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ORCIDFerdinand Peper
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- affiliation: National Institute of Information and Communications Technology, Osaka, Japan
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2020 – today
- 2024
[j45]Kenji Leibnitz
, Ferdinand Peper, Mikio Hasegawa, Naoki Wakamiya:
Performance Evaluation of Asynchronous Pulse Code Multiple Access in Massive IoT Networks. IEEE Access 12: 100515-100528 (2024)- 2023
- [c60]Akihiro Inada, Mizuki Eto, Teijiro Isokawa, Yasuhiro Utsumi, Sho Nakade, Ferdinand Peper:
Brownian Circuits: From Computation to Neural Networks. ASCAT 2023: 23-33 - [c59]Masahiro Kimura, Teijiro Isokawa, Ferdinand Peper, Sho Nakade, Jia Lee, Naotake Kamiura:
On Implementation of Brownian Circuits by Swarm Agents. CANDARW 2023: 114-120 - [c58]Atsushi Nakamura, Ferdinand Peper, Kenji Leibnitz, Naoki Wakamiya, Mikio Hasegawa:
Design and Implementation of a Throughput Improvement Method for Asynchronous Pulse Code Multiple Access. ICUFN 2023: 157-162 - 2022
- [j44]Qin Lei, Tao Li, Jia Lee, Wen-Li Xu, Ferdinand Peper:
Asynchronous communicating cellular automata: Formalization, robustness and equivalence. Inf. Sci. 587: 335-353 (2022) - 2021
- [j43]Ferdinand Peper, Kenji Leibnitz, Chiemi Tanaka, Kentaro Honda, Mikio Hasegawa, Konstantinos Theofilis, Aohan Li, Naoki Wakamiya:
High-Density Resource-Restricted Pulse-Based IoT Networks. IEEE Trans. Green Commun. Netw. 5(4): 1856-1868 (2021) - [c57]Kentaro Honda, Ferdinand Peper, Atsushi Nakamura, Aohan Li, Yusuke Ito, Kenji Leibnitz, Konstantinos Theofilis, Naoki Wakamiya, Mikio Hasegawa:
Design and Implementation of Pulse-Based Protocol with Chirp Spread Spectrum for Massive IoT. ISCIT 2021: 172-175 - [c56]Kenji Leibnitz, Ferdinand Peper, Konstantinos Theofilis, Mikio Hasegawa, Naoki Wakamiya:
Evaluating Multiple-Access Protocols: Asynchronous Pulse Coding vs. Carrier-Sense with Collision Avoidance. MobiQuitous 2021: 693-706 - 2020
- [j42]Tatsuya Yamashita, Teijiro Isokawa, Ferdinand Peper, Ibuki Kawamata, Masami Hagiya:
Turing-completeness of asynchronous non-camouflage cellular automata. Inf. Comput. 274: 104539 (2020) - [j41]Takahiro Tomita, Jia Lee, Teijiro Isokawa, Ferdinand Peper, Takayuki Yumoto, Naotake Kamiura:
Universal logic elements constructed on the Turing Tumble. Nat. Comput. 19(4): 787-795 (2020) - [c55]Ferdinand Peper, Kenji Leibnitz, Konstantinos Theofilis, Mikio Hasegawa, Naoki Wakamiya, Chiemi Tanaka, Jun-nosuke Teramae, Shinya Sekizawa, Aohan Li:
On High-Density Resource-Restricted Pulse-Based IoT Networks. GLOBECOM 2020: 1-6
2010 – 2019
- 2019
- [c54]Qin Lei, Jia Lee, Kenji Leibnitz, Ferdinand Peper:
Robustness of Elementary Cellular Automata to Asynchronous Transitions and Communications. CANDAR Workshops 2019: 228-234 - 2018
- [j40]Teijiro Isokawa, Katsunobu Imai, Nobuyuki Matsui, Ferdinand Peper, Hiroshi Umeo:
Preface. J. Cell. Autom. 13(3): 181-182 (2018) - [j39]Teijiro Isokawa, Ferdinand Peper, Koji Ono, Nobuyuki Matsui:
