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{{Other people|Robert Rosen}} | |||
{{Infobox scientist | |||
|name = Robert Rosen | |||
|birth_date = {{Birth date|df=yes|1934|6|27}} | |||
|birth_place = [[Brooklyn]], [[New York]], [[United States]] | |||
|death_date = {{Death date and age|df=yes|1998|12|28|1934|6|27}} | |||
|death_place = [[Rochester, New York]], [[United States]] | |||
|residence = [[United States]] | |||
|citizenship = [[United States|American]] | |||
|nationality = [[United States]] | |||
|fields = [[Mathematical biology]], [[Quantum biology|Quantum genetics]], [[Biophysics]] | |||
|alma_mater = [[University of Chicago]] | |||
|academic_advisors = [[Nicolas Rashevsky]] | |||
|workplaces = [[University at Buffalo, The State University of New York|State University of New York at Buffalo]]<br>[[Dalhousie University]] | |||
|footnotes = [http://www.people.vcu.edu/~mikuleck/bobrosen.gif Dr. Robert Rosen's photo] | |||
}} | |||
'''Robert Rosen''' (June 27, 1934 – December 28, 1998) was an [[United States|American]] theoretical [[biologist]] and Professor of [[Biophysics]] at [[Dalhousie University]].<ref>{{Cite journal | |||
| last1 = Rosen | first1 = Robert | |||
| doi = 10.1007/s10516-006-0001-6 | |||
| title = Autobiographical Reminiscences of Robert Rosen | |||
| journal = Axiomathes | |||
| volume = 16 | |||
| number = 1-2 | |||
| pages = 1–23 | |||
|date=March 2006 | |||
| quote = Complex Systems Biology and Life’s Logic in memory of Robert Rosen | |||
}}<!-- Robert Rosen about his own educational background, his philosophy of science, and his general point of view. --></ref> | |||
==Career== | |||
Rosen was born on June 27, 1934 in [[Brownsville, Brooklyn|Brownsville]] (a section of [[Brooklyn]]), in [[New York City]]. He studied biology, mathematics, physics, philosophy, and history; particularly, the history of science. In 1959 he obtained a PhD in [[relational biology]], a specialization within the broader field of [[Mathematical Biology]], under the guidance of Professor [[Nicolas Rashevsky]] at the [[University of Chicago]]. He remained at the University of Chicago until 1964,<ref name="rosen-enterprises1">[http://www.rosen-enterprises.com/RobertRosen/rrosenautobio.html "Autobiographical Reminiscences of Robert Rosen"].</ref> later moving to the University of Buffalo (now known as the [[State University of New York]] (SUNY)) at [[Buffalo, New York|Buffalo]] on a full associate professorship, while holding a joint appointment at the [[Center for Theoretical Biology]]. | |||
His year-long sabbatical in 1970 as a Visiting Fellow at Robert Hutchins' [[Center for the Study of Democratic Institutions]] in [[Santa Barbara, California|Santa Barbara]], California was seminal, leading to the conception and development of what he later called [[Anticipatory system|Anticipatory Systems]] Theory, itself a corollary of his larger theoretical work on relational complexity. In 1975, he left SUNY at Buffalo and accepted a position at [[Dalhousie University]], in [[Halifax Regional Municipality|Halifax]], [[Nova Scotia]], as a [[Killam Research Professor]] in the Department of Physiology and Biophysics, where he remained until he took early retirement in 1994.<ref>{{Cite web |url=http://communications.medicine.dal.ca/connection/feb1999/rosen.htm |title=In Memory of Dr. Robert Rosen |date=February 1999 |deadurl=no |accessdate=14 November 2013}}</ref> He is survived by his wife, a daughter, Judith Rosen, and two sons. | |||
He served as president of the [[Society for General Systems Research]], (now known as ISSS), in 1980-81. | |||
== Research == | |||
Rosen's research was concerned with the most fundamental aspects of biology, specifically the questions "What is life?" and "Why are living organisms alive?". A few of the major themes in his work were: | |||
* developing a specific definition of [[complexity]] that is based on relations and, by extension, principles of organization | |||
* developing [[Complex system biology|Complex Systems Biology]] from the point of view of Relational Biology as well as Quantum Genetics | |||
* developing a rigorous theoretical foundation for living organisms as "anticipatory systems" | |||
Rosen believed that the contemporary model of physics - which he thought to be based on an outdated [[Cartesian physics|Cartesian]] and [[Classical mechanics|Newtonian]] world of mechanisms - was inadequate to explain or describe the behavior of biological systems; that is, one could not properly answer the fundamental question "''What is life?''" from within a scientific foundation that is entirely [[reductionism|reductionistic]]. Approaching organisms with what he considered to be excessively reductionistic scientific methods and practices sacrifices the whole in order to study the parts. The whole, according to Rosen, could not be recaptured once the biological [[organization]] had been destroyed. By proposing a sound theoretical foundation via relational complexity for studying biological organisation, Rosen held that, rather than biology being a mere subset of the already known physics, it might turn out to provide profound lessons for physics, and also for science in general.<ref>{{Wayback |url=http://www.panmere.com/rosen/rosensum.htm |title=Robert Rosen -- Complexity & Life |date=20080315012840}}</ref> | |||
=== Relational biology === | |||
Rosen's work proposed a methodology that he called ''Relational Biology'' which needs to be developed in addition to the current reductionistic approaches to science by [[molecular biology|molecular biologists]]. ''Relational'' is a term he correctly attributes to [[Nicolas Rashevsky]] who published several papers on the importance of set-theoretical relations<ref>[http://planetphysics.org/encyclopedia/RelationTheory.html Jon Awbrey ''Relation theory'' (the logical approach to relation theory)]</ref> in biology prior to Rosen's first reports on this subject. Rosen's relational approach to Biology is an extension and amplification of Nicolas Rashevsky's treatment of [[n-ary relation]]s in, and among, [[organismic set]]s that he developed over two decades as a representation of both biological and social "organisms". | |||
