# Appendix 1 to original answer: `Matlab`

and `R`

translations

**Matlab code**

```
function [signals,avgFilter,stdFilter] = ThresholdingAlgo(y,lag,threshold,influence)
% Initialise signal results
signals = zeros(length(y),1);
% Initialise filtered series
filteredY = y(1:lag+1);
% Initialise filters
avgFilter(lag+1,1) = mean(y(1:lag+1));
stdFilter(lag+1,1) = std(y(1:lag+1));
% Loop over all datapoints y(lag+2),...,y(t)
for i=lag+2:length(y)
% If new value is a specified number of deviations away
if abs(y(i)-avgFilter(i-1)) > threshold*stdFilter(i-1)
if y(i) > avgFilter(i-1)
% Positive signal
signals(i) = 1;
else
% Negative signal
signals(i) = -1;
end
% Make influence lower
filteredY(i) = influence*y(i)+(1-influence)*filteredY(i-1);
else
% No signal
signals(i) = 0;
filteredY(i) = y(i);
end
% Adjust the filters
avgFilter(i) = mean(filteredY(i-lag:i));
stdFilter(i) = std(filteredY(i-lag:i));
end
% Done, now return results
end
```

Example:

```
% Data
y = [1 1 1.1 1 0.9 1 1 1.1 1 0.9 1 1.1 1 1 0.9 1 1 1.1 1 1,...
1 1 1.1 0.9 1 1.1 1 1 0.9 1 1.1 1 1 1.1 1 0.8 0.9 1 1.2 0.9 1,...
1 1.1 1.2 1 1.5 1 3 2 5 3 2 1 1 1 0.9 1,...
1 3 2.6 4 3 3.2 2 1 1 0.8 4 4 2 2.5 1 1 1];
% Settings
lag = 30;
threshold = 5;
influence = 0;
% Get results
[signals,avg,dev] = ThresholdingAlgo(y,lag,threshold,influence);
figure; subplot(2,1,1); hold on;
x = 1:length(y); ix = lag+1:length(y);
area(x(ix),avg(ix)+threshold*dev(ix),'FaceColor',[0.9 0.9 0.9],'EdgeColor','none');
area(x(ix),avg(ix)-threshold*dev(ix),'FaceColor',[1 1 1],'EdgeColor','none');
plot(x(ix),avg(ix),'LineWidth',1,'Color','cyan','LineWidth',1.5);
plot(x(ix),avg(ix)+threshold*dev(ix),'LineWidth',1,'Color','green','LineWidth',1.5);
plot(x(ix),avg(ix)-threshold*dev(ix),'LineWidth',1,'Color','green','LineWidth',1.5);
plot(1:length(y),y,'b');
subplot(2,1,2);
stairs(signals,'r','LineWidth',1.5); ylim([-1.5 1.5]);
```

**R code**

```
ThresholdingAlgo <- function(y,lag,threshold,influence) {
signals <- rep(0,length(y))
filteredY <- y[1:lag]
avgFilter <- NULL
stdFilter <- NULL
avgFilter[lag] <- mean(y[1:lag], na.rm=TRUE)
stdFilter[lag] <- sd(y[1:lag], na.rm=TRUE)
for (i in (lag+1):length(y)){
if (abs(y[i]-avgFilter[i-1]) > threshold*stdFilter[i-1]) {
if (y[i] > avgFilter[i-1]) {
signals[i] <- 1;
} else {
signals[i] <- -1;
}
filteredY[i] <- influence*y[i]+(1-influence)*filteredY[i-1]
} else {
signals[i] <- 0
filteredY[i] <- y[i]
}
avgFilter[i] <- mean(filteredY[(i-lag):i], na.rm=TRUE)
stdFilter[i] <- sd(filteredY[(i-lag):i], na.rm=TRUE)
}
return(list("signals"=signals,"avgFilter"=avgFilter,"stdFilter"=stdFilter))
}
```

