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#$IBTGeneration. (#$isa #$IBTGeneration #$TemporalObjectType). (#$genls #$IBTGeneration #$Action). (#$genls #$IBTGeneration #$TransferOut). (#$genls #$IBTGeneration #$InformationTransferEvent). (#$comment #$IBTGeneration A collection of information transfer events. Each element of #$IBTGeneration is an event which creates some information-bearing thing thus, an event in which some idea or information is expressed. In elements of #$IBTGeneration, the particular IBT (i.e., element of #$InformationBearingThing) which is created may be either a transient wave phenomenon (e.g., made of sound, light, or radio waves), or it may be a relatively long-lasting instance of #$InformationBearingObject (cf. #$IBOCreation). Humans frequently generate such IBTs as spoken language, gestures, and handwritten notes. It is irrelevant for elements of #$IBTGeneration whether there is another agent who immediately (or, indeed, ever) accesses the resulting IBTs. Note the difference: reading is NOT an IBT generation event, but writing (usually) is. IBTs may be generated intentionally or unintentionally. Also, every communication act starts with an instance of #$IBTGeneration. See also #$Communicating and its subsets, esp. #$CommunicationAct-Single. ) 4. CYC repeats this assertion with a twist in a related collection of ideas, again in a comment. CYC radio signals are different from radio waves but this ontology doesn t convey technical differences (e.g., signals versus noise, such as lightning; and that signals can occur inside a radio device and the signal-bearing waves can propagate in waveguide): (a) ;;; #$InformationBearingWavePropagation. (b) (#$isa #$InformationBearingWavePropagation #$TemporalStuff Type). (c) (#$genls #$InformationBearingWavePropagation #$Wave Propagation). (d) (#$genls #$InformationBearingWavePropagation #$Information BearingThing). (e) (#$comment #$InformationBearingWavePropagation A collection of information bearing things (IBTs). Each element of #$InformationBearingWavePropagation is a #$WavePropagation (q.v.) event that carries information, for an interpreter which understands its conventions. Examples of #$InformationBearingWavePropagation include sounds, radio signals, and images of visible light. These event-like IBTs should be contrasted with the relatively static, persistent, object-like IBTs in the collection #$InformationBearingObject. ) (a) (b) (c) (d) (e) (f)
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5. Later, the upper ontology links radio to news but in a comment, as follows: (a) ;;; #$News. (b) (#$isa #$News #$StuffType). (c) (#$genls #$News #$PropositionalInformationThing). (d) (#$comment #$News A collection of abstract (intangible) informational items. Each element of #$News consists of some factual information about recent events in the world (or #$geographicalSubRegions thereof). News is commonly embodied in newspapers and communicated through radio and television news broadcasts. ) 6. Radio Waves nally get their own class in the RadioWaves collection. If one takes the comment about radio waves as a de nition, then we have a de nition of radio that starts at 100 Hz, which isn t too bad, but that stops at 3 GHz or 100 MHz, hardly the extent that an engineer would attribute to the radio spectrum. This is as good as it gets in open source. (a) ;;; #$RadioWave (b) (#$isa #$RadioWave #$TemporalStuffType) (c) (#$isa #$RadioWave #$ScriptType) (d) (#$genls #$RadioWave #$ElectromagneticRadiation) (e) (#$comment #$RadioWave A collection of events; a subset of #$ElectromagneticRadiation. Each element of #$RadioWave is an instance of electromagnetic radiation having a wavelength in the range from approximately 1 centimeter (1 10 8 #$Angstrom) to 3,000,000 meters (3 10 18 #$Angstrom), and a frequency of approximately 10 8 #$Hertz to 10 2 #$Hertz. This includes the spectrum for RadioWave-UHF, RadioWave-VHF, RadioWaveFM, RadioWave-AM, and several other types of common use #$ElectromagneticRadiation. ) 7. The upper ontology goes on to include the notion of receiving a wave, such as viewing a scene using light as the mediating wave. In this case, the radio telescope example of the comments seems hardly de nitional. (a) ;;; #$ReceivingAWave. (b) (#$isa #$ReceivingAWave #$TemporalStuffType). (c) (#$genls #$ReceivingAWave #$Receiving). (d) (#$comment #$ReceivingAWave A collection of events; a subset of #$Receiving. Each element of #$ReceivingAWave is an event in which an instance of #$WavePropagation is received at a #$toLocation. For example, my CD player receiving an infrared signal from the remote control; hearing a sound of distant thunder;
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