Rosen’s [[mathematical biology|relational biology]] maintains that organisms, and indeed all systems, have a distinct quality called ''[[organization]]'' which is not part of the language of reductionism, as for example in [[molecular biology]], although it is increasingly employed in [[systems biology]]. It has to do with more than purely structural or material aspects. For example, organization includes all relations between material parts, relations between the effects of interactions of the material parts, and relations with time and environment, to name a few. Many people sum up this aspect of [[complex systems]]<ref>{{Cite journal | |||
| last1 = Baianu | first1 = I. C. | |||
| doi = 10.1007/s10516-005-4204-z | |||
| title = Robert Rosen's Work and Complex Systems Biology | |||
| journal = Axiomathes | |||
| volume = 16 | |||
|number = 1-2 | |||
| pages = 25–34 | |||
|date=March 2006 | |||
| quote = Complex Systems Biology and Life’s Logic in memory of Robert Rosen | |||
}}</ref> by saying that ''the whole is more than the sum of the parts''. Relations between parts and between the effects of interactions must be considered as additional 'relational' parts, in some sense. | |||
Rosen said that [[organization]] must be independent from the material particles which seemingly constitute a [[living system]]. As he put it: | |||
{{quote | The human body completely changes the matter it is made of roughly every 8 weeks, through [[metabolism]], replication and repair. Yet, you're still you --with all your memories, your personality... If science insists on chasing particles, they will follow them right through an [[organism]] and miss the organism entirely. | |||
|Robert Rosen|(as told to his daughter, Ms. Judith Rosen<ref name="rosen-enterprises1"/>)}} | |||
Rosen's abstract relational biology approach focuses on a definition of living organisms, and all [[complex system]]s, in terms of their internal ''organization'' as [[Open system (systems theory)|open system]]s that cannot be reduced to their interacting components because of the multiple relations between metabolic, replication and repair components that govern the organism's complex biodynamics. | |||
He deliberately chose the `simplest' [[graph (mathematics)|graph]]s and categories for his representations of Metabolism-Repair Systems in small categories of sets endowed only with the discrete topology of sets, envisaging this choice as the most general and less restrictive. It turns out however that the categories of <math>(M{,}R)</math>-systems {{clarify|date=September 2013}} are [[Cartesian closed]],<ref>[http://www.people.vcu.edu/~mikuleck/PPRISS3.html Donald C. Mikulecky Robert Rosen: The well posed question and its answer - Why are organisms different from machines?]</ref> and may be considered in a very strict mathematical sense as subcategories of the [[category (mathematics)|category]] of sequential machines or [[automata]]: a somewhat ironical vindication of the French philosopher [[Descartes]]' supposition that all animals are only elaborate machines or ''mechanisms''. The latter, mechanistic view prevails even today in most of general biology, but no longer in [[sociology]] and [[psychology]] where reductionist approaches have failed and fallen out of favour since the early 1970s. | |||
=== Complexity and complex scientific models === | |||
The clarification of the distinction between simple and [[complex system|complex scientific models]] became in later years a major goal of Rosen's published reports. Rosen maintained that modeling is at the very essence of science and thought. His book ''Anticipatory Systems'' {{citation needed|date=September 2013}} describes, in detail, what he termed the ''modeling relation''. He showed the deep differences between a true modeling relation and a [[simulation]], the latter not based on such a modeling relation. | |||
In [[mathematical biology]] he is known as the originator of a [[Class (biology)|class]] of relational models of living [[organism]]s, called <math>(M{,}R)</math>-systems that he devised to capture the minimal capabilities that a material [[system]] would need in order to be one of the simplest ''functional organisms'' that are commonly said to be "alive". In this kind of system, <math>M</math> stands for the metabolic and <math>R</math> stands for the 'repair' subsystems of a simple organism, for example active 'repair' RNA molecules. Thus, his mode for determining or "defining" life in any given system is a functional, not material, mode; although he did consider in his 1970s published reports specific ''dynamic realizations'' of the simplest <math>(M{,}R)</math>-systems in terms of enzymes (<math>M</math>), [[RNA]] (<math>R</math>), and functional, duplicating [[DNA]] (his <math>\beta</math>-mapping). | |||
He went, however, even farther in this direction by claiming that when studying a [[complex system]], one ''"can throw away the matter and study the organization order"'' to learn those things that are essential to defining in general an entire class of systems. This has been, however, taken too literally by a few of his former students who have not completely assimilated Robert Rosen's injunction of the need for a theory of ''dynamic realizations'' of such abstract components in specific molecular form in order to close the modeling loop {{clarify|date=September 2013}} for the simplest functional organisms (such as, for example, single-cell algae or [[microorganisms]]).<ref>Robert Rosen. 1970. ''Dynamical Systems Theory in Biology'', New York: Wiley Interscience.</ref> He supported this claim (that he actually attributed to [[Nicolas Rashevsky]]) based on the fact that living organisms are a class of systems with an extremely wide range of material "ingredients", different structures, different habitats, different modes of living and [[reproduction]], and yet we are somehow able to recognize them all as ''living'', or functional organisms, without being however ''[[vitalism|vitalist]]s''. | |||
