Measuring distance between 2 "clumps" of data that meet certain conditions

2 Ansichten (letzte 30 Tage)
For a project, i have data in the form of wind speed (m/s) recorded with 1 minute intervals, starting from 2009 through to 2021. For the time of each recording I have created a datetime array in the form of yyyy:MM:dd_HH:mm:ss, and for the wind speed recorded at each minute i have created a double array.
The wind speed ranges from 0 through to 40+ m/s. For the project, the machnes can safely operate between wind speeds of 0-20 m/s. The machinery is damaged and can fall over when wind speeds reach 30m/s and above, Therefore, i need to measure the time taken for the wind speed to go from 20 to 30 m/s. The data is measured by 1 minute increments, from 2009 - 2020, so the data is quite messy when plotted. I have been given the following conditions that simplify measuring the time taken to go from 20 - 30 m/s.
  • When speed exceeds 20 m/s, the first 2 consequtive points above the 20 m/s limit will be the 'initial point'.
  • when speed exceeds 30 m/s, the first 2 consequtive points above the 30 m/s limit will be the 'final point'.
I need to record the time taken between the 'initial point' and the 'final point'. As there is a lot of data, the cases where wind speed goes from 20-30 occures several times, and ill need to record the corresponding time taken for each case.
Thanks very much :)

Antworten (1)

Yukthi S
Yukthi S am 3 Jun. 2024
Hi Joshua,
To record the time intervals during which wind speeds escalate from 20 m/s to 30 m/s, we need a systematic approach to filter through the data, identify relevant 'initial' and 'final' points and then calculate the duration between these points.
Step-1: Initialize the arrays
%Let windSpeeds_arr be the data of speeds of wind and dateTime_arr is the datetime array.
%Let initial_ts and final_ts be the vectors which store the initial value timestamps and final value timestamps
%initializing initial_ts and final_ts
initial_ts= [];
final_ts= [];
Step-2: Identify ‘initial’ and ‘final’ points.
i=1
while i<=length(windSpeeds_arr)-1
%initial point condition according to question
if windSpeeds_arr(i)>20 && winSpeeds_arr(i+1) >20
%storing initial points timestamps in a column vector
initial_ts=[initial_ts;dateTime_arr(i)];
%searching for corresponding final point
%final point condition according to question
for j=(i+1): length(windSpeeds_arr)-1
if windSpeeds_arr(j)>30 && winSpeeds_arr(j+1)>30
%storing initial points timestamps in a column vector
final_ts=[final_ts;dateTime_arr(j)];
i=j+1;
break;
end
end
end
i=i+1;
end
Step-3: Calculate time intervals
%Calculate the time intervals between initial and final timestamps
timeIntervals= [];
for k=1: length(initial_ts)
time_duration=final_ts(k)-initial_ts(k);
timeIntervals= [ timeIntervals;minutes(time_duration)]; % Convert the duration to minutes and store
end
% Display the calculated time intervals
disp(timeIntervals);
The above code snippet will give you a basic idea of how to implement the logic to record time between ‘initial’ and ‘final’ points. You might want to adjust the logic depending on specific requirements.

Kategorien

Mehr zu MATLAB finden Sie in Help Center und File Exchange

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by