Nettsider med emneord «IoT»

The task is to design and implement a radmomization concept for Rust compilation

Semantic Attribute Based Access Control (SABAC) – Developing an Access Control solution for IoT Gateways applied to Smart Home Care

The last decade has seen the emerge of data processing systems that specializes to process data “in flight”, as opposed to regular database systems where data to be processed is mainly stored on disk.  This class  systems, i.e, Complex Event Processing (CEP) and Data Stream Processing Systems (DSMSs) like [1,2,3] receive data as streams from their sources (health sensors, web click streams, etc.), and process the data while it flows through memory. In modern computing architectures, like cloud and IoT platforms with several heterogenous devices, we can achieve higher performance by distributing the processing among connected devices. However, this task – if we try to achieve the highest possible performance, is complex. Reasons being the unique characteristics of the streams (rate), the structure and complexity of the queries (one or more stream operators), and the interplay between the system and the underlying network.

The motivation for the centre is to link and harmonize, with the best possible synergy effect, the activities within IoT of the participating organizations:

- SINTEF Digital

- UiO's Faculty of Mathematics and Natural Sciences 

- NTNU's Faculty of Information Technology, Mathematics and Electrical Engineering

This is the local UiO's page. Up-to-date information is on the main web page of the Centre.

The next frontier for innovation in the area of Internet of Things (IoT) is the creation of smart spaces such as smart cities, buildings , energy , and health.  The main goal of the DILUTE project is to enable development of software services for such systems with particular support for scalability and dynamicity. Software services developed for such systems are distributed over a wide range of computing devices from resource-constrained IoT devices, to network routers (i.e., fog nodes) and the Cloud.

The CPS Lab focuses on a number of Enabling Technologies and their Applications having the physical organization divided into several Spaces pursuing the following goals:

(A) Provide a hands-on opportunity to several IFI courses taught at BSc and MSc levels, and MSc projects, inside the topics covered by this Lab. The topics of CPS Lab are meant to complement existing Lab initiatives at IFI and elsewhere, as far as we are aware of them (e.g., the Smart Grid lab of NTNU).

(B) Provide an open space for various MSc Topics offered at IFI by the applicants and others that want to use the Lab.

(C) Provide a platform for Industry to interact directly with IFI students by providing concrete problems through the Lab (e.g., as devices that need some form of investigation).