOS: Programming for Real Time Operating Systems
Machine Translated
De trainer wist gratis RTOS en was ope om onze vragen te beantwoorden.
ITW Hobart
Cursus: FreeRTOS: Programming for Real Time Operating Systems
Machine Translated
De uitgebreide kennis van de docent.
Krzysztof Rybak - ABB Sp. z o. o.
Cursus: Embedded Linux: Building a System from the Ground Up
Machine Translated
Neem de trainer om de presentatie van onderwerpen
Paweł Błaszczyk - ABB Sp. z o. o.
Cursus: Embedded Linux: Building a System from the Ground Up
Machine Translated
Ik was over het algemeen profiteren van de praktische oefeningen.
Ismael Martinez - ESML SD IBERIA HOLDING S.A.
Cursus: Yocto Project
Machine Translated
Ik had reeds een weinig kennis van Arduino, zodat was het goed om meer over de achtergrond van Arduino te horen, wat het voor kan worden gebruikt, en de middelen beschikbaar voor hulp.
University of Glasgow
Cursus: Arduino: Programming a Microcontroller for Beginners
Machine Translated
De aankoop van nuttige knowlwdge en verduidelijking van sommige dingen die ik was niet zeker van peviously.
Kenneth Mahoney - University of Glasgow
Cursus: Arduino: Programming a Microcontroller for Beginners
Machine Translated
Rod leek zeer deskundig en enthousiast over het cursusmateriaal.
Kyle Stirling - University of Glasgow
Cursus: Arduino: Programming a Microcontroller for Beginners
Machine Translated
Rod stijl was vermakelijk.
Tom O'Hara - University of Glasgow
Cursus: Arduino: Programming a Microcontroller for Beginners
Machine Translated
2 dagen geen interptions, die mij in staat om zich te concentreren op de taak in de hand.
University of Glasgow
Cursus: Arduino: Programming a Microcontroller for Beginners
Machine Translated
Ik vond het saldo van "whiteboard" onderwijs versus praktische "hands-on" leren was precies goed voor een Arduino inleidende cursus, en het tempo was ook geschikt.
Neil Owen - University of Glasgow
Cursus: Arduino: Programming a Microcontroller for Beginners
Machine Translated
Ik heb genoten van de opleiding werd geleverd door iemand met ervaring in het veld.
Nicholas Scott - University of Glasgow
Cursus: Arduino: Programming a Microcontroller for Beginners
Machine Translated
ontspannen en informele omgeving veel hulp tijdens gewerkte voorbeelden
bernard hoey - University of Glasgow
Cursus: Arduino: Programming a Microcontroller for Beginners
Machine Translated
Ook op voorwaarde dat een heleboel nieuwsgierig gerelateerd interessant op een bepaalde manier met het onderwerp
EduBroker Sp. z o.o.
Cursus: Embedded Systems Security
Machine Translated
Een vrij brede bron van kennis die leidt, het verklaren van vele taal verordeningen van opleiding, die vele regels voor het gebruik van de taal van C debatteert.
PIT-RADWAR S.A.
Cursus: Embedded C Application Design Principles
Machine Translated
Een grote hoeveelheid praktische informatie of begeleiding als gevolg van de industriële ervaring van de instructeur
PIT-RADWAR S.A.
Cursus: Embedded C Application Design Principles
Machine Translated
Problemen over de compiler, Linkerze, erfelijkheid. Humor leidt.
PIT-RADWAR S.A.
Cursus: Embedded C Application Design Principles
Machine Translated
De uitgebreide kennis van de docent.
PIT-RADWAR S.A.
Cursus: Embedded C Application Design Principles
Machine Translated
Veiligheidsmodellen, een bespreking van goede programmeer praktijken, diverse soorten aanvallen.
Piotr Piątek - EduBroker Sp. z o.o.
Cursus: Embedded Systems Security
Machine Translated
praktische tips, veel voorbeelden
Marta Kuchta - Nippon Seiki (Europe) B.V. Sp. z o.o. oddział w Polsce
Cursus: Embedded C Application Design Principles for Automotive Professionals
Machine Translated
De coach is zeer goed voorbereid en je kunt zijn ervaring en kennis van embedded programmeren en meer ervaren. De training was interessant, zeer dynamisch en expressief. Het kon zeker niet saai worden.
