Literaturverzeichnis

Total Page:16

File Type:pdf, Size:1020Kb

Literaturverzeichnis Literaturverzeichnis [1] Francine Berman. Edge grammars and parallel computation. In Proceedings of the Al- lerton Conference on Communication, Control, and Computing, pages 214–223, 1983. [2] Francine Berman and Gregory Shannon. Edge grammars: Formal languages and deci- dability issues. In Proceedings of the Allerton Conference on Communication, Control, and Computing, pages 921–930, 1983. [3] Francine Berman and Gregory Shannon. Representing graph families with edge gram- mars. Information Sciences, 70:241–269, 1993. [4] Francine Berman and Lawrence Snyder. On mapping parallel algorithms into parallel architectures. Journal of Parallel and Distributed Computing, 4:439–458, 1987. [5] Jean Berstel and Christophe Reutenauer. Rational Series and Their Languages. Springer-Verlag, Berlin–Heidelberg, 1988. [6] Bruno Courcelle. Graph rewriting: An algebraic and logic approach. In Jan van Leeuwen, editor, Handbook of Theoretical Computer Science, volume B, chapter 5, pages 193–242. Elsevier, 1990. [7] J. Dassow, G. Pˇaun, and A. Salomaa. On thinness and slenderness of L languages. Bulletin of the European Association for Theoretical Computer Science, 49:152–158, February 1993. Technical Contributions. [8] Jurgen¨ Dassow. Decision problems for edge grammars. In Mathematical Foundations of Computer Science 1994 (LNCS 841), pages 286–295, 1994. [9] Jurgen¨ Dassow and Gheorghe P˘aun. Regulated Rewriting in Formal Language Theory. Springer-Verlag, Berlin, 1989. [10] Frank Drewes, Annegret Habel, and Hans-J¨org Kreowski. Hyperedge replacement graph grammars. In Grzegorz Rozenberg, editor, Handbook of Graph Grammars and Computing by Graph Transformation, volume 1, pages 95–162. World Scientific, Sin- gapore, 1997. [11] Heinz-Dieter Ebbinghaus, J¨org Flum und Wolfgang Thomas. Einf¨uhrung in die ma- thematische Logik. Spektrum Akademischer Verlag, Heidelberg–Berlin–Oxford, 1996. 95 Literaturverzeichnis 96 [12] Grzegorz Rozenberg (editor). Handbook of Graph Grammars and Computing by Graph Transformation, volume 1. World Scientific, Singapore, 1997. [13] Joost Engelfriet. Context-free graph grammars. In Grzegorz Rozenberg and Arto Salomaa, editors, Handbook of Formal Languages, volume 3, pages 125–213. Springer- Verlag, Berlin–Heidelberg–New York, 1997. [14] Joost Engelfriet and Grzegorz Rozenberg. Node replacement graph grammars. In Grzegorz Rozenberg, editor, Handbook of Graph Grammars and Computing by Graph Transformation, volume 1, pages 1–94. World Scientific, Singapore, 1997. [15] Henning Fernau and Ralf Stiebe. Regulation by valences. In Igor Pr´ıvara and Peter Ruˇziˇcka, editors, Mathematical Foundations of Computer Science 1997, pages 239– 248, 1997. [16] Sheila A. Greibach. Remarks on blind and partially blind one-way multicounter ma- chines. Theoretical Computer Science, 7:311–324, 1978. [17] Annegret Habel. Hyperedge Replacement Grammars and Languages. Number 643 in LNCS. Springer-Verlag, Berlin–Heidelberg–New York, 1992. [18] John Hopcroft and Jeffrey Ullman. Einf¨uhrung in die