Proposta de melhoria de tempo de resposta para o protocolo FTT-CAN : estudo de caso em aplicação automotiva

Ataide, Fernando Henrique

January 2010

Nos últimos anos os sistemas embarcados tem-se tornado notório nos mercados de eletroeletrônicos de consumo, automação industrial e comercial e em veículos em geral. Grande parte destas aplicações possui restrições temporais, sendo assim caracterizadas como sistemas de tempo real embarcado. Atualmente, a computação distribuída tem alcançado este tipo de sistema e por razão principal em custos desses sistemas, alguns barramentos ou redes de comunicação vêm sendo empregados como plataforma de conexão entre módulos eletrônicos. Um exemplo de aplicação de sistemas embarcados distribuídos e de tempo real é a eletrônica embarcada em veículos automotores, onde se encontram várias unidades de controle eletrônico espalhadas interior desses veículos com diferentes funções e se comunicando via rede de comunicação. Algumas pesquisas importantes nesta área já apresentaram diferentes abordagens em sistemas distribuídos de tempo real (SDTR) objetivando cobrir a crescente demanda de desempenho, previsibilidade e confiabilidade dessas aplicações emergentes. Tais requisitos envolvem baixa latência de transmissão, baixa variabilidade no tempo (jitter), tolerância a falhas e suporte para atualizações futuras - flexibilidade. Particularmente na área automotiva, onde é considerada a possibilidade de substituição de dispositivosmecânicos/hidráulicos por sistemas eletrônicos, conhecidos como "by-wire" systems. Assegurar um comportamento previsível e confiável desses sistemas assim como agregar um nível de flexibilidade são características necessárias em grande parte de aplicações de SDTR. O modelo de comunicação FTT (Flexible Time-Triggered) apresentado nesta dissertação, apresenta um alto grau de flexibilidade em relação a outros protocolos, tais como TTCAN, TTP e FlexRay. Um sistema distribuído de tempo real baseado no modelo FTT se adapta às mudanças de requisitos da aplicação em tempo de execução, sendo possível adicionar novas unidades de controle eletrônico sobre a rede após a fase de projeto. Esta característica advém do escalonador dinâmico deste modelo de comunicação. Este trabalho apresenta algumas propostas de melhoria de desempenho de tempo de resposta do protocolo FTT-CAN, descrevendo alguns pontos negligenciados na atual especificação do protocolo. As propostas têm como foco a estratégia de disparo de mensagens e tarefas, sendo a primeira relacionada à transmissão de mensagens síncrona (ou time-triggered), onde existem dois inconvenientes que geram jitter neste segmento de transmissão; a segunda é relacionado ao disparo de tarefas, onde existem algumas deficiências na liberação de tarefas síncronas na atual especificação do protocolo FTT-CAN. / Embedded computing systems have become widely used in many areas. The greater part of those systems has time constraints and therefore they can be characterized as real time embedded systems. Nowadays, distributed computing has reached the embedded application, where some fieldbuses are already being used as communication platforms. Some important researches has presented different approaches in the real time distributed embedded system domain aiming to cover the growing demands of performance, predictability and reliability of emerging applications. Such requirements involve low latency, reduced jitter, time composability, fault-tolerance and support for future extensions – flexibility. Particularly in the automotive area, on which several mechanical and/or hydraulic systems are being replaced by electronic "by-wire"systems, the importance of ensuring predictable behavior while also presenting some degree of flexibility plays a key role. Regarding to the flexibility, the Flexible Time Triggered communication model stands out against the others ones due to its high degree of flexibility. In this context, the FTT communication model appears as an interesting approach due to its high degree of flexibility while still ensuring a deterministic timing behavior. A distributed system based on a FTT communication infrastructure can adapts to changing application requirements, making possible the addition of new messages and nodes during operation. In this way, the communication infrastructure needs to schedule newest messages on-line. This master’s work presents some proposals to improve the FTT-CAN response-time and indicating some drawbacks in already presented approaches. The improvements are concerning messages and tasks scheduling. Despite of its interesting characteristics, FTT CAN present some negative aspects regarding its timing behavior: the issue is on the synchronous message transmission, where there are two neglected points that generate jitter in this traffic; the other one is tasks dispatching, where there are some deficiencies concerning synchronous tasks execution. These disadvantages were not discussed in literature yet. This work presents new proposals to task and message scheduling of FFT-CAN based applications, therefore overcoming some of the main drawbacks of the protocol.

