diff --git a/docker-compose.yml b/docker-compose.yml new file mode 100644 index 0000000..c24c42e --- /dev/null +++ b/docker-compose.yml @@ -0,0 +1,16 @@ +services: + rickview: + image: ghcr.io/konradhoeffner/rickview + environment: + - RICKVIEW_KB_FILE=https://github.com/Onto-Med/GFO/releases/latest/download/gfo.owl + - RICKVIEW_NAMESPACE=http://www.onto-med.de/ontologies/gfo.owl# + - RICKVIEW_BASE=/ontology/gfo + - RICKVIEW_TITLE=GFO + - RICKVIEW_SUBTITLE=General Formal Ontology + - RICKVIEW_EXAMPLES=Category Continuous_process Individual + - RICKVIEW_HOMEPAGE=https://onto-med.github.io/GFO/ + - RICKVIEW_GITHUB=https://github.com/Onto-Med/GFO + - RICKVIEW_DOC=https://onto-med.github.io/GFO/ + ports: + - "127.0.0.1:8080:8080" + restart: unless-stopped diff --git a/gfo-basic.owl b/gfo-basic.owl index eb2bcfe..0bb0199 100644 --- a/gfo-basic.owl +++ b/gfo-basic.owl @@ -1,32 +1,19 @@ - - - - - - - - - -]> - - - - - + Copyright (c) 2006-2008, Regents of the Research Group Ontologies in Medicine (Onto-Med), University of Leipzig, Germany. All rights reserved. @@ -86,9 +73,9 @@ Herre, H.; Heller, B.; Burek, P.; Hoehndorf, R.; Loebe, F. & Michalek, H.. G /////////////////////////////////////////////////////////////////////////////////////// --> - - - + + + @@ -105,7 +92,7 @@ Herre, H.; Heller, B.; Burek, P.; Hoehndorf, R.; Loebe, F. & Michalek, H.. G - + abstract has-part - - + + abstract part-of The abstract part-of relation is denoted by p(x,y); the argument-types of this relation are not specified, i.e. we allow arbitrary entities to be arguments. We assume that p(x,y) satisfies the condition of a partial ordering, .i.e. the following axioms: reflexivity, antisymmetry and transitivity. [RH, 2006 based on herre-h-2006--a, p.44] - + - - + + boundary of "Boundary of" connects boundaries to the entities which they bind. [FL, 2008-02-28] - - + + - - + + coincides with Coincidence is a relationship between space boundaries or time boundaries, respectively. Intuitively, two such boundaries are coincident if and only if they occupy “the same” space, or point in time, but they are still different entities. @@ -154,16 +141,16 @@ Herre, H.; Heller, B.; Burek, P.; Hoehndorf, R.; Loebe, F. & Michalek, H.. G - - + + - - + + @@ -173,131 +160,131 @@ Herre, H.; Heller, B.; Burek, P.; Hoehndorf, R.; Loebe, F. & Michalek, H.. G - - + + depends on This relation captures the notion of existential dependence. [RH, 2006] - + - + exhibits In the GFO-account of persistence, perpetuants exhibit presentials, i.e., the former ``exist through'' the latter at the time where the presential exists. With respect to persistants, presentials instantiate persistants. [FL, 2008-07-10] - - + + - - + + exists at Presentials exist at a single time boundary. - - + + - + framed by A presential is framed by a spatial region if the location which the presential occupies is a spatial part of that region. [FL, 2008-02-27, based on herre-h-2006--a, p. 21] - - - + + + - + frames A spatial region frames a presential if the location which the presential occupies is a spatial part of that region. [FL, 2008-02-27, based on herre-h-2006--a, p. 21] - - + + - - + + has boundary The has-boundary relation connects entities with their boundaries, e.g. chronoids to time boundaries, topoids to surfaces, etc. [FL, 2008-02-28] - + - - - + + + has left time boundary Temporal regions have exactly one extremal left time boundary. [FL, 2008-02-28] - - - + + + - - + + has-part The inverse of part-of. [FL, 2008-02-28] - - + + - + has participant Temporally extended entities have participants. [FL, 2008-02-28] - - + + - + - + @@ -306,174 +293,174 @@ Herre, H.; Heller, B.; Burek, P.; Hoehndorf, R.; Loebe, F. & Michalek, H.. G - - + + has proper part The inverse of proper part-of. [FL 2008-02-28] - - + + - - + + has property Entities can have properties. In GFO, properties are individualized, and "has property" links an entity to its particular property. [FL, 2008-02-28] - - - + + + - - - + + + has right time boundary Temporal regions have exactly one extremal right time boundary. [FL, 2008-02-28] - - - + + + - + has role The inverse of role of. [FL, 06.07.2008] - - - - + + + + - - + + has spatial boundary Space entities may have spatial boundaries. [FL, 2008-02-28] - - - - + + + + - + has temporal part The inverse of temporal part-of. [FL, 2008-03-13] - - + + - - + + has time boundary Temporal regions have temporal boundaries. [FL, 2008-02-28] - - - - + + + + - + has token The specific relation from a symbol