| delta-vector |
x y zdelta-x delta-y delta-z |
A vector described by changes along each of three dimensions from position. |
| ficks-1-law |
J D phi x |
|
| ficks-2-law |
J D phi xt |
|
| field-metrics |
persistence-length diffusive-flux langevin-noise |
Field component: These metrics relate to the degree to which Message Carrier motion can be controlled such that it follows an intended gradient. Diffusive Flux is used in Brownian motion and can be modeled by Levy or Weiner processes and can also be described by the Langevin Noise. At least one of a), b), or c) shall be implemented in order to describe Message Carrier motion. |
| ieee1906-components |
ieee1906-perturbation ieee1906-motion ieee1906-field ieee1906-specificity |
|
| ieee1906-definition |
transmitter receiver medium message message-carrier essential-nanoscale-component non-classical-physics |
These are the minimum requirements for a nanoscale communication network and must be present and fully described. |
| langevin-equation |
m x t lambda eta |
|
| mass-flow-rate |
m V-dot rho v A jm |
|
| math-expression |
math-formula |
|
| message-metrics |
message-deliverability-metric message-lifetime information-density bandwidth-delay-product information-and-communication-energy |
These metrics deal with the information encoded within a Message and how the Message is impacted by the channel and intended target. Metrics a) through d) shall be implemented. Metric e) may be implemented. |
| motion-metrics |
collision-behavior mass-displacement-metric positioning-accuracy-of-message-carriers |
Motion component: These metrics are strongly related to the Motion Component, which describes Message Carrier motion. Either both a) and b) shall be implemented or c) shall be implemented. |
| nabla |
x y zterms |
The result of the differential operator d/dx + d/dy + d/dz at a given position. |
| position |
x y z |
A position in 3-dimensional space denoted by lengths along coordinates from a predefined origin. |
| probability-density |
density-function |
|
| required-mapping |
transmitter receiver medium message message-carrier essential-nanoscale-component non-classical-physicsieee1906-perturbation ieee1906-motion ieee1906-field ieee1906-specificity |
Every proposed IEEE nanoscale communication technique MUST instantiate this mapping. |
| specificity-metrics |
specificity-metric affinity-metric sensitivity-metric angular-spectrum delay-spectrum |
Specificity component: These metrics are related to the ability of a Message Carrier to deliver a Message to its intended target. Metrics a), c), and e) shall be implemented; metrics b) or d) may be implemented. |
| system-metrics |
active-network-programmability perturbation-rate supersystem-degradation bandwidth-volume-ratio |
System metrics relate to and impact all components. All of the metrics in this category shall be implemented. |
| vector |
magnitude direction |
|
| vector-field |
math-formuladimensions vectors |
An equation that describes a vector field. |