##### https://github.com/morgankain/RRV_HostVectorCompetence

Tip revision:

**be7e87c3c4c8af0420a8dd42cdcff5586fdbad90**authored by**Morgan Kain**on**25 May 2021, 16:23 UTC****Merge pull request #1 from morgankain/add-license-1** Tip revision:

**be7e87c** 2_functions.R

```
#############################
### Functions for RRV NGM ###
#############################
'%!in%' <- function (x, table) match(x, table, nomatch = 0L) == 0L
simpleCap <- function(x) {
s <- strsplit(x, " ")[[1]]
paste(toupper(substring(s, 1, 1)), substring(s, 2),
sep = "", collapse = " ")
}
## Assume for now a few tiers of competence, which is determined by the titer in the host, lets assume for now
## titer follows a Ricker function and that the duration of infection is about 8 days (viremia may fall to levels
## beneath what is infectious, so in practice this duration will be less)
titer_prof <- function (day, a, b) {
a * day * exp(-b * day)
}
titer_prof_quad <- function (day, a, b, c) {
a + b*day + c*day^2
}
## host to mosquito transmission probability follows a logistic function (could divide by k or something if it
## turns out transmission probability never actually reaches 1 (basically does for WNV, so just working with that for now))
h_to_m_inf_prob <- function (titer, a, b) {
1 / (1 + exp(-(a + b * titer)))
}
## Not too clear on the incubation period in the mosquito, lit seems a bit foggy on it
## so for now just assume a less steep logistic
m_to_h_inf_prob <- function (day, a, b) {
1 / (1 + exp(-(day - a)/b))
}
## Proportional hazards (I think) (constant survival probability across all times)
mosq_surv_mod <- function (surv_prob, mosq_days) {
exp(surv_prob * mosq_days)
}
## Cconstant survival probability across all times
mosq_surv_sim <- function (surv_prob, mosq_days) {
for (i in seq_along(mosq_days)) {
mosq_days[i]
cumprod(surv_prob, mosq_days)
}
}
```