- Docente: Chiara Buratti
- Credits: 6
- SSD: ING-INF/03
- Language: Italian
- Teaching Mode: Traditional lectures
- Campus: Bologna
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Corso:
Second cycle degree programme (LM) in
Electrical Energy Engineering (cod. 8611)
Also valid for Second cycle degree programme (LM) in Electronic Engineering (cod. 0934)
Second cycle degree programme (LM) in Automation Engineering (cod. 0931)
Second cycle degree programme (LM) in Telecommunications Engineering (cod. 8846)
Second cycle degree programme (LM) in Telecommunications Engineering (cod. 8846)
Learning outcomes
The course aims at providing to students the basics and the tools to properly design and implement a wireless sensor network (WSN). The full protocols stack (from Physical to Application layer) suitable for WSNs will be presented, with particular emphasis on Medium Access Control and Network layers and with reference to the existing standard IEEE 802.15.4/Zigbee. Half of the course will be dedicated to laboratory activities, where students will program MC1322 Freescale 802.15.4-compliant devices in order to setup a real WSN and to perform experiments on the field.
Course contents
The course is divided into three parts: i) theoretical part; ii) laboratory activities; iii) seminars on case studies.
In the first part lectures will be dedicated to present the WSN protocols to be used at the different layers, which are physical, medium access control, network and application layers. Some cross-layer topics, such as energy efficiency, time synchronisation and distributed detection, will be also addressed.
As far as the laboratory activity is concerned students will have possibility to program MC1322 Freescale 802.15.4-compliant devices in order to setup a real WSN. Form one hand, the laboratory activities will consist in the observation of the network behavior (network formation, multi-hopping data transmission, etc.) through the use of a sniffer; from the other hand, students will have the opportunity to implement their own applications, program devices and perform some measurements.
The third part of the course will be dedicated to a sequence of seminars, dealing with some research hot topics and applications, like smart city, smart buildings, smart body.
Readings/Bibliography
Textbook 1: R. Verdone, D. Dardari, G. Mazzini, A. Conti, "Wireless Sensor and Actuator Networks - Technologies, Analysis, Design", Ed. Elsevier
Textbook 2: C. Buratti, M. Martalò, R. Verdone, G. Ferrari, "Distributed Processing, MAC, and Connectivity in Sensor Networks with Application to IEEE 802.15.4 Systems". Ed. Springer, Germania, 2011.
Textbook 3: Josè A. Gutierrez, Edgar H. Callaway, Raymond L. Barrett, "Low-Rate Wireless Personal Area Networks - Enabling Wireless Sensors with IEEE 802.15.4", Ed. IEEETeaching methods
Chalk and Talk - approx. 20 hours
Lab sessions - approx. 25 hours
Problem sessions - approx. 10 hours
Enquiry sessions - approx. 5 hoursAssessment methods
“On line” Mode. This is for students following the course and coming to the exam before end of February. Students have to deliver all the homeworks assigned during classes. The oral is divided into two parts: i) discussion of the homeworks; ii) 10 minutes presentation (with power point slides) on the laboratory activities.
“Off line” Mode. This is for students not following the course or that will not give the exam by end of February. The oral is divided into two parts: i) two questions related to the theoretical part of the course; ii) 10 minutes presentation (with power point slides) on the laboratory activities. No homeworks will be considered for this modality.
Teaching tools
Laboratory: Freescale 802.15.4-compliant devices, sniffers, PCs.
Theoretical part tools: Slides, books, scientific papers.
Links to further information
http://www.chiaraburatti.org/index.php?page=masset-it
Office hours
See the website of Chiara Buratti