Semantic Robotic Device System

I claim: 1 . A semantic robotic device system, comprising: a processor, a memory and at least one transceiver; the memory storing a plurality of semantics; the memory further storing at least one affirmative semantic and at least one non-affirmative semantic associated with at least one semantic goal; the processor being configured to: infer a first semantic and a second semantic among the plurality of semantics based on data received via the at least one transceiver; infer a first determination that the first inferred semantic is non-affirmative by having a high entropy with respect to the at least one affirmative semantic at a first time and further infer a second determination that the second inferred semantic is affirmative by semantically matching the second inferred semantic with the at least one affirmative semantic at a second time; infer one or more subsequent semantics after the first time, and further to infer a third semantic among the plurality of semantics, the third semantic being inferred to cause a reduction in the entropy between the one or more subsequent semantics and the at least one affirmative semantic; generate thin client presentation data in rapport with the at least one semantic goal based on the third semantic and the one or more subsequent inferred semantics; and cause the at least one transceiver to transmit the thin client presentation data to a remote device. 2 . The semantic robotic device system of claim 1 , wherein the at least one semantic goal is indicative of an intrinsic first user goal. 3 . The semantic robotic device system of claim 1 , wherein the at least one semantic goal is indicative of an observer goal. 4 . The semantic robotic device system of claim 1 , wherein the at least one semantic goal is inferred based on a user guide. 5 . The semantic robotic device system of claim 1 , wherein the at least one semantic goal is inferred based on a programming schedule. 6 . The semantic robotic device system of claim 1 , wherein the at least one semantic goal is inferred based on a contract. 7 . The semantic robotic device system of claim 1 , wherein the processor is further configured to factorize a first semantic goal from among the at least one semantic goal in rapport with a second semantic goal from among the at least one semantic goal. 8 . The semantic robotic device system of claim 1 , wherein the processor is further configured to factorize a leadership of a first semantic goal from among the at least one semantic goal and a second semantic goal from among the at least one semantic goal in rapport with a first subset of semantics among the plurality of semantics. 9 . The semantic robotic device system of claim 1 , wherein the thin client presentation data is generated to be displayed by a web browser. 10 . The semantic robotic device system of claim 1 , wherein the thin client presentation data is transmitted via a web server. 11 . A semantic robotic device system, comprising: a processor, a memory and at least one transceiver; the memory storing a plurality of semantics; the memory storing a user interface control semantic; the memory storing at least one affirmative semantic and at least one non-affirmative semantic associated with at least one semantic goal; the processor being configured to: infer a first semantic and a second semantic among the plurality of semantics based on data received via the at least one transceiver; infer a first determination that the first inferred semantic is non-affirmative by having a high entropy with respect to the at least one affirmative semantic at a first time and further infer a second determination that the second inferred semantic is affirmative by semantically matching the second inferred semantic with the at least one affirmative semantic at a second time; infer one or more subsequent semantics after the first time, and further to infer a third semantic among the plurality of semantics, the third semantic being inferred to cause a reduction in the entropy between the one or more subsequent semantics and the at least one affirmative semantic; arrange thin client presentation data associated with the third semantic and the one or more inferred subsequent semantics for display in the user interface control; and cause the at least one transceiver to transmit the thin client presentation data to a remote device. 12 . The semantic robotic device system of claim 11 , wherein the at least one semantic goal is indicative of an intrinsic first user goal. 13 . The semantic robotic device system of claim 11 , wherein the at least one semantic goal is indicative of an observer goal. 14 . The semantic robotic device system of claim 11 , wherein the at least one semantic goal is inferred based on a user guide. 15 . The semantic robotic device system of claim 11 , wherein the at least one semantic goal is inferred based on a programming schedule. 16 . The semantic robotic device system of claim 11 , wherein the at least one semantic goal is inferred based on a contract. 17 . The semantic robotic device system of claim 11 , wherein the processor is configured to factorize a first semantic goal from among the at least one semantic goal in rapport with a second semantic goal from among the at least one semantic goal. 18 . The semantic robotic device system of claim 11 , wherein the processor is configured to factorize a leadership of a first semantic goal from among the at least one semantic goal and a second semantic goal from among the at least one semantic goal in rapport with a first subset of semantics among the plurality of semantics. 19 . The semantic robotic device system of claim 18 , wherein the first subset of semantics is associated with a first subset of endpoints among a plurality of endpoints. 20 . A semantic robotic device system, comprising: a processor, a memory and at least one transceiver; the memory storing a plurality of semantics; the memory further storing at least one affirmative semantic and at least one non-affirmative semantic associated with at least one semantic goal; the processor being configured to: infer a first semantic and a second semantic among the plurality of semantics based on data received via the at least one transceiver; infer a first determination that the first inferred semantic is affirmative by semantically matching the first inferred semantic with the at least one affirmative semantic at a first time and further based on a determination that the second inferred semantic is non-affirmative by semantically matching the second inferred semantic with the at least one non-affirmative semantic at a second time; infer one or more subsequent semantics after the first time, and further to infer a third semantic among the plurality of semantics, the third semantic being inferred to cause a reduction in the entropy between the one or more subsequent semantics and the at least one affirmative semantic; generate thin client presentation data in rapport with the at least one semantic goal based on the inferred first determination, the second inferred determination and the third semantic; and cause the at least one transceiver to transmit the thin client presentation data to a remote device. 21 . The semantic robotic device system of claim 20 , wherein the at least one semantic goal is indicative of an intrinsic first user goal. 22 . The semantic robotic device system of claim 20 , wherein the at