His approach, just like Rashevsky's latest theories of [[organismic sets]],<ref>Rashevsky, N.: 1965, "The Representation of Organisms in Terms of (logical) Predicates.", Bulletin of Mathematical Biophysics 27: 477-491.</ref><ref>Rashevsky, N.: 1969, "Outline of a Unified Approach to Physics, Biology and Sociology.", Bulletin of Mathematical Biophysics 31: 159-198.</ref> emphasizes [[biological organization]] over [[molecular structure]] in an attempt to bypass the ''[[structure-functionality relationship]]s'' that are important to all experimental biologists, including [[physiology|physiologists]]. In contrast, a study of the specific material details of any given organism, or even of a type of organisms, will only tell us about how that type of organism "does it". Such a study doesn't approach what is common to all functional organisms, i.e. "life". Relational approaches to theoretical biology would therefore allow us to study organisms in ways that preserve those essential qualities that we are trying to learn about, and that are common only to ''functional'' organisms. | |||
Robert Rosen's approach belongs conceptually to what is now known as [[Functional genomics|Functional Biology]], as well as [[Systems biology|Complex Systems Biology]], ''albeit'' in a highly abstract, mathematical form. | |||
=== Quantum Biochemistry and Quantum Genetics === | |||
Rosen also questioned what he believed to be many aspects of mainstream interpretations of [[biochemistry]] and [[genetics]]. He objects to the idea that functional aspects in biological systems can be investigated via a material focus. One example: Rosen disputes that the functional capability of a biologically active [[protein]] can be investigated purely using the genetically encoded sequence of [[amino acid]]s. This is because, he said, a protein must undergo a process of folding to attain its characteristic three-dimensional shape before it can become functionally active in the system. Yet, only the [[amino acid sequence]] is genetically coded. The mechanisms by which proteins fold are not completely known. He concluded, based on examples such as this, that [[phenotype]] cannot always be directly attributed to [[genotype]] and that the chemically active aspect of a biologically active protein relies on more than the sequence of amino acids, from which it was constructed: there must be some other important factors at work, that he did not however attempt to specify or pin down. | |||
Certain questions about Rosen's mathematical arguments were raised in a paper authored by Christopher Landauer and Kirstie L. Bellman which claimed that some of the mathematical formulations used by Rosen are problematic from a logical viewpoint. It is perhaps worth noting, however, that such issues were also raised long time ago by [[Bertrand Russel]] and [[Alfred North Whitehead]] in their famous ''[[Principia Mathematica]]'' in relation to [[Antinomy|antinomies]] of [[set theory]]. As Rosen's mathematical formulation in his earlier papers was also based on [[set theory]] and the [[category of sets]] such issues have naturally re-surfaced. However, these issues have now been addressed by Robert Rosen in his recent book ''Life, Itself'', published posthumously in 2000. Furthermore, such basic problems of mathematical formulations of '''<math>(M{,}R)</math>'''--systems had already been resolved by other authors as early as 1973 by utilizing the [[Yoneda lemma]] in [[category theory]], and the associated [[functor]]ial construction in categories with (mathematical) structure.<ref>I.C. Baianu: 1973, Some Algebraic Properties of '''<math>(M{,}R)</math>''' - Systems. ''Bulletin of Mathematical Biophysics'' '''35''', 213-217.</ref><ref>I.C. Baianu and M. Marinescu: 1974, A Functorial Construction of '''<math>(M{,}R)</math>'''- Systems. ''Revue Roumaine de Mathematiques Pures et Appliquees'' '''19''': 388-391.</ref> Such general [[category theory|category-theoretic]] extensions of '''<math>(M{,}R)</math>'''-systems that avoid [[Paradoxes of set theory|set theory paradox]]es are based on [[William Lawvere]]'s categorical approach and its extensions to [[higher-dimensional algebra]]. The mathematical and logical extension of '' metabolic-replication systems'' to generalized '''<math>(M{,}R)</math>'''-systems, or ''G-MR'', also involved a series of acknowledged letters exchanged between Robert Rosen and the latter authors during 1967—1980s, as well as letters exchanged with Nicolas Rashevsky up to 1972. | |||
''Life, Itself'' and also his subsequent book ''Essays on Life Itself'', discuss also rather critically certain quantum genetics issues such as those introduced by Erwin Schrödinger in his famous early 1945 book [[What Is Life?]].<ref>''Note, by Judith Rosen, who owns the copyrights to her father's books:'' Some of the confusion is due to known errata introduced into the book, Life, Itself, by the publisher. For example, the diagram that refers to <math>(M{,}R)</math>-Systems has more than one error; errors which do not exist in Rosen's manuscript for the book. These errata were made known to Columbia University Press when the company switched from hardcover to paperback version of the book (in 2006) but the errors were not corrected and remain in the paperback version as well. The book ''Anticipatory Systems; Philosophical, Mathematical, and Methodological Foundations'' has the same diagram, correctly represented.</ref> | |||
== See also == | |||
* [http://users.viawest.net/~keirsey/rosenbiblio.html A Bibliography of Robert Rosen's publications.] | |||
* [[system theory]] | |||
** [http://pespmc1.vub.ac.be/CSTHINK.html Cybernetics and Systems Thinkers] overview by the [[Principia Cybernetica]] Web. | |||
** [[Society for General Systems Research]] | |||
* [[Mathematical biology]] and [[Mathematical biology|Mathematical biophysics]] | |||
** [[Nicolas Rashevsky]] | |||
** [[Category theory]] | |||
** [[Category of sets]] | |||
** [[Society for Mathematical Biology]] | |||
* [[Complex systems]] | |||
** [[systems biology|Complex Systems Biology]] | |||
* [[Quantum biology]] | |||
** [[Quantum mechanics|Quantum Genetics]] | |||
** [[Quantum chemistry|Quantum Biochemistry]] | |||
* [[philosophy of science]] | |||
** [[What Is Life?]] | |||
** [[Ontology]] | |||
** [[Autopoiesis]] | |||
* [[What Is Life?]] | |||
== Publications == | |||