Mariusz Kordowski - Nippon Seiki (Europe) B.V. Sp. z o.o. oddział w Polsce
Cursus: Embedded C Application Design Principles for Automotive Professionals
Machine Translated
Uitgebreide theoretische en praktische kennis van de docent, het vermogen om de luisteraar te betrekken, de dynamiek van spraak.
Klaudia Chrzan - Nippon Seiki (Europe) B.V. Sp. z o.o. oddział w Polsce
Cursus: Embedded C Application Design Principles for Automotive Professionals
Machine Translated
Praktisch werk
James Gordon - Argent Energy
Cursus: Introduction to IoT Using Arduino
Machine Translated
Spontaniteit, trivia, indrukwekkende kennis van de docent.
Hubert Śliwowski - Nippon Seiki (Europe) B.V. Sp. z o.o. oddział w Polsce
Cursus: Embedded C Application Design Principles for Automotive Professionals
Machine Translated
voorbeelden en suggesties voor praktisch gebruik
Leszek Przybylski - Nippon Seiki (Europe) B.V. Sp. z o.o. oddział w Polsce
Cursus: Embedded C Application Design Principles for Automotive Professionals
Machine Translated
Veel nuttige problemen en concepten. Er worden interessante kennisbronnen gegeven.
Paweł Rokicki - Nippon Seiki (Europe) B.V. Sp. z o.o. oddział w Polsce
Cursus: Embedded C Application Design Principles for Automotive Professionals
Machine Translated
Embedded Systems subcategorieën
Embedded Systems Cursusoverzicht
Course Name
Duration
Overview
Course Name
Duration
Overview
14 hours
Overview
A two day course consisting of around 60% hands-on labs focusing on Embedded Linux kernel internals, architecture, development and investigating how to write and integrate several types of device drivers.
Who should attend?
Engineers interested in Linux kernel development on Embedded systems and plateforms.
Who should attend?
Engineers interested in Linux kernel development on Embedded systems and plateforms.
21 hours
Overview
The C programming language is perhaps the most popular programming language for programming embedded systems.
14 hours
Overview
This course demonstrates through hands-on practice the fundamentals of Embedded Computers.
7 hours
Overview
A real-time operating system (RTOS) is an operating system (OS) intended to serve real-time application process data as it comes in, typically without buffering delays.
7 hours
Overview
In this course, participants will learn C++ concepts and programming skills.
7 hours
Overview
Raspberry Pi is a small, barebones computer developed by The Raspberry Pi Foundation.
14 hours
Overview
An ARM processor is one of a family of CPUs based on the RISC (reduced instruction set computer) architecture developed by Advanced RISC Machines (ARM).
21 hours
Overview
Berkeley DB (BDB) is a software library intended to provide a high-performance embedded database for key/value data. Berkeley DB is written in C with API bindings for C++, C#, Java, Perl, PHP, Python, Ruby, Smalltalk, Tcl, and many other programming languages. Berkeley DB is not a relational database.
This course will introduce the architecture and capabilities of Berkeley DB and walk participants through the development of their own sample application using Berkeley DB.
Audience
- Application developers
- Software engineers
- Technical consultants
Format of the course
- Part lecture, part discussion, hands-on development and implementation, tests to gauge understanding
This course will introduce the architecture and capabilities of Berkeley DB and walk participants through the development of their own sample application using Berkeley DB.
Audience
- Application developers
- Software engineers
- Technical consultants
Format of the course
- Part lecture, part discussion, hands-on development and implementation, tests to gauge understanding
21 hours
Overview
This instructor-led, live training in Nederland introduces the system architectures, operating systems, networking, storage, and cryptographic issues that should be considered when designing secure embedded systems.
By the end of this course, participants will have a solid understanding of security principles, concerns, and technologies. More importantly, participants will be equipped with the techniques needed for developing safe and secure embedded software.
By the end of this course, participants will have a solid understanding of security principles, concerns, and technologies. More importantly, participants will be equipped with the techniques needed for developing safe and secure embedded software.