Sistemas embarcados

Automação industrial

Indústria automobilística

Sistema operacional de tempo real

Real-time system

Real-time scheduling

FTT-CAN

Real-time operating system

Linux

Proposta de melhoria de tempo de resposta para o protocolo FTT-CAN : estudo de caso em aplicação automotiva

Ataide, Fernando Henrique

January 2010

Nos últimos anos os sistemas embarcados tem-se tornado notório nos mercados de eletroeletrônicos de consumo, automação industrial e comercial e em veículos em geral. Grande parte destas aplicações possui restrições temporais, sendo assim caracterizadas como sistemas de tempo real embarcado. Atualmente, a computação distribuída tem alcançado este tipo de sistema e por razão principal em custos desses sistemas, alguns barramentos ou redes de comunicação vêm sendo empregados como plataforma de conexão entre módulos eletrônicos. Um exemplo de aplicação de sistemas embarcados distribuídos e de tempo real é a eletrônica embarcada em veículos automotores, onde se encontram várias unidades de controle eletrônico espalhadas interior desses veículos com diferentes funções e se comunicando via rede de comunicação. Algumas pesquisas importantes nesta área já apresentaram diferentes abordagens em sistemas distribuídos de tempo real (SDTR) objetivando cobrir a crescente demanda de desempenho, previsibilidade e confiabilidade dessas aplicações emergentes. Tais requisitos envolvem baixa latência de transmissão, baixa variabilidade no tempo (jitter), tolerância a falhas e suporte para atualizações futuras - flexibilidade. Particularmente na área automotiva, onde é considerada a possibilidade de substituição de dispositivosmecânicos/hidráulicos por sistemas eletrônicos, conhecidos como "by-wire" systems. Assegurar um comportamento previsível e confiável desses sistemas assim como agregar um nível de flexibilidade são características necessárias em grande parte de aplicações de SDTR. O modelo de comunicação FTT (Flexible Time-Triggered) apresentado nesta dissertação, apresenta um alto grau de flexibilidade em relação a outros protocolos, tais como TTCAN, TTP e FlexRay. Um sistema distribuído de tempo real baseado no modelo FTT se adapta às mudanças de requisitos da aplicação em tempo de execução, sendo possível adicionar novas unidades de controle eletrônico sobre a rede após a fase de projeto. Esta característica advém do escalonador dinâmico deste modelo de comunicação. Este trabalho apresenta algumas propostas de melhoria de desempenho de tempo de resposta do protocolo FTT-CAN, descrevendo alguns pontos negligenciados na atual especificação do protocolo. As propostas têm como foco a estratégia de disparo de mensagens e tarefas, sendo a primeira relacionada à transmissão de mensagens síncrona (ou time-triggered), onde existem dois inconvenientes que geram jitter neste segmento de transmissão; a segunda é relacionado ao disparo de tarefas, onde existem algumas deficiências na liberação de tarefas síncronas na atual especificação do protocolo FTT-CAN. / Embedded computing systems have become widely used in many areas. The greater part of those systems has time constraints and therefore they can be characterized as real time embedded systems. Nowadays, distributed computing has reached the embedded application, where some fieldbuses are already being used as communication platforms. Some important researches has presented different approaches in the real time distributed embedded system domain aiming to cover the growing demands of performance, predictability and reliability of emerging applications. Such requirements involve low latency, reduced jitter, time composability, fault-tolerance and support for future extensions – flexibility. Particularly in the automotive area, on which several mechanical and/or hydraulic systems are being replaced by electronic "by-wire"systems, the importance of ensuring predictable behavior while also presenting some degree of flexibility plays a key role. Regarding to the flexibility, the Flexible Time Triggered communication model stands out against the others ones due to its high degree of flexibility. In this context, the FTT communication model appears as an interesting approach due to its high degree of flexibility while still ensuring a deterministic timing behavior. A distributed system based on a FTT communication infrastructure can adapts to changing application requirements, making possible the addition of new messages and nodes during operation. In this way, the communication infrastructure needs to schedule newest messages on-line. This master’s work presents some proposals to improve the FTT-CAN response-time and indicating some drawbacks in already presented approaches. The improvements are concerning messages and tasks scheduling. Despite of its interesting characteristics, FTT CAN present some negative aspects regarding its timing behavior: the issue is on the synchronous message transmission, where there are two neglected points that generate jitter in this traffic; the other one is tasks dispatching, where there are some deficiencies concerning synchronous tasks execution. These disadvantages were not discussed in literature yet. This work presents new proposals to task and message scheduling of FFT-CAN based applications, therefore overcoming some of the main drawbacks of the protocol.

Sistemas embarcados

Automação industrial

Indústria automobilística

Sistema operacional de tempo real

Real-time system

Real-time scheduling

FTT-CAN

Real-time operating system

Linux

Řízení 6-ti osého manipulátoru / 6 Axis Manipulator Control

Semrád, Michal

January 2014

This master thesis discusses about designing and realization of a control system for a 6-axis robotic arm. The controlling system consist in a microcontroller LPC1756 with its firmware implemented under the Real-time operating system FreeRTOS and GUI application, running on a PC. The Microcontroller communicates with the PC through a serial line via SLIP protocol. Theoretically, it will deal with an explanation of the important terms, and describes the used robotic arm and its controlling unit. The practical part describes kinematics problems solving, firmware’s realization and GUI application.

