## ----------------------------------------------------------------------------- library(queuecomputer) library(dplyr) arrivals <- cumsum(rexp(100)) head(arrivals) service <- rexp(100) departures <- queue_step(arrivals = arrivals, service = service) str(departures,1) ## ----------------------------------------------------------------------------- # Zero servers available before time 10 # One server available between time 10 and time 50 # Three servers available between time 50 and time 100 # One server available from time 100 onwards resource_schedule <- as.server.stepfun(c(10,50,100), c(0, 1, 3, 1)) resource_schedule departures <- queue_step(arrivals = arrivals, service = service, servers = resource_schedule) str(departures,1) ## ----------------------------------------------------------------------------- # Server 1 is available before time 10. # Server 2 is available between time 15 and time 30. # Server 3 is available after time 10. as.server.list(list(10, c(15,30), 10), c(1,0,0)) ## ----------------------------------------------------------------------------- library(queuecomputer) library(dplyr) set.seed(500) n <- 100 arrivals <- cumsum(rexp(n)) service_l <- rexp(n, 0.8) service_q <- rexp(n, 0.5) arrivals_b <- cumsum(rexp(n, 0.8)) # The queue elements can be computed one by one. departures_1 <- lag_step(arrivals, service_l) departures_2 <- queue(departures_1, service = service_q, servers = 2) departures_3 <- wait_step(departures_2, arrivals_b) # Or the queue elements can be chained together with the %>% operator. departures <- lag_step(arrivals, service_l) %>% queue_step(service = service_q, servers = 2) %>% wait_step(arrivals_b) all(departures == departures_3) # Plot densities for this tandem queueing network colours <- rainbow(4) plot(density(arrivals, from = 0), col = colours[1], xlim = c(0, 220), ylim = c(0, 0.015), main = "Density plot") lines(density(departures_1, from = 0), col = colours[2]) lines(density(departures_2, from = 0), col = colours[3]) lines(density(departures_3, from = 0), col = colours[4]) legend(150,0.012, legend = c("Start walk", "Finish walk", "Finish service", "Pick up bag"), col = colours, lwd = 1, cex = 0.8 )