21 hours
Overview
Model Based Development (MBD) is a software development methodology that enables faster, more cost-effective development of dynamic systems such as control systems, signal processing and communication systems. It relies on graphic modeling rather than the traditional text based programming.
In this instructor-led, live training participants will learn how to apply MBD methodologies to reduce development costs and accelerate the time to market of their embedded software products.
By the end of this training, participants will be able to
- Select and utilize the right tools for implementing MBD.
- Use MBD to carry out rapid development in the early stages of their embedded software project.
- Shorten the release of their embedded software into the market.
Format of the course
- Part lecture, part discussion, exercises and heavy hands-on practice
In this instructor-led, live training participants will learn how to apply MBD methodologies to reduce development costs and accelerate the time to market of their embedded software products.
By the end of this training, participants will be able to
- Select and utilize the right tools for implementing MBD.
- Use MBD to carry out rapid development in the early stages of their embedded software project.
- Shorten the release of their embedded software into the market.
Format of the course
- Part lecture, part discussion, exercises and heavy hands-on practice
21 hours
Overview
This training intends to introduce C++ as the common extension of C when applying object-oriented embedded system development. Since C++ encloses C, this training takes us from C to C++ in a natural way, and looks under the hood of how C++ is implemented. This is especially valuable to comprehend when applying C++ in an embedded resource limited environment. The C++ standard has recently been undergoing a major revision, a.k.a. as C++11, and a new one is on its way, C++14. This course addresses subjects brought in with these revisions that are especially useful like high performance memory management, concurrency making use of a multicore environment, and bare-metal close to the hardware programming.
GOAL/BENEFITS
The major objective of this class is that you shall be able to use C++ in a “correct way”.
- Introduce C++ as an object oriented language alternative in an embedded system context
- Show the similarities ‑ and differences ‑ with the C language
- Comprehend different memory management strategies – especially the move semantics introduced with C++11
- Look under the hood and understand what different paradigms in C++ leads to in machine code
- Use templates to achieve type safe high order abstractions for bare-metal close to the hardware programming – memory mapped I/O as well as interrupts – especially the variadic templates introduced with C++11
- Provide some useful design patterns especially applicable in an embedded context
- A few exercises in order to practice some concepts
AUDIENCE/PARTICIPANTS
This training is aimed C++- programmers who intend to start using C++ in an embedded system context.
PREVIOUS KNOWLEDGE
The course requires basic knowledge in C++ programming, corresponding to our trainings ”C++ – Level 1” and ”C++ Level 2 – Introducing C++11”.
PRACTICAL EXERCISES
During the training you will practice the presented concepts in a number of exercises. We will use the open and free integrated development environment from Eclipse
GOAL/BENEFITS
The major objective of this class is that you shall be able to use C++ in a “correct way”.
- Introduce C++ as an object oriented language alternative in an embedded system context
- Show the similarities ‑ and differences ‑ with the C language
- Comprehend different memory management strategies – especially the move semantics introduced with C++11
- Look under the hood and understand what different paradigms in C++ leads to in machine code
- Use templates to achieve type safe high order abstractions for bare-metal close to the hardware programming – memory mapped I/O as well as interrupts – especially the variadic templates introduced with C++11
- Provide some useful design patterns especially applicable in an embedded context
- A few exercises in order to practice some concepts
AUDIENCE/PARTICIPANTS
This training is aimed C++- programmers who intend to start using C++ in an embedded system context.
PREVIOUS KNOWLEDGE
The course requires basic knowledge in C++ programming, corresponding to our trainings ”C++ – Level 1” and ”C++ Level 2 – Introducing C++11”.
PRACTICAL EXERCISES
During the training you will practice the presented concepts in a number of exercises. We will use the open and free integrated development environment from Eclipse
21 hours
Overview
Is C++ suitable for embedded systems such as microcontrollers and real-time-operating-systems?
Should object-oriented-programming be used in microcontrollers?
Is C++ too far removed from the hardware to be efficient?
This instructor-led, live training addresses these questions and demonstrates through discussion and practice how C++ can be used to develop embedded systems with code that is accurate, readable, and efficient. Participants put theory into practice through the creation of a sample embedded application in C++.
