Exchange Comparison Two Real Time Operating Systems On A Micro Controller System
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Exchange & Comparison Two Real Time Operating Systems on a Micro-Controller System
Inhaltsangabe:Abstract: Embedded systems are becoming an integral part of commercial products today. Mobile phones, watches, cars and flights controllers etc. are to name a few. There are critical elements between the system hardware and the software, one of the primary is the Real Time Operating System which ensures control, compatibility and timing. The Real Time Operating System has to interface/communicate well with the hardware below it to prevent casualty, and with the software above to ensure the applications running in a proper way. Therefore, more and more attention is being paid to the porting relationship between Real Time Operating System and Application Software by engineers in embedded field. Comparing and evaluating the performance of different Real Time Operating Systems is getting more important. Measuring is the only way to provide useful information, for example, which Real Time Operating System is best suitable for a specific hardware configuration. The purpose of this thesis paper is to find an approach to exchange MicroC/OS-II with NOKIA Car-kit OS on a micro-controller system. Besides porting MicroC/OS-II to the micro-controller system, the interfaces to higher level application software should be generated to adapt the application software to MicroC/OS-II. Finally, evaluate the advantages and disadvantages of them. In chapter 1, a brief introduction is provided. In chapter 2, the concept of RTOS and the development of Real Time Kernel are introduced. The field on which RTOS is always focusing and why RTOS is especially important in Embedded Systems are explained. The essential performance and the differences among several RTOS are also discussed in this chapter. In chapter 3, the micro Real Time Kernel MicroC/OS-II is introduced in details. The speciality of MicroC/OS-II and the services provided from MicroC/OS-II are explained. Also, the micro-controllers that MicroC/OS-II supported are introduced. In chapter 4, NOKIA Car-kit OS (NOKIA Car-kit Operating System) is introduced. The development history and some of important service mechanism are introduced briefly. In chapter 5, the evaluation and comparison of these two Operating Systems are made. The most important characteristics, the advantages and disadvantages for both of these two RTOS are discussed. In chapter 6, the software-mapping layer is discussed in detail. In this part, the whole software development procedure is explained. Issues from problem analyse, [...]
Hands-On RTOS with Microcontrollers
Build reliable real-time embedded systems with FreeRTOS using practical techniques, professional tools, and industry-ready design practices Key Features Get up and running with the fundamentals of RTOS and apply them on STM32 Develop FreeRTOS-based applications with real-world timing and task handling Use advanced debugging and performance analysis tools to optimize applications Book DescriptionA real-time operating system (RTOS) is used to develop systems that respond to events within strict timelines. Real-time embedded systems have applications in various industries, from automotive and aerospace through to laboratory test equipment and consumer electronics. These systems provide consistent and reliable timing and are designed to run without intervention for years. This microcontrollers book starts by introducing you to the concept of RTOS and compares some other alternative methods for achieving real-time performance. Once you've understood the fundamentals, such as tasks, queues, mutexes, and semaphores, you'll learn what to look for when selecting a microcontroller and development environment. By working through examples that use an STM32F7 Nucleo board, the STM32CubeIDE, and SEGGER debug tools, including SEGGER J-Link, Ozone, and SystemView, you'll gain an understanding of preemptive scheduling policies and task communication. The book will then help you develop highly efficient low-level drivers and analyze their real-time performance and CPU utilization. Finally, you'll cover tips for troubleshooting and be able to take your new-found skills to the next level. By the end, you'll have built on your embedded system skills and will be able to create real-time systems using microcontrollers and FreeRTOS.What you will learn Understand when to use an RTOS for a project Explore RTOS concepts such as tasks, mutexes, semaphores, and queues Discover different microcontroller units (MCUs) and choose the best one for your project Evaluate and select the best IDE and middleware stack for your project Use professional-grade tools for analyzing and debugging your application Get FreeRTOS-based applications up and running on an STM32 board Who this book is for This book is for embedded engineers, students, or anyone interested in learning the complete RTOS feature set with embedded devices. A basic understanding of the C programming language and embedded systems or microcontrollers will be helpful.
Cyber-Physical Systems and Control II
Author: Dmitry G. Arseniev
language: en
Publisher: Springer Nature
Release Date: 2023-01-20
The book contains selected research papers presented at the 2nd International Conference on Cyber-Physical Systems and Control (CPS&C’2021) which was held from 29 June to 2 July 2021 in St. Petersburg, Russia. The CPS&C’2021 Conference continues the series of international conferences that began in 2019 when the first International Conference on Cyber-Physical Systems and Control (CPS&C’2019) took place. Cyber-physical systems (CPSs) considered a modern and rapidly emerging generation of systems with integrated wide computational, information processing, and physical capabilities that can interact with humans through many new modalities and application areas of implementation. The book covers the latest advances, developments and achievements in new theories, algorithms, models, and applications of prospective problems associated with CPSs with an emphasis on control theory and related areas. The multidisciplinary fundamental scientific and engineering principles that underpin the integration of cyber and physical elements across all application areas are discussed in the book chapters. The materials of the book may be of interest to scientists and engineers working in the field of cyber-physical systems, systems analysis, control systems, computer technologies, and similar fields.