structure (a category in GFO) to an entity seen as an occurrence of that symbol structure, as a token of it. [FL 2008-02-28] - - - - + + + + - + instance of The instantiation relation holds between an entity and a category. Put differently, the category is predicated of that entity, the entity is the instance of that category. Entities of all kinds can be instances, which results in categories which have individuals as instances or categories which may have categories as instances, such as "species". [FL, 2008-02-28] - - - + + + - + instantiated by Inverse of instance of. [FL, 2008-02-28] - - + + - - - + + + left boundary of - Left boundary of a temporal region. [FL, 2008-02-28] - + - - + + necessary for An entity is necessary for another one if the latter is required for the former to exist. @@ -484,58 +471,58 @@ Herre, H.; Heller, B.; Burek, P.; Hoehndorf, R.; Loebe, F. & Michalek, H.. G - - + + occupied by Presentials exist in space, and the space entity occupied by a presential is uniquely determined (where a fixed granularity is assumed). [FL, 2008-02-27 based on herre-h-2006--a, p.21] - - - - + + + + - - + + occupies Presentials exist in space, and the space entity occupied by a presential is uniquely determined (where a fixed granularity is assumed). [FL, 2008-02-27 based on herre-h-2006--a, p.21] - - - + + + - - + + part of The relation between parts and wholes. The union of several domain-specific part-of relationships not contained explicitly in gfo-basic, like spatial part-of or part-of among material structures. [FL, 2008-03-13] - + - - + + - - + + @@ -545,20 +532,20 @@ The union of several domain-specific part-of relationships not contained explici - + participates in Intuitively, objects participate in processes, for instance. In GFO, participation accommodates the GFO approach to persistence, i.e., at least presentials can participate in processes. Moreover, it is useful to extend the notion of participation also to other temporally extended entities. [FL, 2008-02-28] - + - + - + @@ -567,148 +554,148 @@ The union of several domain-specific part-of relationships not contained explici - - + + played by The inverse of plays-role. [FL, 06.07.2008] - - - + + + - - + + plays role Entities can play roles with respect to some other entity which provides a context for that role. The plays-role relationship links an entity with its role. [FL, 2008-02-28] - - + + - - + + projection of If, for instance, a process happens during a certain time, i.e., some temporal region, that region is the projection of that process (to time). [FL, 2008-02-28] - + - - + + projects to Links an entity to its temporal extension. Entities which are in time are related to the corresponding temporal regions by projects to. Moreover, entities related to others which are in time may likewise project to temporal regions. [FL, 2008-02-28] - - + + - - + + proper part of The irreflexive variant of part-of. [FL 2008-02-28] - + - + property of Links properties to their bearers. [FL, 2008-02-28] - + - - - + + + right boundary of Right boundary of a temporal region. [FL, 2008-02-28] - + - + role of The relationship between a role and its context. Typically, the nature of the context determines that of the roles, which are in some sense a part of that context. E.g., processes form the context for certain roles (processual roles), such that the latter are recognizable as processes. [FL, 2008-02-28] - - - + + + - - + + spatial boundary of Spatial boundaries may bound spatial entities. [FL, 2008-02-28] - - - + + + - - + + temporal part-of A part-of relationship between two time entities. Time-boundaries cannot have parts. [FL, 2008-03-13] - - + + - + - + @@ -719,30 +706,30 @@ Entities which are in time are related to the corresponding temporal regions by - - + + time boundary of Time boundaries bound temporal regions. [FL, 2008-02-28] - - - + + + - + token of Inverse of the has token relations. [FL, 2008-02-28] - - - + + + @@ -760,12 +747,12 @@ Entities which are in time are related to the corresponding temporal regions by - + Abstract - - - - + + + Abstract individuals are independent from time and space (they are not in time and space). Examples: the number "2" or pi. [RH, 2006] @@ -775,10 +762,10 @@ Examples: the number "2" or pi. - + Amount of substrate - + An amount of substrate is a presential, namely the matter of some material object. Amounts of substrate follow different identity criteria than material objects, i.e., they instantiate different persistants. @@ -791,10 +778,10 @@ Appropriate connotations of "amount of substrate" are "stuff" - + Category - - + Categories satisfy the following conditions: (1) Categories can be instantiated; (2) Categories can be predicated of other entities. Categories are defined intensional-with-an-s. They are, therefore, closely related to language. [RH, 2006] @@ -804,11 +791,11 @@ Categories are defined intensional-with-an-s. They are, therefore, closely relat - + Change - - - + + + [part1-v1.0.1, p. 30] - + Chronoid - + - - - 1 + + + 1 - - - 1 + + + 1 - Chronoids are entities sui generis. Every chronoid has exactly two extremal and @@ -852,12 +839,12 @@ equivalently called time-points. - + Concept - - - - + + + Concepts are categories that are expressed by linguistic signs and are present in someone’s mind. [herre-h-2006--a, p.6] @@ -866,11 +853,11 @@ equivalently called time-points. - + Concrete - - - + + Concrete individuals have a relation to time or space (they are in time and space). @@ -878,11 +865,11 @@ equivalently called time-points. - + Continuous change - - + + [part1-v.1.0.1, p.30-31] - + Continuous process - + A process is a continuous process if it can be partitioned such that the partition contains only states or processes within a continuous change. Those states and changes must be based on the same reference category. [FL, 2008-03-13] @@ -910,9 +897,9 @@ equivalently called time-points. - + Discrete change - + A discrete change is a change at coincident time boundaries, for which a recognizable difference exists. That means, there is a category with two disjoint sub-categories such that each of these is instantiated by exactly one of the process boundaries in the change. [FL, 2008-03-13] @@ -922,10 +909,10 @@ equivalently called time-points. - + Discrete process - + Discrete processes have a partitioning into an alteration of discrete changes and states. [FL, 2008-03-13] @@ -935,10 +922,10 @@ equivalently called time-points. - + Entity - - + Everything is an entity, i.e., entity is the category which everything instantiates. [FL, 2008-02-27] - + Event - - + + Events are processual structures comprising a process, and one of its extremal process boundaries. The latter must further satisfy a condition which differs from the condition applicable to all other boundaries of the process. I.e., the extremal boundary instantiates a sub-category of the event's reference category which is disjoint with that category instantiated by the remaining process boundaries. [FL, 2008-03-13] - + History - + Histories are processual structures which consist of a process and a number of presentials which are constituents of the boundaries of that process. [FL, 2008-03-13] @@ -976,9 +963,9 @@ equivalently called time-points. - + Individual - Individuals are entities that are not instantiable. [herre-h-2006--a, p.19] @@ -987,22 +974,22 @@ equivalently called time-points. - + Left time boundary - + - - + + - - + + see time boundary description [FL, 2008-02-27] @@ -1012,15 +999,15 @@ equivalently called time-points. - + Line - - + + - + Surfaces are bound by lines. [FL, 2008-07-27] @@ -1030,23 +1017,23 @@ equivalently called time-points. - + Material boundary - + - - + + - - + + - + A material entity which depends on a material object and occupies a spatial boundary. [FL, 2008-02-27] @@ -1056,16 +1043,16 @@ equivalently called time-points. - + Material object - + - - + + - A material structure is an individual which satisfies the following conditions: it is a presential, it occupies space, it is a bearer of qualities, but other entities cannot have it as quality, and it consists of an amount of substrate, and it instantiates a persistant ("has identity"). @@ -1075,10 +1062,10 @@ it as quality, and it consists of an amount of substrate, and it instantiates a - + Occurrent - - + + The category of occurrents comprises several categories that can be derived from processes. [FL, 2008-03-06 based on part1-v.1.0.1, p.30] @@ -1091,9 +1078,9 @@ it as quality, and it consists of an amount of substrate, and it instantiates a - + Perpetuant - + A perpetuant is a concrete individual which persists through time and exhibits presentials. [FL, 06.03.2008] @@ -1103,15 +1090,15 @@ it as quality, and it consists of an amount of substrate, and it instantiates a - + Point - - + + - + Lines are bound by points. [FL, 2008-02-27] @@ -1121,17 +1108,17 @@ it as quality, and it consists of an amount of substrate, and it instantiates a - + Presential - + - - + + - - + A presential exists wholly