By the end of this training, participants will be able to:
- Understand the principles of object-oriented modelling, embedded software programming and real-time programming
- Produce code for embedded systems that is small, fast and safe
- Avoid code bloat from templates, exceptions, and other language features
- Understand the issues related to using C++ in safety-critical and real-time systems
- Debug a C++ program on a target device
Audience
- Developers
- Designers
Format of the course
- Part lecture, part discussion, exercises and heavy hands-on practice
Should object-oriented-programming be used in microcontrollers?
Is C++ too far removed from the hardware to be efficient?
This instructor-led, live training addresses these questions and demonstrates through discussion and practice how C++ can be used to develop embedded systems with code that is accurate, readable, and efficient. Participants put theory into practice through the creation of a sample embedded application in C++.
By the end of this training, participants will be able to:
- Understand the principles of object-oriented modelling, embedded software programming and real-time programming
- Produce code for embedded systems that is small, fast and safe
- Avoid code bloat from templates, exceptions, and other language features
- Understand the issues related to using C++ in safety-critical and real-time systems
- Debug a C++ program on a target device
Audience
- Developers
- Designers
Format of the course
- Part lecture, part discussion, exercises and heavy hands-on practice
14 hours
Overview
Raspberry Pi is a very small, single-board computer.
In this instructor-led, live training, participants will learn how to set up and program the Raspberry Pi to serve as an interactive and powerful embedded system.
By the end of this training, participants will be able to:
- Set up an IDE (integrated development environment) for maximum development productivity
- Program Raspberry Pi to control devices such as motion sensor, alarms, web servers and printers.
- Understand Raspberry Pi's architecture, including inputs and connectors for add-on devices.
- Understand the various options in programming languages and operating systems
- Test, debug, and deploy the Raspberry Pi to solve real world problems
Audience
- Developers
- Hardware/software technicians
- Technical persons in all industries
- Hobbyists
Format of the course
- Part lecture, part discussion, exercises and heavy hands-on practice
Note
- Raspberry Pi supports various operating systems and programming languages. This course will use Linux-based Raspbian as the operating system and Python as the programming language. To request a specific setup, please contact us to arrange.
- Participants are responsible for purchasing the Raspberry Pi hardware and components.
In this instructor-led, live training, participants will learn how to set up and program the Raspberry Pi to serve as an interactive and powerful embedded system.
By the end of this training, participants will be able to:
- Set up an IDE (integrated development environment) for maximum development productivity
- Program Raspberry Pi to control devices such as motion sensor, alarms, web servers and printers.
- Understand Raspberry Pi's architecture, including inputs and connectors for add-on devices.
- Understand the various options in programming languages and operating systems
- Test, debug, and deploy the Raspberry Pi to solve real world problems
Audience
- Developers
- Hardware/software technicians
- Technical persons in all industries
- Hobbyists
Format of the course
- Part lecture, part discussion, exercises and heavy hands-on practice
Note
- Raspberry Pi supports various operating systems and programming languages. This course will use Linux-based Raspbian as the operating system and Python as the programming language. To request a specific setup, please contact us to arrange.
- Participants are responsible for purchasing the Raspberry Pi hardware and components.
21 hours
Overview
PCB (Printed Circuit Board) Circuit Design refers to the process of designing, etching, and printing circuits on a signal boards layout. EAGLE is a freely available desktop application for designing PCBs.
In this instructor-led, live training, participants will learn how to use the Eagle software to create PCB circuit boards. The course starts by examining a set of existing schematics, then drawing out an original circuit in Eagle. The training steps through process for designing the circuit board and discusses the process for manufacturing the boards (the course does not include the physical manufacturing of the boards).
By the end of this training, participants will be able to:
- Create a Printed Circuit Board (PCB) from any schematic
- Create schematics and design circuit boards using Eagle
- Export the industry-standard files for constructing the circuit board
Audience
- Engineers
- Technicians
Format of the Course
- Part lecture, part discussion, exercises and heavy hands-on practice
Notes
- To request a customized training for this course, please contact us to arrange.
In this instructor-led, live training, participants will learn how to use the Eagle software to create PCB circuit boards. The course starts by examining a set of existing schematics, then drawing out an original circuit in Eagle. The training steps through process for designing the circuit board and discusses the process for manufacturing the boards (the course does not include the physical manufacturing of the boards).