A universal Brownian cellular automaton with 3 states and 2 rules. Nat. Comput. 17(3): 499-509 (2018) - [c53]Takahiro Tomita, Jia Lee, Teijiro Isokawa, Ferdinand Peper, Naotake Kamiura, Takayuki Yumoto:
Cellular Automaton Model for Turing Tumble Mechanical Computer. CANDAR Workshops 2018: 32-37 - [c52]Jia Lee, Ferdinand Peper, Kenji Leibnitz:
Formalization of Asynchronous Cellular Automata Using Asynchronous Protocol for Communications. CANDAR Workshops 2018: 38-41 - [p3]Teijiro Isokawa, Ferdinand Peper:
Computation and Pattern Formation by Swarm Networks with Brownian Motion. Reversibility and Universality 2018: 221-241 - [p2]Ferdinand Peper, Jia Lee:
On Non-polar Token-Pass Brownian Circuits. Reversibility and Universality 2018: 299-311 - 2017
- [j38]Masami Hagiya, Kazunori Ueda, Ryutaro Ichise, Ferdinand Peper, Satoshi Murata:
Renewal of the Major Fields. New Gener. Comput. 35(2): 125-128 (2017) - [j37]Ferdinand Peper:
The End of Moore's Law: Opportunities for Natural Computing? New Gener. Comput. 35(3): 253-269 (2017) - [c51]Tatsuya Yamashita, Teijiro Isokawa, Ferdinand Peper, Ibuki Kawamata, Masami Hagiya:
Turing-Completeness of Asynchronous Non-camouflage Cellular Automata. AUTOMATA 2017: 187-199 - [c50]Yuta Yamatani, Teijiro Isokawa, Jia Lee, Ferdinand Peper:
On a Triangular Brownian Cellular Automaton with 4 States and 6 Rules. CANDAR 2017: 200-204 - 2016
- [j36]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) - [j35]Ferdinand Peper, Kenji Leibnitz, Jun-nosuke Teramae, Tetsuya Shimokawa, Naoki Wakamiya:
Low-Complexity Nanosensor Networking Through Spike-Encoded Signaling. IEEE Internet Things J. 3(1): 49-58 (2016) - [j34]Jia Lee, Ferdinand Peper, Kenji Leibnitz, Ping Gu:
Characterization of random fluctuation-based computation in cellular automata. Inf. Sci. 352-353: 150-166 (2016) - [c49]Teijiro Isokawa, Ferdinand Peper, Koji Ono, Nobuyuki Matsui:
On a Universal Brownian Cellular Automata with 3 States and 2 Rules. ACRI 2016: 14-23 - [c48]Susumu Adachi, Jia Lee, Ferdinand Peper, Hiroshi Umeo:
Universal 2-State 24-Neighborhood Asynchronous Cellular Automaton with Inner-Independent Open Rule. CANDAR 2016: 202-208 - [c47]Ibuki Kawamata, Takuto Hosoya, Fumi Takabatake, Ken Sugawara, Shin-ichiro M. Nomura, Teijiro Isokawa, Ferdinand Peper, Masami Hagiya, Satoshi Murata:
Pattern Formation and Computation by Autonomous Chemical Reaction Diffusion Model Inspired by Cellular Automata. CANDAR 2016: 215-221 - [c46]Teijiro Isokawa, Ferdinand Peper, Shoji Ishibashi, Toshifumi Minemoto, Nobuyuki Matsui:
An Asynchronous Updating Scheme for a Cellular Logic Memory Array. CANDAR 2016: 254-257 - [c45]Ferdinand Peper, Kenji Leibnitz, Tetsuya Shimokawa, Marie-Ange Remiche:
Average consensus in asymmetric broadcasting wireless sensor networks through gossiping. MobiQuitous (Adjunct Proceedings) 2016: 171-176 - [c44]Teijiro Isokawa, Ferdinand Peper, Ibuki Kawamata, Nobuyuki Matsui, Satoshi Murata, Masami Hagiya:
Universal Totalistic Asynchonous Cellular Automaton and Its Possible Implementation by DNA. UCNC 2016: 182-195 - [i10]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) - 2015
- [j33]Takashi Matsubara, Hiroyuki Torikai, Tetsuya Shimokawa, Kenji Leibnitz, Ferdinand Peper:
A Novel Double Oscillation Model for Prediction of fMRI BOLD Signals without Detrending. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 98-A(9): 1924-1936 (2015) - [j32]Masashi Mori, Teijiro Isokawa, Ferdinand Peper, Nobuyuki Matsui:
Swarm Networks in Brownian Environments. New Gener. Comput. 33(3): 297-318 (2015) - [c43]Teijiro Isokawa, Tadashi Kunieda, Nobuyuki Matsui, Ferdinand Peper:
Reconfiguration in Defect-Tolerant Asynchronous Cellular Automata. CANDAR 2015: 449-452 - [e3]Teijiro Isokawa, Katsunobu Imai, Nobuyuki Matsui, Ferdinand Peper, Hiroshi Umeo:
Cellular Automata and Discrete Complex Systems - 20th International Workshop, AUTOMATA 2014, Himeji, Japan, July 7-9, 2014, Revised Selected Papers. Lecture Notes in Computer Science 8996, Springer 2015, ISBN 978-3-319-18811-9 [contents] - [i9]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) - 2014
- [c42]Kenji Leibnitz, Tetsuya Shimokawa, Ferdinand Peper:
Extracting Transition Rules from a 3-Dimensional Cellular Automaton Representing fMRI Data of a Visual Stimulus Experiment. CANDAR 2014: 457-462 - [c41]Tai-Ran He, Guo-Long Li, Jia Lee, Ferdinand Peper:
Reliable Crossing of Signals in Asynchronous Cellular Automata. CANDAR 2014: 476-479 - [c40]Teijiro Isokawa, Koji Ono, Nobuyuki Matsui, Ferdinand Peper:
Self-Reproducing Loops on Asynchronous Cellular Automata with Aggregate Neighborhood Rules. CANDAR 2014: 480-483 - [c39]Masashi Mori, Teijiro Isokawa, Nobuyuki Matsui, Ferdinand Peper:
On Swarm Networks in Brownian Environments. CANDAR 2014: 495-498 - [c38]Takashi Matsubara, Hiroyuki Torikai, Tetsuya Shimokawa, Kenji Leibnitz, Ferdinand Peper:
A nonlinear model of fMRI BOLD signal including the trend component. IJCNN 2014: 2579-2586 - [c37]Masami Hagiya, Shaoyu Wang, Ibuki Kawamata, Satoshi Murata, Teijiro Isokawa, Ferdinand Peper, Katsunobu Imai:
On DNA-Based Gellular Automata. UCNC 2014: 177-189 - 2013
- [j31]Kenji Leibnitz, Tetsuya Shimokawa, Aya Ihara, Norio Fujimaki, Ferdinand Peper:
On the Topological Changes of Brain Functional Networks under Priming and Ambiguity. IEICE Trans. Commun. 96-B(11): 2741-2748 (2013) - [j30]Ferdinand Peper, Jia Lee, Josep Carmona, Jordi Cortadella, Kenichi Morita:
Brownian Circuits: Fundamentals. ACM J. Emerg. Technol. Comput. Syst. 9(1): 3:1-3:24 (2013) - [c36]Kenji Leibnitz, Tetsuya Shimokawa, Ferdinand Peper, Masayuki Murata:
Maximum entropy based randomized routing in data-centric networks. APNOMS 2013: 1-6 - [c35]Jia Lee, Ferdinand Peper, Katsunobu Imai:
Computing on a Simple Asynchronous Cellular Automaton. CANDAR 2013: 505-509 - [c34]Daichi Takata, Teijiro Isokawa, Ferdinand Peper, Nobuyuki Matsui:
