Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I have an application that receives a number of datums that characterize 3 dimensional spatial and temporal processes. It then filters these datums and creates actions which are then sent to processes that perform the actions. Rinse and repeat.

At present, I have a collection of custom filters that perform a lot of complicated spatial/temporal calculations.

Many times as I discuss my system to individuals in my company, they ask if I'm using a rules engine.

I have yet to find a rules engine that is able to reason well temporally and spatially. (Things like: When are two 3D entities ever close? Is 3D entity A ever contained in 3D region B? If entity C is near entity D but oriented backwards relative to C then perform action D.)

I have looked at Drools, Cyc, Jess in the past (say 3-4 years ago). It's time to re-examine the state of the art. Any suggestions? Any standards that you know of that support this kind of reasoning? Any defacto standards? Any applications?


share|improve this question
Tweaked so that it makes it clear that I'm interested in 3D entities, not 2D entities. Most of the suggestions so far have focused on the 2D problem. – John Mar 23 '10 at 19:56
up vote 1 down vote accepted

Premise - remember that a SQL-based1 DBMS is a (quite capable) inference engine, as can be seen from these comparisons between SQL and Prolog:

To address specifically your spatio-temporal applications, this book will help:

That is, combining Interval and Relation Theory is possible to reasoning about spatio-temporal problems effectively (see 5.2 Applications of Intervals).

Of course, if your SQL-based DBMS is not (yet) equipped with interval (and other) operators you will need to extend it appropriately (via store-procedures and/or User-Defined Functions - UDFs).

Update: skimming the paper pointed out in comments by timemirror (Towards a 3D Spatial Query Language for Building Information Models) they do essentially what I touched on above:

(last page)


The implementation of the abstract type system into a query language will be performed on the basis of the query language SQL, which is a widely established standard in the field of object-relational databases. The international standard SQL:1999 extends the relational model to include object-oriented aspects, such as the possibility to define complex abstract data types with integrated methods.

I do not concur with the "object-relational database" terminology (for reason off-topic here) but I think the rest is pertinent.

Update: a quote regardind 3D and interval theory from the book cited above:

NOTE: All of the intervals discussed so far can be thought of as one-dimensional. However, we might want to combine two one-dimensional intervals to form a twodimensional interval. For example, a rectangular plot of ground might be thought of as a two-dimensional interval, because it is, by definition, an object with length and width, each of which is basically a one-dimensional interval measured along some axis. And, of course, we can extend this idea to any number of dimensions. For example, a (rather simple!) building might be regarded as a three-dimensional interval: It is an object with length, width, and height, or in other words a cuboid. (More realistically, a building might be regarded as a set of several such cuboids that overlap in various ways.) And so on. In what follows, however, we will restrict our attention to one-dimensional intervals specifically, barring explicit statements to the contrary, and we will omit the "one-dimensional" qualifier for simplicity.


  1. I wrote SQL-based and not relational because there are ways to use such DBMSes that completely deviate from relational theory.
share|improve this answer

This is Spatial Reasoning... a few models but 9DE-IM is now accepted by OGC and implemented in PostGIS and other programming tools.

PostGIS implements a spatial reasoning engine based on dimensionally extended 9 intersection model... 9DE-IM..

http://postgis.refractions.net/documentation/manual-svn/ch04.html#DE-9IM check sect Theory...

So does the Java Topology Suite (and Net Topology suite for C# etc)...


In particualr check out the geometry.relate stuff.. such as

boolean isRelated = geometry.relate( geometry2, "T*T*T" )

You can test the relationships, or filter data based on them. Works with pts, lines, polygons etc...

This might help on temporal stuff..


share|improve this answer
Another link which may be of interest.... allegrograph.net/agraph/support/documentation/current/… – timemirror Mar 23 '10 at 21:30
A 3D example of DE-9IM approach for buildings citeseerx.ist.psu.edu/viewdoc/… – timemirror Mar 23 '10 at 21:34

Check out SpatialRules at http://www.objectfx.com/. It's a geospatial complex event processor for 2D and 3D.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.