By the end of this training, participants will be able to:
- Create a Printed Circuit Board (PCB) from any schematic
- Create schematics and design circuit boards using Eagle
- Export the industry-standard files for constructing the circuit board
Audience
- Engineers
- Technicians
Format of the Course
- Part lecture, part discussion, exercises and heavy hands-on practice
Notes
- To request a customized training for this course, please contact us to arrange.
21 hours
Overview
PCB (Printed Circuit Board) Circuit Design refers to the process of designing, etching, and printing circuits on a signal boards layout. Altium Designer is a freely available desktop application for designing PCBs.
In this instructor-led, live training, participants will learn how to use the Altium software to create PCB circuit boards. The course starts by examining a set of existing schematics, then drawing out an original circuit in Altium. The training steps through process for designing and manufacturing the circuit board.
By the end of this training, participants will be able to:
- Create a Printed Circuit Board (PCB) from any schematic
- Create schematics and design circuit boards using Altium
- Print and etch a physical circuit board
- Export the industry-standard files for sending to a large-scale manufacturer
Audience
- Engineers
- Technicians
Format of the Course
- Part lecture, part discussion, exercises and heavy hands-on practice
Notes
- To request a customized training for this course, please contact us to arrange.
In this instructor-led, live training, participants will learn how to use the Altium software to create PCB circuit boards. The course starts by examining a set of existing schematics, then drawing out an original circuit in Altium. The training steps through process for designing and manufacturing the circuit board.
By the end of this training, participants will be able to:
- Create a Printed Circuit Board (PCB) from any schematic
- Create schematics and design circuit boards using Altium
- Print and etch a physical circuit board
- Export the industry-standard files for sending to a large-scale manufacturer
Audience
- Engineers
- Technicians
Format of the Course
- Part lecture, part discussion, exercises and heavy hands-on practice
Notes
- To request a customized training for this course, please contact us to arrange.
7 hours
Overview
This instructor-led, live training in Nederland (online or onsite) is aimed at engineers who wish to design high-performance embedded systems using FPGA.
By the end of this training, participants will be able to:
- Install and configure the FPGA software tools needed to design and simulate an embedded system.
- Select the best FPGA architecture for an application.
- Develop and enhance various FPGA designs.
By the end of this training, participants will be able to:
- Install and configure the FPGA software tools needed to design and simulate an embedded system.
- Select the best FPGA architecture for an application.
- Develop and enhance various FPGA designs.
14 hours
Overview
This is a two day course covering all basic principles of building Embedded linux Systems, around 60% of the entire course time is practical hands-on implementation for real world application using the same standards and tools used in industry
14 hours
Overview
In this training, participants will learn how to build their own embedded Linux for the Raspberry Pi.
14 hours
Overview
In this instructor-led, live training in Nederland participants will learn step-by-step how to build an embedded Linux system from the ground up. From building a minimalistic kernel to configuring the bootup and initialization processes, participants will learn the tools, techniques and mindset needed to deploy a fully functional embedded Linux system.
For remote trainings, QEMU will be used to emulate the hardware. Other platforms, including real hardware devices, can be considered on a case by case basis.
For remote trainings, QEMU will be used to emulate the hardware. Other platforms, including real hardware devices, can be considered on a case by case basis.
35 hours
Overview
This instructor-led, live training in (online or onsite) is aimed at engineers who wish to implement NetApp ONTAP.
By the end of this training, participants will be able to:
- Set up and administer ONTAP 9.3 Cluster (3 days).
- Safeguard data through Data Protection technologies (2 days).
By the end of this training, participants will be able to:
- Set up and administer ONTAP 9.3 Cluster (3 days).
- Safeguard data through Data Protection technologies (2 days).
21 hours
Overview
This instructor-led, live training in Nederland (online or onsite) is aimed at developers who wish to use TensorFlow Lite to deploy deep learning models on embedded devices.
By the end of this training, participants will be able to:
- Install and configure Tensorflow Lite on an embedded device.
- Understand the concepts and components underlying TensorFlow Lite.
- Convert existing models to TensorFlow Lite format for execution on embedded devices.
- Work within the limitations of small devices and TensorFlow Lite, while learning how to expand the scope of operations that can be run.
