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I have a database which stores temperature-logging data from various instruments. Data may be logged as often as once per minute. One approach to designing a log table would be to put each log entry in its own row along with the device ID, a time stamp, and a sequence number (even if the clock on a device is changed, it should be possible to sort entries in the order the measurements were actually taken). That would seem incredibly grossly inefficient, however, since every 16-bit measurement would have probably 16 bytes of other data attached to it, in addition to whatever the system adds for indexing. I recognize that it is often senseless to try to optimize every last byte out of a database, but expanding data by a factor of 9:1 or worse seems silly.

At present, I aggregate the records into groups of equally-spaced readings, and store one group per record in a variable-length opaque binary format along with the device ID, time stamp and sequence number for the first reading, and interval between readings. This works nicely, and for all I know may be the best approach, but it doesn't allow for much in the way of queries.

Is there any nice approach for handling such data sets without excessive redundancy?

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what platform is this on? –  Dave Markle Sep 5 '10 at 16:19
Is there anything wrong with the current approach? 1 small record per minute is not frequent enough to spend time optimizing, unless you're in a severely constrained environment or have nothing better to do. Premature optimization is the root of all evil. –  John Douthat Sep 5 '10 at 16:23
The database will be SQL Server 2005 if the end-user has it installed, or MS Access if not; the data is coming from small embedded processors which deliver data to the PC in packed records containing a time stamp, measurement interval, and one or more measurements (measurements will typically be collected once per day). Measurement data may have to be kept for years. –  supercat Sep 5 '10 at 19:00

3 Answers 3

up vote 8 down vote accepted

Your data doesn't expand by a factor of 9. Your data stay roughly the same, because you do not have a 16 bit measurement to start with. Your measurement is the Nth measurement from a specific device at a specific moment. So your data does have a sequence number, a device ID and a timestamp even before you add them to the database, whether you're willing to account for it or not.

If you store data in a relational table (SQL), store it in a relational format: normalized. One record per row. Store information in queryable format. 'aggregating' records in a an opaque binary format makes your entire database useless, as the data cannot be queried, aggregated, filtered, nothing. Your definition of 'this works nicely' is basically 'I can write the data and nobody can make any use of it', which is hardly 'nice'. You may just as well dump the data to /dev/nul...

Store the data as proper records. Store data as proper database types, don't use 'opaque blobs'. And 'data may be logged as often as once per minute' is not 'frequent' by any database standards. If you'd say '100 times per second' then we'd have something to talk about.

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@Remus Rusanu: Before the data goes into the database, it's kept by logging measurement devices. Those devices will store data in packed records of up to 32 measurements; the device ID and next-record sequence number only need to be held once in the device, and the timestamp and record frequency are only stored in the device once per record. When looking at a record in isolation, the metadata is "real data", but when looking at consecutive records in aggregate, the amount of real data in the set is far less than the total amount for records viewed in isolation. –  supercat Sep 5 '10 at 18:54
@Remus Rusanu: There's a guarantee that no more than an day of data may be aggregated per record. It is thus possible to find all records for a given interval by starting the search a day before the time of interest. The other desired type of query would be to find the minimum and maximum temperature in a time interval; this could be assisted by adding fields for the minimum and maximum temperature within a record; records within a day of the start or end of the interval of interest would have to be parsed, but those in the central part could be used as-is. –  supercat Sep 5 '10 at 18:58
@supercat: Why do you store the data in a database? –  Remus Rusanu Sep 5 '10 at 21:02
@Remus Rusanu: Data is collected from a plurality of units. Storing stuff in a database seems better than using a separate file for each unit. –  supercat Sep 6 '10 at 22:36
@supercat: Good developers usually give answers more in the lines of 'I need to query the data', 'I need to leverage the high-availability and disaster-recoverability of an RDBMS' or 'I need to expose the data to be consumed by other stake holders'. –  Remus Rusanu Sep 7 '10 at 0:24

Is this really a problem? Imagine we overestimate a bit and say that there is 50 bytes of data+metadata per measurement. Google suggests that you won't have many problems unless you are in a really tight environment.

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I believe you should use RRDtool to store such data. Wikipedia article.

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Although I didn't mention it in the requirements, the logging frequency may be changed, and there may be a need to keep historical data when that happens. –  supercat Sep 5 '10 at 18:55

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