Rosen has written several books and articles. A selection of his published books is as follows: | |||
* 1970, ''Dynamical Systems Theory in Biology'' New York: Wiley Interscience. | |||
* 1970, ''Optimality Principles'', Rosen Enterprises | |||
* 1978, ''Fundamentals of Measurement and Representation of Natural Systems'', Elsevier Science Ltd, | |||
* 1985, ''Anticipatory Systems: Philosophical, Mathematical and Methodological Foundations''. Pergamon Press. | |||
* 1991, ''Life Itself: A Comprehensive Inquiry into the Nature, Origin, and Fabrication of Life'', Columbia University Press | |||
Published posthumously: | |||
* 2000, ''Essays on Life Itself'', Columbia University Press. | |||
* 2003, "Anticipatory Systems; Philosophical, Mathematical, and Methodological Foundations", Rosen Enterprises | |||
* 2003, ''Rosennean Complexity'', Rosen Enterprises. | |||
* 2003, ''The Limits of the Limits Of Science'', Rosen Enterprises | |||
* 2012, "[[Anticipatory Systems; Philosophical, Mathematical, and Methodological Foundations]], 2nd Edition, Springer | |||
== Notes == | |||
{{Reflist}} | |||
==References== | |||
* Baianu, I. C.: 2006, "Robert Rosen's Work and Complex Systems Biology", ''Axiomathes'' '''16'''(1-2):25-34. | |||
* Baianu, I.C.: 1970, "Organismic Supercategories: II. On Multistable Systems.", ''Bulletin of Mathematical Biophysics'', '''32''': 539-561. | |||
* Elsasser, M.W.: 1981, "A Form of Logic Suited for Biology.", In: Robert, Rosen, ed., ''Progress in Theoretical Biology'', Volume '''6''', Academic Press, New York and London, pp 23–62. | |||
* Rashevsky, N.: 1965, "The Representation of Organisms in Terms of (logical) Predicates.", ''Bulletin of Mathematical Biophysics'' '''27''': 477-491. | |||
* Rashevsky, N.: 1969, "Outline of a Unified Approach to Physics, Biology and Sociology.", ''Bulletin of Mathematical Biophysics'' '''31''': 159-198. | |||
* Rosen, R. 1960. "A quantum-theoretic approach to genetic problems.", ''Bulletin of Mathematical Biophysics'', '''22''': 227-255. | |||
* Rosen, R.: 1958a, "A Relational Theory of Biological Systems". ''Bulletin of Mathematical Biophysics'' '''20''': 245-260. | |||
* Rosen, R.: 1958b, "The Representation of Biological Systems from the Standpoint of the Theory of Categories.",'' Bulletin of Mathematical Biophysics'' '''20''': 317-341. | |||
* "''Reminiscences of Nicolas Rashevsky''". (Late) 1972. by Robert Rosen. | |||
== External links == | |||
* [http://proceedings.aip.org/resource/2/apcpcs/627/1/59_1 ''Theoretical Biology: Organisms and Mechanisms''], a paper by Christopher Landauer and Kirstie L. Bellman criticising some of Rosen's mathematical formulations, followed by attempts to improve the formulations. | |||
* [http://planetphysics.org/encyclopedia/RelationTheory.html Jon Awbrey "Relation theory" (the logical approach to relation theory)] | |||
* [http://planetphysics.org/encyclopedia/RobertRosen.html Robert Rosen's Biography] | |||
* [http://www.panmere.com/?page_id=10 Panmere website on Rosennean Complexity]: "''Judith Rosen's website provides free biographical information, discussions of her father's work, and also free reprints of Robert Rosen's work''". | |||
* [http://www.panmere.com/ ''Robert Rosen: Complexity and Life''] A website exploring the work of Rosen. | |||
* [http://www.people.vcu.edu/~mikuleck/PPRISS3.html ''Robert Rosen: The well posed question and its answer: why are organisms different from machines?''] An essay by Donald C. Mikulecky. | |||
* [http://www.people.vcu.edu/~mikuleck/Rosenreq.html Robert Rosen: June 27, 1934 — December 30, 1998] by Aloisius Louie. | |||
* [http://www.rosen-enterprises.com/RobertRosen/rrosenautobio.html Autobiographical Reminiscences of Robert Rosen] | |||
* [http://www.smb.org/ The Society for Mathematical Biology] | |||
* [http://www.springerlink.com/content/fk37800274466085/ "Autobiographical Reminiscences of Robert Rosen", ''Axiomathes'' (2006). Volume '''16''', Numbers 1-2/ March, 2006, {{doi|10.1007/s10516-006-0001-6}}, pages 1-23]; ''Robert Rosen about his own educational background, his philosophy of science, and his general point of view.'' | |||
* [http://www.springerlink.com/content/n8gw445012267381/ "Robert Rosen’s Work and Complex Systems Biology." ''Axiomathes'' (2006) Volume 16, Numbers 1-2 / March, 2006 {{doi|10.1007/s10516-005-4204-z}}, pages 25-34.]- A tribute to Robert Rosen by I.C. Baianu, (Editor of Axiomathes- Special Robert Rosen and Complexity Issue in 2006), Springer: Berlin and New York. | |||
* [http://www.springerlink.com/content/x513p402w52w1128/ "The Bulletin of Mathematical Biophysics"] | |||
{{Society for General Systems Research Presidents}} | |||
{{Persondata <!-- Metadata: see [[Wikipedia:Persondata]]. --> | |||
| NAME = Rosen, Robert | |||
| ALTERNATIVE NAMES = | |||
| SHORT DESCRIPTION = American theoretical biologist | |||
| DATE OF BIRTH = June 27, 1934 | |||
| PLACE OF BIRTH = [[New York]], [[USA]] | |||
| DATE OF DEATH = December 28, 1998 | |||
| PLACE OF DEATH = [[Rochester, New York]], [[United States]] | |||
}} | |||
{{DEFAULTSORT:Rosen, Robert}} | |||
[[Category:1934 births]] | |||
[[Category:1998 deaths]] | |||
[[Category:Dalhousie University faculty]] | |||
[[Category:Systems scientists]] | |||
[[Category:Theoretical biologists]] |
Revision as of 09:27, 26 January 2014
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Template:Infobox scientist
Robert Rosen (June 27, 1934 – December 28, 1998) was an American theoretical biologist and Professor of Biophysics at Dalhousie University.[1]
Career
Rosen was born on June 27, 1934 in Brownsville (a section of Brooklyn), in New York City. He studied biology, mathematics, physics, philosophy, and history; particularly, the history of science. In 1959 he obtained a PhD in relational biology, a specialization within the broader field of Mathematical Biology, under the guidance of Professor Nicolas Rashevsky at the University of Chicago. He remained at the University of Chicago until 1964,[2] later moving to the University of Buffalo (now known as the State University of New York (SUNY)) at Buffalo on a full associate professorship, while holding a joint appointment at the Center for Theoretical Biology.