- Deploy a deep learning model on an embedded device running Linux.
By the end of this training, participants will be able to:
- Install and configure Tensorflow Lite on an embedded device.
- Understand the concepts and components underlying TensorFlow Lite.
- Convert existing models to TensorFlow Lite format for execution on embedded devices.
- Work within the limitations of small devices and TensorFlow Lite, while learning how to expand the scope of operations that can be run.
- Deploy a deep learning model on an embedded device running Linux.
28 hours
Overview
Description
This four day training combines theory with hands-on exercises in order to introduce the Yocto Project.
It answers frequently asked questions like:
- Is it really necessary to use another version of the toolchain/libraries/packages for each and every GNU/Linux project and an top of that to follow a different work-flow?
- Can you ensure that the development environment is identical for all developers/suppliers and that you can still produce identical builds like today in 10+ years from now?
- Can the YP help find out under what software licenses the packages you use are licensed?
Hands-on sessions are performed on target hardware (e.g. Beagle Bone Black Rev. C - http://beagleboard.org/BLACK). After the training you will be able to download a docker image with Ubuntu 14.x and all dependencies pre-installed plus the examples in order to work with the course material in your own labs. Please note that this is not an introductory course to Embedded GNU/Linux. You should already know how Embedded GNU/Linux works and how to configure/build the GNU/Linux kernel and kernel drivers.
Who should attend?
You already use GNU/Linux for your projects and have probably heard about the Yocto Project, but did not dare to have a closer look into it, or had difficulties using it. You don’t know whether and how your daily work-flow can be accommodated in the YP and generally find the YP rather complicated. Why do we need all this since up to know everything was (supposedly) much easier? After the training you should be able to decide whether you need the YP or not. The workshop is aimed at software-, development-, system engineers, testers, administrators, engineers and other parties interested in the YP, with a solid knowledge of Embedded GNU/Linux.
This four day training combines theory with hands-on exercises in order to introduce the Yocto Project.
It answers frequently asked questions like:
- Is it really necessary to use another version of the toolchain/libraries/packages for each and every GNU/Linux project and an top of that to follow a different work-flow?
- Can you ensure that the development environment is identical for all developers/suppliers and that you can still produce identical builds like today in 10+ years from now?
- Can the YP help find out under what software licenses the packages you use are licensed?
Hands-on sessions are performed on target hardware (e.g. Beagle Bone Black Rev. C - http://beagleboard.org/BLACK). After the training you will be able to download a docker image with Ubuntu 14.x and all dependencies pre-installed plus the examples in order to work with the course material in your own labs. Please note that this is not an introductory course to Embedded GNU/Linux. You should already know how Embedded GNU/Linux works and how to configure/build the GNU/Linux kernel and kernel drivers.
Who should attend?
You already use GNU/Linux for your projects and have probably heard about the Yocto Project, but did not dare to have a closer look into it, or had difficulties using it. You don’t know whether and how your daily work-flow can be accommodated in the YP and generally find the YP rather complicated. Why do we need all this since up to know everything was (supposedly) much easier? After the training you should be able to decide whether you need the YP or not. The workshop is aimed at software-, development-, system engineers, testers, administrators, engineers and other parties interested in the YP, with a solid knowledge of Embedded GNU/Linux.
28 hours
Overview
In this instructor-led, live training in Nederland, participants will learn how to create a build system for embedded Linux based on Yocto Project.
By the end of this training, participants will be able to:
- Understand the fundamental concepts behind a Yocto Project build system, including recipes, metadata, and layers.
- Build a Linux image and run it under emulation.
- Save time and energy building embedded Linux systems.
By the end of this training, participants will be able to:
- Understand the fundamental concepts behind a Yocto Project build system, including recipes, metadata, and layers.
- Build a Linux image and run it under emulation.
- Save time and energy building embedded Linux systems.
7 hours
Overview
Shadowsocks is an open-source, secure socks5 proxy.
In this instructor-led, live training, participants will learn how to secure an internet connection through a Shadowsocks proxy.
By the end of this training, participants will be able to:
- Install and configure Shadowsocks on any of a number of supported platforms, including Windows, Linux, Mac, Android, iOS, and OpenWrt.