Řízení modelu v reálném čase / Real-time Control of Ball on Wheel Model

Krejčí, Roman

January 2015

This diploma thesis deals with control the Ball on the wheel system in real time. In the first part there is made mathematical model of system, which is described by state equations. Then the laboratory model of Ball on the wheel system and its parts are described. The laboratory model consists servo drive, servo amplifier, microcontroller with real-time operating system and distance sensors. In the practical part of the thesis there is designed control of system by linear quadratic regulator and its implementation with control peripherals into microcontroller with real-time operating system. Ball on the wheel system is controlled by microcontroller, which sends a commands to servo amplifier by CAN bus.

Problematika přechodu od jednojádrové k vícejádrové implementaci operačního systému / Issue of Migrating from Single-Core to Multi-Core Implementation of Operating System

Matyáš, Jan

January 2014

This thesis discuss necessary changes needed in order to run MicroC/OS-II on multicore processor, mainly Zynq 7000 All Programmable SoC which uses two ARM Cortex-A9 cores. Problems that arise during this transition are also discussed.

Porovnání RT vlastností 8-bitových a 32-bitových implementací jádra uC/OS-II / Comparing RT Properties of 8-Bit and 32-Bit Implementations of the uC/OS-II Kernel

Šubr, Jiří

January 2013

This thesis concerns of benchmarking $\mu$C/OS-II systems on different microcontroller architectures. The thesis describes COS-II microcontroller core and possible series of benchmark tests which can be used. Selected tests are implemented and measured properties of microcontrollers with different architecture are compared.

Implementace pokročilých mechanismů plánování množin RT úloh běžících pod uC/OS-II / Implementation of Advanced Real-Time Scheduling Mechanisms for uC/OS-II

Čižinský, Vojtěch

January 2010

This thesis deals with extensions of uC/OS-II kernel services. These extensions are about advanced task scheduling mechanisms. Source code of this operating system is wide open and can be, in accordance with licence agreement, modified and extended with additional capabilities. Functionality of implemented scheduling algorithms is at the end verified using tools Cheddar and TimesTool.

Acceleration of FreeRTOS withSierra RTOS accelerator : Implementation of a FreeRTOS software layer onSierra RTOS accelerator / Accelerering av FreeRTOS medSierra RTOS accelerator : Implementering av ett FreeRTOS mjukvarulagerpå Sierra RTOS accelerator

Borgström, Fredrik

January 2016

Today, the effect of the most common ways to improve the performance of embedded systems and real-time operating systems is stagnating. Therefore it is interesting to examine new ways to push the performance boundaries of embedded systems and real-time operating systems even further. It has previously been demonstrated that the hardware-based real-time operating system, Sierra, has better performance than the software-based real-time operating system, FreeRTOS. These real-time operating systems have also been shown to be similar in many aspects, which mean that it is possible for Sierra to accelerate FreeRTOS. In this thesis an implementation of such acceleration has been carried out. Because existing real-time operating systems are constantly in development combined with that it was several years since an earlier comparison between the two real-time operating systems was per-formed, FreeRTOS and Sierra were compared in terms of functionality and architecture also in this thesis. This comparison showed that FreeRTOS and Sierra share the most fundamental functions of a real-time operating system, and thus can be accelerated by Sierra, but that FreeRTOS also has a number of exclusive functions to facilitate the use of that real-time operating system. The infor-mation obtained by this comparison was the very essence of how the acceleration would be imple-mented. After a number of performance tests it could be concluded that all of the implemented functions, with the exception of a few, had shorter execution time than the corresponding functions in the original version of FreeRTOS. / Idag är effekten av de vanligaste åtgärderna för att förbättra prestandan av inbyggda system och realtidsoperativsystem väldigt liten. På grund av detta är det intressant att undersöka nya åtgärder för att tänja prestandagränserna av inbyggda system och realtidsoperativsystem ytterliggare. Det har tidigare påvisats att det hårdvarubaseraderealtidsoperativsystemet, Sierra, har bättre prestanda än det mjukvarubaseraderealtidsoperativsystemet, FreeRTOS. Dessa realtidsoperativsystem har även visats vara lika i flera aspekter, vilket betyder att det är möjligt för Sierra att accelererera FreeRTOS. I detta examensarbete har en implementering av en sådan acceleration genomförts. Eftersom befintliga realtidsoperativsystem ständigtär i utveckling i kombination med att det är flera år sedan som en tidigare jämförelse mellan de båda systemen utfördes, så jämfördes FreeRTOS och Sierra i fråga om funktionalitet och uppbyggnad även i detta examensarbete.Denna jämförelse visade att FreeRTOS och Sierra delar de mest grundläggande funktionerna av ett realtidsoperativsystem, och som därmed kan accelereras av Sierra, men att FreeRTOS även har ett antal exklusiva funktioner för att underlätta användningen av det realtidsoperativsystemet. Informationen som erhölls av denna jämförelse var sedan grunden för hur själva accelerationen skulle implementeras. Efter ett antal prestandatesterkunde det konstateras att alla implementerade funktioner, med undantag för ett fåtal, hade kortare exekveringstid än motsvarande funktioner i ursprungsversionen av FreeRTOS.

