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Laszlo B. Kish
Laszlo Bela Kish
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- affiliation: Texas A&M University, College Station, TX, USA
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2020 – today
- 2024
- [i68]Kate Davis, Laszlo B. Kish, Chanan Singh:
Smart Grids Secured By Dynamic Watermarking: How Secure? CoRR abs/2404.16849 (2024) - [i67]Mehmet Yildirim, Nasir Kenarangui, Robert S. Balog, Laszlo B. Kish, Chanan Singh:
Simple Cracking of (Noise-Based) Dynamic Watermarking in Smart Grids. CoRR abs/2406.15494 (2024) - 2023
- [i66]Shahriar Ferdous, Laszlo B. Kish:
Transient Attack against the KLJN Secure Key Exchanger. CoRR abs/2302.05607 (2023) - [i65]Mohammad B. Khreishah, Walter C. Daugherity, Laszlo B. Kish:
XOR and XNOR gates in instantaneous noise based logic. CoRR abs/2302.06449 (2023) - [i64]Laszlo B. Kish:
Ternary Instantaneous Noise-based Logic. CoRR abs/2305.00984 (2023) - [i63]Shahriar Ferdous, Laszlo B. Kish:
Transient Attacks against the VMG-KLJN Secure Key Exchanger. CoRR abs/2309.04899 (2023) - [i62]Laszlo B. Kish:
Crypto analysis of the key distribution scheme using noise-free resistances. CoRR abs/2312.00031 (2023) - 2022
- [i61]Laszlo B. Kish:
Time synchronization protocol for the KLJN secure key exchange scheme. CoRR abs/2207.05675 (2022) - [i60]Shahriar Ferdous, Christiana Chamon, Laszlo B. Kish:
Current injection and voltage insertion attacks against the VMG-KLJN secure key exchanger. CoRR abs/2210.05121 (2022) - 2021
- [i59]Christiana Chamon
, Laszlo B. Kish:
Perspective - On the thermodynamics of perfect unconditional security. CoRR abs/2105.12592 (2021) - [i58]Christiana Chamon
Nonlinearity Attack against the Kirchhoff-Law-Johnson-Noise (KLJN) Secure Key Exchange Protocol. CoRR abs/2108.09370 (2021) - [i57]Jiaao Song, Laszlo B. Kish:
From cold resistor to secure key exchanger. CoRR abs/2110.01137 (2021) - [i56]Christiana Chamon, Shahriar Ferdous, Laszlo B. Kish:
Statistical Random Number Generator Attack against the Kirchhoff-Law-Johnson-Noise (KLJN) Secure Key Exchange Protocol. CoRR abs/2110.03088 (2021) - 2020
- [j14]Graziella Scandurra
Fluctuation-Enhanced Sensing. J. Sensors 2020: 6108347:1-6108347:2 (2020) - [i55]Mutaz Y. Melhem, Laszlo B. Kish:
Man in the middle and current injection attacks against the KLJN key exchanger compromised by DC sources. CoRR abs/2004.03369 (2020) - [i54]Christiana Chamon
Random Number Generator Attack against the Kirchhoff-Law-Johnson-Noise Secure Key Exchange Protocol. CoRR abs/2005.10429 (2020) - [i53]Mutaz Y. Melhem, Christiana Chamon
AC Loop Current Attacks Against The KLJN Secure Key Exchange Scheme. CoRR abs/2005.11002 (2020) - [i52]Shahriar Ferdous, Christiana Chamon
Comments on the "Generalized" KLJN Key Exchanger with Arbitrary Resistors: Power, Impedance, Security. CoRR abs/2010.04280 (2020) - [i51]Christiana Chamon
Deterministic Random Number Generator Attack against the Kirchhoff-Law-Johnson-Noise Secure Key Exchange Protocol. CoRR abs/2012.02848 (2020)
2010 – 2019
- 2019
- [i50]Laszlo B. Kish, Walter Daugherity:
Entanglement, and unsorted database search in noise-based logic. CoRR abs/1905.03162 (2019) - [i49]Mutaz Y. Melhem, Laszlo B. Kish:
Generalized DC loop current attack against the KLJN secure key exchange scheme. CoRR abs/1910.00974 (2019) - 2018
- [c6]Chiman Kwan
Unconditionally Secure Control and Diagnostic Systems. IECON 2018: 5686-5691 - [c5]Chiman Kwan
Low Cost and Unconditionally Secure Communications for Complex UAS Networks. IECON 2018: 5895-5900 - [i48]Laszlo B. Kish, Walter Daugherity:
Noise-based logic gates by operations on the reference system. CoRR abs/1803.09671 (2018) - [i47]Mutaz Y. Melhem, Laszlo B. Kish:
A Static-Loop-Current Attack against the KLJN Secure Key Exchange System. CoRR abs/1806.05596 (2018) - 2017
- [b1]Laszlo B. Kish:
The Kish Cypher - The Story of KLJN for Unconditional Security. WorldScientific 2017, ISBN 9789814449458, pp. 1-464 - [j13]Dima Grigoriev, Laszlo B. Kish, Vladimir Shpilrain
Yao's Millionaires' Problem and Public-Key Encryption Without Computational Assumptions. Int. J. Found. Comput. Sci. 28(4): 379-390 (2017) - [j12]Bruce Zhang, Laszlo Bela Kish, Claes-Göran Granqvist:
Drawing from hats by noise-based logic. Int. J. Parallel Emergent Distributed Syst. 32(3): 244-251 (2017) - [i46]Kyle Sundqvist, Laszlo B. Kish:
Is the memristor always a passive device? CoRR abs/1703.09064 (2017) - 2016
- [j11]Jia Lee, Ferdinand Peper, Sorin Dan Cotofana, Makoto Naruse, Motoichi Ohtsu, Tadashi Kawazoe, Yasuo Takahashi, Tetsuya Shimokawa, Laszlo B. Kish, Tohru Kubota:
Brownian Circuits: Designs. Int. J. Unconv. Comput. 12(5-6): 341-362 (2016) - [i45]Laszlo B. Kish, Claes-Goran Granqvist, Sunil P. Khatri, Ferdinand Peper:
Response to "Comment on 'Zero and negative energy dissipation at information-theoretic erasure'". CoRR abs/1602.02638 (2016) - [i44]Laszlo Bela Kish, Kamran Entesari, Claes-Goran Granqvist, Chiman Kwan:
Unconditionally secure credit/debit card chip scheme and physical unclonable function. CoRR abs/1605.02355 (2016) - [i43]Laszlo Bela Kish, Claes-Goran Granqvist:
Comments On "A New Transient Attack On The Kish Key Distribution System". CoRR abs/1606.02697 (2016) - [i42]Laszlo B. Kish:
Comments on "sub-KBT micro-electromechanical irreversible logic gate". CoRR abs/1606.09493 (2016) - 2015
- [j10]Elias Gonzalez, Robert S. Balog, Laszlo B. Kish:
Resource Requirements and Speed versus Geometry of Unconditionally Secure Physical Key Exchanges. Entropy 17(4): 2010-2024 (2015) - [j9]Hsien-Pu Chen, Elias Gonzalez, Yessica Saez, Laszlo B. Kish:
Cable Capacitance Attack against the KLJN Secure Key Exchange. Inf. 6(4): 719-732 (2015) - [i41]Elias Gonzalez, Robert S. Balog, Laszlo B. Kish:
Resource requirements and speed versus geometry of unconditionally secure physical key exchanges. CoRR abs/1504.06541 (2015) - [i40]Laszlo B. Kish, Claes-Göran Granqvist, Sunil P. Khatri, Ferdinand Peper:
Zero and negative energy dissipation at information-theoretic erasure. CoRR abs/1507.08906 (2015) - [i39]Hsien-Pu Chen, Elias Gonzalez, Yessica Saez, Laszlo B. Kish:
Cable Capacitance Attack against the KLJN Secure Key Exchange. CoRR abs/1508.02984 (2015) - [i38]Laszlo Bela Kish, Claes-Goran Granqvist:
Random-resistor-random-temperature KLJN key exchange. CoRR abs/1509.08150 (2015) - [i37]Bruce Zhang, Laszlo B. Kish, Claes-Goran Granqvist:
Drawing from hats by noise-based logic. CoRR abs/1511.03552 (2015) - [i36]Elias Gonzalez, Laszlo B. Kish:
Key Exchange Trust Evaluation in Peer-to-Peer Sensor Networks with Unconditionally Secure Key Exchange. CoRR abs/1511.06795 (2015) - [i35]Hsien-Pu Chen, Muneer Mohammad, Laszlo B. Kish:
Current Injection Attack against the KLJN Secure Key Exchange. CoRR abs/1512.03685 (2015) - 2014
- [j8]Laszlo B. Kish, Claes-Göran Granqvist:
Elimination of a Second-Law-Attack, and All Cable-Resistance-Based Attacks, in the Kirchhoff-Law-Johnson-Noise (KLJN) Secure Key Exchange System. Entropy 16(10): 5223-5231 (2014) - [j7]Laszlo B. Kish, Claes-Göran Granqvist:
On the security of the Kirchhoff-law-Johnson-noise (KLJN) communicator. Quantum Inf. Process. 13(10): 2213-2219 (2014) - [i34]Yessica Saez, Xiaolin Cao, Laszlo B. Kish, G. Pesti:
Securing vehicle communication systems by the KLJN key exchange protocol. CoRR abs/1404.1900 (2014) - [i33]Hsien-Pu Chen, Laszlo B. Kish, Claes-Goran Granqvist, Gabor Schmera:
Do electromagnetic waves exist in a short cable at low frequencies? What does physics say? CoRR abs/1404.4664 (2014) - [i32]Hsien-Pu Chen, Laszlo B. Kish, Claes-Goran Granqvist, Gabor Schmera:
On the "cracking" scheme in the paper "A directional coupler attack against the Kish key distribution system" by Gunn, Allison and Abbott. CoRR abs/1405.2034 (2014) - [i31]Laszlo B. Kish, Claes-Goran Granqvist:
Elimination of a Second-Law-attack, and all cable-resistance-based attacks, in the Kirchhoff-law-Johnson-noise (KLJN) secure key exchange system. CoRR abs/1406.5179 (2014) - [i30]Laszlo B. Kish, Derek Abbott, Claes-Goran Granqvist, He Wen:
Facts, myths and fights about the KLJN classical physical key exchanger. CoRR abs/1408.4069 (2014) - [i29]Laszlo B. Kish, Claes-Goran Granqvist, Tamás Horváth, Andreas Klappenecker, He Wen, Sergey M. Bezrukov:
Bird's-eye view on Noise-Based Logic. CoRR abs/1408.4076 (2014) - [i28]Laszlo B. Kish, Claes-Goran Granqvist, Sergey M. Bezrukov, Tamás Horváth:
Brain: Biological noise-based logic. CoRR abs/1408.4077 (2014) - [i27]Laszlo B. Kish:
Enhanced usage of keys obtained by physical, unconditionally secure distributions. CoRR abs/1408.5800 (2014) - [i26]Xiaolin Cao, Yessica Saez, G. Pesti, Laszlo B. Kish:
On KLJN-based secure key distribution in vehicular communication networks. CoRR abs/1409.5911 (2014) - [i25]Laszlo B. Kish, Zoltan Gingl, Robert Mingesz, Gergely Vadai, Janusz M. Smulko, Claes-Goran Granqvist:
Analysis of an attenuator artifact in an experimental attack by Gunn-Allison-Abbott against the Kirchhoff-law-Johnson-noise (KLJN) secure key exchange system. CoRR abs/1411.0818 (2014) - 2013
- [j6]Laszlo B. Kish, Claes-Goran Granqvist:
Does information have mass? [Point of View]. Proc. IEEE 101(9): 1895-1899 (2013) - [i24]Laszlo B. Kish:
Enhanced secure key exchange systems based on the Johnson-noise scheme. CoRR abs/1302.3901 (2013) - [i23]Elias Gonzalez, Laszlo B. Kish, Robert S. Balog, Prasad Enjeti:
Information theoretically secure, enhanced Johnson noise based key distribution over the smart grid with switched filters. CoRR abs/1303.3262 (2013) - [i22]Laszlo B. Kish, Chiman Kwan:
Physical uncloneable function hardware keys utilizing Kirchhoff-law-Johnson-noise secure key exchange and noise-based logic. CoRR abs/1305.3248 (2013) - [i21]Yessica Saez, Laszlo B. Kish:
Errors and their mitigation at the Kirchhoff-law-Johnson-noise secure key exchange. CoRR abs/1305.4787 (2013) - [i20]Laszlo B. Kish, Derek Abbott, Claes-Goran Granqvist:
Critical analysis of the Bennett-Riedel attack on secure cryptographic key distributions via the Kirchhoff-law-Johnson-noise scheme. CoRR abs/1306.6531 (2013) - [i19]Yessica Saez, Laszlo B. Kish, Robert Mingesz, Zoltan Gingl, Claes-Goran Granqvist:
Current and voltage based bit errors and their combined mitigation for the Kirchhoff-law-Johnson-noise secure key exchange. CoRR abs/1309.2179 (2013) - [i18]Laszlo B. Kish, Claes-Goran Granqvist:
On the security of the Kirchhoff-law-Johnson-noise (KLJN) communicator. CoRR abs/1309.4112 (2013) - [i17]Laszlo B. Kish:
Times in noise-based logic: increased dimensions of logic hyperspace. CoRR abs/1312.0309 (2013) - 2012
- [j5]Laszlo B. Kish, Ferdinand Peper:
Information Networks Secured by the Laws of Physics. IEICE Trans. Commun. 95-B(5): 1501-1507 (2012) - [c4]He Wen, Laszlo B. Kish:
Noise based logic: Why noise? ICCAD 2012: 152-155 - [c3]Robert Mingesz, Laszlo B. Kish, Zoltan Gingl, Claes-Goran Granqvist, He Wen
Information Theoretic Security by the Laws of Classical Physics - (Plenary Paper). SOFA 2012: 11-25 - [i16]Laszlo B. Kish, He Wen:
Noise based logic: why noise? A comparative study of the necessity of randomness out of orthogonality. CoRR abs/1204.2545 (2012) - [i15]He Wen, Laszlo B. Kish, Gabor Schmera:
High-dimensional noise-based logical controller. CoRR abs/1204.3318 (2012) - [i14]Robert Mingesz, Laszlo B. Kish, Zoltan Gingl, Claes-Goran Granqvist, He Wen, Ferdinand Peper, T. Eubanks, Gabor Schmera:
Information theoretic security by the laws of classical physics. CoRR abs/1206.2534 (2012) - 2011
- [j4]Laszlo B. Kish, Sunil P. Khatri, Sergey M. Bezrukov, Ferdinand Peper, Zoltan Gingl, Tamás Horváth:
Noise-based Deterministic Logic and Computing: a Brief Survey. Int. J. Unconv. Comput. 7(1-2): 101-113 (2011) - [i13]Tamás Horváth, Laszlo B. Kish, Jacob Scheuer:
Effective Privacy Amplification for Secure Classical Communications. CoRR abs/1101.4264 (2011) - [i12]Laszlo B. Kish, Sunil P. Khatri, Sergey M. Bezrukov, Ferdinand Peper, Zoltan Gingl, Tamás Horváth:
Noise-based information processing: Noise-based logic and computing: what do we have so far? CoRR abs/1102.2256 (2011) - [i11]Laszlo B. Kish, Ferdinand Peper:
Information Networks Secured by the Laws of Physics. CoRR abs/1110.4367 (2011) - [i10]He Wen, Laszlo B. Kish, Andreas Klappenecker, Ferdinand Peper:
New noise-based logic representations to avoid some problems with time complexity. CoRR abs/1111.3859 (2011) - 2010
- [j3]Hung-Chih Chang, Laszlo B. Kish, Maria D. King, Chiman Kwan
Binary Fingerprints at Fluctuation-Enhanced Sensing. Sensors 10(1): 361-373 (2010) - [c2]Kalyana C. Bollapalli, Sunil P. Khatri, Laszlo B. Kish:
Implementing digital logic with sinusoidal supplies. DATE 2010: 315-318 - [i9]Zoltan Gingl, Sunil P. Khatri, Laszlo B. Kish:
Towards brain-inspired computing. CoRR abs/1003.3932 (2010) - [i8]Laszlo B. Kish, Sunil P. Khatri, Ferdinand Peper:
Instantaneous noise-based logic. CoRR abs/1004.2652 (2010) - [i7]Laszlo B. Kish, Sunil P. Khatri, Tamás Horváth:
Computation using Noise-based Logic: Efficient String Verification over a Slow Communication Channel. CoRR abs/1005.1560 (2010) - [i6]Laszlo B. Kish, Sunil P. Khatri, Sergey M. Bezrukov, Ferdinand Peper, Zoltan Gingl, Tamás Horváth:
Noise-based deterministic logic and computing: a brief survey. CoRR abs/1007.5282 (2010) - [i5]Ferdinand Peper, Laszlo B. Kish:
Instantaneous, non-squeezed, noise-based logic. CoRR abs/1012.3531 (2010)
2000 – 2009
- 2009
- [c1]Laszlo B. Kish, Sergey M. Bezrukov, Sunil P. Khatri, Zoltan Gingl, S. Sethuraman:
Noise-Based Logic and Computing: From Boolean Logic Gates to Brain Circuitry and Its Possible Hardware Realization. IWNC 2009: 13-22 - [i4]Laszlo B. Kish, Tamás Horváth:
Notes on Recent Approaches Concerning the Kirchhoff-Law-Johnson-Noise-based Secure Key Exchange. CoRR abs/0903.2071 (2009) - [i3]Lazar L. Kish, Bruce Zhang, Laszlo B. Kish:
Cracking the Liu key exchange protocol in its most secure state with Lorentzian spectra. CoRR abs/0910.0665 (2009) - [i2]Laszlo B. Kish:
Absolutely Secure Communications by Johnson-like Noise and Kirchhoff's Laws. CoRR abs/0912.3503 (2009) - 2008
- [i1]Laszlo B. Kish:
Unconditionally secure computers and hardware, such as memories, processors, and hard drives. CoRR abs/0803.4479 (2008) - 2005
- [j2]Julio Gea-Banacloche, Laszlo B. Kish:
Future Directions in Electronic Computing and Information Processing. Proc. IEEE 93(10): 1858-1863 (2005) - 2003
- [j1]Derek Abbott, Charles R. Doering, Carlton M. Caves
Dreams Versus Reality: Plenary Debate Session on Quantum Computing. Quantum Inf. Process. 2(6): 449-472 (2003)
Coauthor Index
Claes-Goran Granqvist
aka: Claes-Göran Granqvist
aka: Claes-Göran Granqvist
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