His year-long sabbatical in 1970 as a Visiting Fellow at Robert Hutchins' Center for the Study of Democratic Institutions in Santa Barbara, California was seminal, leading to the conception and development of what he later called Anticipatory Systems Theory, itself a corollary of his larger theoretical work on relational complexity. In 1975, he left SUNY at Buffalo and accepted a position at Dalhousie University, in Halifax, Nova Scotia, as a Killam Research Professor in the Department of Physiology and Biophysics, where he remained until he took early retirement in 1994.[3] He is survived by his wife, a daughter, Judith Rosen, and two sons.
He served as president of the Society for General Systems Research, (now known as ISSS), in 1980-81.
Research
Rosen's research was concerned with the most fundamental aspects of biology, specifically the questions "What is life?" and "Why are living organisms alive?". A few of the major themes in his work were:
- developing a specific definition of complexity that is based on relations and, by extension, principles of organization
- developing Complex Systems Biology from the point of view of Relational Biology as well as Quantum Genetics
- developing a rigorous theoretical foundation for living organisms as "anticipatory systems"
Rosen believed that the contemporary model of physics - which he thought to be based on an outdated Cartesian and Newtonian world of mechanisms - was inadequate to explain or describe the behavior of biological systems; that is, one could not properly answer the fundamental question "What is life?" from within a scientific foundation that is entirely reductionistic. Approaching organisms with what he considered to be excessively reductionistic scientific methods and practices sacrifices the whole in order to study the parts. The whole, according to Rosen, could not be recaptured once the biological organization had been destroyed. By proposing a sound theoretical foundation via relational complexity for studying biological organisation, Rosen held that, rather than biology being a mere subset of the already known physics, it might turn out to provide profound lessons for physics, and also for science in general.[4]
Relational biology
Rosen's work proposed a methodology that he called Relational Biology which needs to be developed in addition to the current reductionistic approaches to science by molecular biologists. Relational is a term he correctly attributes to Nicolas Rashevsky who published several papers on the importance of set-theoretical relations[5] in biology prior to Rosen's first reports on this subject. Rosen's relational approach to Biology is an extension and amplification of Nicolas Rashevsky's treatment of n-ary relations in, and among, organismic sets that he developed over two decades as a representation of both biological and social "organisms".
Rosen’s relational biology maintains that organisms, and indeed all systems, have a distinct quality called organization which is not part of the language of reductionism, as for example in molecular biology, although it is increasingly employed in systems biology. It has to do with more than purely structural or material aspects. For example, organization includes all relations between material parts, relations between the effects of interactions of the material parts, and relations with time and environment, to name a few. Many people sum up this aspect of complex systems[6] by saying that the whole is more than the sum of the parts. Relations between parts and between the effects of interactions must be considered as additional 'relational' parts, in some sense.
Rosen said that organization must be independent from the material particles which seemingly constitute a living system. As he put it: 31 year-old Systems Analyst Bud from Deep River, spends time with pursuits for instance r/c cars, property developers new condo in singapore singapore and books. Last month just traveled to Orkhon Valley Cultural Landscape.
Rosen's abstract relational biology approach focuses on a definition of living organisms, and all complex systems, in terms of their internal organization as open systems that cannot be reduced to their interacting components because of the multiple relations between metabolic, replication and repair components that govern the organism's complex biodynamics.
He deliberately chose the `simplest' graphs and categories for his representations of Metabolism-Repair Systems in small categories of sets endowed only with the discrete topology of sets, envisaging this choice as the most general and less restrictive. It turns out however that the categories of -systems Template:Clarify are Cartesian closed,[7] and may be considered in a very strict mathematical sense as subcategories of the category of sequential machines or automata: a somewhat ironical vindication of the French philosopher Descartes' supposition that all animals are only elaborate machines or mechanisms. The latter, mechanistic view prevails even today in most of general biology, but no longer in sociology and psychology where reductionist approaches have failed and fallen out of favour since the early 1970s.
Complexity and complex scientific models
The clarification of the distinction between simple and complex scientific models became in later years a major goal of Rosen's published reports. Rosen maintained that modeling is at the very essence of science and thought. His book Anticipatory Systems Potter or Ceramic Artist Truman Bedell from Rexton, has interests which include ceramics, best property developers in singapore developers in singapore and scrabble. Was especially enthused after visiting Alejandro de Humboldt National Park. describes, in detail, what he termed the modeling relation. He showed the deep differences between a true modeling relation and a simulation, the latter not based on such a modeling relation.
In mathematical biology he is known as the originator of a class of relational models of living organisms, called -systems that he devised to capture the minimal capabilities that a material system would need in order to be one of the simplest functional organisms that are commonly said to be "alive". In this kind of system, stands for the metabolic and stands for the 'repair' subsystems of a simple organism, for example active 'repair' RNA molecules. Thus, his mode for determining or "defining" life in any given system is a functional, not material, mode; although he did consider in his 1970s published reports specific dynamic realizations of the simplest -systems in terms of enzymes (), RNA (), and functional, duplicating DNA (his -mapping).
He went, however, even farther in this direction by claiming that when studying a complex system, one "can throw away the matter and study the organization order" to learn those things that are essential to defining in general an entire class of systems. This has been, however, taken too literally by a few of his former students who have not completely assimilated Robert Rosen's injunction of the need for a theory of dynamic realizations of such abstract components in specific molecular form in order to close the modeling loop Template:Clarify for the simplest functional organisms (such as, for example, single-cell algae or microorganisms).[8] He supported this claim (that he actually attributed to Nicolas Rashevsky) based on the fact that living organisms are a class of systems with an extremely wide range of material "ingredients", different structures, different habitats, different modes of living and reproduction, and yet we are somehow able to recognize them all as living, or functional organisms, without being however vitalists.
