Skip to content
New issue

Have a question about this project? Sign up for a free GitHub account to open an issue and contact its maintainers and the community.

Sign up for GitHub

By clicking “Sign up for GitHub”, you agree to our terms of service and privacy statement. We’ll occasionally send you account related emails.

Already on GitHub? Sign in to your account

Bug fixes and added plots #13

Open
wants to merge 1 commit into
base: master
Choose a base branch
from
Open

Bug fixes and added plots #13

Changes from all commits
Commits
Show all changes
1 commit
Select commit
File filter

Filter by extension

Filter by extension
Conversations
Failed to load comments.
Loading
Jump to
Jump to file
Failed to load files.
Loading
Diff view
Diff view
41 changes: 30 additions & 11 deletions Labs/Week 3/HW_3_uss_Key.Rmd
View file
Open in desktop
Original file line number Diff line number Diff line change
Expand Up @@ -400,16 +400,34 @@ c. **Simulate 1000 sample trajectories using the estimated $u$ and $q$ starting
```{r hw4-sim}
#1997 is the 39th (last) data point
x0 <- fit.marss$states[1,39]
q <- coef(fit.marss)$Q
u <- coef(fit.marss)$U
#next question asks for pop size in 2007 so nforeward=10
nsim <- 1000
nforeward <- 10
q <- coef(fit.marss)$Q[1]
u <- coef(fit.marss)$U[1]
#question asks for pop size in 2007 so nforeward=11 (incl 1997)
nsim <- 100
nforeward <- 11
#each row holds a simulation
x <- matrix(NA, nsim, nforeward)
x[,1] <- x0+u+rnorm(nsim,0,sqrt(q))
for(t in 2:nforeward) x[,t] <- x[,t-1]+u+rnorm(nsim,0,sqrt(q))
x[,1] <- x0
x[,2] <- x0+u+rnorm(nsim,0,sqrt(q))
for(t in 3:nforeward) x[,t] <- x[,t-1]+u+rnorm(nsim,0,sqrt(q))
```
```{r}

matplot(x =1997:(1997+nforeward-1), y = t(x), type = "l", lty = 1, col = "grey", xlab = "Time", ylab = "Population Size",
main = "100 Simulations: Population Size Trajectory After 1997")

# Add lines for each simulation
for (i in 1:nsim) {
lines( x= 1997:(1997+nforeward-1), y= x[i, ], col = "grey")
}

# Add a red line for the mean of the simulations
lines(x = 1997:(1997+nforeward-1), y = colMeans(x), col = "red", lwd = 2)

# Add a legend
legend("topright", legend = c("Simulations", "Mean"), col = c("grey", "red"), lty = c(1, 1),
lwd = c(1, 2))
```

d. **Using this what is your estimated probability of reaching 50,000 graywhales in 2007.**

Expand Down Expand Up @@ -509,8 +527,9 @@ We need to specify `na.action` since the state residuals have an NA at the last

```{r}
best.fit <- fit.whales4
sres <- residuals(best.fit)$state.residuals[1,]
mres <- residuals(best.fit)$model.residuals[1,]
residuals <- MARSSresiduals(best.fit)
sres <- residuals$state.residuals[1,]
mres <- residuals$model.residuals[1,]
par(mfrow=c(1,2), mar=c(1,2,2,1))
acf(sres, na.action=na.omit)
acf(mres, na.action=na.omit)
Expand Down Expand Up @@ -660,10 +679,10 @@ g. **Plot your state residuals (true location residuals). What are the problems

```{r hw8-resids-plot-code}
par(mfrow=c(2,2),mar=c(3,5,3,5))
resids.lon <- residuals(fit3)$state.residuals[1,]
resids.lon <- MARSS::MARSSresiduals(fit3)$state.residuals[1,]
plot(resids.lon, xlab=""); abline(h=0)
acf(resids.lon, na.action=na.pass)
resids.lat <- residuals(fit3)$state.residuals[2,]
resids.lat <- MARSS::MARSSresiduals(fit3)$state.residuals[2,]
plot(resids.lat, xlab=""); abline(h=0)
acf(resids.lat, na.action=na.pass)
```
Expand Down