Automatentheorie, formale Sprachen und Komplexit¨atstheorie. Addison Wesley, Bonn–Reading(Mass.), 1979. [19] O. H. Ibarra, S. K. Sahni, and C. E. Kim. Finite automata with multiplication. Theoretical Computer Science, 2:271–296, 1976. [20] Oscar H. Ibarra. Restricted one-counter machines with undecidable universe problems. Mathematical Systems Theory, 13:181–186, 1979. [21] Lucian Ilie. On a conjecture about slender context-free languages. Theoretical Com- puter Science, 132:427–434, 1994. [22] Lucian Ilie. On lengths of words in context-free languages. Technical Report 137, TUCS - Turku Centre for Computer Science, 1997. [23] Dirk Janssens and Grzegorz Rozenberg. On the stucture of node label controlled graph languages. Information Sciences, 20:191–216, 1980. [24] Dirk Janssens, Grzegorz Rozenberg, and R. Verraedt. On sequential and parallel node- rewriting graph grammars I. Computer Graphics and Image Processing, 18:279–304, 1982. [25] Dirk Janssens, Grzegorz Rozenberg, and R. Verraedt. On sequential and parallel node- rewriting graph grammars II. Computer Vision, Graphics, and Image Processing, 23:295–312, 1983. Literaturverzeichnis 97 [26] Victor Mitrana. Valence grammars on a free generated group. EATCS Bulletin, 47:174–179, 1992. [27] Victor Mitrana and Ralf Stiebe. The accepting power of finite automata over groups. In G. P˘aun and A. Salomaa, editors, New Trends in Formal Languages, pages 39–48, 1997. [28] Gheorghe P˘aun. A new generative device: Valence grammars. Rev. Roum. Math. Pures Applic., 1980. [29] D. Raz. Length considerations in context-free languages. Theoretical Computer Science, 183(1):21–32, August 1997. [30] V. Red’ko and L. Lisovik. Regular events in semigroups (in Russian). Problems of Cybernetics, 37:155–184, 1980. [31] Hans-Joachim R¨oder. Parallele BNLC-Graphgrammatiken. Dissertation, Universit¨at Passau, 1992. [32] Joseph J. Rotman. An Introduction to the Theory of Groups. Springer-Verlag, New York, 1995. [33] Grzegorz Rozenberg and Arto Salomaa, editors. Handbook of Formal Languages. Springer, Berlin, 1997. [34] Arto Salomaa. Formale Sprachen. Springer, Berlin, 1973. [35] Arto Salomaa and M. Soittola. Automata-Theoretic Aspects of Formal Power Series. Springer-Verlag, New York – Heidelberg – Berlin, 1978. [36] Giorgio Satta. The membership problem for unordered vector grammars. In J. Dassow, G. Rozenberg, and A. Salomaa, editors, Developments in Language Theory II, pages 267–275, 1996. [37] Ralf Stiebe. Slender matrix languages. In Wolfgang Thomas, editor, Developments in Language Theory (Preproceedings), Aachener Informatik-Berichte 99-5, 1999. [38] Sorina Vicolov. Hierarchies of valence languages. In J. Dassow and A. Kelemenova, editors, Developments in Theoretical Computer Science, pages 191–196, Basel, 1994. Gordon and Breach. [39] Sorina Vicolov-Dumitrescu. Grammars, grammar systems, and gsm mappings with valences. In Gheorghe P˘aun, editor, Mathematical Aspects of Natural and Formal Languages, pages 473–491, Singapore, 1994. World Scientific. [40] Lutz Volkmann. Fundamente der Graphentheorie. Springer-Verlag, Wien–New York, 1996..
