Flux system

I claim: 1. A flux system, comprising: a processor; a first sensor; a memory coupled with the processor; the memory storing a plurality of endpoints mapped to physical locations; the memory storing a plurality of semantics; the memory further storing at least two semantic fluxes, the at least two semantic fluxes each being associated with a plurality of capabilities associated with at least one augmentation device at a first endpoint; the processor further being configured to receive, from a supervisor of the first endpoint, a publication input indicative of a published first augmentation capability semantic associated with the at least one augmentation device; the memory further containing programming instructions operable by the processor to cause the processor to infer an activity interest semantic from among the plurality of semantics, the inferred activity interest semantic being associated with a person, the inferred activity interest being based on a first sensor input from the first sensor at the first endpoint; and wherein the system assigns the at least one augmentation device to service an activity interest indicated by the activity interest semantic based on semantic matching between the published first augmentation capability semantic the inferred activity interest semantic, the semantic matching further being based on a semantic drift inference between the inferred activity interest semantic and the published first augmentation capability semantic. 2. The flux system of claim 1 , wherein the first augmentation capability semantic further comprises one or more access control semantics, and wherein the semantic matching further comprises determining whether the person is authorized to access the capability indicated by the first augmentation capability semantic based on the one or more access control semantics. 3. The flux system of claim 2 , wherein the matching between the published first augmentation capability semantic and the inferred activity interest semantic comprises semantic time inference. 4. The flux system of claim 1 , wherein the first augmentation capability semantic comprises a first augmentation activity semantic and wherein the system assigns the at least one augmentation device to service the activity interest indicated by the activity interest semantic based on semantic matching between the first augmentation activity semantic with the inferred activity interest semantic. 5. The flux system of claim 1 , wherein the memory further stores a semantic drift tolerance, and wherein the semantic drift inference is applied based on the semantic drift tolerance. 6. The flux system of claim 2 , wherein the semantic matching between the published first augmentation capability semantic and the inferred activity interest semantic is based on semantic time. 7. The flux sensing system of claim 1 , wherein the first augmentation capability semantic is published by an operator of the at least one semantic flux among the at least two semantic fluxes prior to semantic matching. 8. The flux sensing system of claim 3 , wherein the first augmentation capability semantic is activated by a user of the at least one augmentation device prior to being published. 9. The flux system of claim 3 , wherein the activity interest is published by the first endpoint supervisor. 10. A flux system, comprising: a processor; a first sensor; a memory coupled with the processor, the memory storing a plurality of endpoints mapped to physical locations; the memory further storing at least two semantic fluxes, the at least two semantic fluxes each being associated with a plurality of capabilities associated with at least one augmentation device at a first endpoint; the memory further being configured to receive, from an operator of the at least two semantic fluxes, a publication input indicative of a published first augmentation capability associated with the at least one augmentation device; the memory further containing programming instructions operable by the processor to cause the processor to infer an activity interest associated with a person, the inferred activity interest being based on a first sensor input from the first sensor at the first endpoint; and wherein the system assigns the at least one augmentation device to service the activity interest based on semantic matching between the published first augmentation capability and the inferred activity interest, the semantic matching further being based on a semantic drift inference between the inferred activity interest and the published first augmentation capability. 11. The flux system of claim 10 , wherein the semantic matching between the published first augmentation capability and the inferred activity interest comprises semantic time inference. 12. The flux system of claim 10 , wherein the first augmentation capability comprises a first augmentation activity and wherein the system assigns the at least one augmentation device to service the activity interest based on semantic matching of the first augmentation activity with the inferred activity interest. 13. The flux system of claim 10 , wherein the first augmentation capability is published by a first endpoint supervisor prior to semantic matching. 14. The flux system of claim 10 , wherein the first augmentation capability is published by a user of the at least one augmentation device prior to being published by the operator of the at least two semantic fluxes. 15. The flux system of claim 10 , wherein the published first augmentation capability comprises an access control semantic, and further wherein the semantic matching further comprises determining whether the person is authorized to access the published first augmentation capability based on the access control semantic. 16. A flux system, comprising: a processor; a first sensor; a memory coupled with the processor; the memory storing a plurality of endpoints mapped to physical locations; the memory further storing at least two semantic fluxes, the at least two semantic fluxes each being associated with a plurality of capabilities associated with at least one augmentation device at a first endpoint; the processor further being configured to receive, from a supervisor of the first endpoint, an access control input indicative of availability of a published first augmentation capability associated with the at least one augmentation device; the memory further containing programming instructions operable by the processor to cause the processor to infer an activity interest associated with a person, the inferred activity interest being based on a first sensor input from the first sensor at the first endpoint; and wherein the system assigns the at least one augmentation device to service the activity interest based on semantic matching between the available first augmentation capability with the inferred activity interest, the semantic matching further being based on a semantic drift inference between the inferred activity interest and the published first augmentation capability. 17. The flux system of claim 16 , wherein the semantic matching between the available first augmentation capability and the inferred activity interest comprises semantic time inference. 18. The flux system of claim 16 , wherein the available first augmentation capability comprises a first augmentation activity and wherein the system assigns the at least one augmentation device to service the activity interest based on semantic matching of the first augmentation activity with the inferred activity interest.