at exactly one time boundary. @@ -1139,16 +1126,16 @@ it as quality, and it consists of an amount of substrate, and it instantiates a - + Process - + - - + + - Processes are directly in time, they develop over and unfold in time. Processes have characteristics which cannot be captured by a collection of time boundaries. In particular, processes exhibit internal coherence. [FL, 2008-03-13] @@ -1157,10 +1144,10 @@ it as quality, and it consists of an amount of substrate, and it instantiates a - + Processual Structure - + The category of processual structures centers around the more intuitive notion of processes. It captures processes themselves and occurrents, i.e., primarily structures of several other kinds that can be derived from processes. [FL, 2008-03-13 based on part1-v1.0.1, p.30] @@ -1170,19 +1157,19 @@ it as quality, and it consists of an amount of substrate, and it instantiates a - + Processual role - - + + - - + + - - - + + Processual roles are roles with a process as context, and they are dependent processes. [FL, 2008-02-27] - + Property - - + + A property is a dependent entity which another entities has, i.e., that entity exhibits its property. Other common terms for property in natural language are characteristic, feature, quality, etc. [FL, 2008-02-27] @@ -1207,23 +1194,23 @@ it as quality, and it consists of an amount of substrate, and it instantiates a - + Relational role - - + + - - + + - - + + - + A relational role corresponds to the way in which an argument participates in some relation. [herre-h-2006--a, p.38] @@ -1233,9 +1220,9 @@ it as quality, and it consists of an amount of substrate, and it instantiates a - + Relator - + A relator mediates between or connects entities. It is a dependent entity which depends on those entities connected. [FL, 2008-03-13] @@ -1245,21 +1232,21 @@ it as quality, and it consists of an amount of substrate, and it instantiates a - + Right time boundary - + - - + + - + see time boundary description [FL, 2008-02-27] @@ -1269,9 +1256,9 @@ it as quality, and it consists of an amount of substrate, and it instantiates a - + Role - + A role corresponds to the involvement of some entity (the player of the role) within another entity (the context of the role). Examples of role terms: student, patient, runner, reader, factor. @@ -1282,9 +1269,9 @@ Examples of role terms: student, patient, runner, reader, factor. - + Social role - + A social role corresponds to the involvement of a social object within some society. [herre-h-2006--a, p.38] @@ -1294,11 +1281,11 @@ Examples of role terms: student, patient, runner, reader, factor. - + Space entity - - - + + Spatial entities in GFO are analyzed according to the ideas of Franz Brentano. Starting from connected three-dimensional entitites (topoids), related spatial entities can be distinguished. [FL, 2008-02-27] - + Space time entity - + A space-time-entity is something in which concrete entities can be located. [FL, 2008-02-27] @@ -1322,18 +1309,18 @@ Examples of role terms: student, patient, runner, reader, factor. - + Spatial boundary - - + + - - - + + Boundaries of regions are surfaces, boundaries of surfaces are lines, and boundaries of lines are points. As in the case of time-boundaries, spatial @@ -1345,10 +1332,10 @@ spatial entity of which they are boundaries. - + Spatial region - - + Space regions are mereological sums of topoids. @@ -1356,9 +1343,9 @@ spatial entity of which they are boundaries. - + State - + [part1-v1.0.1, p.34] - + Surface - - + + - + Topoids are bounded by surfaces. [FL, 2008-02-27] @@ -1388,12 +1375,12 @@ spatial entity of which they are boundaries. - + Symbol structure - - - + + Symbolic structures are signs or texts that may be instantiated by tokens. [herre-h-2006--a, p.6] @@ -1402,11 +1389,11 @@ spatial entity of which they are boundaries. - + Temporal region - - - + + Time Regions are defined as the mereological sum of chronoids, i.e. time regions may consist of non-connected intervals of time. @@ -1415,10 +1402,10 @@ i.e. time regions may consist of non-connected intervals of time. - + Time entity - - + The time model of GFO is based on Brentano and the glass continuum of Allen&Hayes. @@ -1426,23 +1413,23 @@ i.e. time regions may consist of non-connected intervals of time. - + Time boundary - - + + - - + + - + Time boundaries depend on a chronoids and can coincide. @@ -1455,10 +1442,10 @@ Left time boundaries, if viewed from the perspective of bounding a specific chro - + Topoid - - + Topoids are connected compact