Friday, February 13, 2009

Best wishes for mid semester Examination

I wish you all success in the mid semester examination.
YVJoshi

Wednesday, February 4, 2009

Appeal

All the students are hereby encouraged to ask questions in the class. A few classes with individual problem solving sessions will be conducted before mid semester examination.
All should come prepared with difficulties in the class.

YVJoshi

Monday, February 2, 2009

Answers to doubts raised by Darshan

Dear Darshan,
Real impulse response means coefficients values of impulse response are real. The propertes are that the Magnitude of frequecny response of the real coefficient system is even and the phase is odd function.
If it is linear phase system then the impulse response can be either symmetric or antisymmetric.
One of such problem is solved in the class. Please refer the notebook.
Best wishes

YVJoshi

Friday, January 30, 2009

B-Div students

Please note that I would be engaging the class from 3 to 5 on Monday, 2nd Feb. 2009.
YVJoshi

Wednesday, January 28, 2009

Lecture of Mr. Achyut Godbole

On 29th January, There is a open talk "MAZI SHODH YATRA " by Mr. Achyut Godbole, a renowned writer in Marathi, a successful IT professional and Author of Operating systems Book at 6.00 PM at Shankarrao Chavan Sabhagrih, Near Guru Gobind Singhji Stadium. You may attend the same. It would be useful.

Thursday, January 22, 2009

Announcement for Lectures on Friday (23rd Jan 2009)

This is to inform all that Lectures scheduled for Friday will be held as per the time table.
i.e. B - Div -10 to 12
A - Div - 1.30 to 2.30PM

(Earlier It was communicated that the lectures will not be held)

This is also announced in the class by Prof. V. P. Ghanwat.

Y. V. Joshi

Tuesday, January 6, 2009

Course Objectives

After attending this course, the students would be able to -

1. Review the Concepts of Signals and Systems such as Continuous Fourier Transform, DTFT, Sampling Theorem, Laplace Transform, Z- Transform

2. Understand the DFT and its computation

3. Understand fast computation algorithms for DFT- FFT radix-2, radix-3 etc, DIT, DIF

4. Understand analog filter design- Approximations Butterworth and Chebyshev type I

5. Design the digital filters - FIR (using window functions, Frequency sampling) and IIR (Impulse invariant transformation, Bilinear transformation)

6. Understand the concepts in Multirate signal processing such as up/down sampler

7. Study the typical applications of DSP

8. Perform signal processing operations in MATLAB