His approach, just like Rashevsky's latest theories of organismic sets,[9][10] emphasizes biological organization over molecular structure in an attempt to bypass the structure-functionality relationships that are important to all experimental biologists, including physiologists. In contrast, a study of the specific material details of any given organism, or even of a type of organisms, will only tell us about how that type of organism "does it". Such a study doesn't approach what is common to all functional organisms, i.e. "life". Relational approaches to theoretical biology would therefore allow us to study organisms in ways that preserve those essential qualities that we are trying to learn about, and that are common only to functional organisms.
Robert Rosen's approach belongs conceptually to what is now known as Functional Biology, as well as Complex Systems Biology, albeit in a highly abstract, mathematical form.
Quantum Biochemistry and Quantum Genetics
Rosen also questioned what he believed to be many aspects of mainstream interpretations of biochemistry and genetics. He objects to the idea that functional aspects in biological systems can be investigated via a material focus. One example: Rosen disputes that the functional capability of a biologically active protein can be investigated purely using the genetically encoded sequence of amino acids. This is because, he said, a protein must undergo a process of folding to attain its characteristic three-dimensional shape before it can become functionally active in the system. Yet, only the amino acid sequence is genetically coded. The mechanisms by which proteins fold are not completely known. He concluded, based on examples such as this, that phenotype cannot always be directly attributed to genotype and that the chemically active aspect of a biologically active protein relies on more than the sequence of amino acids, from which it was constructed: there must be some other important factors at work, that he did not however attempt to specify or pin down.
Certain questions about Rosen's mathematical arguments were raised in a paper authored by Christopher Landauer and Kirstie L. Bellman which claimed that some of the mathematical formulations used by Rosen are problematic from a logical viewpoint. It is perhaps worth noting, however, that such issues were also raised long time ago by Bertrand Russel and Alfred North Whitehead in their famous Principia Mathematica in relation to antinomies of set theory. As Rosen's mathematical formulation in his earlier papers was also based on set theory and the category of sets such issues have naturally re-surfaced. However, these issues have now been addressed by Robert Rosen in his recent book Life, Itself, published posthumously in 2000. Furthermore, such basic problems of mathematical formulations of --systems had already been resolved by other authors as early as 1973 by utilizing the Yoneda lemma in category theory, and the associated functorial construction in categories with (mathematical) structure.[11][12] Such general category-theoretic extensions of -systems that avoid set theory paradoxes are based on William Lawvere's categorical approach and its extensions to higher-dimensional algebra. The mathematical and logical extension of metabolic-replication systems to generalized -systems, or G-MR, also involved a series of acknowledged letters exchanged between Robert Rosen and the latter authors during 1967—1980s, as well as letters exchanged with Nicolas Rashevsky up to 1972.
Life, Itself and also his subsequent book Essays on Life Itself, discuss also rather critically certain quantum genetics issues such as those introduced by Erwin Schrödinger in his famous early 1945 book What Is Life?.[13]
See also
- A Bibliography of Robert Rosen's publications.
- system theory
- Cybernetics and Systems Thinkers overview by the Principia Cybernetica Web.
- Society for General Systems Research
- Mathematical biology and Mathematical biophysics
- Complex systems
- Quantum biology
- philosophy of science
- What Is Life?
Publications
Rosen has written several books and articles. A selection of his published books is as follows:
- 1970, Dynamical Systems Theory in Biology New York: Wiley Interscience.
- 1970, Optimality Principles, Rosen Enterprises
- 1978, Fundamentals of Measurement and Representation of Natural Systems, Elsevier Science Ltd,
- 1985, Anticipatory Systems: Philosophical, Mathematical and Methodological Foundations. Pergamon Press.
- 1991, Life Itself: A Comprehensive Inquiry into the Nature, Origin, and Fabrication of Life, Columbia University Press
Published posthumously:
- 2000, Essays on Life Itself, Columbia University Press.
- 2003, "Anticipatory Systems; Philosophical, Mathematical, and Methodological Foundations", Rosen Enterprises
- 2003, Rosennean Complexity, Rosen Enterprises.
- 2003, The Limits of the Limits Of Science, Rosen Enterprises
- 2012, "Anticipatory Systems; Philosophical, Mathematical, and Methodological Foundations, 2nd Edition, Springer
Notes
43 year old Petroleum Engineer Harry from Deep River, usually spends time with hobbies and interests like renting movies, property developers in singapore new condominium and vehicle racing. Constantly enjoys going to destinations like Camino Real de Tierra Adentro.
References
- Baianu, I. C.: 2006, "Robert Rosen's Work and Complex Systems Biology", Axiomathes 16(1-2):25-34.
- Baianu, I.C.: 1970, "Organismic Supercategories: II. On Multistable Systems.", Bulletin of Mathematical Biophysics, 32: 539-561.
- Elsasser, M.W.: 1981, "A Form of Logic Suited for Biology.", In: Robert, Rosen, ed., Progress in Theoretical Biology, Volume 6, Academic Press, New York and London, pp 23–62.
- Rashevsky, N.: 1965, "The Representation of Organisms in Terms of (logical) Predicates.", Bulletin of Mathematical Biophysics 27: 477-491.
- Rashevsky, N.: 1969, "Outline of a Unified Approach to Physics, Biology and Sociology.", Bulletin of Mathematical Biophysics 31: 159-198.
- Rosen, R. 1960. "A quantum-theoretic approach to genetic problems.", Bulletin of Mathematical Biophysics, 22: 227-255.
- Rosen, R.: 1958a, "A Relational Theory of Biological Systems". Bulletin of Mathematical Biophysics 20: 245-260.
- Rosen, R.: 1958b, "The Representation of Biological Systems from the Standpoint of the Theory of Categories.", Bulletin of Mathematical Biophysics 20: 317-341.
- "Reminiscences of Nicolas Rashevsky". (Late) 1972. by Robert Rosen.