regions of space. They have spatial boundaries. @@ -1466,10 +1453,10 @@ Left time boundaries, if viewed from the perspective of bounding a specific chro - + Universal - - + Universals are immanent categories. They exist in re. [FL, 2008-02-27] @@ -1478,7 +1465,7 @@ Left time boundaries, if viewed from the perspective of bounding a specific chro - + @@ -1491,12 +1478,12 @@ Left time boundaries, if viewed from the perspective of bounding a specific chro --> - + - + - - + + @@ -1505,4 +1492,3 @@ Left time boundaries, if viewed from the perspective of bounding a specific chro - diff --git a/gfo.owl b/gfo.owl index c809e9b..9275fa5 100644 --- a/gfo.owl +++ b/gfo.owl @@ -1,20 +1,14 @@ - - - - - - -]> - + - + Copyright (c) 2006, Regents of the Research Group Ontologies in Medicine (Onto-Med), University of Leipzig, Germany. All rights reserved. @@ -40,64 +34,64 @@ DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - Version 1.0 ($Revision: 1.9 $) + Version 1.0 ($Revision: 1.9 $) - + Abstract individuals are independent from time and space (they are not in time and space). Examples: the number "2" or pi. - - - + + + - + Actions are occurents which are caused by some presential (the agent) at every (inner and outer) time-boundary of the chronoid framing the occurent. - + - - + + - - - - + + + + - - + + - - + + - - + + - - + + - - Categories satisfy the following conditions: (1) Categories can be instantiated; (2) Categories can be predicated of other entities. + + Categories satisfy the following conditions: (1) Categories can be instantiated; (2) Categories can be predicated of other entities. Categories are defined intensional-with-an-s. They are, therefore, closely related to language. - - + + - - A change in the technical sense refers to a pair of process + + A change in the technical sense refers to a pair of process boundaries. Either at coinciding boundaries (then it comes close to notions like ``punctual'' or ``instantaneous event'' as well as ``moment'' -- in a temporal reading), or at boundaries at the opposite @@ -106,137 +100,137 @@ ends of a process of arbitrary extension. The notion of change is relative to contradictory conditions between which a transition takes place. These contradictions refer to some collection of pairwise disjoint universals. - - - + + + - - + + - - + + - - Chronoids are entities sui generis. + + Chronoids are entities sui generis. Every chronoid has exactly two extremal and infinitely many inner time boundaries which are equivalently called time-points. - + - - - - + + + + - - Concrete individuals have a relation to time or space (they are in time and space). - - - + + Concrete individuals have a relation to time or space (they are in time and space). + + + - - We consider a collection of presential facts which exist at the same time-boundary. Such collections may be considered themselves as presentials, and we call them configurations. + + We consider a collection of presential facts which exist at the same time-boundary. Such collections may be considered themselves as presentials, and we call them configurations. It is further required that configurations contain at least one material object. - - - + + + - - Configuroids are, in the simplest case, integrated wholes made up of material structure processes and property processes. - + + Configuroids are, in the simplest case, integrated wholes made up of material structure processes and property processes. + - - + + - + - + - + For the purpose of formalizing continuous changes, a minimal chronoid universal D(c) is employed in order to capture the idea of observable differences during certain chronoids, whereas the change itself does not allow the observation of a difference. The predicate change(e1,e2, u1, u2, u, D(c)) is intended to formalize this approach. Continous changes occur over time (a chronoid). - - + + - - Processes where all non-coinciding internal boundaries are intrinsic changes. + + Processes where all non-coinciding internal boundaries are intrinsic changes. These turn out as purely continuous processes, described e.g. in physics by differential equations. - - - + + + - - - + + + - - + + - - + + - - - + + + - - + + - + - - Discrete processes are made up of alterations of extrinsic changes and states. - - - + + Discrete processes are made up of alterations of extrinsic changes and states. + + + - - Everything which exists is called an entity. + + Everything which exists is called an entity. - - + + - + Deprecated. Extrinsic changes are