## 06.07.2020 stats:

After one month, the first assignment of variables can be made. As we left ψZ(W) undefined currently, we’re only able to set in relation some statistical values without further valid inference. The tracks at soundcloud have not a competitive quality and until now all posted content on research gate was draft-like and not very useful. We will release first actual paper before mid of July and will leave the stats model as it is now. In the future we want to have live feed of the values and discuss multiple ways to associate the statistical data to the context. E.g. the evaluation ratings for weighting the meaning of reposts and likes (soundcloud, sc) against citations and reads on ResearchGate (RG) will be difficult to fixate. We’re open for suggestions and hope to find similar error measures / approaches for orientation.

## Last stats:

## Performance model:

The validity of this document is ψ_{Z}(xd4-ψ_{Z}(stb)), with stb as origin author and its error function their internal misalignment of theory to external information and their hybridization as conclusion. Discussion of a complex error measure ψ_{Z} is initiated below.

Error function for xd4, here ψ_{z}(xd4) is a complex wave function that models multiple error measures to represent a generic performance measure for xd4. Necessary (minimal) measures are: usage-counters N, usage time T, capacity C, resource input R and evaluation-ratings D. These measures are calculated in a weighted matrix against another complex error function ψ_{Z}(W_{G}-W_{t}) that approximates the current world – state W_{t} and reflects the difference to an intended goal state W_{G} which is defined as *saved world* or generally speaking the probability to observe a safe world to live in [and to be able to vote about it which is a higher order measure for later].

The error function for world states W must minimally contain measures of happiness (e.g. actualized world happiness index), prosperity (e.g. infrastructure, healthcare), species liveliness (number of dying / protected species per time and overall number of given species per planet/domain) and another (complex measure function for pollution.

ψZ(xd4) has a current bottleneck which is R=0, C= -44000 and there are no D functions established (because of R and C and the resulting criticality of activity). This file is hence the functor for a generic boot of R (funding) to enable D (interal-measures). D measures could be weighted with external-measures given a context/conversation to optimize their performance and the ψz(xd4). Capacity C is currently modeled on thinkularity with spacetimebird as operator. It is intended to form a capacity C of xd4 as soon as possible, with an extended operator (system). This will be achieved with weighted-extension of xd4-capacity through contributions of any kind. For example art (which poses a non-trivially quantifyable asset), coding, development, feedback, views or any other type of non-physical support. Capacity increase by R are currency and hardware and (currently) bound to funding of (progenitor system) thinkularity operator (persistor system).

N is composed of the percentage of users x that stay in internal loop or decide to participate in internal system. Participation in externalizing system (color gradient) can be interpreted as weighted success if the external system is in world saving – scope (non-trivial measure).