Login / Signup
Ivan Krstic
ORCID
Publication Activity (10 Years)
Years Active: 2007-2024
Publications (10 Years): 10
Top Topics
Infinite Impulse Response
Top Venues
Circuits Syst. Signal Process.
Digit. Signal Process.
Int. J. Circuit Theory Appl.
IEEE Trans. Circuits Syst. II Express Briefs
</>
Publications
</>
Goran Stancic
,
Ivan Krstic
,
Ivana Kostic
,
Miljan Petrovic
Design of IIR full-band differentiators with improved nearly linear phase.
Digit. Signal Process.
144 (2024)
Ivan Krstic
,
Marijana Gavrilovic Bozovic
,
Goran Stancic
,
Ivana Kostic
Design of IIR Lowpass Differentiators Using Parallel Allpass Structure.
Circuits Syst. Signal Process.
43 (5) (2024)
Ivan Krstic
Design of IIR Lowpass Differentiators Based on Second-Order Allpass Filter Application.
Circuits Syst. Signal Process.
41 (3) (2022)
Ivan Krstic
,
Mina Vaskovic Jovanovic
Design of minimum-order allpass-based IIR multi-notch filters.
Digit. Signal Process.
129 (2022)
Nikola Stojanovic
,
Negovan Stamenkovic
,
Ivan Krstic
Design of Modified Jacobi Microstrip Lowpass Filter for L-Band Application.
IEEE Trans. Circuits Syst. II Express Briefs
69 (12) (2022)
Ivan Krstic
The least-square design of minimum-order allpass-based infinite impulse response multi-notch filters.
Int. J. Circuit Theory Appl.
49 (8) (2021)
Goran Stancic
,
Ivan Krstic
,
Milos Zivkovic
Design of IIR fullband differentiators using parallel all-pass structure.
Digit. Signal Process.
87 (2019)
Nikola Stojanovic
,
Negovan Stamenkovic
,
Ivan Krstic
Chained-Function Filter Synthesis Based on the Legendre Polynomials.
Circuits Syst. Signal Process.
37 (5) (2018)
Ivan Krstic
,
Sasa Nikolic
,
Goran Stancic
,
Predrag Lekic
Design of IIR Multiple-Notch Filters with Symmetric Magnitude Responses About Notch Frequencies.
Circuits Syst. Signal Process.
37 (12) (2018)
Sasa Nikolic
,
Ivan Krstic
,
Goran Stancic
Noniterative design of IIR multiple-notch filters with improved passband magnitude response.
Int. J. Circuit Theory Appl.
46 (12) (2018)
Ivan Krstic
,
Simson L. Garfinkel
Bitfrost: the one laptop per child security model.
SOUPS
(2007)