Example:

```
# Data
y <- c(1,1,1.1,1,0.9,1,1,1.1,1,0.9,1,1.1,1,1,0.9,1,1,1.1,1,1,1,1,1.1,0.9,1,1.1,1,1,0.9,
1,1.1,1,1,1.1,1,0.8,0.9,1,1.2,0.9,1,1,1.1,1.2,1,1.5,1,3,2,5,3,2,1,1,1,0.9,1,1,3,
2.6,4,3,3.2,2,1,1,0.8,4,4,2,2.5,1,1,1)
lag <- 30
threshold <- 5
influence <- 0
# Run algo with lag = 30, threshold = 5, influence = 0
result <- ThresholdingAlgo(y,lag,threshold,influence)
# Plot result
par(mfrow = c(2,1),oma = c(2,2,0,0) + 0.1,mar = c(0,0,2,1) + 0.2)
plot(1:length(y),y,type="l",ylab="",xlab="")
lines(1:length(y),result$avgFilter,type="l",col="cyan",lwd=2)
lines(1:length(y),result$avgFilter+threshold*result$stdFilter,type="l",col="green",lwd=2)
lines(1:length(y),result$avgFilter-threshold*result$stdFilter,type="l",col="green",lwd=2)
plot(result$signals,type="S",col="red",ylab="",xlab="",ylim=c(-1.5,1.5),lwd=2)
```

This code (both languages) will yield the following result for the data of the original question:

# Appendix 2 to original answer: `Matlab`

demonstration code

**(click to create data)**

```
function [] = RobustThresholdingDemo()
%% SPECIFICATIONS
lag = 5; % lag for the smoothing
threshold = 3.5; % number of st.dev. away from the mean to signal
influence = 0.3; % when signal: how much influence for new data? (between 0 and 1)
% 1 is normal influence, 0.5 is half
%% START DEMO
DemoScreen(30,lag,threshold,influence);
end
function [signals,avgFilter,stdFilter] = ThresholdingAlgo(y,lag,threshold,influence)
signals = zeros(length(y),1);
filteredY = y(1:lag+1);
avgFilter(lag+1,1) = mean(y(1:lag+1));
stdFilter(lag+1,1) = std(y(1:lag+1));
for i=lag+2:length(y)
if abs(y(i)-avgFilter(i-1)) > threshold*stdFilter(i-1)
if y(i) > avgFilter(i-1)
signals(i) = 1;
else
signals(i) = -1;
end
filteredY(i) = influence*y(i)+(1-influence)*filteredY(i-1);
else
signals(i) = 0;
filteredY(i) = y(i);
end
avgFilter(i) = mean(filteredY(i-lag:i));
stdFilter(i) = std(filteredY(i-lag:i));
end
end
% Demo screen function
function [] = DemoScreen(n,lag,threshold,influence)
figure('Position',[200 100,1000,500]);
subplot(2,1,1);
title(sprintf(['Draw data points (%.0f max) [settings: lag = %.0f, '...
'threshold = %.2f, influence = %.2f]'],n,lag,threshold,influence));
ylim([0 5]); xlim([0 50]);
H = gca; subplot(2,1,1);
set(H, 'YLimMode', 'manual'); set(H, 'XLimMode', 'manual');
set(H, 'YLim', get(H,'YLim')); set(H, 'XLim', get(H,'XLim'));
xg = []; yg = [];
for i=1:n
try
[xi,yi] = ginput(1);
catch
return;
end
xg = [xg xi]; yg = [yg yi];
if i == 1
subplot(2,1,1); hold on;
plot(H, xg(i),yg(i),'r.');
text(xg(i),yg(i),num2str(i),'FontSize',7);
end
if length(xg) > lag
[signals,avg,dev] = ...
ThresholdingAlgo(yg,lag,threshold,influence);
area(xg(lag+1:end),avg(lag+1:end)+threshold*dev(lag+1:end),...
'FaceColor',[0.9 0.9 0.9],'EdgeColor','none');
area(xg(lag+1:end),avg(lag+1:end)-threshold*dev(lag+1:end),...
'FaceColor',[1 1 1],'EdgeColor','none');
plot(xg(lag+1:end),avg(lag+1:end),'LineWidth',1,'Color','cyan');
plot(xg(lag+1:end),avg(lag+1:end)+threshold*dev(lag+1:end),...
'LineWidth',1,'Color','green');
plot(xg(lag+1:end),avg(lag+1:end)-threshold*dev(lag+1:end),...
'LineWidth',1,'Color','green');
subplot(2,1,2); hold on; title('Signal output');
stairs(xg(lag+1:end),signals(lag+1:end),'LineWidth',2,'Color','blue');
ylim([-2 2]); xlim([0 50]); hold off;
end
subplot(2,1,1); hold on;
for j=2:i
plot(xg([j-1:j]),yg([j-1:j]),'r'); plot(H,xg(j),yg(j),'r.');
text(xg(j),yg(j),num2str(j),'FontSize',7);
end
end
end
```