External links
- Theoretical Biology: Organisms and Mechanisms, a paper by Christopher Landauer and Kirstie L. Bellman criticising some of Rosen's mathematical formulations, followed by attempts to improve the formulations.
- Jon Awbrey "Relation theory" (the logical approach to relation theory)
- Robert Rosen's Biography
- Panmere website on Rosennean Complexity: "Judith Rosen's website provides free biographical information, discussions of her father's work, and also free reprints of Robert Rosen's work".
- Robert Rosen: Complexity and Life A website exploring the work of Rosen.
- Robert Rosen: The well posed question and its answer: why are organisms different from machines? An essay by Donald C. Mikulecky.
- Robert Rosen: June 27, 1934 — December 30, 1998 by Aloisius Louie.
- Autobiographical Reminiscences of Robert Rosen
- The Society for Mathematical Biology
- "Autobiographical Reminiscences of Robert Rosen", Axiomathes (2006). Volume 16, Numbers 1-2/ March, 2006, 21 year-old Glazier James Grippo from Edam, enjoys hang gliding, [http://www.kiddiewink.org/groups/guide-to-new-singapore-property-gross-sales-launches/ industrial property developers in singapore developers in singapore and camping. Finds the entire world an motivating place we have spent 4 months at Alejandro de Humboldt National Park., pages 1-23]; Robert Rosen about his own educational background, his philosophy of science, and his general point of view.
- "Robert Rosen’s Work and Complex Systems Biology." Axiomathes (2006) Volume 16, Numbers 1-2 / March, 2006 21 year-old Glazier James Grippo from Edam, enjoys hang gliding, [http://www.kiddiewink.org/groups/guide-to-new-singapore-property-gross-sales-launches/ industrial property developers in singapore developers in singapore and camping. Finds the entire world an motivating place we have spent 4 months at Alejandro de Humboldt National Park., pages 25-34.]- A tribute to Robert Rosen by I.C. Baianu, (Editor of Axiomathes- Special Robert Rosen and Complexity Issue in 2006), Springer: Berlin and New York.
- "The Bulletin of Mathematical Biophysics"
Template:Society for General Systems Research Presidents
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In its statement, the singapore property listing - website link, government claimed that the majority citizens buying their first residence won't be hurt by the new measures. Some concessions can even be prolonged to chose teams of consumers, similar to married couples with a minimum of one Singaporean partner who are purchasing their second property so long as they intend to promote their first residential property. Lower the LTV limit on housing loans granted by monetary establishments regulated by MAS from 70% to 60% for property purchasers who are individuals with a number of outstanding housing loans on the time of the brand new housing purchase. Singapore Property Measures - 30 August 2010 The most popular seek for the number of bedrooms in Singapore is 4, followed by 2 and three. Lush Acres EC @ Sengkang
Discover out more about real estate funding in the area, together with info on international funding incentives and property possession. Many Singaporeans have been investing in property across the causeway in recent years, attracted by comparatively low prices. However, those who need to exit their investments quickly are likely to face significant challenges when trying to sell their property – and could finally be stuck with a property they can't sell. Career improvement programmes, in-house valuation, auctions and administrative help, venture advertising and marketing, skilled talks and traisning are continuously planned for the sales associates to help them obtain better outcomes for his or her shoppers while at Knight Frank Singapore. No change Present Rules
Extending the tax exemption would help. The exemption, which may be as a lot as $2 million per family, covers individuals who negotiate a principal reduction on their existing mortgage, sell their house short (i.e., for lower than the excellent loans), or take part in a foreclosure course of. An extension of theexemption would seem like a common-sense means to assist stabilize the housing market, but the political turmoil around the fiscal-cliff negotiations means widespread sense could not win out. Home Minority Chief Nancy Pelosi (D-Calif.) believes that the mortgage relief provision will be on the table during the grand-cut price talks, in response to communications director Nadeam Elshami. Buying or promoting of blue mild bulbs is unlawful.
A vendor's stamp duty has been launched on industrial property for the primary time, at rates ranging from 5 per cent to 15 per cent. The Authorities might be trying to reassure the market that they aren't in opposition to foreigners and PRs investing in Singapore's property market. They imposed these measures because of extenuating components available in the market." The sale of new dual-key EC models will even be restricted to multi-generational households only. The models have two separate entrances, permitting grandparents, for example, to dwell separately. The vendor's stamp obligation takes effect right this moment and applies to industrial property and plots which might be offered inside three years of the date of buy. JLL named Best Performing Property Brand for second year running
The data offered is for normal info purposes only and isn't supposed to be personalised investment or monetary advice. Motley Fool Singapore contributor Stanley Lim would not personal shares in any corporations talked about. Singapore private home costs increased by 1.eight% within the fourth quarter of 2012, up from 0.6% within the earlier quarter. Resale prices of government-built HDB residences which are usually bought by Singaporeans, elevated by 2.5%, quarter on quarter, the quickest acquire in five quarters. And industrial property, prices are actually double the levels of three years ago. No withholding tax in the event you sell your property. All your local information regarding vital HDB policies, condominium launches, land growth, commercial property and more
There are various methods to go about discovering the precise property. Some local newspapers (together with the Straits Instances ) have categorised property sections and many local property brokers have websites. Now there are some specifics to consider when buying a 'new launch' rental. Intended use of the unit Every sale begins with 10 p.c low cost for finish of season sale; changes to 20 % discount storewide; follows by additional reduction of fiftyand ends with last discount of 70 % or extra. Typically there is even a warehouse sale or transferring out sale with huge mark-down of costs for stock clearance. Deborah Regulation from Expat Realtor shares her property market update, plus prime rental residences and houses at the moment available to lease Esparina EC @ Sengkang - ↑ "Autobiographical Reminiscences of Robert Rosen".