Recommended publications
  • Handbook of Formal Languages
    Handbook of Formal Languages von Grzegorz Rozenberg, Arto Salomaa 1. Auflage Handbook of Formal Languages – Rozenberg / Salomaa schnell und portofrei erhältlich bei beck-shop.de DIE FACHBUCHHANDLUNG Springer 1997 Verlag C.H. Beck im Internet: www.beck.de ISBN 978 3 540 60420 4 Contents of Volume 1 Chapter 1. Formal Languages: an Introduction and a Synopsis Alexandru Mateescu and Arto Salomaa ............................ 1 1. Languages, formal and natural ................................. 1 1.1 Historical linguistics ...................................... 3 1.2 Language and evolution ................................... 7 1.3 Language and neural structures ............................ 9 2. Glimpses of mathematical language theory ...................... 9 2.1 Words and languages ..................................... 10 2.2 About commuting ........................................ 12 2.3 About stars ............................................. 15 2.4 Avoiding scattered subwords .............................. 19 2.5 About scattered residuals ................................. 24 3. Formal languages: a telegraphic survey ......................... 27 3.1 Language and grammar. Chomsky hierarchy ................. 27 3.2 Regular and context-free languages ......................... 31 3.3 L Systems............................................... 33 3.4 More powerful grammars and grammar systems .............. 35 3.5 Books on formal languages ................................ 36 References ..................................................... 38 Chapter
    [Show full text]
  • A Complete Bibliography of Publications in the Journal of Computer and System Sciences
    A Complete Bibliography of Publications in the Journal of Computer and System Sciences Nelson H. F. Beebe University of Utah Department of Mathematics, 110 LCB 155 S 1400 E RM 233 Salt Lake City, UT 84112-0090 USA Tel: +1 801 581 5254 FAX: +1 801 581 4148 E-mail: [email protected], [email protected], [email protected] (Internet) WWW URL: http://www.math.utah.edu/~beebe/ 26 May 2021 Version 1.04 Title word cross-reference (s; t) [1475]. 0(n) [1160]. 1 [270]. 1 − L [1371, 924]. 12n2 [450]. 2 [3525, 3184, 2191, 1048, 3402, 1500, 3364, 2034, 2993, 834, 2473, 3101]. f2; 3g [2843]. #09111 [1814]. #AM01053M 2pn 1=3 − 2 O(n ) [1862, 1877, 1904]. #better 5X8 els [1856]. 2 [2353]. 2 [445]. 2 [1977]. 3 #better 5X8 els.pdf [1856]. #BIS [3184]. [1920, 2242, 2827, 2374, 1961, 2825, 3240, · #BIS-hardness #CSP 1071, 1133]. 43 [3620]. 4 Log2N [655]. 5=4 [3184]. ∗ 0 #econdirectM [1612]. 8 [2998]. =? [1433]. [858]. [2696, 2908, 2500, 3508]. 1 ∗ NP [1893]. #HA03022M [1860, 1875]. [1625, 3418, 1085]. [1523]. [3194]. NP[O(log n)] p ⊆ PH #HA05062N [1876]. #HA05062O [2235]. [995]. 2 [2235]. [1849, 1861]. #HA06043M [1501]. 2 [3418]. H [1565]. a [426, 289]. [1892, 1871, 1889]. #HA08111M [1846]. A[P (x); 2x; x + 1] [500]. Ax = λBx [377]. b · #P [1195, 3598, 1261, 1264]. [3253]. β [3444]. [3418]. d #praise 5X8 els.pdf [1832]. [2527, 1362, 3256, 3563]. δ [3553]. `p [2154]. #sciencejobs N [1802]. [1551, 2617, 1864, 1693]. g [3312]. h [1019]. K [1320, 2756, 191, 3494, 1300, 1546, 3286, #P [1373].
    [Show full text]
  • The EATCS Award 2020 Laudatio for Toniann (Toni)Pitassi
    The EATCS Award 2020 Laudatio for Toniann (Toni)Pitassi The EATCS Award 2021 is awarded to Toniann (Toni) Pitassi University of Toronto, as the recipient of the 2021 EATCS Award for her fun- damental and wide-ranging contributions to computational complexity, which in- cludes proving long-standing open problems, introducing new fundamental mod- els, developing novel techniques and establishing new connections between dif- ferent areas. Her work is very broad and has relevance in computational learning and optimisation, verification and SAT-solving, circuit complexity and communi- cation complexity, and their applications. The first notable contribution by Toni Pitassi was to develop lifting theorems: a way to transfer lower bounds from the (much simpler) decision tree model for any function f, to a lower bound, the much harder communication complexity model, for a simply related (2-party) function f’. This has completely transformed our state of knowledge regarding two fundamental computational models, query algorithms (decision trees) and communication complexity, as well as their rela- tionship and applicability to other areas of theoretical computer science. These powerful and flexible techniques resolved numerous open problems (e.g., the su- per quadratic gap between probabilistic and quantum communication complex- ity), many of which were central challenges for decades. Toni Pitassi has also had a remarkable impact in proof complexity. She in- troduced the fundamental algebraic Nullstellensatz and Ideal proof systems, and the geometric Stabbing Planes system. She gave the first nontrivial lower bounds on such long-standing problems as weak pigeon-hole principle and models like constant-depth Frege proof systems. She has developed new proof techniques for virtually all proof systems, and new SAT algorithms.
