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ORCIDStanislaw Szczepanski
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2020 – today
- 2023
[j28]Miron Klosowski
, Yichuang Sun, Waldemar Jendernalik, Grzegorz Blakiewicz, Jacek Jakusz, Stanislaw Szczepanski:
Single-Slope ADC With Embedded Convolution Filter for Global-Shutter CMOS Image Sensors. IEEE Trans. Circuits Syst. II Express Briefs 70(9): 3258-3262 (2023)- 2022
- [j27]Mohammad Alibakhshi Kenari, Esraa Mousa Ali, Mohammad Soruri, Mariana Dalarsson, Mohammad Naser-Moghadasi, Bal S. Virdee, Caslav Stefanovic, Anna Pietrenko-Dabrowska, Slawomir Koziel, Stanislaw Szczepanski, Ernesto Limiti:
A Comprehensive Survey on Antennas On-Chip Based on Metamaterial, Metasurface, and Substrate Integrated Waveguide Principles for Millimeter-Waves and Terahertz Integrated Circuits and Systems. IEEE Access 10: 3668-3692 (2022) - [j26]Rusan Kumar Barik, Slawomir Koziel, Stanislaw Szczepanski:
Wideband Highly-Selective Bandpass Filtering Branch-Line Coupler. IEEE Access 10: 20832-20838 (2022) - [j25]Bashar Ali F. Esmail, Slawomir Koziel, Stanislaw Szczepanski:
Overview of Planar Antenna Loading Metamaterials for Gain Performance Enhancement: The Two Decades of Progress. IEEE Access 10: 27381-27403 (2022) - [j24]Rusan Kumar Barik, Slawomir Koziel, Stanislaw Szczepanski:
Highly-Miniaturized Dual-Mode Bandpass Filter Based on Quarter-Mode Substrate Integrated Waveguide With Wide Stopband. IEEE Access 10: 42149-42156 (2022) - [j23]Fuad Erman, Slawomir Koziel, Effariza Hanafi, Rawan Soboh, Stanislaw Szczepanski:
Miniaturized Metal-Mountable U-Shaped Inductive-Coupling-Fed UHF RFID Tag Antenna With Defected Microstrip Surface. IEEE Access 10: 47301-47308 (2022) - [j22]Bashar Ali F. Esmail, Slawomir Koziel, Stanislaw Szczepanski, Huda A. Majid:
Overview of Approaches for Compensating Inherent Metamaterials Losses. IEEE Access 10: 67058-67080 (2022) - 2021
- [j21]Slawomir Koziel, Peyman Mahouti, Nurullah Çalik, Mehmet A. Belen, Stanislaw Szczepanski:
Improved Modeling of Microwave Structures Using Performance-Driven Fully-Connected Regression Surrogate. IEEE Access 9: 71470-71481 (2021) - [j20]Slawomir Koziel, Muhammad Abdullah, Stanislaw Szczepanski:
Design of High-Performance Scattering Metasurfaces Through Optimization-Based Explicit RCS Reduction. IEEE Access 9: 113077-113088 (2021) - [j19]Rusan Kumar Barik, Slawomir Koziel, Qingsha S. Cheng, Stanislaw Szczepanski:
Highly Miniaturized Self-Diplexed U-Shaped Slot Antenna Based on Shielded QMSIW. IEEE Access 9: 158926-158935 (2021) - [j18]Mehmet A. Belen, Peyman Mahouti, Slawomir Koziel, Alper Çaliskan, Stanislaw Szczepanski:
On Decomposition-Based Surrogate-Assisted Optimization of Leaky Wave Antenna Input Characteristics for Beam Scanning Applications. IEEE Access 9: 161318-161325 (2021) - [j17]Saeed Roshani, Slawomir Koziel, Sobhan Roshani, Mohammad Behdad Jamshidi, Fariborz Parandin, Stanislaw Szczepanski:
Design of a Patch Power Divider With Simple Structure and Ultra-Broadband Harmonics Suppression. IEEE Access 9: 165734-165744 (2021) - 2020
- [j16]Grzegorz Blakiewicz, Jacek Jakusz, Miron Klosowski, Waldemar Jendernalik, Stanislaw Szczepanski:
Light-Powered Starter for Micro-Power Boost DC-DC Converter for CMOS Image Sensors. Circuits Syst. Signal Process. 39(3): 1195-1212 (2020) - [j15]Jacek Jakusz, Waldemar Jendernalik, Grzegorz Blakiewicz, Miron Klosowski, Stanislaw Szczepanski:
A 1-nS 1-V Sub-1-µW Linear CMOS OTA with Rail-to-Rail Input for Hz-Band Sensory Interfaces. Sensors 20(11): 3303 (2020) - [j14]Grzegorz Blakiewicz, Miron Klosowski, Waldemar Jendernalik, Jacek Jakusz, Stanislaw Szczepanski:
Low-Power Receivers for Wireless Capacitive Coupling Transmission in 3-D-Integrated Massively Parallel CMOS Imager. IEEE Trans. Circuits Syst. I Regul. Pap. 67-I(8): 2556-2565 (2020)
2010 – 2019
- 2018
- [j13]Miron Klosowski, Jacek Jakusz, Waldemar Jendernalik, Grzegorz Blakiewicz, Stanislaw Szczepanski, Slawomir Koziel:
A High-Efficient Measurement System With Optimization Feature for Prototype CMOS Image Sensors. IEEE Trans. Instrum. Meas. 67(10): 2363-2372 (2018) - 2017
- [j12]Miron Klosowski, Waldemar Jendernalik, Jacek Jakusz, Grzegorz Blakiewicz, Stanislaw Szczepanski:
A CMOS Pixel With Embedded ADC, Digital CDS and Gain Correction Capability for Massively Parallel Imaging Array. IEEE Trans. Circuits Syst. I Regul. Pap. 64-I(1): 38-49 (2017) - 2015
- [j11]Stanislaw Szczepanski, Bogdan Pankiewicz, Slawomir Koziel, Marek Wójcikowski:
Multiple output differential OTA with linearizing bulk-driven active-error feedback loop for continuous-time filter applications. Int. J. Circuit Theory Appl. 43(11): 1671-1686 (2015) - 2013
- [j10]Waldemar Jendernalik, Grzegorz Blakiewicz, Jacek Jakusz, Stanislaw Szczepanski, Robert Piotrowski:
An Analog Sub-Miliwatt CMOS Image Sensor With Pixel-Level Convolution Processing. IEEE Trans. Circuits Syst. I Regul. Pap. 60-I(2): 279-289 (2013) - [j9]Marek Zmuda, Stanislaw Szczepanski, Slawomir Koziel:
A New Coupler Concept for Contactless High-Speed Data Transmission Monitoring. IEEE Trans. Instrum. Meas. 62(2): 328-334 (2013) - [j8]Marek Wójcikowski, Robert Zaglewski, Bogdan Pankiewicz, Miron Klosowski, Stanislaw Szczepanski:
Hardware-Software Implementation of a Sensor Network for City Traffic Monitoring Using the FPGA- and ASIC-Based Sensor Nodes. J. Signal Process. Syst. 71(1): 57-73 (2013) - 2012
- [j7]Waldemar Jendernalik, Stanislaw Szczepanski, Slawomir Koziel:
Highly linear CMOS triode transconductor for VHF applications. IET Circuits Devices Syst. 6(1): 9-18 (2012) - 2011
- [c19]Waldemar Jendernalik, Jacek Jakusz, Grzegorz Blakiewicz, Robert Piotrowski, Stanislaw Szczepanski:
Analog CMOS processor for early vision processing with highly reduced power consumption. ECCTD 2011: 745-748 - 2010
- [j6]Stanislaw Szczepanski, Bogdan Pankiewicz, Slawomir Koziel:
Programmable feedforward linearized CMOS OTA for fully differential continuous-time filter design. Int. J. Circuit Theory Appl. 38(9): 885-899 (2010)
2000 – 2009
- 2008
- [c18]Marek Strachacki, Stanislaw Szczepanski:
Implementation of AES algorithm resistant to differential power analysis. ICECS 2008: 214-217 - 2007
- [j5]Slawomir Koziel, A. Ramachandran, Stanislaw Szczepanski, Edgar Sánchez-Sinencio:
A general framework for evaluating nonlinearity, noise and dynamic range in continuous-time OTA-C filters for computer-aided design and optimization. Int. J. Circuit Theory Appl. 35(4): 405-425 (2007) - 2004
- [j4]Slawomir Koziel, Stanislaw Szczepanski, Rolf Schaumann:
Structure generation and performance comparison of elliptic Gm-C filters. Int. J. Circuit Theory Appl. 32(6): 565-589 (2004) - [c17]Slawomir Koziel, A. Ramachandran, Stanislaw Szczepanski, Edgar Sánchez-Sinencio:
Dynamic range, noise and linearity optimization of continuous-time OTA-C filters. ICECS 2004: 41-44 - [c16]Stanislaw Szczepanski, Slawomir Koziel, Edgar Sánchez-Sinencio:
Linearized CMOS OTA using active-error feedforward technique. ISCAS (1) 2004: 549-552 - [c15]Stanislaw Szczepanski, Slawomir Koziel:
1.2V low-power four-quadrant CMOS transconductance multiplier operating in saturation region. ISCAS (1) 2004: 1016-1019 - 2003
- [j3]Slawomir Koziel, Stanislaw Szczepanski, Rolf Schaumann:
A general approach to continuous-time Gm-C filters. Int. J. Circuit Theory Appl. 31(4): 361-383 (2003) - [c14]Stanislaw Szczepanski, Slawomir Koziel, Rolf Schaumann:
CMOS differential pair transconductor with active-error feedback. ICECS 2003: 168-171 - [c13]Slawomir Koziel, Stanislaw Szczepanski:
Canonic structures of odd-order elliptic Gm-C filters. ICECS 2003: 272-275 - [c12]Slawomir Koziel, Stanislaw Szczepanski:
Algebraic model of continuous-time Gm-LC filters and applications. ICECS 2003: 280-283 - [c11]Slawomir Koziel, Stanislaw Szczepanski:
Tolerance analysis of continuous-time Gm-C filters. ICECS 2003: 404-407 - 2002
- [j2]Bogdan Pankiewicz, Marek Wójcikowski, Stanislaw Szczepanski, Yichuang Sun:
A field programmable analog array for CMOS continuous-time OTA-C filter applications. IEEE J. Solid State Circuits 37(2): 125-136 (2002) - [c10]Slawomir Koziel, Stanislaw Szczepanski:
Structure generation and performance comparison of canonical elliptic Gm-C filters. ICECS 2002: 157-160 - [c9]Slawomir Koziel, Stanislaw Szczepanski:
Sensitivity comparison of high-order all-pole Gm-C filters in canonical structures. ICECS 2002: 161-164 - [c8]Slawomir Koziel, Stanislaw Szczepanski, Rolf Schaumann:
A general approach to continuous-time Gm-C filters based on matrix descriptions. ISCAS (4) 2002: 647-650 - [c7]Slawomir Koziel, Stanislaw Szczepanski, Rolf Schaumann:
Design of highly linear tunable CMOS OTA. ISCAS (3) 2002: 731-734 - 2001
- [c6]Slawomir Koziel, Stanislaw Szczepanski:
Dynamic range comparison of voltage-mode and current-mode state-space Gm-C biquad filters. ICECS 2001: 819-822 - [c5]Bogdan Pankiewicz, Marek Wójcikowski, Stanislaw Szczepanski, Yichuang Sun:
A CMOS field programmable analog array and its application in continuous-time OTA-C filter design. ISCAS (1) 2001: 5-8 - 2000
- [j1]Piotr Dudek, Stanislaw Szczepanski, John V. Hatfield:
A high-resolution CMOS time-to-digital converter utilizing a Vernier delay line. IEEE J. Solid State Circuits 35(2): 240-247 (2000)
1990 – 1999
- 1996
- [c4]Bogdan Pankiewicz, Stanislaw Szczepanski:
Body-tunable CMOS OTA for continuous-time analog filter applications. ICECS 1996: 132-135 - 1995
- [c3]Stanislaw Szczepanski, Jacek Jakusz, Rolf Schaumann:
A Linear CMOS OTA for VHF Applications. ISCAS 1995: 1344-1347 - [c2]Edmund Pierzchala, Rolf Schaumann, Paul Van Halen, Stanislaw Szczepanski, Marek A. Perkowski:
Highly Linear VHF Current-Mode Miller Integrator with 900 dB DC Gain. ISCAS 1995: 1852-1855 - 1994
- [c1]Stanislaw Szczepanski:
VHF Fully-Differential Linearized CMOS Transconductance Element and its Applications. ISCAS 1994: 97-100
Coauthor Index
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