- Deploy Shadosocks with package manager systems, such as pip, aur, freshports and others.
- Run Shadowsocks on mobile devices and wireless networks.
- Understand how Shadowsocks encrypts messages and ensures integrity and authenticity.
- Optimize a Shadowsocks server
Audience
- Network engineers
- System Administrators
- Computer technicians
Format of the course
- Part lecture, part discussion, exercises and heavy hands-on practice
In this instructor-led, live training, participants will learn how to secure an internet connection through a Shadowsocks proxy.
By the end of this training, participants will be able to:
- Install and configure Shadowsocks on any of a number of supported platforms, including Windows, Linux, Mac, Android, iOS, and OpenWrt.
- Deploy Shadosocks with package manager systems, such as pip, aur, freshports and others.
- Run Shadowsocks on mobile devices and wireless networks.
- Understand how Shadowsocks encrypts messages and ensures integrity and authenticity.
- Optimize a Shadowsocks server
Audience
- Network engineers
- System Administrators
- Computer technicians
Format of the course
- Part lecture, part discussion, exercises and heavy hands-on practice
7 hours
Overview
The LEDE Project (Linux Embedded Development Environment) is a Linux operating system based on OpenWrt. It is a complete replacement for the vendor-supplied firmware of a wide range of wireless routers and non-network devices.
In this instructor-led, live training, participants will learn how to set up a LEDE based wireless router.
Audience
- Network administrators and technicians
Format of the course
- Part lecture, part discussion, exercises and heavy hands-on practice
In this instructor-led, live training, participants will learn how to set up a LEDE based wireless router.
Audience
- Network administrators and technicians
Format of the course
- Part lecture, part discussion, exercises and heavy hands-on practice
7 hours
Overview
Buildroot is an open-source project that contains scripts that produce a cross-compilation toolchain, a customizable root filesystem image, and a Linux kernel for embedded devices. During this practical course, participants will learn how to use it:
- How to select software that goes into the root filesystem.
- How to add new packages and modify existing ones.
- How to add support for new embedded boards.
During the course, bootable filesystem images will be produced. Remote courses are delivered using the [QEMU](/cc/qemukvm) emulator, while in the classroom it is possible to use either QEMU or real embedded boards of the trainer's choice.
Other projects with similar goals include the [Yocto project](/cc/yoctoproject) and OpenWRT. Please use [these](https://bootlin.com/pub/conferences/2016/elc/belloni-petazzoni-buildroot-oe/belloni-petazzoni-buildroot-oe.pdf) [presentations](https://elinux.org/images/0/0a/Embedded_Linux_Build_Systems.pdf) to determine which one is the right choice for your needs.
- How to select software that goes into the root filesystem.
- How to add new packages and modify existing ones.
- How to add support for new embedded boards.
During the course, bootable filesystem images will be produced. Remote courses are delivered using the [QEMU](/cc/qemukvm) emulator, while in the classroom it is possible to use either QEMU or real embedded boards of the trainer's choice.
Other projects with similar goals include the [Yocto project](/cc/yoctoproject) and OpenWRT. Please use [these](https://bootlin.com/pub/conferences/2016/elc/belloni-petazzoni-buildroot-oe/belloni-petazzoni-buildroot-oe.pdf) [presentations](https://elinux.org/images/0/0a/Embedded_Linux_Build_Systems.pdf) to determine which one is the right choice for your needs.
21 hours
Overview
In this instructor-led, live training in Nederland, participants will learn how to program the Arduino for real-world usage, such as to control lights, motors and motion detection sensors. This course assumes the use of real hardware components in a live lab environment (not software-simulated hardware).
By the end of this training, participants will be able to:
- Program Arduino to control lights, motors, and other devices.
- Understand Arduino's architecture, including inputs and connectors for add-on devices.
- Add third-party components such as LCDs, accelerometers, gyroscopes, and GPS trackers to extend Arduino's functionality.
- Understand the various options in programming languages, from C to drag-and-drop languages.
- Test, debug, and deploy the Arduino to solve real world problems.
By the end of this training, participants will be able to:
- Program Arduino to control lights, motors, and other devices.