    [Show full text]
  • Arto Salomaa
    Arto Salomaa A Pioneer of Science from Turku Arto Salomaa, A Pioneer of Science 1 / 52 Arto Arto Salomaa, A Pioneer of Science 2 / 52 Turku Cathedral Arto Salomaa, A Pioneer of Science 3 / 52 Proud of his native Turku, in particular of native \Turku language" Never left Turku permanently Proud of Finnish Sauna, in particular of his Salosauna Jealous of those who have never seen \lousy white stuff" Arto & Turku Born in Turku, 1934 Arto Salomaa, A Pioneer of Science 4 / 52 Never left Turku permanently Proud of Finnish Sauna, in particular of his Salosauna Jealous of those who have never seen \lousy white stuff" Arto & Turku Born in Turku, 1934 Proud of his native Turku, in particular of native \Turku language" Arto Salomaa, A Pioneer of Science 4 / 52 Proud of Finnish Sauna, in particular of his Salosauna Jealous of those who have never seen \lousy white stuff" Arto & Turku Born in Turku, 1934 Proud of his native Turku, in particular of native \Turku language" Never left Turku permanently Arto Salomaa, A Pioneer of Science 4 / 52 Jealous of those who have never seen \lousy white stuff" Arto & Turku Born in Turku, 1934 Proud of his native Turku, in particular of native \Turku language" Never left Turku permanently Proud of Finnish Sauna, in particular of his Salosauna Arto Salomaa, A Pioneer of Science 4 / 52 Arto & Turku Born in Turku, 1934 Proud of his native Turku, in particular of native \Turku language" Never left Turku permanently Proud of Finnish Sauna, in particular of his Salosauna Jealous of those who have never seen \lousy white stuff" Arto Salomaa, A Pioneer of Science 4 / 52 Roots in Turku Arto and his father J.E.
    [Show full text]
  • Events and Languages
    Arto Salomaa Professor Arto Salomaa received his Ph.D. in 1960 and has b een Professor of Mathe- matics at the UniversityofTurku since 1965. He has authored more than 400 scienti c publications in ma jor journals, as well as ten b o oks, some of whichhave app eared also in French, German, Japanese, Romanian, Russian, Vietnamese and Chinese transla- tions. Prof. Salomaa holds the degree of do ctor honoris causa at six universities. He has b een an invited sp eaker at numerous conferences in computer science and math- ematics, and a program committee member or chairman for ma jor computer science conferences, including STOC, ICALP,MFCS, FCT. Prof. Salomaa was EATCS Pres- ident 1979-85 and is currently the editor-in-chief of the EATCS Monograph Series published by Springer-Verlag, as well as an editor of eight international journals of Computer Science. Festival conferences \Salo days in Theoretical Computer Science" Bucharest 1992, \Salo days in Auckland" Auckland, NZ, 1994 and \Imp ortant Re- sults and Trends in Theoretical Computer Science" Graz, 1994 have b een arranged in his honor. Prof. Salomaa is a memb er of the Academy of Sciences of Finland, the Swedish Academy of Sciences of Finland and Academia Europaea 92. Currently,heisa Research Professor at the Academy of Finland and the head of the Academy's research pro ject on mathematical structures in computer science. Events and Languages Early computer science It is customary to b egin a pap er with an abstract or a summary. The purp ose of this article is to tell ab out some people and ideas in the early history of computer 254 Salomaa science, roughly up to 1970.
