49 lines
1.8 KiB
R
49 lines
1.8 KiB
R
library("dplyr", warn.conflicts = F)
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compute_wifi_feature <- function(data, feature, time_segment){
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if(feature %in% c("countscans", "uniquedevices")){
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data <- data %>% filter_data_by_segment(time_segment)
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data <- data %>% group_by(local_segment)
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data <- switch(feature,
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"countscans" = data %>% summarise(!!feature := n()),
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"uniquedevices" = data %>% summarise(!!feature := n_distinct(bssid)))
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return(data)
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} else if(feature == "countscansmostuniquedevice"){
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# Get the most scanned device
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mostuniquedevice <- data %>%
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group_by(bssid) %>%
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mutate(N=n()) %>%
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ungroup() %>%
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filter(N == max(N)) %>%
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head(1) %>% # if there are multiple device with the same amount of scans pick the first one only
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pull(bssid)
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data <- data %>% filter_data_by_segment(time_segment)
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return(data %>%
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filter(bssid == mostuniquedevice) %>%
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group_by(local_segment) %>%
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summarise(!!feature := n()) %>%
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replace(is.na(.), 0))
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}
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}
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rapids_features <- function(sensor_data_files, time_segment, provider){
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wifi_data <- read.csv(sensor_data_files[["sensor_data"]], stringsAsFactors = FALSE)
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requested_features <- provider[["FEATURES"]]
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# Output dataframe
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features = data.frame(local_segment = character(), stringsAsFactors = FALSE)
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# The name of the features this function can compute
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base_features_names <- c("countscans", "uniquedevices", "countscansmostuniquedevice")
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# The subset of requested features this function can compute
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features_to_compute <- intersect(base_features_names, requested_features)
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for(feature_name in features_to_compute){
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feature <- compute_wifi_feature(wifi_data, feature_name, time_segment)
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features <- merge(features, feature, by="local_segment", all = TRUE)
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}
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return(features)
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}
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