Title :
Designing for self-configuration and self-adaptation in the Internet of Things
Author :
Athreya, Arjun P. ; DeBruhl, Bruce ; Tague, Patrick
Author_Institution :
Carnegie Mellon Univ., Pittsburgh, PA, USA
Abstract :
The Internet of Things (IoT) paradigm comprises a heterogenous mix of connected devices connected to the Internet. This promises a a wealth of opportunity for a large collection of distributed applications and services. However, the IoT introduces significant changes to the Internet model, largely in the form of billions to trillions of embedded devices that most likely will not be able to be managed centrally by cloud services due to lack of scalability. We suggest that the natural direction for IoT devices is to manage themselves, both in terms of their software/hardware configuration and their resource utilization. In this work, we describe the underlying framework for self-managing devices, comprising measurement-based learning and adaptation to changing system context and application demands. In addition, we describe several upcoming research challenges in order to realize this self-management vision.
Keywords :
Internet of Things; cloud computing; learning (artificial intelligence); Internet model; Internet of things; IoT paradigm; cloud services; connected devices; embedded devices; measurement-based learning; resource utilization; self-adaptation design; self-configuration design; self-management vision; self-managing devices; software/hardware configuration; Computer architecture; Context; Internet; Monitoring; Optimization; Protocols; Software; Agent-based systems; Internet of Things; Self-adaptation; Self-management;
Conference_Titel :
Collaborative Computing: Networking, Applications and Worksharing (Collaboratecom), 2013 9th International Conference Conference on
Conference_Location :
Austin, TX
