System Design Concepts for the Internet of Things

The aims of the course include learning the process of system design, with special focus on IoT system design considering all elements, design and evaluation of the prototype solutions. Upon successful completion of the module, the students are able to make informed design decisions for the development of complete IoT systems including devices and applications. They will be able to evaluate, compare and apply different platforms, algorithms, protocols and system architectures for IoT applications, considering sensing, computation, communication and energy aspects. Students will be able to apply the learned design methodologies, algorithms and protocols to develop new applications in many domains. They will have competences for criitical reflection on the societal impact of the IoT together with safety, security and privacy aspects. Students will be able to practice team work through the entire development cycle, from system specification to constructing a prototype and system implementation.

System design concepts. Specific design concepts for the IoT. Development of prototypes representing minimum viable products. Development environments for embedded software. Early evaluation of product’s potential. Evaluation of concept ideas and prototypes considering design choices compared to the user experience, suitability of the technical solutions and potential for further development into complete IoT products or additional prototype development needs.  Short review of embedded and cyber-physical systems and the IoT; Application scenarios for IoT; Design and modeling of embedded platforms; Resource aware programming, hardware programming, developing multi-threaded software; Inter-process communication with shared memory and message passing; Programming using real time operating systems; Fault detection and testing, and fault tolerance and fault recovery.  Connecting IoT devices and gathering data: traditional and cloud platforms; reference architectures for the IoT (warehouse architectures, cloud-based architectures, and edge computing); processing large data sets; IoT and the cloud; Architectures of distributed systems; Distributed IoT-based systems, middleware and methods for system integration; communication frameworks and protocols; consumer-producer and publisher-subscriber communication patterns;   Energy supply and constraints;  quality characteristics and metrics for IoT-based system architectures, including energy efficiency;   Basic elements for implementing security and privacy concepts for IoT-based systems; software design patterns for dependable systems; system simulation and validation; application examples for various industries.

Lectures, independent work on course project tasks and preparation of seminar papers.