Modeling Chemical Reactions in Protein Synthesis by a Brownian Cellular Automaton. CANDAR 2013: 527-532 - [c33]Ferdinand Peper, Naoki Wakamiya, Akifumi Kasamatsu, Shukichi Tanaka, Kenji Leibnitz, Jun-nosuke Teramae, Katsuyuki Kasai, Akira Otomo:
On Neuro-inspired Wireless Sensor Networks. UIC/ATC 2013: 589-594 - 2012
- [j29]Laszlo B. Kish, Ferdinand Peper:
Information Networks Secured by the Laws of Physics. IEICE Trans. Commun. 95-B(5): 1501-1507 (2012) - [j28]Makoto Naruse, Ferdinand Peper, Kouichi Akahane, Naokatsu Yamamoto, Tadashi Kawazoe, Naoya Tate, Motoichi Ohtsu:
Skew Dependence of Nanophotonic Devices Based on Optical Near-Field Interactions. ACM J. Emerg. Technol. Comput. Syst. 8(1): 4:1-4:12 (2012) - [j27]Alberto Dennunzio, Enrico Formenti, Ferdinand Peper, Hiroshi Umeo:
Foreword: asynchronous cellular automata and nature-inspired computation. Nat. Comput. 11(2): 267-268 (2012) - [j26]Satyajit Sahu, Hiroshi Oono, Subrata Ghosh, Anirban Bandyopadhyay, Daisuke Fujita, Ferdinand Peper, Teijiro Isokawa, Ranjit Pati:
On Cellular Automata rules of molecular arrays. Nat. Comput. 11(2): 311-321 (2012) - [c32]Susumu Adachi, Jia Lee, Ferdinand Peper, Teijiro Isokawa, Katsunobu Imai:
Determining the Critical Temperature of the Continuous-State Game of Life. ACRI 2012: 83-90 - [c31]Daichi Takata, Teijiro Isokawa, Jia Lee, Ferdinand Peper, Nobuyuki Matsui:
On Construction by Worm-Like Agents on a Self-timed Cellular Automaton. ACRI 2012: 575-584 - [c30]Ferdinand Peper:
Simplifying Brownian Cellular Automata: Two States and an Average of Two Rules Per Cell. ICNC 2012: 367-370 - [c29]Saleh Safiruddin, Sorin Cotofana, Ferdinand Peper:
Stigmergic search with single electron tunneling technology based memory enhanced hubs. NANOARCH 2012: 174-180 - [c28]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 - (Plenary Paper). SOFA 2012: 11-25 - [i8]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
- [j25]Jia Lee, Susumu Adachi, Ferdinand Peper:
A Partitioned Cellular Automaton Approach for Efficient Implementation of Asynchronous Circuits. Comput. J. 54(7): 1211-1220 (2011) - [j24]Ferdinand Peper, Teijiro Isokawa, Hiroshi Umeo, Nobuyuki Matsui:
Editoral. Int. J. Unconv. Comput. 7(1-2): 1 (2011) - [j23]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) - [j22]Makoto Naruse, Kenji Leibnitz, Ferdinand Peper, Naoya Tate, Wataru Nomura, Tadashi Kawazoe, Masayuki Murata, Motoichi Ohtsu:
Autonomy in excitation transfer via optical near-field interactions and its implications for information networking. Nano Commun. Networks 2(4): 189-195 (2011) - [i7]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) - [i6]Laszlo B. Kish, Ferdinand Peper:
Information Networks Secured by the Laws of Physics. CoRR abs/1110.4367 (2011) - [i5]Anirban Bandyopadhyay, Ranjit Pati, Satyajit Sahu, Ferdinand Peper, Daisuke Fujita:
Massively parallel computing on an organic molecular layer. CoRR abs/1110.5844 (2011) - [i4]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
