A co-designed RTOS/MCU Architecture for dependable Embedded Systems

Publikation: KonferenzbeitragPosterForschung

Abstract

Embedded systems are present in virtually all application domains (automotive, robotics, smart production, home automation, etc.),
and the advent of the Internet of Things (IoT) will lead to an even higher ubiquity. Becoming a global super-infrastructure for our
society, we will rely on an unprecedented number of connected devices within the IoT. Providing even the most critical services,
these systems must guarantee high levels of availability, reliability, safety, integrity, confidentiality, and maintainability for real-time
and secure operation.
In order to develop highly dependable and efficient systems, we envision massive HW/SW co-designs for future IoT devices. With
application-specific hardware that can be reconfigured and updated dynamically at runtime, future embedded platforms will also
become much more flexible and maintainable. In order to solve the problem of dynamically recomposing systems over long lifetimes,
we present a holistic concept consisting of a real-time operating system (RTOS) and a reconfigurable microcontroller unit (MCU).
These are co-designed to jointly satisfy the requirements of current and future embedded systems.
Originalspracheenglisch
PublikationsstatusVeröffentlicht - 27 Jun 2017
Veranstaltung1. ETIT - Fakultätstag - TU Graz, Graz, Österreich
Dauer: 27 Jun 2017 → …

Sonstiges

Sonstiges1. ETIT - Fakultätstag
LandÖsterreich
OrtGraz
Zeitraum27/06/17 → …

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Microcontrollers
Embedded systems
Maintainability
Robotics
Automation
Availability
Hardware
Internet of things

Schlagwörter

    Fields of Expertise

    • Information, Communication & Computing

    Dies zitieren

    Batista Ribeiro, L., Mauroner, F., Martins Gomes, R., Malenko, M., & Baunach, M. C. (2017). A co-designed RTOS/MCU Architecture for dependable Embedded Systems. Postersitzung präsentiert bei 1. ETIT - Fakultätstag , Graz, Österreich.

    A co-designed RTOS/MCU Architecture for dependable Embedded Systems. / Batista Ribeiro, Leandro; Mauroner, Fabian; Martins Gomes, Renata; Malenko, Maja; Baunach, Marcel Carsten.

    2017. Postersitzung präsentiert bei 1. ETIT - Fakultätstag , Graz, Österreich.

    Publikation: KonferenzbeitragPosterForschung

    Batista Ribeiro L, Mauroner F, Martins Gomes R, Malenko M, Baunach MC. A co-designed RTOS/MCU Architecture for dependable Embedded Systems. 2017. Postersitzung präsentiert bei 1. ETIT - Fakultätstag , Graz, Österreich.
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    AU - Batista Ribeiro, Leandro

    AU - Mauroner, Fabian

    AU - Martins Gomes, Renata

    AU - Malenko, Maja

    AU - Baunach, Marcel Carsten

    PY - 2017/6/27

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    N2 - Embedded systems are present in virtually all application domains (automotive, robotics, smart production, home automation, etc.),and the advent of the Internet of Things (IoT) will lead to an even higher ubiquity. Becoming a global super-infrastructure for oursociety, we will rely on an unprecedented number of connected devices within the IoT. Providing even the most critical services,these systems must guarantee high levels of availability, reliability, safety, integrity, confidentiality, and maintainability for real-timeand secure operation.In order to develop highly dependable and efficient systems, we envision massive HW/SW co-designs for future IoT devices. Withapplication-specific hardware that can be reconfigured and updated dynamically at runtime, future embedded platforms will alsobecome much more flexible and maintainable. In order to solve the problem of dynamically recomposing systems over long lifetimes,we present a holistic concept consisting of a real-time operating system (RTOS) and a reconfigurable microcontroller unit (MCU).These are co-designed to jointly satisfy the requirements of current and future embedded systems.

    AB - Embedded systems are present in virtually all application domains (automotive, robotics, smart production, home automation, etc.),and the advent of the Internet of Things (IoT) will lead to an even higher ubiquity. Becoming a global super-infrastructure for oursociety, we will rely on an unprecedented number of connected devices within the IoT. Providing even the most critical services,these systems must guarantee high levels of availability, reliability, safety, integrity, confidentiality, and maintainability for real-timeand secure operation.In order to develop highly dependable and efficient systems, we envision massive HW/SW co-designs for future IoT devices. Withapplication-specific hardware that can be reconfigured and updated dynamically at runtime, future embedded platforms will alsobecome much more flexible and maintainable. In order to solve the problem of dynamically recomposing systems over long lifetimes,we present a holistic concept consisting of a real-time operating system (RTOS) and a reconfigurable microcontroller unit (MCU).These are co-designed to jointly satisfy the requirements of current and future embedded systems.

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    KW - dependability

    KW - compositional systems

    KW - IoT

    KW - co-design

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