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ORCIDRainer Kokozinski
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2020 – today
- 2022
[j4]Denis Szymon Piechaczek
, Olaf Schrey, Manuel Ligges, Bedrich J. Hosticka, Rainer Kokozinski:
Anti-Blooming Clocking for Time-Delay Integration CCDs. Sensors 22(19): 7520 (2022)- [c26]Philipp Löhler, Andreas Pickhinke, Andreas Erbslöh, Rainer Kokozinski, Karsten Seidl:
SoC for Retinal Ganglion Cell Stimulation with Integrated Sinusoidal Kilohertz Frequency Waveform Generation. PRIME 2022: 341-344 - 2021
- [c25]Gongbo Chen, Pierre Gembaczka, Christian Wiede, Rainer Kokozinski:
Feature Extraction and Neural Network-based Analysis on Time-correlated LiDAR Histograms. PHOTOPTICS 2021: 17-22 - [c24]Gongbo Chen, Giray Atabey Kirtiz, Christian Wiede, Rainer Kokozinski:
Implementation and Evaluation of a Neural Network-Based LiDAR Histogram Processing Method on FPGA. SoCC 2021: 1-6 - 2020
- [c23]Kai-Uwe Müller, Alexander Stanitzki, Rainer Kokozinski:
A 47 F2/bit Charge-Sharing based Sequence-dependent PUF with a Permutative Challenge. COINS 2020: 1-6 - [c22]Andreas Erbslöh, Reinhard Viga, Karsten Seidl, Rainer Kokozinski:
Artefact-Suppressing Analog Spike Detection Circuit for Firing-Rate Measurements in Closed-Loop Retinal Neurostimulators. IEEE SENSORS 2020: 1-4
2010 – 2019
- 2019
- [j3]Tatjana Fedtschenko, Alexander Utz, Alexander Stanitzki, Andreas Hennig, André Lüdecke, Norbert Haas, Rainer Kokozinski:
A New Configurable Wireless Sensor System for Biomedical Applications with ISO 18000-3 Interface in 0.35 µm CMOS. Sensors 19(19): 4110 (2019) - 2018
- [j2]Maik Beer, Jan F. Haase, Jennifer Ruskowski, Rainer Kokozinski:
Background Light Rejection in SPAD-Based LiDAR Sensors by Adaptive Photon Coincidence Detection. Sensors 18(12): 4338 (2018) - [j1]Maik Beer, Olaf M. Schrey, Bedrich J. Hosticka, Rainer Kokozinski:
Expected Value and Variance of the Indirect Time-of-Flight Measurement With Dead Time Afflicted Single-Photon Avalanche Diodes. IEEE Trans. Circuits Syst. I Regul. Pap. 65-I(3): 970-981 (2018) - [c21]Maik Beer, Charles Thattil, Jan F. Haase, Werner Brockherde, Rainer Kokozinski:
2×192 Pixel CMOS SPAD-Based Flash LiDAR Sensor with Adjustable Background Rejection. ICECS 2018: 17-20 - [c20]Tatjana Fedtschenko, Alexander Utz, Alexander Stanitzki, Andreas Hennig, André Lüdecke, Norbert Haas, Rainer Kokozinski:
A low-power wireless nano-potentiostat for biomedical applications with ISO 18000-3 interface in 0.35 μm CMOS. ICST 2018: 382-387 - [c19]Elischa Ferres, Vincent Immler, Alexander Utz, Alexander Stanitzki, Reneé Lerch, Rainer Kokozinski:
Capacitive Multi-Channel Security Sensor IC for Tamper-Resistant Enclosures. IEEE SENSORS 2018: 1-4 - [c18]Kai-Uwe Müller, Robin Ulrich, Alexander Stanitzki, Rainer Kokozinski:
Enabling Secure Boot Functionality by Using Physical Unclonable Functions. PRIME 2018: 81-84 - [c17]Pascal Raffelberg, Roman Burkard, Reinhard Viga, Wilfried Mokwa, Peter Walter, Anton Grabmaier, Rainer Kokozinski:
Current Controlled CMOS Stimulator with Programmable Pulse Pattern for a Retina Implant. PRIME 2018: 253-256 - 2017
- [c16]Maik Beer, Bedrich J. Hosticka, Olaf M. Schrey, Werner Brockherde, Rainer Kokozinski:
Range accuracy of SPAD-based time-of-flight sensors. ECCTD 2017: 1-4 - [c15]Maik Beer, Olaf M. Schrey, Bedrich J. Hosticka, Rainer Kokozinski:
Modelling of SPAD-based time-of-flight measurement techniques. ECCTD 2017: 1-4 - [c14]Maik Beer, Olaf M. Schrey, Christian Nitta, Werner Brockherde, Bedrich J. Hosticka, Rainer Kokozinski:
1×80 pixel SPAD-based flash LIDAR sensor with background rejection based on photon coincidence. IEEE SENSORS 2017: 1-3 - [c13]Alexander Utz, Christian Walk, Alexander Stanitzki, Mir Mokhtari, Michael Kraft, Rainer Kokozinski:
A high precision MEMS based capacitive accelerometer for seismic measurements. IEEE SENSORS 2017: 1-3 - [c12]Maik Beer, Olaf Schrey, Bedrich J. Hosticka, Rainer Kokozinski:
Dead time effects in the indirect time-of-flight measurement with SPADs. ISCAS 2017: 1-4 - 2015
- [c11]Holger Kappert, Norbert Kordas, Stefan Dreiner, Uwe Paschen, Rainer Kokozinski:
High temperature SOI CMOS technology and circuit realization for applications up to 300°C. ISCAS 2015: 1162-1165 - 2013
- [c10]Alexander Schmidt, Holger Kappert, Rainer Kokozinski:
High temperature analog circuit design in PD-SOI CMOS technology using reverse body biasing. ESSCIRC 2013: 359-362 - [c9]Karsten Konrad, Dieter Brückmann, Nima Tavangaran, Jidan Al-Eryani, Rainer Kokozinski, Thomas Werthwein:
Delay element concept for Continuous Time Digital Signal Processing. ISCAS 2013: 2775-2778 - 2012
- [c8]Nima Tavangaran, Dieter Brückmann, Rainer Kokozinski, Karsten Konrad:
Continuous Time digital systems with Asynchronous Sigma Delta Modulation. EUSIPCO 2012: 225-229 - [c7]Jidan Al-Eryani, Alexander Stanitzki, Karsten Konrad, Nima Tavangaran, Dieter Brückmann, Rainer Kokozinski:
Low-power area-efficient delay element with a wide delay range. ICECS 2012: 717-720 - 2011
- [c6]Nima Tavangaran, Dieter Brückmann, Tobias Feldengut, Bedrich J. Hosticka, Rainer Kokozinski, Karsten Konrad, Renee Lerch:
Effects of jitter on continuous time digital systems with granularity reduction. EUSIPCO 2011: 525-529 - [c5]Dieter Brückmann, Tobias Feldengut, Bedrich J. Hosticka, Rainer Kokozinski, Karsten Konrad, Nima Tavangaran:
Optimization and implementation of continuous time DSP-systems by using granularity reduction. ISCAS 2011: 410-413
2000 – 2009
- 2007
- [c4]Thomas Stucke, Rainer Kokozinski, Stephan Kolnsberg, Bedrich J. Hosticka:
Technology-caused performance limitation of the common-gate LNA. ECCTD 2007: 60-63 - 2003
- [c3]Niels Christoffers, Rainer Kokozinski, Stephan Kolnsberg, Bedrich J. Hosticka:
High loop-filter-order ΣΔ-fractional-n frequency synthesizers for use in frequency-hopping-spread-spectrum communication-systems. ISCAS (2) 2003: 216-219 - 2002
- [c2]Ingo Hehemann, Werner Brockherde, Arndt Buißmann, Holger Hofmann, Armin Kemna, Rainer Kokozinski, Hartmut Richter, Bedrich J. Hosticka:
A new detector architecture for optical pickup units in DVD systems. ISCAS (4) 2002: 41-44 - [c1]Rainer Kokozinski, Dieter Greifendorf, Jörg Stammen, Peter Jung:
The evolution of hardware platforms for mobile 'software defined radio' terminals. PIMRC 2002: 2389-2393
Coauthor Index
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