| .. | ||
| .github/workflows | ||
| examples | ||
| test | ||
| .arduino-ci.yml | ||
| keywords.txt | ||
| library.json | ||
| library.properties | ||
| LICENSE | ||
| README.md | ||
| RunningMedian.cpp | ||
| RunningMedian.h | ||
RunningMedian
Arduino library to determine the running median by means of a circular buffer.
Description
Running Median looks like a running average with a small but important twist. Running average averages the last N samples while the running median takes the last N samples, sort them and take the middle one, or the average of the middle two in case the internal buffer size is even.
Important differences between running average and running median:
- Running median will return real data (e.g. a real sample from a sensor) if one uses an odd size of the buffer (therefor preferred). Running average may return a value that is never sampled.
- Running median will give zero weight to outliers, and 100% to the middle sample, whereas running average gives the same weight to all samples.
- Running median will give often constant values for some time.
- As one knows the values in the buffer one can predict the maximum change of the running median in the next steps in advance.
- Running median is slower as one needs to keep the values in timed order to remove the oldest and keep them sorted to be able to select the median.
Note MEDIAN_MAX_SIZE
The maximum size of the internal buffer is defined by MEDIAN_MAX_SIZE and is set to 255 (since version 0.3.1). The memory allocated currently is in the order of 5 bytes per element plus some overhead, so 255 elements take ~1300 bytes. For an UNO this is quite a bit.
With larger sizes the performance penalty to keep the internal array sorted is large. For most applications a value much lower e.g. 19 is working well, and is performance wise O(100x) faster in sorting than 255 elements.
Interface
Constructor
- RunningMedian(const uint8_t size) Constructor, dynamically allocates memory.
- ~RunningMedian() Destructor
- uint8_t getSize() returns size of internal array
- uint8_t getCount() returns current used elements, getCount() <= getSize()
- bool isFull() returns true if the internal buffer is 100% filled.
Base functions
- clear() resets internal buffer and variables, effectively emptird thr buffer.
- **add(const float value) ** adds a new value to internal buffer, optionally replacing the oldest element if the buffer is full
- float getMedian() returns the median == middle element
- float getAverage() returns average of all the values in the internal buffer
- float getAverage(uint8_t nMedian) returns average of the middle n values. This effectively removes noise from the outliers in the samples.
- float getHighest() get the largest values in the buffer.
- float getLowest() get the smallest value in the buffer.
- float getQuantile(const float q) returns the Quantile value from the buffer. This value is often interpolated.
Less used functions
- float getElement(const uint8_t n) returns the n'th element from the values in time order.
- float getSortedElement(const uint8_t n) returns the n'th element from the values in size order (sorted ascending)
- float predict(const uint8_t n) predict the max change of median after n additions, n should be smaller than getSize()/2
Operation
See examples