- Understand Arduino's architecture, including inputs and connectors for add-on devices.
- Add third-party components such as LCDs, accelerometers, gyroscopes, and GPS trackers to extend Arduino's functionality.
- Understand the various options in programming languages, from C to drag-and-drop languages.
- Test, debug, and deploy the Arduino to solve real world problems.
14 hours
Overview
In this instructor-led, live training in Nederland, participants will learn the fundamentals of IoT as they step through the creation of an Arduino-based IoT sensor system.
By the end of this training, participants will be able to:
- Understand the principles of IoT, including IoT components and communication techniques.
- Learn how to use Arduino communication modules that can be used for different IoT systems.
- Learn how to use and program a mobile app to control Arduino.
- Use a Wi-Fi module to connect the Arduino to another device.
- Build and deploy their own IoT Sensor System.
By the end of this training, participants will be able to:
- Understand the principles of IoT, including IoT components and communication techniques.
- Learn how to use Arduino communication modules that can be used for different IoT systems.
- Learn how to use and program a mobile app to control Arduino.
- Use a Wi-Fi module to connect the Arduino to another device.
- Build and deploy their own IoT Sensor System.
28 hours
Overview
In this instructor-led, live training, participants will learn how to build a robot using Arduino hardware and the Arduino (C/C++) language.
By the end of this training, participants will be able to:
- Build and operate a robotic system that includes both software and hardware components
- Understand the key concepts used in robotic technologies
- Assemble motors, sensors and microcontrollers into a working robot
- Design the mechanical structure of a robot
Audience
- Developers
- Engineers
- Hobbyists
Format of the course
- Part lecture, part discussion, exercises and heavy hands-on practice
Note
- Hardware kits will be specified by the instructor before the training, but will roughly contain the following components:
- Arduino board
- Motor controller
- Distance sensor
- Bluetooth slave
- Prototyping board and cables
- USB cable
- Vehicle kit
- Participants will need to purchase their own hardware.
- If you wish to customize this training, please contact us to arrange.
By the end of this training, participants will be able to:
- Build and operate a robotic system that includes both software and hardware components
- Understand the key concepts used in robotic technologies
- Assemble motors, sensors and microcontrollers into a working robot
- Design the mechanical structure of a robot
Audience
- Developers
- Engineers
- Hobbyists
Format of the course
- Part lecture, part discussion, exercises and heavy hands-on practice
Note
- Hardware kits will be specified by the instructor before the training, but will roughly contain the following components:
- Arduino board
- Motor controller
- Distance sensor
- Bluetooth slave
- Prototyping board and cables
- USB cable
- Vehicle kit
- Participants will need to purchase their own hardware.
- If you wish to customize this training, please contact us to arrange.
14 hours
Overview
In this instructor-led, live training in Nederland, participants will learn how to program the Arduino using advanced techniques as they step through the creation of a simple sensor alert system.
By the end of this training, participants will be able to:
- Understand how Arduino works.
- Dig deep into the main components and functionalities of Arduino.
- Program the Arduino without using the Arduino IDE.
By the end of this training, participants will be able to:
- Understand how Arduino works.
- Dig deep into the main components and functionalities of Arduino.
- Program the Arduino without using the Arduino IDE.
Last Updated:
Aankomende Embedded Systems cursussen
14-01-2022 09:30
Amsterdam
7 hours
25-01-2022 09:30
Amsterdam
7 hours
27-01-2022 09:30
Amsterdam
7 hours
02-02-2022 09:30
Amsterdam
14 hours
07-02-2022 09:30
Amsterdam
14 hours
Weekend Embedded Systems cursus, Avond Embedded Systems training, Avond Embedded Systems opleiding Embedded Systems boot camp, Embedded Systems instructeur geleid, Weekend Embedded Systems training, Avond Embedded Systems cursus, Embedded Systems coaching, Embedded Systems instructeur, Embedded Systems trainer, Embedded Systems training cursus, Embedded Systems lessen, Embedded Systems on-site, Embedded Systems privé cursus, Embedded Systems een op een training, Embedded Systems op locatie, Weekend Embedded Systems opleiding
.jpg "procter & gamble (p&g)")
.png "european space agency (esa)")
.jpg "international air transport association (iata)")
