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Introduction

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  1. Date of update: The last time any resource in the dataset was modified or the dataset was manually confirmed as up to date. The ideal is that the time between updates corresponds with what is selected in the expected update frequency. This is last_modified.

  2. Time period of data: The earliest start date and latest end date across all resources included in the dataset. This is dataset_date.

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  1. .


The method of determining whether a resource is updated depends upon where the file is hosted. If it is hosted by HDX, then the update time last modified date is recorded, but if externally, then there can be challenges in determining if a url has been updated or not. 

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Dataset Aging Methodology

Once we have an update time for the latest last modified date for all of a dataset's resources, we can calculate its compare it to the last date the dataset was manually confirmed as updated in the UI if available. The latest of those dates, which we refer to as “last modified date” from here on, is used to calculate the dataset’s age and combined with the update frequency, we can ascertain the freshness of the dataset.  

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A resourcedataset's age can be measured using today's date - last update time. For a dataset, we take the lowest age of all its resourcesmodified date. This value can be compared with the update frequency to determine an age status for the dataset.

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Update Frequency

Dataset age state thresholds

(how old must a dataset be for it to have this status)

Fresh

Not Fresh

Up-to-date

Due

Overdue

Delinquent

Daily

0 days old

1 day old

due_age = f

2 days old

overdue_age = f + 2

3 days old

delinquent_age = f + 3

Weekly

0 - 6 days old

7 days old

due_age = f

14 days old

overdue_age = f + 7

21 days old

delinquent_age = f + 14

Fortnightly

0 - 13 days old

14 days old

due_age = f

21 days old

overdue_age = f + 7

28 days old

delinquent_age = f + 14

Monthly

0 -29 days old

30 days old

due_age = f

44 days old

overdue_age = f + 14

60 days old

delinquent_age = f + 30

Quarterly

0 - 89 days old

90 days old

due_age = f

120 days old

overdue_age = f + 30

150 days old

delinquent_age = f + 60

Semiannually

0 - 179 days old

180 days old

due_age = f

210 days old

overdue_age = f + 30

240 days old

delinquent_age = f + 60

Annually

0 - 364 days old

365 days old

due_age = f

425 days old

overdue_age = f + 60

455 days old

delinquent_age = f + 90


Never

Always

Never

Never

Never

Live

Always

Never

Never

Never

As Needed

Always

Never

Never

Never

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