represented by change(e1,e2, u1, u2, u), where e1 and e2 are a pair of coincident process boundaries, and u1 and u2 are disjoint sub-universals of u. - - + + - - A function F is a universal (conceptual structure) defined in purely teleological terms with respect to a given goal G which commonly is ascribed by means of has-function relation to entities that are the realizations of the function F, execute such a realization or are intended to do it. - + + A function F is a universal (conceptual structure) defined in purely teleological terms with respect to a given goal G which commonly is ascribed by means of has-function relation to entities that are the realizations of the function F, execute such a realization or are intended to do it. + - - Histories consist of a number of process boundaries. + + Histories consist of a number of process boundaries. We assume that any history can be embedded into a process, which then forms a foundation of the history. If it were not for this foundation, @@ -245,52 +239,52 @@ order to get a natural history: It is not sensible to measure the temperature of a patient first, then determine his weight, followed by measuring his blood pressure and to consider these strangely arbitrary process boundaries as a history of the patient's body data. - - - + + + - - - + + + - - Individuals are entities which cannot be further instantiated. - + + Individuals are entities which cannot be further instantiated. + - - + + - + - - + + - - - + + + - + - + - + @@ -299,115 +293,115 @@ process boundaries as a history of the patient's body data. - + Instantanuous changes are represented by change(e1,e2, u1, u2, u), where e1 and e2 are a pair of coincident process boundaries, and u1 and u2 are disjoint sub-universals of u. Instantanuous changes are therefore changes of properties on two coinciding time boundaries. - - + + - + Deprecated. For the purpose of formalizing intrinsic changes, a minimal chronoid universal D(c) is employed in order to capture the idea of observable differences during certain chronoids, whereas the change itself does not allow the observation of a difference. The predicate change(e1,e2, u1, u2, u, D(c)) is intended to formalize this approach. - - + + - - An item is everything which is not a set. Also called ur-element. - + + An item is everything which is not a set. Also called ur-element. + - - + + - + - - + + - - An ontological level, which is sth. more restricted and "part of" some gfo:Stratum. - + + An ontological level, which is sth. more restricted and "part of" some gfo:Stratum. + - - + + - + - - + + - - + + - - - - + + + + - - - + + + - - + + - - + + - - + + - - + + - - + + - - A material structure is an individual which satisfies the following conditions: + + A material structure is an individual which satisfies the following conditions: it is a presential, it occupies space, it is a bearer of qualities, but other entities cannot have it as quality, and it consists of an amount of substrate, and it instantiates a persistant ("has identity"). - + - 1 - + 1 + - - + + - - + + - - Material persistants are particular universals whose instances are + + Material persistants are particular universals whose instances are material structures; they are related to those entities which are called sometimes continuants or objects, as apples, cars or houses. Material persistants capture the phenomenon of persistance through time of a material @@ -417,51 +411,51 @@ the set of instances of P coincides with the set of process-boundaries of P. This implies the existence of a chronoid c such that for every time-point t of c there exists exactly one instance of P at time point t. - + - - + + - - + + - - + + - - + + - + According to (Poli,2001), the basic structure of the material stratum is a distinction of physical, chemical and biological levels. These levels can be further refined. - + - - - + + + - - + + - - + + - - + + - + In accordance with the work of R. Poli, we divide the psychological/mental stratum into the layer of awareness and the layer of @@ -469,29 +463,29 @@ personality. Awareness comprises most of what is studied by cognitive science (perception, memory, reasoning, etc). Personality on the other hand concerns the phenomenon of will and the way in which someone reacts to her experiences. - + - - Occurents have temporal parts and thus cannot be present at a time-boundary. Time + + Occurents have temporal parts and thus cannot be present at a time-boundary. Time belongs to them, because they happen in