- [j21]Ferdinand Peper, Jia Lee, Teijiro Isokawa:
Brownian Cellular Automata. J. Cell. Autom. 5(3): 185-206 (2010) - [c27]Jia Lee, Ferdinand Peper:
Efficient Circuit Construction in Brownian Cellular Automata Based on a New Building-Block for Delay-Insensitive Circuits. ACRI 2010: 356-364 - [c26]Satyajit Sahu, Hiroshi Oono, Subrata Ghosh, Anirban Bandyopadhyay, Daisuke Fujita, Ferdinand Peper, Teijiro Isokawa, Ranjit Pati:
Molecular Implementations of Cellular Automata. ACRI 2010: 650-659 - [p1]Ferdinand Peper, Susumu Adachi, Jia Lee:
Variations on the Game of Life. Game of Life Cellular Automata 2010: 235-255 - [e2]Ferdinand Peper, Hiroshi Umeo, Nobuyuki Matsui, Teijiro Isokawa:
Natural Computing - 4th International Workshop on Natural Computing, IWNC 2009, Himeji, Japan, September 2009, Proceedings. Proceedings in Information and Communications Technology 2, Springer 2010, ISBN 978-4-431-53867-7 [contents] - [i3]Laszlo B. Kish, Sunil P. Khatri, Ferdinand Peper:
Instantaneous noise-based logic. CoRR abs/1004.2652 (2010) - [i2]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) - [i1]Ferdinand Peper, Laszlo B. Kish:
Instantaneous, non-squeezed, noise-based logic. CoRR abs/1012.3531 (2010)
2000 – 2009
- 2009
- [j20]Ferdinand Peper, Jia Lee, Susumu Adachi, Teijiro Isokawa:
Cellular Nanocomputers: A Focused Review. Int. J. Nanotechnol. Mol. Comput. 1(1): 33-49 (2009) - [j19]Teijiro Isokawa, Ferdinand Peper, Shin'ya Kowada, Naotake Kamiura, Nobuyuki Matsui:
A Defect Localization Scheme for Cellular Nanocomputers. New Gener. Comput. 27(2): 85-105 (2009) - [c25]Jia Lee, Ferdinand Peper:
Efficient Computation in Brownian Cellular Automata. IWNC 2009: 72-81 - [c24]Susumu Adachi, Jia Lee, Ferdinand Peper:
Universal 2-State Asynchronous Cellular Automaton with Inner-Independent Transitions. IWNC 2009: 107-116 - [r1]Ferdinand Peper:
Nanocomputers. Encyclopedia of Complexity and Systems Science 2009: 5859-5889 - 2008
- [j18]Josep Carmona, Jordi Cortadella, Yousuke Takada, Ferdinand Peper:
Formal methods for the analysis and synthesis of nanometer-scale cellular arrays. ACM J. Emerg. Technol. Comput. Syst. 4(2): 8:1-8:27 (2008) - [c23]Susumu Adachi, Ferdinand Peper, Jia Lee, Hiroshi Umeo:
Occurrence of Gliders in an Infinite Class of Life-Like Cellular Automata. ACRI 2008: 32-41 - [c22]Teijiro Isokawa, Ferdinand Peper, Masahiko Mitsui, Jian-Qin Liu, Kenichi Morita, Hiroshi Umeo, Naotake Kamiura, Nobuyuki Matsui:
Computing by Swarm Networks. ACRI 2008: 50-59 - [c21]Jia Lee, Ferdinand Peper, Susumu Adachi, Kenichi Morita:
An Asynchronous Cellular Automaton Implementing 2-State 2-Input 2-Output Reversed-Twin Reversible Elements. ACRI 2008: 67-76 - [c20]Tadashi Kunieda, Teijiro Isokawa, Ferdinand Peper, Ayumu Saitoh, Naotake Kamiura, Nobuyuki Matsui:
Reconfiguring Circuits Around Defects in Self-Timed Cellular Automata. ACRI 2008: 200-209 - [c19]Jia Lee, Ferdinand Peper:
On Brownian cellular automata. Automata 2008: 278-291 - [c18]Ferdinand Peper:
Why Noise and Fluctuations Can Make Life Simpler. BIONETICS 2008: 29 - [c17]Saleh Safiruddin, Sorin Dan Cotofana, Ferdinand Peper:
Single Electron Tunneling Delay Insensitive and fluctuation based computation paradigms and circuits. NANOARCH 2008: 69-76 - 2007
- [j17]Jia Lee, Susumu Adachi, Ferdinand Peper:
Reliable Self-Replicating Machines in Asynchronous Cellular Automata. Artif. Life 13(4): 397-413 (2007) - [j16]Teijiro Isokawa, Shin'ya Kowada, Ferdinand Peper, Naotake Kamiura, Nobuyuki Matsui:
Online isolation of defects in cellular nanocomputers. Frontiers Comput. Sci. China 1(4): 397-406 (2007) - [j15]Teijiro Isokawa, Shin'ya Kowada, Yousuke Takada, Ferdinand Peper, Naotake Kamiura, Nobuyuki Matsui:
Defect-Tolerance in Cellular Nanocomputers. New Gener. Comput. 25(2): 171-199 (2007) - [c16]Teijiro Isokawa, Ferdinand Peper, Shin'ya Kowada, Naotake Kamiura, Nobuyuki Matsui:
On Detection and Isolation of Defective Cells in Self-Timed Cellular Automata. IWNC 2007: 90-100 - 2006
- [j14]Yousuke Takada, Teijiro Isokawa, Ferdinand Peper, Nobuyuki Matsui:
Construction universality in purely asynchronous cellular automata. J. Comput. Syst. Sci. 72(8): 1368-1385 (2006) - [c15]Teijiro Isokawa, Shin'ya Kowada, Ferdinand Peper, Naotake Kamiura, Nobuyuki Matsui:
Online Marking of Defective Cells by Random Flies. ACRI 2006: 347-356 - [c14]Ferdinand Peper:
Asynchronous Architectures for Nanometer Scales. ASYNC 2006 - [c13]Josep Carmona, Jordi Cortadella, Yousuke Takada, Ferdinand Peper:
From molecular interactions to gates: a systematic approach. ICCAD 2006: 891-898 - 2005
- [j13]Jia Lee, Susumu Adachi, Ferdinand Peper, Shinro Mashiko:
Delay-insensitive computation in asynchronous cellular automata. J. Comput. Syst. Sci. 70(2): 201-220 (2005) - [j12]Noriaki Kouda, Nobuyuki Matsui, Haruhiko Nishimura, Ferdinand Peper:
Qubit neural network and its learning efficiency. Neural Comput. Appl. 14(2): 114-121 (2005) - [j11]Noriaki Kouda, Nobuyuki Matsui, Haruhiko Nishimura, Ferdinand Peper:
An Examination of Qubit Neural Network in Controlling an Inverted Pendulum. Neural Process. Lett. 22(3): 277-290 (2005) - [j10]Jia Lee, Ferdinand Peper, Susumu Adachi, Shinro Mashiko:
Universal delay-insensitive systems with buffering lines. IEEE Trans. Circuits Syst. I Regul. Pap. 52-I(4): 742-754 (2005) - 2004
- [j9]Susumu Adachi, Jia Lee, Ferdinand Peper:
On Signals in Asynchronous Cellular Spaces. IEICE Trans. Inf. Syst. 87-D(3): 657-668 (2004) - [j8]Nobuyuki Matsui, Teijiro Isokawa, Hiromi Kusamichi, Ferdinand Peper, Haruhiko Nishimura:
Quaternion neural network with geometrical operators. J. Intell. Fuzzy Syst. 15(3-4): 149-164 (2004) - [j7]Jia Lee, Ferdinand Peper, Susumu Adachi, Kenichi Morita:
Universal Delay-Insensitive Circuits with Bidirectional and Buffering Lines. IEEE Trans. Computers 53(8): 1034-1046 (2004) - [c12]Yousuke Takada, Teijiro Isokawa, Ferdinand Peper, Nobuyuki Matsui:
Universal Construction on Self-Timed Cellular Automata. ACRI 2004: 21-30 - [c11]Susumu Adachi, Ferdinand Peper, Jia Lee:
Universality of Hexagonal Asynchronous Totalistic Cellular Automata. ACRI 2004: 91-100 - [c10]Ferdinand Peper, Kazuhiro Oiwa, Susumu Adachi, Chikako Shingyoji, Jia Lee:
Synchronization of Protein Motors Modeled by Asynchronous Cellular Automata. ACRI 2004: 571-580 - 2003
- [j6]Jia Lee, Susumu Adachi, Ferdinand Peper, Kenichi Morita:
Embedding Universal Delay-Insensitive Circuits in Asynchronous Cellular Spaces. Fundam. Informaticae 58(2003): 295-320 (2003) - [c9]Noriaki Kouda, Nobuyuki Matsui, Haruhiko Nishimura, Ferdinand Peper:
Qubit Neural Network and Its Efficiency. KES 2003: 304-310 - [c8]Teijiro Isokawa, Tomoaki Kusakabe, Nobuyuki Matsui, Ferdinand Peper:
Quaternion Neural Network and Its Application. KES 2003: 318-324 - 2002
- [j5]Ferdinand Peper, Teijiro Isokawa, Noriaki Kouda, Nobuyuki Matsui:
Self-Timed Cellular Automata and their computational ability. Future Gener. Comput. Syst. 18(7): 893-904 (2002) - [j4]Teijiro Isokawa, Nobuyuki Matsui, Haruhiko Nishimura, Ferdinand Peper:
Coping with nonstationary environments: a genetic algorithm using neutral variation. IEEE Trans. Syst. Man Cybern. Part A 32(4): 497-504 (2002) - [c7]Jia Lee, Ferdinand Peper, Susumu Adachi, Kenichi Morita, Shinro Mashiko:
Reversible Computation in Asynchronous Cellular Automata. UMC 2002: 220-229 - [e1]Cristian Calude, Michael J. Dinneen, Ferdinand Peper:
Unconventional Models of Computation, Third International Conference, UMC 2002, Kobe, Japan, October 15-19, 2002, Proceedings. Lecture Notes in Computer Science 2509, Springer 2002, ISBN 3-540-44311-8 [contents] - 2000
- [c6]Ferdinand Peper:
Spatial Computing on Self-Timed Cellular Automata. UMC 2000: 202-214
1990 – 1999
- 1998
- [c5]Ferdinand Peper, Michael P. Stryker:
Single-Neuron Hebb Learning Dynamics in the Presence of Inhibitory Autapses. ICONIP 1998: 665-668 - 1997
- [c4]Mehdi N. Shirazi, Ferdinand Peper, Hidefumi Sawai:
Unsupervised Learning of Data Principal Eigenstructure. ICONIP (1) 1997: 612-615 - 1996
- [j3]Ferdinand Peper, Mehdi N. Shirazi:
A categorizing associative memory using an adaptive classifier and sparse coding. IEEE Trans. Neural Networks 7(3): 669-675 (1996) - [j2]Ferdinand Peper, Hideki Noda:
A symmetric linear neural network that learns principal components and their variances. IEEE Trans. Neural Networks 7(4): 1042-1047 (1996) - [c3]Ferdinand Peper, Hideki Noda:
Hebb Learning of Features based on their Information Content. NIPS 1996: 246-252 - 1995
- [c2]Ferdinand Peper, Hideki Noda:
A Mechanism for the Development of Feature Detecting Neurons. ANNES 1995: 59-62 - [c1]Ferdinand Peper, Hideki Noda:
A class of simple nonlinear 1-unit PCA neural networks. ICNN 1995: 285-289 - 1993
- [j1]Ferdinand Peper, Mehdi N. Shirazi, Hideki Noda:
A noise suppressing distance measure for competitive learning neural networks. IEEE Trans. Neural Networks 4(1): 151-153 (1993)
Coauthor Index
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