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Vadim Issakov
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2020 – today
- 2024
- [j14]Yannick Wenger
, Bernd Meinerzhagen
Built-In Self-Test of Millimeter-Wave Integrated Front-End Circuits: How Far Have We Come? IEEE Access 12: 78572-78588 (2024) - [j13]Adilet Dossanov, Christian Ziegler, Vadim Issakov:
Ultra-Low-Power High PSRR Sub-1 V Voltage Reference Circuit in 22 nm FDSOI CMOS. IEEE Trans. Circuits Syst. II Express Briefs 71(11): 4643-4647 (2024) - [c35]Alexander Meyer, Kaoru Yamashita, Adilet Dossanov, Martin Maier, Finn Stapelfeldt, Yerzhan Kudabay, Peter Toth, Fa Foster Dai, Hiroki Ishikuro, Vadim Issakov:
A 10-bit 100kS/s SAR ADC With a Monotonic Capacitor Switching Procedure for Single-Ended Inputs in 22nm CMOS FDSOI. ISCAS 2024: 1-5 - [c34]Adilet Dossanov, Vadim Issakov:
A Low Quiescent Current Capacitor-Less LDO Voltage Regulator in 22 nm FDSOI CMOS. PRIME 2024: 1-4 - [c33]Muhammad Arsalan, Avik Santra, Vadim Issakov:
Low Power Gesture Sensing System Based on Target Range Using Spiking Neural Networks for Portable Devices. RWS 2024: 153-155 - 2023
- [j12]Hendrik M. Lehmann
Direct Signal Encoding With Analog Resonate-and-Fire Neurons. IEEE Access 11: 50052-50063 (2023) - [j11]Muhammad Arsalan
Power-efficient gesture sensing for edge devices: mimicking fourier transforms with spiking neural networks. Appl. Intell. 53(12): 15147-15162 (2023) - [j10]Peter Toth
A Cryogenic 12 GHz Frequency Doubler With Temperature Compensation for Trapped-Ion Quantum Computer. IEEE Trans. Circuits Syst. II Express Briefs 70(10): 3877-3881 (2023) - [c32]Alexander Meyer, Peter Toth, Axel Engelhardt, Jens Repp, Matthias Brand, Vadim Issakov:
A 12 Bit R-2R Digital-to-Analog Converter for Shuttling Operation in a Trapped-Ion Quantum Computer. BCICTS 2023: 28-31 - [c31]Martin Maier, Finn-Niclas Stapelfeldt, Vadim Issakov:
Effect of Phase Noise in FMCW and PMCW Radar Systems for Breast Cancer Detection. RWS 2023: 37-39 - 2022
- [j9]Jakob Valtl
Universal Adversarial Attacks on the Raw Data From a Frequency Modulated Continuous Wave Radar. IEEE Access 10: 114092-114102 (2022) - [j8]Hendrik M. Lehmann
Analog Spiking Neural Network Based Phase Detector. IEEE Trans. Circuits Syst. I Regul. Pap. 69(12): 4837-4846 (2022) - [c30]Peter Toth, Lasse Cordes
A 13 GHz PA with Amplitude Modulation for Entanglement Generation in Multi-Qubit 171Yb+ Gates of an Ion-Trapped Quantum Computer. BCICTS 2022: 37-40 - [c29]Vincent Lammert, Michael L. Leyrer, Vadim Issakov:
A D-Band Transceiver with On-Chip Multi-Port Radiators and Leakage Cancellation in 45nm SOI. BCICTS 2022: 57-61 - [c28]Yerzhan Kudabay, Vadim Issakov:
A 0.03 mm2 Inductorless 50 Gb/s Multiplexer for Josephson Arbitrary Waveform Synthesizers. BCICTS 2022: 124-127 - [c27]Muhammad Arsalan, Tao Zheng, Avik Santra
Contactless Low Power Air-Writing Based on FMCW Radar Networks Using Spiking Neural Networks. ICMLA 2022: 931-935 - [c26]Jakob Valtl, Javier Mendez, Gianfranco Mauro
Investigation for the Need of Traditional Data-Preprocessing when Applying Artificial Neural Networks to FMCW-Radar Data. IWSSIP 2022: 1-4 - [c25]Hendrik M. Lehmann
Leaky Integrate-and-Fire Neuron with a Refractory Period Mechanism for Invariant Spikes. PRIME 2022: 365-368 - [c24]Muhammad Arsalan, Davide Di Matteo, Sana Imtiaz, Zainab Abbas, Vladimir Vlassov, Vadim Issakov:
Energy-Efficient Privacy-Preserving Time-Series Forecasting on User Health Data Streams. TrustCom 2022: 541-546 - 2021
- [c23]Sascha Breun, Albert-Marcel Schrotz, Marco Dietz, Vadim Issakov, Robert Weigel:
A 268-325 GHz 5.2 dBm Psat Frequency Doubler Using Transformer-Based Mode Separation in SiGe BiCMOS Technology. BCICTS 2021: 1-4 - [c22]Muhammad Arsalan, Avik Santra
Radar-Based Gesture Recognition System using Spiking Neural Network. ETFA 2021: 1-5 - [c21]Gianfranco Mauro
One-Shot Meta-learning for Radar-Based Gesture Sequences Recognition. ICANN (2) 2021: 500-511 - [c20]Maximilian Hollenbach, Andreas Werthof, Vadim Issakov:
Active Four-Way K-Band Power Splitter for MIMO Radar LO Distribution Network in SiGe BiCMOS. ICECS 2021: 1-4 - [c19]Peter Toth, Vadim Issakov:
