Property:Learning outcomes
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Pages using the property "Learning outcomes"
Showing 25 pages using this property.
(previous 25) (next 25)I | |
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| Implementation Semantic Application + | Having joined this lecture, you will: * have cleared the ground for creating your application * have achieved some results implementing your application + |
| Implementation evaluation of Cost 231 WI model + | Having followed the lecture, you will have learned * have implemented the COST231 HI model * be able to refer some typical path loss results from the model + |
| Individual review/Oral exam + | The personal talk will help you to address all open topics + |
| Interference level and modelling + | Understand how the receiver sensitivity is calculated for GSM and UMTS + |
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| MANET, Multi-homing and Simulation of handover + | Learning outcomes: * Explain the principles of Multi-homing * Explain the principles of MANET * Explain how handoff works + |
| Managed Wifi Access + | Having followed the lecture, you can * understand topics like air time, bad apple * explain the limitations of Wifi * provide typical results from Wifi in-house measurements + |
| Managed Wireless for Internet and IoT + | Why should we monitor and manage IoT? * What would be the optimal monitoring time intervals for IoT? * What would be the optimal IoT management architecture (using gateway or direct connection)? * Which approach will you use for IoT management in your infrastructure? (configuration management, SDN, open standard protocols or enterprise cloud platforms) * What are the IoT management security and privacy consideration? + |
| Mobile Broadband + | Learning outcomes: * Mobile Broadband overview * Technical standards for broadband telecommunication * WCDMA * HSPA/HSPA Evolution * LTE and LTE Advanced * Voice over LTE * Self Organizing Network + |
| Mobile Broadband-I + | Learning outcomes: * Mobile Broadband overview * Technical standards for broadband telecommunication + |
| Mobile Broadband-II + | Understand following mobile technologies # WCDMA # HSPA/HSPA Evolution # LTE and LTE Advanced # Voice over LTE # Self Organizing Network + |
| Mobile Communications - Introduction + | Having joined this lecture, you will * have an impression on where to focus * have an impression on the topics being discussed in this course * get an impression on what is expected from you in terms of deliverables (presentation, papers) + |
| Mobile Communications- Network Architecture and Functionality + | Target is to understand following topics after the lecture: * GSM, UMTS and LTE Network Architecture with Basic Elements * + |
| Mobile IP and Patch Antennas + | Learning Outcomes: * Difference between Mobile IP-based handover and GSM/UMTS-based handover * Can explain the function of a Home Agent and a Foreign Agent * Know what triangular routing is, and can explain how it is handled in Mobile IPv4 and Mobile IPv6 + |
| Mobile IPv4 v6 + | Learning Outcomes: * Difference between Mobile IP-based handover and GSM/UMTS-based handover * Can explain the function of a Home Agent and a Foreign Agent * Know what triangular routing is, and can explain how it is handled in Mobile IPv4 and Mobile IPv6 + |
| Mobile Network Challenges + | Understand the challenges in 5G and beyond networks + |
| Mobile evolution 5G (B6,D4,F1) + | Understand the challenges in 4G and 5G communications (B6,D4) + |
| Mobile network security + | Having followed the lecture, you * will be able to explain a security architecture of a mobile system * mention threats being relevant for mobile systems * can point to the principle differences between the security elements of NMT, GSM, UMTS and LTE * can describe the importance of the SIM card for the security architecture of GSM and UMTS * know why a user can get a new SIM card, but keep his mobile phone number. * can point our the main functionality of the three major security algorithms A3, A5 and A8 * explain why the A5 algorithm exists in various forms + |
| Mobility and Handover in mobile systems + | What will we learn today: * Discrete Mobility * Portability * Mobility Management & Schemes * Handover in mobile communications + |
| Modelling your own ontology - 2013 + | After having joined this lecture, you will be able to design your own ontologies know how to import and export ontologies from Protege + |
| Multiple Access + | Understand the following topics with relation to Multiple Access Protocols concept: * Contentionless & Content * FDMA, TDMA, CDMA, OFDMA * Spread Spectrum + |
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| Near Field Communication,Bluetooth, ZigBee and ANT+ + | What will we learn today * What is Near Field Communication? * The difference between NFC and RFID? * Characteristics of other wireless technologies + |
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| Pellets-based reasoning + | Having joined the lecture, you will * have understood the difference between Pellets-based reasoning and the direct application of the SWRL-tab in Protege, * be able to apply Pellets for your ontology * be able to mention advantages and limitations of Pellets-based reasoning * list the difference between SWRL and SQWRL * explain where to apply SWRL and SQWRL + |
| Policies and Semantic Web Rules in Practise + | During this lecture you will have your own rules defined in your ontologies. You also know the difference between the outcome of a semantic rule and the outcome of a query: * the outcome of a rule is new knowledge, which can be feeded back into the ontology * the outcome of a query is a list of values, which can be used in other programs + |
| Prepare for Reasoning with SWRL + | having joined this lecture, you will be able * to formulate your rules in a "human understandable language". * to know how to add SWRL to your Protege 3.5 (unsure about the status in Protege 4.3) * to see one example of a SWRL rule + |
| Propagation Characteristics of Wireless Channel-I + | Understand the following topics in wireless channel propagation: * Reflection, Refraction, Diffraction and Scattering phenomenon in propagation * Attenuation * Path Loss + |
