Notice for EIE3103 DSAS students



LAST UPDATED TIME: Nov 23, 10:00:00 HKT 2022



What's new:
NEW
 

Notes

Textbook & References

Tutorial

Quiz result

Lab material

Useful info

Supplementary materials

Links

Self-learning

Q and A

Please revisit this homepage frequently to update your information.
 

  • Tentative weighting of different components:  

§  Continuous Assessment: 50%:

·        5 classwork/pop quizzes: best 4 out of 5,  total 18%

·        1 test:   18%

·        lab reports + log book: total 14%

    • Exam: 50%  

 

·        The ppt of ‘Digital Filters’ is updated. It can be downloaded here.  @2022/11/23 NEW

·        The solution of the mock exam paper is available here @2022/11/16 NEW

  • Tutorial question sets 8 and 9 are uploaded.  @2022/11/16 NEW
  • Solution of Tutorial Q set 7 (including ppt-ver) is uploaded.  @2022/11/7  
  • Solution of Tutorial Q set 6 (including ppt-ver) is uploaded.  @2022/11/7
  • An analysis of your performance in test 1 was done. You can find the result here. @2022/11/1
  • A mock exam paper is available here@2022/11/1 NEW
  • Tutorial question sets 6 and 7 are uploaded.  @2022/10/31
  • Solution of test 1 is available here.  The PPT presentation is here. @2022/10/31
  • Marking guidelines for lab reports is uploaded.  @2022/10/20
  • All eie3103 activities will be conducted in room Y301 instead of room CD302 on Oct 19. In other words, the test will be conducted in Room Y301.  @2022/10/12
  • Tutorial question set 5 is uploaded.  @2022/10/12
  • Solution of Tutorial Q set 4 (including ppt-ver) is uploaded.  @2022/10/22  
  • Tutorial question set 4 is uploaded.   @2022/9/27
  • Solution of Tutorial Q set 3 (including ppt-ver) is uploaded.   @2022/9/27  
  • Solution of Tutorial Q set 2 is uploaded.   @2022/9/19  
  • Tutorial question sets 2 & 3 are uploaded.   @2022/9/15  

 

Prelim. schedule is as follows:

Schedule 

 



Notes

* My ppt version is subject to change as I may update it for better presentation.
* You may download the newest version of handouts here. 

·        Introduction  +  supplemental material on complex number  || (4in1 ver) 

·        Description of signals                                                          || (4in1 ver)

·        System property and time domain analysis                           || (4in1 ver)

·        Discrete-time Fourier series                                                 || (4in1 ver)     

·        Discrete-time Fourier Transform                                         || (4in1 ver)      

·        Discrete-time System Analysis via the DTFT and DFT        || (4in1 ver)       

·        Sampling and Aliasing                                                        || (4in1 ver)     

·        Z-transform                                                                        || (4in1 ver)     

·        Digital filters  (updated @22/11/22) - 2nd order IIR.             || (4in1 ver)     



Textbook and references:

Textbook:

·        M. J. Roberts, Fundamentals of Signal and Systems, McGrawHill, 2008

§  E-book + Problem solution of the book.  (2003 ver)



Tutorial arrangement

Tentative schedule: 

Normal class: 

·        Every Monday from week 2 to week 13, 10:30 am - 11:20 am

 

Supplementary class:

·        To be arranged for weaker students if necessary. 

 



Tutorial problems:

·        Tutorial 1  : Solution  || PPT-ver Solution     (soln @2022/9/15)      

·        Tutorial 2  : Solution  || PPT-ver Solution      (@2022/9/15, soln @2022/9/19)

·        Tutorial 3  : Solution  || PPT-ver Solution      (@2022/9/15, soln @2022/9/27)  

·        Tutorial 4  : Solution  || PPT-ver Solution      (@2022/9/27, soln @2022/10/12)                    

·        Tutorial 5  : Solution  || PPT-ver Solution      (@2022/10/12, soln @2022/10/20)                                

·        Tutorial 6  : Solution  || PPT-ver Solution      (@2022/10/31, soln @2022/11/7)

·        Tutorial 7  : Solution  || PPT-ver Solution      (@2022/10/31, soln @2022/11/16)

·        Tutorial 8  : Solution  || PPT-ver Solution      (@2022/11/16)

·        Tutorial 9  : Solution  || PPT-ver Solution      (@2022/11/16)   

 (Note: Tutorial 1 means it is the 1st tutorial question set in a sequence of question sets. It does not imply that it has to be discussed in tutorial session 1.) 



Revision guidelines:  (Tentative)

·        Revision guideline 1  

·        Revision guideline 2  

·        Revision guideline 3    



Quiz and test results:

·        There will be several pop quizzes. Pop quizzes can be conducted in any week (except weeks 1 & 13) and will be conducted in the time slots originally scheduled for EIE3103 (either lecture or tutorial).  The exact date/time of a quiz will be confirmed 1 week in advance.

·        Test 1 performance: (@2022/11/1) NEW

o   You may use your score to locate your position in the class. The mean and the standard deviation are, respectively, 23.7 and 12.7.

o   Full mark is 45. If you get more than 45, the surplus will be counted as a bonus when computing the continuous assessment component of the subject.

o   Solution of test 1 is available here.  The PPT presentation is here.

o   If your score is lower than 20 and you need an extra tutorial to catch up, let me know such that I can arrange one extra tutorial session for you.



Laboratory materials

·        Lab schedule: 

§  Date:    Oct 20, 27 & Nov 3, 10 (Thu)

§  Time:    3:30 pm - 6:20 pm

§  Venue:  CF105   

·        Lab activities:

§  Digital LTI system and convolution - Matlab simulator     : A note for part 2 is available here.

§  Sampling and aliasing  - Matlab code(for Matlab R2009)  OR   Matlab code(for Matlab R2018)

·        Prepare a logbook for your lab sessions. You are requested to log down any findings, observations and data obtained in each lab activity. You should provide quick answers to the questions listed in the lab sheets and submit it at the end of every lab session via blackboard.

·        Your final lab report must be based on the stuff logged in your logbook. 

·        Marking Guidelines for Lab activities 



Some useful information:

·        Properties of Fourier Transform

·        Discrete-time Fourier Transform Table 1

·        Discrete-time Fourier Transform Table 2

·        DFT Table

·        Integration Table