    [Show full text]
  • A Bibliography of Publications in Theoretical Computer Science: 2005–2009
    A Bibliography of Publications in Theoretical Computer Science: 2005{2009 Nelson H. F. Beebe University of Utah Department of Mathematics, 110 LCB 155 S 1400 E RM 233 Salt Lake City, UT 84112-0090 USA Tel: +1 801 581 5254 FAX: +1 801 581 4148 E-mail: [email protected], [email protected], [email protected] (Internet) WWW URL: http://www.math.utah.edu/~beebe/ 14 October 2017 Version 1.15 Title word cross-reference `p [782]. [1183, 729]. F0 [2005]. FS [1741]. H [1823, 1585]. k [1116, 1805, 796, 803, 173, 781, 1961, 1609, 775, 1989, 178, 1310, 630, 1311, 951, 62, 1823, 1809, 2253, 2061, 2003, #CSP [2264]. #P [1788]. 1624, 953, 1226, 1306, 1290, 2007]. k>2 #P-completeness [1788]. [173]. Kmax;Kmin [541]. κ [1836]. L(2; 1) [2243, 1635]. L(d; s) [440]. l1 [961]. λ (1 + 1) [1683]. (1,λ) [115]. (18=11)n [2213]. [2281, 400, 1588, 562]. λµ [1159]. log N (α, β) [2215]. (n; k) [2392, 1557]. (n; t) [1049]. d [547]. LU [1217]. m (p; k) [467]. (r; p) [2357]. $-calculus [1275]. [1760, 1324, 2258, 1745, 1226, 1306]. µ 1 [220, 503]. 2 [187, 400, 589, 359, 101]. n [1425, 2304, 1890, 2253, 2333, 1287, 1302]. d ≥ ≤ [1909, 958, 2079, 1451]. N [1444]. n 30 2 <α 7=3 [2163]. 3 [1628, 1771]. 3:4713 6 1:75 + [2169]. = [789]. O(n ) [2243]. [2387]. 4 [2260]. 5 + [1968]. 5=2 [90]. 5=4 2 ! ∗ ; Ø(n polylogn) [1915]. O(n ) [1553]. [778]. [0; 1] [503]. [58]. [109]. 1 [1543].
    [Show full text]
  • Lecture Notes in Computer Science 812 Edited by G
    Lecture Notes in Computer Science 812 Edited by G. Goos and J. Hartmanis Advisory Board: W. Brauer D. Gries J. Stoer J. Karhum~iki H. Maurer G. Rozenberg (Eds.) Results and Trends in Theoretical Computer Science Colloquium in Honor of Arto Salomaa Graz, Austria, June 10-11, 1994 Proceedings Springer-Verlag Berlin Heidelberg NewYork London Paris Tokyo Hong Kong Barcelona Budapest Series Editors Gerhard Goos Juris Hartmanis Universitiit Karlsruhe CorneU University Postfach 69 80 Department of Computer Science Vincenz-Priessnitz-Stral3e 1 4130 Upson Hall D-76131 Karlsruhe, Germany Ithaca, NY 14853, USA Volume Editors Juliani Karhum~iki Department of Mathematics, University of Turku SF-20500 Turku, Finland Hermann Maurer Institut fiir Grundlagen der Informationsverarbeitung und Computergesttitzte neue Medien, TU Graz SchielSstattgasse 4a, A-8010 Graz, Austria Grzegorz Rozenberg Department of Computer Science, Leiden University P. O. Box 9512, 2300 RA Leiden, The Netherlands CR Subject Classification (1991): F, E.3, G.2-3 ISBN 3-540-58131-6 Springer-Verlag Berlin Heidelberg New York ISBN 0-387-58131-6 Springer-Verlag New York Berlin Heidelberg CIP data applied for This work is subject to copyright. All fights are reserved, whether the whole or part of the material is concemed, specifically the fights of translation, reprinting, re-use of illustrations, recito';~- k.~.~c~ ~ting, reproduction on microfilms or in any other way, and storage in data banks. Duplicntinn of this publication or parts thereof is permitted only under the provisions of the German Copyright Law of September 9, 1965, in its current version, and permission for us~ must always be obtained from Springer-Verlag.
