https://kjen.dk/teaching/ 2026-04-26T09:58:29+00:00 https://kjen.dk/teaching/ https://kjen.dk/teaching/lib/tpl/ramtop/images/favicon.ico text/html 2022-10-14T15:28:04+00:00 Anonymous (anonymous@undisclosed.example.com) https://kjen.dk/teaching/ies:about?rev=1665761284&do=diff Introduction to Embedded Systems Course home This course will be conducted as a pilot in the Fall 2022. The purpose is for all stakeholders to learn about the possibilities and challenges of online teaching between two universities. The teaching will be conducted at text/html 2023-02-18T14:45:35+00:00 Anonymous (anonymous@undisclosed.example.com) https://kjen.dk/teaching/ies:home?rev=1676731535&do=diff Introduction to Embedded Systems (IES) This course will be conducted as a pilot in the Winter 2022. The purpose is for all stakeholders to learn about the possibilities and challenges of online teaching and knowledge sharing between two universities. The teaching will be conducted at text/html 2022-10-14T15:29:38+00:00 Anonymous (anonymous@undisclosed.example.com) https://kjen.dk/teaching/ies:introduction?rev=1665761378&do=diff Introduction to Embedded Systems Course home Introduction This course deals with embedded systems i.e. physical systems or processes that are monitored or controlled by a computer. More specifically the course focuses on microcontrollers and how to apply them to practical applications. A microcontroller is a small computer on a single chip with a significantly reduced size and cost compared to a personal computer (PC). Microcontrollers are programmed using a PC to perform a specific task and … text/html 2022-10-14T15:30:21+00:00 Anonymous (anonymous@undisclosed.example.com) https://kjen.dk/teaching/ies:learningobjectives?rev=1665761421&do=diff Introduction to Embedded Systems Course home Learning objectives - Knowledge Having completed this course the successful student possesses knowledge on an introductory level about: * Basic microcontroller theory * Basic microcontroller programming * Interfacing to sensors and actuators text/html 2023-02-18T14:46:45+00:00 Anonymous (anonymous@undisclosed.example.com) https://kjen.dk/teaching/ies:module1?rev=1676731605&do=diff Introduction to Embedded Systems Course home Module 1 - Introduction Welcome and introduction, course practicalities, embedded systems fundamentals and programming, exercises on compiling and uploading programs to the Raspberry Pico, some programming examples. text/html 2023-02-18T14:51:30+00:00 Anonymous (anonymous@undisclosed.example.com) https://kjen.dk/teaching/ies:module2?rev=1676731890&do=diff Introduction to Embedded Systems Course home Module 2 - Microcontroller programming This module focuses on exploring the Arduino programming language and testing Arduino programming examples on the Raspberry Pi Pico microcontroller. You will learn about program structure, functions, variables, loops, control statements and serial port communication. text/html 2023-02-18T14:51:49+00:00 Anonymous (anonymous@undisclosed.example.com) https://kjen.dk/teaching/ies:module3?rev=1676731909&do=diff Introduction to Embedded Systems Course home Module 3 - Interfacing to sensors In this module we will interface various sensors to the Raspberry Pi Pico microcontroller and explore how to read data from the sensors using the Arduino programming language. We will begin with examples of digital sensors and then continue with examples of analog sensors. text/html 2023-02-18T14:52:32+00:00 Anonymous (anonymous@undisclosed.example.com) https://kjen.dk/teaching/ies:module4?rev=1676731952&do=diff Introduction to Embedded Systems Course home Module 4 - Interfacing to actuators In this module we will interface actuators to the Raspberry Pi Pico microcontroller and explore how to control these using the Arduino programming language. We will use LEDs, a Piezo horn and a servo motor as examples. text/html 2023-02-18T14:53:16+00:00 Anonymous (anonymous@undisclosed.example.com) https://kjen.dk/teaching/ies:module5?rev=1676731996&do=diff Introduction to Embedded Systems Course home Module 5 - Practical use cases In this module we will use the learning from the previous modules about embedded systems to solve real-world practical use cases. We will work with cases concerning water tower pump control, automatic street lights and a refrigerated medicine temperature alarm. text/html 2022-12-05T08:50:05+00:00 Anonymous (anonymous@undisclosed.example.com) https://kjen.dk/teaching/ies:prerequisites?rev=1670230205&do=diff Introduction to Embedded systems Course home Prerequisites Students should be familiar with working with a PC (Windows or Linux) and have basic programming knowledge (such as C, C++). Students should also have basic knowledge about electronic circuits. During class the students work in teams of 2-3 students. Each team should have access to a PC. The PC must have internet access and be able to run the text/html 2022-12-05T12:02:46+00:00 Anonymous (anonymous@undisclosed.example.com) https://kjen.dk/teaching/ies:reports?rev=1670241766&do=diff Introduction to Embedded Systems Course home Module reports For each module the students must submit a report. The purpose of the reports is for the students to provide exercise results and answers to questions asked during the module exercises, and to reflect on their own learning. In addition the reports enable the teacher to continuously follow the students’ progress and adapt the teaching accordingly. text/html 2023-02-18T14:45:52+00:00 Anonymous (anonymous@undisclosed.example.com) https://kjen.dk/teaching/ies:software?rev=1676731552&do=diff Introduction to Embedded Systems Course home Programming software The guide below shows how to install the Arduino programming software for this course. Arduino Portable provides a simple and efficient way of installation on multiple computers that do not have to be connected to the internet. text/html 2022-12-04T11:41:46+00:00 Anonymous (anonymous@undisclosed.example.com) https://kjen.dk/teaching/ies:teachingmethod?rev=1670154106&do=diff Introduction to Embedded Systems Course home Teaching method This course is taught as an experimental laboratory course where the students conduct group work. Each group consists of 2-3 students that conducts laboratory exercises together. The modules contain pre-reading material available at this website and as youtube videos. The students are expected to have read and viewed this material before the module begins.