- ↑ Template:Cite web
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Vendor Pays the Buyer's Dealer Commission via his itemizing agent. Underneath a Purchaser's Broker arrangement, the named brokerage and agent represent the customer. The price paid to the broker mostly is paid by the vendor. Some buyer dealer agreements include clauses that will compensate the brokerage for the price it's due less the quantity paid by the vendor. When I managed to sell a property for my shopper at double fast time and at a really good worth. The worth was higher than most models being bought at the moment. It was a lot of onerous work and naturally Luck performed an enormous part. The Consumer was very very grateful. Sellers pay a 2% commission. May be decrease for more expensive properties. CONTACTING ME We Will Achieve Your Wants And Desires In Actual Estate - ↑ Jon Awbrey Relation theory (the logical approach to relation theory)
- ↑ One of the biggest reasons investing in a Singapore new launch is an effective things is as a result of it is doable to be lent massive quantities of money at very low interest rates that you should utilize to purchase it. Then, if property values continue to go up, then you'll get a really high return on funding (ROI). Simply make sure you purchase one of the higher properties, reminiscent of the ones at Fernvale the Riverbank or any Singapore landed property Get Earnings by means of Renting
In its statement, the singapore property listing - website link, government claimed that the majority citizens buying their first residence won't be hurt by the new measures. Some concessions can even be prolonged to chose teams of consumers, similar to married couples with a minimum of one Singaporean partner who are purchasing their second property so long as they intend to promote their first residential property. Lower the LTV limit on housing loans granted by monetary establishments regulated by MAS from 70% to 60% for property purchasers who are individuals with a number of outstanding housing loans on the time of the brand new housing purchase. Singapore Property Measures - 30 August 2010 The most popular seek for the number of bedrooms in Singapore is 4, followed by 2 and three. Lush Acres EC @ Sengkang
Discover out more about real estate funding in the area, together with info on international funding incentives and property possession. Many Singaporeans have been investing in property across the causeway in recent years, attracted by comparatively low prices. However, those who need to exit their investments quickly are likely to face significant challenges when trying to sell their property – and could finally be stuck with a property they can't sell. Career improvement programmes, in-house valuation, auctions and administrative help, venture advertising and marketing, skilled talks and traisning are continuously planned for the sales associates to help them obtain better outcomes for his or her shoppers while at Knight Frank Singapore. No change Present Rules
Extending the tax exemption would help. The exemption, which may be as a lot as $2 million per family, covers individuals who negotiate a principal reduction on their existing mortgage, sell their house short (i.e., for lower than the excellent loans), or take part in a foreclosure course of. An extension of theexemption would seem like a common-sense means to assist stabilize the housing market, but the political turmoil around the fiscal-cliff negotiations means widespread sense could not win out. Home Minority Chief Nancy Pelosi (D-Calif.) believes that the mortgage relief provision will be on the table during the grand-cut price talks, in response to communications director Nadeam Elshami. Buying or promoting of blue mild bulbs is unlawful.
A vendor's stamp duty has been launched on industrial property for the primary time, at rates ranging from 5 per cent to 15 per cent. The Authorities might be trying to reassure the market that they aren't in opposition to foreigners and PRs investing in Singapore's property market. They imposed these measures because of extenuating components available in the market." The sale of new dual-key EC models will even be restricted to multi-generational households only. The models have two separate entrances, permitting grandparents, for example, to dwell separately. The vendor's stamp obligation takes effect right this moment and applies to industrial property and plots which might be offered inside three years of the date of buy. JLL named Best Performing Property Brand for second year running
The data offered is for normal info purposes only and isn't supposed to be personalised investment or monetary advice. Motley Fool Singapore contributor Stanley Lim would not personal shares in any corporations talked about. Singapore private home costs increased by 1.eight% within the fourth quarter of 2012, up from 0.6% within the earlier quarter. Resale prices of government-built HDB residences which are usually bought by Singaporeans, elevated by 2.5%, quarter on quarter, the quickest acquire in five quarters. And industrial property, prices are actually double the levels of three years ago. No withholding tax in the event you sell your property. All your local information regarding vital HDB policies, condominium launches, land growth, commercial property and more
There are various methods to go about discovering the precise property. Some local newspapers (together with the Straits Instances ) have categorised property sections and many local property brokers have websites. Now there are some specifics to consider when buying a 'new launch' rental. Intended use of the unit Every sale begins with 10 p.c low cost for finish of season sale; changes to 20 % discount storewide; follows by additional reduction of fiftyand ends with last discount of 70 % or extra. Typically there is even a warehouse sale or transferring out sale with huge mark-down of costs for stock clearance. Deborah Regulation from Expat Realtor shares her property market update, plus prime rental residences and houses at the moment available to lease Esparina EC @ Sengkang - ↑ Donald C. Mikulecky Robert Rosen: The well posed question and its answer - Why are organisms different from machines?
- ↑ Robert Rosen. 1970. Dynamical Systems Theory in Biology, New York: Wiley Interscience.
- ↑ Rashevsky, N.: 1965, "The Representation of Organisms in Terms of (logical) Predicates.", Bulletin of Mathematical Biophysics 27: 477-491.
- ↑ Rashevsky, N.: 1969, "Outline of a Unified Approach to Physics, Biology and Sociology.", Bulletin of Mathematical Biophysics 31: 159-198.
- ↑ I.C. Baianu: 1973, Some Algebraic Properties of - Systems. Bulletin of Mathematical Biophysics 35, 213-217.
- ↑ I.C. Baianu and M. Marinescu: 1974, A Functorial Construction of - Systems. Revue Roumaine de Mathematiques Pures et Appliquees 19: 388-391.
- ↑ Note, by Judith Rosen, who owns the copyrights to her father's books: Some of the confusion is due to known errata introduced into the book, Life, Itself, by the publisher. For example, the diagram that refers to -Systems has more than one error; errors which do not exist in Rosen's manuscript for the book. These errata were made known to Columbia University Press when the company switched from hardcover to paperback version of the book (in 2006) but the errors were not corrected and remain in the paperback version as well. The book Anticipatory Systems; Philosophical, Mathematical, and Methodological Foundations has the same diagram, correctly represented.