    [Show full text]
  • Concurrency Theory: a Historical Perspective on Coinduction and Process Calculi
    CONCURRENCY THEORY: A HISTORICAL PERSPECTIVE ON COINDUCTION AND PROCESS CALCULI Jos Baeten, Davide Sangiorgi Readers:Luca Aceto and Robert van Glabbeek 1 INTRODUCTION Computer science is a very young science, that has its origins in the middle of the twentieth century. For this reason, describing its history, or the history of an area of research in computer science, is an activity that receives scant attention. The discipline of computer science does not have a clear demarcation, and even its name is a source of debate. Computer science is sometimes called informatics or information science or information and communication science. A quote widely attributed to Edsger Dijkstra is Computer science is no more about computers than astronomy is about telescopes. If computer science is not about computers, what is it about? We claim it is about behavior. This behavior can be exhibited by a computer executing a program, but equally well by a human being performing a series of actions. In general, behavior can be shown by any agent. Here, an agent is simply an entity that can act. So, computer science is about behavior, about processes, about things happening over time. We are concerned with agents that are executing actions, taking input, emitting output, communicating with other agents. Thus, an agent has behavior, e.g., the execution of a software system, the actions of a machine or even the actions of a human being. Behavior is the total of events or actions that an agent can perform, the order in which they can be executed and maybe other aspects of this execution such as timing, probabilities or evolution.
    [Show full text]
  • Derick Wood in Memoriam
    Derick Wood In Memoriam My dear friend and colleague Derick Wood passed away in Waterloo, On- tario, on October 4, after a long and devastating illness. Apart from the loving wife Mary and other family, he will be missed by the theoretical computer sci- ence community all over the world. The respect and appreciation towards Derick’s scientific work became re- cently apparent in the special issue of The Journal of Universal Computer Sci- ence, published on the occasion of Derick’s 70th birthday. The issue appeared also as a book with many pictures. I am sure that the numerous contributors to this issue, as well as other friends and colleagues of Derick, have their own par- ticular memories of this extraordinary person and outstanding scientist. This writing reflects mainly my personal recollections. Derick Wood was born in Lancashire, England, in 1940. He received his BSc and PhD degrees from the University of Leeds, England, in 1963 and 1968, respectively. He was a Postdoctoral Fellow at the Courant Institute, New York University, from 1968 to 1970. This is where I first met Derick, in an Italian restaurant in lower Manhattan in June 1970. We discussed mostly problems concerning context-free parsing but I remember Derick also eagerly awaiting phone calls from McMaster University in Hamilton, Ontario. Very soon after that he joined the Unit of Computer Science at McMaster University, being the Chair of Computer Science from 1979 to 1982. As will be explained below in connection with our MSW work, I stayed numerous times in Derick’s house on Bond Street, enjoying his hospitality.
    [Show full text]
  • Novel Frameworks for Mining Heterogeneous and Dynamic
    Novel Frameworks for Mining Heterogeneous and Dynamic Networks A dissertation submitted to the Graduate School of the University of Cincinnati in partial fulfillment of the requirements for the degree of Doctor of Philosophy in the Department of Electrical and Computer Engineering and Computer Science of the College of Engineering by Chunsheng Fang B.E., Electrical Engineering & Information Science, June 2006 University of Science & Technology of China, Hefei, P.R.China Advisor and Committee Chair: Prof. Anca L. Ralescu November 3, 2011 Abstract Graphs serve as an important tool for discrete data representation. Recently, graph representations have made possible very powerful machine learning algorithms, such as manifold learning, kernel methods, semi-supervised learning. With the advent of large-scale real world networks, such as biological networks (disease network, drug target network, etc.), social networks (DBLP Co- authorship network, Facebook friendship, etc.), machine learning and data mining algorithms have found new application areas and have contributed to advance our understanding of proper- ties, and phenomena governing real world networks. When dealing with real world data represented as networks, two problems arise quite naturally: I) How to integrate and align the knowledge encoded in multiple and heterogeneous networks? For instance, how to find out the similar genes in co-disease and protein-protein inter- action networks? II) How to model and predict the evolution of a dynamic network? A real world exam- ple is, given N years snapshots of an evolving social network, how to build a model that can cap- ture the temporal evolution and make reliable prediction? In this dissertation, we present an innovative graph embedding framework, which identifies the key components of modeling the evolution in time of a dynamic graph.
