## ----setup, include = FALSE---------------------------------------------- knitr::opts_chunk$set( warning = F, message = F, collapse = TRUE, comment = "#>" ) ## ----sim----------------------------------------------------------------- library(kendallRandomWalks) library(dplyr) library(ggplot2) set.seed(17) walks <- simulate_kendall_rw(1000, 1000, rnorm, 0.5, T) walks2 <- simulate_kendall_rw(1000, 1000, rcauchy, 0.5, T) ## ----ex1----------------------------------------------------------------- plot(walks, max_id = 1) plot(walks2, max_id = 1) ## ----unique-------------------------------------------------------------- ggplot(summarise_kendall_rw(walks, n_distinct), aes(x = aggregated), color = "black") + theme_bw() + geom_density() + geom_density(data = summarise_kendall_rw(walks2, n_distinct), color = "blue") + ylab("Estimated density") + xlab("Number of unique values") + scale_color_discrete(guide = "legend") ## ----jumps--------------------------------------------------------------- diffs <- mutate_kendall_rw(walks, function(x) x - lag(x), F) plot(diffs, max_id = 1) diffs2 <- mutate_kendall_rw(walks2, function(x) x - lag(x), F) plot(diffs2, max_id = 1) ## ----skoki_dlugosc------------------------------------------------------- diffs3 <- mutate_kendall_rw(diffs, function(x) as.numeric(x != 0), F) lengths <- diffs3$simulation %>% group_by(sim_id) %>% mutate(id = 1:n()) %>% filter(sim != 0) %>% mutate(previous = ifelse(is.na(lag(id)), 0, lag(id))) %>% mutate(length = id - previous) diffs4 <- mutate_kendall_rw(diffs2, function(x) as.numeric(x != 0), F) lengths2 <- diffs4$simulation %>% group_by(sim_id) %>% mutate(id = 1:n()) %>% filter(sim != 0) %>% mutate(previous = ifelse(is.na(lag(id)), 0, lag(id))) %>% mutate(length = id - previous) ggplot(subset(lengths, sim_id < 5), aes(x = length, fill = as.factor(sim_id), group = as.factor(sim_id))) + geom_density() + theme_bw() + ggtitle("Distribution of time with no state-change (by simulation)") ggplot(lengths, aes(x = length)) + geom_density() + theme_bw() + xlab("Jump size") + ggtitle("Distribution of time with no state-change (aggregated)") ggplot(lengths2, aes(x = length)) + geom_density() + theme_bw() + xlab("Jump size") + ggtitle("Distribution of time with no state-change (aggregated)") ggplot(subset(lengths, sim_id < 10), aes(x = id, y = length, color = as.factor(sim_id))) + geom_point() + theme_bw() + geom_line() + guides(color = "none") + xlab("Time") + ylab("Jump size") + ggtitle("Time with no state-change in time")