Exam Details
| Subject | elective – i : wireles sensor networks | |
| Paper | ||
| Exam / Course | f.y. m.tech. (civil -structural engg.) | |
| Department | ||
| Organization | solapur university | |
| Position | ||
| Exam Date | December, 2018 | |
| City, State | maharashtra, solapur |
Question Paper
F.Y. M.Tech. (Electronics Engineering) (Semester (New CBCS)
Examination, 2018
Elective I Wireles sensor networks
Day and Date Wednesday, 12-12-2018 Total Marks 70
Time 10.00 a.m. to 1.00 p.m.
Instructions All questions are compulsory.
Figures to the right indicates full marks.
Assume suitable data if necessary.
Section I
1. E xplain protocol stack for WSN. 7
Explain classification of routing protocols used in WSN. 6
2. Solve any two.
Discuss how energy efficiency can be achieved at MAC layer. 6
Explain SPIN-PP algorithm. 6
Explain D MAC. 6
3. Solve any two.
Explain data centric routing. 5
Explain clustering. 5
Give overview of Super Harvard architecture of WSN node. 5
Section II
4. Explain ZigBee functional layer architecture and protocol stack. 7
Explain one way message exchange used in time synchronization. 6
Set P
SLR-MT- 21 *SLRMT21*
Set P
5. Solve any two.
Explain Ad hoc positioning system 6
Explain any one type of range free localization. 6
Explain energy efficient link layer. 6
6. Solve any two.
Explain triangulation technique. 5
Explain data transfer in beckon enabled networks. 5
Explain flooding time synchronization protocol. 5
Examination, 2018
Elective I Wireles sensor networks
Day and Date Wednesday, 12-12-2018 Total Marks 70
Time 10.00 a.m. to 1.00 p.m.
Instructions All questions are compulsory.
Figures to the right indicates full marks.
Assume suitable data if necessary.
Section I
1. E xplain protocol stack for WSN. 7
Explain classification of routing protocols used in WSN. 6
2. Solve any two.
Discuss how energy efficiency can be achieved at MAC layer. 6
Explain SPIN-PP algorithm. 6
Explain D MAC. 6
3. Solve any two.
Explain data centric routing. 5
Explain clustering. 5
Give overview of Super Harvard architecture of WSN node. 5
Section II
4. Explain ZigBee functional layer architecture and protocol stack. 7
Explain one way message exchange used in time synchronization. 6
Set P
SLR-MT- 21 *SLRMT21*
Set P
5. Solve any two.
Explain Ad hoc positioning system 6
Explain any one type of range free localization. 6
Explain energy efficient link layer. 6
6. Solve any two.
Explain triangulation technique. 5
Explain data transfer in beckon enabled networks. 5
Explain flooding time synchronization protocol. 5
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