time and the time of the occurent is built into it. The relation between an occurent and a chronoid is determined by the projection relation. Occurents are also called generalized processes in the GFO. - - + + - + Ontological_layer, all of its subconcepts and the properties layer_of and on_layer are work in progress in a premature beta state. - a collective term for gfo:stratum and gfo:level - + a collective term for gfo:stratum and gfo:level + Beta - - Persistants are GFO's way to capture identity over time. + + Persistants are GFO's way to capture identity over time. GFO pursues an approach which accounts for persistence by means of a suitable @@ -499,150 +493,150 @@ universal whose instances are presentials. Such universals are called persistants. These do not change and they can be used to explain how presentials which have different properties at different times can nevertheless be the same. - + - - + + - - + + - - + + - - + + - - + + - - + + - - + + - - A presential exists wholly at exactly one time boundary. - - + + A presential exists wholly at exactly one time boundary. + + - - + + - 1 - + 1 + - + - - Processes are a special kind of occurent. Processes are directly in time, they have characteristics which cannot be captured by a collection of time boundaries. - - - + + Processes are a special kind of occurent. Processes are directly in time, they have characteristics which cannot be captured by a collection of time boundaries. + + + - - Processual roles are dependent processes. They are roles with a process as context. - - + + Processual roles are dependent processes. They are roles with a process as context. + + - - + + - - + + - - - - + + + + - - The concept of a property value reflects a relationship between the property of x and the same property as exhibited by another entity y. - - + + The concept of a property value reflects a relationship between the property of x and the same property as exhibited by another entity y. + + - - + + - - - + + + - - + + - - + + - - - + + + - - + + - - Set is a category pertaining to the individuals in the ZFC set theory. - - + + Set is a category pertaining to the individuals in the ZFC set theory. + + - - A situation is a special configuration which can be comprehended as a whole and satisfies certain conditions of unity, which are imposed by relations and categories associated with the situation. Herein, we consider situations to be the most complex kind of presentials. - + + A situation is a special configuration which can be comprehended as a whole and satisfies certain conditions of unity, which are imposed by relations and categories associated with the situation. Herein, we consider situations to be the most complex kind of presentials. + - - Situoids are processes whose boundaries are situations and which satisfy certain principles of coherence, comprehensibility, and continuity. They are regarded as the most complex integrated wholes of the world. A situoid is, intuitively, a part of the + + Situoids are processes whose boundaries are situations and which satisfy certain principles of coherence, comprehensibility, and continuity. They are regarded as the most complex integrated wholes of the world. A situoid is, intuitively, a part of the world which is a coherent and comprehensible whole and does not need other entities in order to exist. Every situoid has a temporal extent and is framed by a topoid. - + - - - - - + + + + + - + On the one hand, the social stratum is divided into Agents and Institutions. Agents are the bearers of the social @@ -651,49 +645,49 @@ interrelated social components. On the other hand, a social system can be seen as a network in which businesses, politics, art, language (and many other facets) both present their own features and influence each other. - + - - GFO uses Brentano space. - - + + GFO uses Brentano space. + + - - - - + + + + - - Boundaries of regions are surfaces, boundaries of + + Boundaries of regions are surfaces, boundaries of surfaces are lines, and boundaries of lines are points. As in the case of time-boundaries, spatial boundaries have no independent existence, i.e. they depend on the spatial entity of which they are boundaries. - - + + - - + + - - Space regions are mereological sums of topoids. - - + + Space regions are mereological sums of topoids. + + - + A process without an instantanuous change at any of its inner time boundaries is called a state. - + - + According to (Poli, 2001, 2002) (based on the philosopher Hartmann) we