SiGe HBT Model Enhancement for Quantum Control Circuitry at Cryogenic Temperatures. ICECS 2021: 1-2 - [c18]Jakob Valtl, Vadim Issakov:
Frequency Modulated Continuous Wave Radar-Based Navigation Algorithm using Artificial Neural Network for Autonomous Driving. ITSC 2021: 567-571 - [c17]Carl Heine, Vincent Lammert, Vadim Issakov
A Wireless 60 GHz Data Link using a Phasor Rotator Based Costas Loop. RWS 2021: 171-174 - 2020
- [j7]Erick Aguilar, Vadim Issakov
A 130 GHz Fully-Integrated Fundamental-Frequency D-Band Transmitter Module With > 4 dBm Single-Ended Output Power. IEEE Trans. Circuits Syst. II Express Briefs 67-II(5): 906-910 (2020) - [j6]Radu Ciocoveanu
Design of a 60 GHz 32% PAE Class-AB PA with 2nd Harmonic Control in 45-nm PD-SOI CMOS. IEEE Trans. Circuits Syst. I Regul. Pap. 67-I(8): 2635-2646 (2020) - [c16]Vadim Issakov
A 10 mW LNA with Temperature Compensation for 24 GHz Radar Applications in SiGe BiCMOS. BCICTS 2020: 1-4 - [c15]Muhammad Arsalan, Avik Santra
Radar Trajectory-based Air-Writing Recognition using Temporal Convolutional Network. ICMLA 2020: 1454-1459 - [c14]Muhammad Arsalan, Avik Santra
Air-Writing with Sparse Network of Radars using Spatio-Temporal Learning. ICPR 2020: 8877-8884
2010 – 2019
- 2019
- [j5]Vadim Issakov
Analytical Equivalent Circuit Extraction Procedure for Broadband Scalable Modeling of Three-Port Center-Tapped Symmetric On-Chip Inductors. IEEE Trans. Circuits Syst. I Regul. Pap. 66-I(9): 3557-3570 (2019) - [j4]Vincent Lammert
A K-Band Complex Permittivity Sensor for Biomedical Applications in 130-nm SiGe BiCMOS. IEEE Trans. Circuits Syst. II Express Briefs 66-II(10): 1628-1632 (2019) - [j3]Radu Ciocoveanu
Modified Gilbert-Cell Mixer With an LO Waveform Shaper and Switched Gate-Biasing for 1/f Noise Reduction in 28-nm CMOS. IEEE Trans. Circuits Syst. II Express Briefs 66-II(10): 1688-1692 (2019) - [c13]Andrea Bilato
A 114-126 GHz Frequency Quintupler with >36 dBc Harmonic Rejection in 0.13 μm SiGe BiCMOS. BCICTS 2019: 1-4 - [c12]Vadim Issakov
A Highly Integrated D-Band Multi-Channel Transceiver Chip for Radar Applications. BCICTS 2019: 1-4 - 2018
- [c11]Radu Ciocoveanu, Robert Weigel, Amelie Hagelauer
A Low Insertion-Loss 10-110 GHz Digitally Tunable SPST Switch in 22 nm FD-SOI CMOS. BCICTS 2018: 1-4 - [c10]Badou Sene
A Low-Power Triple-Loop Feedback Broadband LNA in a 130 nm SiGe BiCMOS Technology. BCICTS 2018: 114-117 - [c9]Vadim Issakov
A 6 kV ESD-Protected Low-Power 24 GHz LNA for Radar Applications in SiGe BiCMOS. BCICTS 2018: 194-197 - [c8]J. Rimmelspacher, Robert Weigel, Amelie Hagelauer
A Quad-Core 60 GHz Push-Push 45 nm SOI CMOS VCO with -101.7 dBc/Hz Phase Noise at 1 MHz offset, 19 % Continuous FTR and -187 dBc/Hz FoMT. ESSCIRC 2018: 138-141 - [c7]Vadim Issakov:
Circuit Design Challenges of Highly-Integrated mm-Wave Radar-Based Sensors in SOI Based Technologies. ESSCIRC 2018: 260 - [c6]Vadim Issakov:
Circuit Design Challenges of Highly-Integrated mm-Wave Radar-Based Sensors in SOI based Technologies. ESSDERC 2018: 184 - 2013
- [c5]Vojkan Vidojkovic, Viki Szortyka, Khaled Khalaf, Giovanni Mangraviti
A low-power radio chipset in 40nm LP CMOS with beamforming for 60GHz high-data-rate wireless communication. ISSCC 2013: 236-237
2000 – 2009
- 2009
- [j2]Vadim Issakov, Maciej Wojnowski, Andreas Thiede, Linus Maurer:
Extension of Thru de-embedding technique for asymmetrical and differential devices. IET Circuits Devices Syst. 3(2): 91-98 (2009) - [j1]Vadim Issakov
Comparison of 24 GHz receiver front-ends using active and passive mixers in CMOS. IET Circuits Devices Syst. 3(6): 340-349 (2009) - [c4]Vadim Issakov
Merged power amplifier and mixer circuit topology for radar applications in CMOS. ESSCIRC 2009: 300-303 - [c3]Vadim Issakov
Low-noise ESD-protected 24 GHz receiver for radar applications in SiGe: C technology. ESSCIRC 2009: 308-311 - 2008
- [c2]Yiqun Cao, Marc Tiebout, Vadim Issakov
A 24GHz FMCW radar transmitter in 0.13 μm CMOS. ESSCIRC 2008: 498-501 - [c1]Yiqun Cao, Vadim Issakov
A 2kV ESD-Protected 18GHz LNA with 4dB NF in 0.13μm CMOS. ISSCC 2008: 194-195
Coauthor Index
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last updated on 2024-11-14 22:06 CET by the dblp team
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