Real-time system

Real-time operating system

FPGA

CPU

FreeRTOS

Sierra

Realtidssystem

Realtidsoperativsystem

FPGA

CPU

FreeRTOS

Sierra

Embedded Systems

Inbäddad systemteknik

Inter-Core Interference Mitigation in a Mixed Criticality System

Hinton, Michael Glenn

04 August 2020

In this thesis, we evaluate how well isolation can be achieved between two virtual machines within a mixed criticality system on a multi-core processor. We achieve this isolation with Jailhouse, an open-source, minimalist hypervisor. We then enhance Jailhouse with core throttling, a technique we use to minimize inter-core interference between VMs. Then, we run workloads with and without core throttling to determine the effect throttling has on interference between a non-real time VM and a real-time VM. We find that Jailhouse provides excellent isolation between VMs even without throttling, and that core throttling suppresses the remaining inter-core interference to a large extent.

hypervisor

Jailhouse

virtual machine

mixed criticality system

real-time operating system

core throttling

inter-core interference

interference mitigation

Electrical and Computer Engineering

Battery Management System Software for a High Voltage Battery Pack

Eriksson, Oscar, Tagesson, Emil

January 2022

The electric vehicle industry is experiencing a boom infunding and public interest, and the formula student movementis following suit; an electric race car is currently being developedby the KTH Formula Student organisation (KTHFS) which is thecause of this work.Consumers desire increased speed and range, and are unwillingto compromise one quality for the other. This necessitates the useof lithium ion cells, which may explode and exhume toxic gasesif over-strained with respect to current, charge or temperature.A robust, reliable and provably safe battery management systemshould therefore be developed. There are numerous methods tofurther increase the mileage to get an edge on competitors, suchas cell balancing and live estimation of the State of Charge(SOC). It is also vital that old and/or deteriorated cells should beidentified and disposed off in due time, and State of health (SOH)estimation provides a means to do this. In this paper a completebattery management system software solution is developed andpresented, utilising methods like simulation and code generationto create a program that runs on a real time operating system(RTOS). Some real world test were conducted and some resultsare simulated. The finished BMS performed well in tests, meets allgoals and meets all timing constraints. The project can thereforebe considered as successful. / Intresset för elbilsindustrin har på sistone‌ vuxit något markant, och formula student-rörelsen har anpassat sig efter dessa trender; en elektriskt bil tillverkas just nu av KTH Formula Student organisationen (KTHFS) vilket ger upphov till detta arbete. Marknaden vill ha snabbare bilar som dessutom har förbättrad räckvidd, men vägrar offra den ena egenskapen för det andra. Lösningen är att använda litiumjonceller. Dessa har dock en säkerhetsrelaterad nackdel; om cellerna utsätts för alldeles för höga eller låga temperaturer, strömmar eller laddningsnivåer kan de explodera och utsöndra giftig gas i luften. Därför är det lämpligt att skapa ett batterimonitoreringssystem vars funktion och säkerhet kvalitativt kan utvärderas och bevisas. Det finns flera metoder för att få förbättrad prestanda ur sin ackumulator (batteriensemble); cellnivåbalansering och laddningsnivåestimering (SOC) implementeras i detta projekt. Föråldrade/utslitna celler bör identifieras och avskrivas i god tid. Celldeklineringsestimering (SOH) är ett sätt att lösa detta problem. I denna rapport presenteras en fullständig implementation av mjukvaran för ett batterimonitoreringssystem, där metoder som kodgenerering och simulering utnyttjas för att skapa ett program som kan köras på ett realtidsoperativsystem (RTOS). Vissa test gjordes i verkligheten och vissa resultat simulerades. Det färdiga batterimonitoreringssystemet presterade väl i test, alla mål samt mötte alla tidskrav. Projektet kan därför anses som lyckat. / Kandidatexjobb i elektroteknik 2022, KTH, Stockholm

Battery Managment System

State of Charge

State of Health

Real Time Operating System

Cell Balancing

Code Generation

Elektroteknik och elektronik