    [Show full text]
  • A Short Biography of Arto Salomaa CORE Metadata, Citation and Similar Papers at Core.Ac.Uk
    Information and Computation 151, 24 (1999) Article ID inco.1998.2760, available online at http:ÂÂwww.idealibrary.com on A Short Biography of Arto Salomaa CORE Metadata, citation and similar papers at core.ac.uk Provided by Elsevier - Publisher Connector It is a great honourand challengefor me to describe the scientific as well as the personal life of Academy Professor Arto Salomaa. I am fully aware that I can touch only a few facts of his amazing scientific career. Rather than trying to give a complete picture of a highly recognized academy professor, I hope to uncover a few glimpses of the life of a warm and beloved scientist, Arto as he is known by his students and colleagues, or A ija as he is known by his grandchildren. Arto was born in Turku on the sixth of June 1934 to an academic family. His father was a professor of philosophy at Turku University, which became the home university of Arto as well. His son Kai continues the traditions of the family at another home university of Arto in Canada. After graduating in 1954 at Turku University Arto went to Berkeley for graduate studies. He returned to his home town, defended his Ph.D. in 1960, and was appointed professor of mathematics at Turku University in 1966, a position he held for more than 30 years. Approximately half of that time, however, he was an academy professor the most prestigious scientific position in Finland. Turku has always been the home of Arto both scientifically and personally. This, however, has not prevented him from creating several secondary homes abroad.
    [Show full text]
  • Chocolate P Automata
    Carmen Graciani Agustín Riscos-Núñez Gheorghe Pa˘un Grzegorz Rozenberg Arto Salomaa (Eds.) Festschrift Enjoying LNCS 11270 Natural Computing Essays Dedicated to Mario de Jesús Pérez-Jiménez on the Occasion of His 70th Birthday 123 Lecture Notes in Computer Science 11270 Commenced Publication in 1973 Founding and Former Series Editors: Gerhard Goos, Juris Hartmanis, and Jan van Leeuwen Editorial Board David Hutchison Lancaster University, Lancaster, UK Takeo Kanade Carnegie Mellon University, Pittsburgh, PA, USA Josef Kittler University of Surrey, Guildford, UK Jon M. Kleinberg Cornell University, Ithaca, NY, USA Friedemann Mattern ETH Zurich, Zurich, Switzerland John C. Mitchell Stanford University, Stanford, CA, USA Moni Naor Weizmann Institute of Science, Rehovot, Israel C. Pandu Rangan Indian Institute of Technology Madras, Chennai, India Bernhard Steffen TU Dortmund University, Dortmund, Germany Demetri Terzopoulos University of California, Los Angeles, CA, USA Doug Tygar University of California, Berkeley, CA, USA Gerhard Weikum Max Planck Institute for Informatics, Saarbrücken, Germany More information about this series at http://www.springer.com/series/7407 Carmen Graciani • Agustín Riscos-Núñez Gheorghe Păun • Grzegorz Rozenberg Arto Salomaa (Eds.) Enjoying Natural Computing Essays Dedicated to Mario de JesúsPérez-Jiménez on the Occasion of His 70th Birthday 123 Editors Carmen Graciani Grzegorz Rozenberg University of Seville Leiden University Sevilla Leiden Spain The Netherlands Agustín Riscos-Núñez Arto Salomaa University of Seville Turku Centre for Computer Science Sevilla Turku Spain Finland Gheorghe Păun Romanian Academy Bucharest Romania ISSN 0302-9743 ISSN 1611-3349 (electronic) Lecture Notes in Computer Science ISBN 978-3-030-00264-0 ISBN 978-3-030-00265-7 (eBook) https://doi.org/10.1007/978-3-030-00265-7 Library of Congress Control Number: 2018954069 LNCS Sublibrary: SL1 – Theoretical Computer Science and General Issues © Springer Nature Switzerland AG 2018 This work is subject to copyright.
    [Show full text]