Difference between revisions of "User:Neill"
Line 28: | Line 28: | ||
{{#ask: | {{#ask: | ||
[[Project leader::Josef Noll]] | [[Project leader::Josef Noll]] | ||
+ | [[Due_date::>{{CURRENTYEAR}}-{{CURRENTMONTH}}-{{CURRENTDAY}}]] | ||
|?Title | |?Title | ||
|?Objective | |?Objective | ||
Line 42: | Line 43: | ||
{{#ask: | {{#ask: | ||
[[Organiser::Josef Noll]] | [[Organiser::Josef Noll]] | ||
+ | [[Date::>{{CURRENTYEAR}}-{{CURRENTMONTH}}-{{CURRENTDAY}}]] | ||
|?Title | |?Title | ||
|?Date | |?Date |
Revision as of 10:27, 6 November 2015
Log an Issue |
---|
View Issues |
Issues Log |
- Autumn holidays - no lecture |
---|
- no lecture, Josef travelling - |
---|
API comparison: Protege, OWL, SPARQL, Jena |
---|
Antennas and their communication parameters |
---|
Applying SWRL, DL Query or SPARQL to your ontology |
---|
Overview over API for reasoner |
---|
Presentation of ideas for assignment |
---|
Feedback to Malta keynote on Basic Internet (Fxx) |
---|
Basics of Communication and Assignments |
---|
Basics of Semantics |
---|
bla bla |
---|
Building ontologies for UAV |
---|
Comparison of Pellets, FaCT and HermiT |
---|
Context-aware Scenarios |
---|
Context-aware Scenarios |
---|
Comparison of Cost231 propagation models |
---|
Cost231 propagation models |
---|
Course evaluation |
---|
Develop Semantic Application |
---|
easter holidays :-) |
---|
Frequency Ranges and Propagation Models for Communications (C1-C3) |
---|
Evaluate COST 231 WI for handover |
---|
UNIK4700h15 examen and feedback |
---|
Details of scenario discussion |
---|
H14-Rehearsel_and_Simulation_Assignments |
---|
H14-Scenario for Simulations |
---|
Hand's on experience with Ontologies |
---|
Handover modelling using the COST 231 WI path loss model |
---|
IP Mobility and Scenario discussion |
---|
Ideas for context-aware developments |
---|
Implementation of Cost231 propagation models |
---|
Implementation Semantic Application |
---|
Implementation of COST231 WI model |
---|
Individual review/Oral exam |
---|
Interference level, and Exam |
---|
Managed Wifi Access |
---|
Mid-term evaluation |
---|
Mid-term evaluation |
---|
Mobile IP and Patch Antennas |
---|
Mobile IPv4 and v6 |
---|
Mobile Network Challegnes |
---|
Mobile Systems, LTE and beyond |
---|
Mobile network security |
---|
Mobile network security S11 |
---|
Mobility & Handover in mobile systems |
---|
Mobility heterogeneous networks (E1) |
---|
Modelling your own ontology |
---|
Near Field Communication, Bluetooth, ZigBee & ANT+ |
---|
Pellets-based reasoning |
---|
Pellets-based reasoning II |
---|
Policies and Semantic Web Rules in Practise |
---|
Prepare for Reasoning with SWRL |
---|
Project Presentation - 2 |
---|
Project Presentations - 1 |
---|
Propagation Models and Free Internet |
---|
Radio propagation - II |
---|
Radio propagation for mobile and wireless communications |
---|
Rehearsal of lectures |
---|
Rehearsal of lectures - learning outcomes |
---|
Reserved Date for Exam UNIK4700h17 |
---|
Running SWRL rules on your ontology |
---|
Semantics in mobile networks |
---|
Building and Controlling Communication Networks using IoT-devices |
---|
The course provides knowledge on how to build networks, based on radio characteristics, mobile and wireless systems, propagation characteristics. Hands-on experiences with radio communications are used to complement the theory. Likewise, a practical introduction to network monitoring and control is given, both from a theoretical point of view, and from a practical implementation. |
Master |
TEK5370 – Grid, Smartgrid and IoT |
---|
Course content
The course will provide an overview of the Nordic power Grid and its expected development. The starting point is the set of physical law that governs the power transfer in the grid. The course will also provide an overview of the organization of the grid, its control and dynamics. The grid is in a transitional phase, from centralized production of power, to a more varied structure including distributed power generation from renewable sources and storage. This presents a set of challenges that must be addressed with technology advances like smart grid and micro grids. The grid is likely to transition from centralized, closed control to a more dynamic and distributed control based on local sensors. This transition will materialize first in the distribution network where new sensors and smart meters offers opportunities for improved detailed and timely information on production, storage, and usage. The increased distributed control represents a challenge towards ensuring stability in the grid. |
Master |
Measurable Security for the Internet of Things |
---|
The course provides a methodology for measurable security, privacy, and dependability of industrial systems. Based on e.g. a smart grid example we will establish and develop the methodology to perform a multi-metrics analysis from components to sub-systems to systems. The course will allow you to compare security-related application goals with the results from the system analysis. |
Master |
Selected Topics in Building Mobile and Wireless Networks |
---|
Radio characteristics and systems, covering from NFC to LTE, and mobility considerations in these systems |
PhD |
Topic Presentation II |
---|
Tutorial Web Protege |
---|
UNIK4250 Review |
---|
Details of scenario discussion |
---|
Introduction |
---|
Block Seminar |
---|
|
---|
Personalised and context-aware (location, activity, ...) service provision through next-generation Web technologies. |
Master |
UNIK4710_UNIK9710_Block_Seminar |
---|
Introduction UNIK4710 |
---|
Project Presentation - 2013 |
---|
test |
---|
WLAN communications |
---|
WiMAX & Wireless HART |
---|
Winter Holiday |
---|
Basic Internet, "Connect The Future" |
---|
Through the Basic Internet Foundation we
|
31 December 2028 |
Distributed Energy System and Security Infrastructure |
---|
DESSI is a new infrastructure for modelling, emulation, monitoring and controlling of the electrical grid. DESSI covers simulations, emulations and cybersecurity of power systems, ranging from micro-, macro- to regional energy systems. To counteract the climate crisis and stay below 1.5 deg C temperature increase requires a massive transitive from energy to electrical systems.
DESSI will develop the physical system and computational methods necessary to ensure the reliable and efficient operation of power systems with large-scale renewable generation, flexible loads, storage devices, power flow control and security of cyber-physical systems. DESSI will include physical components such as
Besides the physical & virtual infrastructure, DESSI will also connect 80-100 houses and report the energy consumption. The high-resolutions energy data are collected per fuse and every 10 s to create a research data-base as a basis for the energy transition in households. |
31 December 2024 |