distinguish at least three ontological strata of the world: the material stratum, the @@ -707,90 +701,90 @@ be understood as a meta-category whose instances are categories of certain kinds. Among these levels specific forms of categorial and existential dependencies hold. For example, a mental entity requires an animate material object as its existential bearer. - - + + - - + + - - + + - - + + - - + + - - - - + + + + - - Time Regions are defined as the mereological sum of chronoids, + + Time Regions are defined as the mereological sum of chronoids, i.e. time regions may consist of non-connected intervals of time. - - + + - - The time model of GFO is based on Brentano and the glass continuum of Allen&Hayes. - - + + The time model of GFO is based on Brentano and the glass continuum of Allen&Hayes. + + - - Time boundaries depend on a chronoids (i.e. they have no independent + + Time boundaries depend on a chronoids (i.e. they have no independent existence) and can coincide. - + - - + + - + - - + + - - + + - - Topoids are connected compact regions of space. They have spatial boundaries. - + + Topoids are connected compact regions of space. They have spatial boundaries. + - - Universals are immanent universals. They exist in re. - + + Universals are immanent universals. They exist in re. + - - + + - - + + - - Property values usually appear in groups which are called value structures, value spaces or measurement systems. + + Property values usually appear in groups which are called value structures, value spaces or measurement systems. Each of these structures corresponds to some property. More intuitively, one could say that the property may be measured with respect to some measurement system. For instance, sizes may be measured with the values ``small'' ``big'' or ``very big'', which are the elements of one value structure. @@ -799,430 +793,430 @@ The notion of a value structure of a property is similar to a quality dimension Further, value structures are related to quality spaces in DOLCE (Masolo, 2003}. A quality space consists of all ``quales'' (our property values) of some ``quality'' (our property). Often it seems to be the case that a notion of distance can be defined, and that certain layers of value structures are isomorphic to some subset of real numbers, which allows for a mapping of values to pairs of a real number and a unit, as in the case of ``10 kg''. - + - - + + - - + + - - + + - - - - - + + + + + - - - The abstract part-of relation is denoted by p(x,y); + + + The abstract part-of relation is denoted by p(x,y); the argument-types of this relation are not specified, i.e. we allow arbitrary entities to be arguments. We assume that p(x,y) satisfies the condition of a partial ordering, .i.e. the following axioms: reflexivity, antisymmetry and transitivity. - - - + + + - - - - + + + + - - - + + + - - - + + + - - - + + + - + - + - - + + - - - + + + - - This relation captures the notion of existential dependence. - - - + + This relation captures the notion of existential dependence. + + + - - - - + + + + - - - - - - + + + + + + - - - - - + + + + + - - + + - - + + - - - - + + + + - + "goal" here refers to "final state" in (Burek, 2006). - - + + - - - - + + + + - - - - + + + + - - - - + + + + - + - - + + - - - - + + + + - - - - + + + + - - - - - - + + + + + + - - - - + + + + - - - - + + + + - - - - + + + + - - - - - - + + + + + + - - - - + + + + - - - - + + + + - - - - + + + + - - - - + + + + - - + + - - - - + + + + - - - - - + + + + + - - - - - + + + + + - - - - + + + + - - The instantiation relation holds between a category and an item. It is not a relation between categories and individuals due to higher order categories such as "species". - - - + + The instantiation relation holds between a category and an item. It is not a relation between categories and individuals due to higher order categories such as "species". + + + - - - + + + - - - - + + + + - - - Left boundary of a chronoid. - + + + Left boundary of a chronoid. + - - - - + + + + - - - - + + + + - - - - + + + + - - - - - + + + + + - - - - - + + + + + - - - - + + + + - - - - + + + + - - - - + + + + - - - - - - + + + + + + - - - - + + + + - - - + + + - - + + - - - - - + + + + + - - - - + + + + - - + + - - - - + + + + - + "requirement" here refers to "initial state" in (Burek, 2006). - - + + - - - Right boundary of a chronoid. - + + + Right boundary of a chronoid. + - - - + + + - - - - - + + + + + - - - - - + + + + + - - - - + + + + - - - - - + + + + + - - + + - - - - + + + + - +