Commit 4f1dada1 authored by npedot's avatar npedot
Browse files

try with relative paths

parent 186f53c5
......@@ -161,7 +161,7 @@ the first tuple explicitly expressed both values as true.
the second tuple has explicitly expressed only the truth for A.
The test result for B (t2) will be true with rapid convergence, as there is no conflicting information.
Case study: [test_ldb_basic](https://bitbucket.org/semint/spike.ltn/src/master/docker/docker-ldb/ldb/test/test_basic.py)
Case study: [test_ldb_basic](../docker/docker-ldb/ldb/test/test_basic.txt)
### Minimal categorical example
......@@ -172,14 +172,14 @@ Mutual exclusion constraints must therefore be introduced for each possible cate
Given a certain training population we can ask LDB the value of a new person, according to the values
assumed by other parameters, eg worker, adult
Case study: [test_ldb_category](https://bitbucket.org/semint/spike.ltn/src/master/docker/docker-ldb/ldb/sample/basic_category.py)
Case study: [test_ldb_category](../docker/docker-ldb/ldb/sample/basic_category.py)
### Minimal example of inconsistency
Starting from the previous categorical case if we add a description that contradicts a constraint, optimization will end by timeout and not by minimizing the distances of the constraints, leaving the value space in an unsecured configuration to satisfy all constraints.
Case study: [test_ldb_basic_contradiction](https://bitbucket.org/semint/spike.ltn/src/master/docker/docker-ldb/ldb/test/test_basic_contradiction.py)
Case study: [test_ldb_basic_contradiction](../docker/docker-ldb/ldb/test/test_basic_contradiction.txt)
### Minimal numerical example
......@@ -188,19 +188,19 @@ We translate a simple archive that describes a numerical feature.
Suppose a table (id: string, age: integer (0-100), adult: Boolean)
given a first sample of values we can use LDB as a classifier to make us suggest the best value:
Case study: [test_ldb_numeric](/docker/docker-ldb/ldb/sample/basic_numeric.py)
Case study: [test_ldb_numeric](../docker/docker-ldb/ldb/sample/basic_numeric.py)
Choosing a two-dimensional metric
we can extend the constraints for example to a Euclidean space.
Case study: [test_ldb_numeric_ecludean](https://bitbucket.org/semint/spike.ltn/src/master/docker/docker-ldb/ldb/code/basic_numeric_euclidean.py)
Case study: [test_ldb_numeric_ecludean](../docker/docker-ldb/ldb/code/basic_numeric_euclidean.py)
### Distribution example
To understand how it affects the distribution of values let's start from a table in CSV format:
Case study: [test_ldb_105](https://bitbucket.org/semint/spike.ltn/src/master/docker/docker-ldb/ldb/sample/basic_distrib.py)
Case study: [test_ldb_105](../docker/docker-ldb/ldb/sample/basic_distrib.py)
### Example of constrained distribution
......@@ -208,7 +208,7 @@ Case study: [test_ldb_105](https://bitbucket.org/semint/spike.ltn/src/master/doc
We verify that the logical constraints affect the result beyond just the distribution.
We then introduce a further constraint on the distribution and observe the changes on the result.
Constraint case study: [test_ldb_constraint](https://bitbucket.org/semint/spike.ltn/src/master/docker/docker-ldb/ldb/sample/basic_distrib_constraint.py)
Constraint case study: [test_ldb_constraint](../docker/docker-ldb/ldb/sample/basic_distrib_constraint.py)
### Simplified realistic example
......@@ -217,7 +217,7 @@ Assuming to start from values ​​not in enumerated format but free text value
you will need to apply additional translation steps to the source data.
The first step is the construction of categories for each column.
Case study: [hospital_10](https://bitbucket.org/semint/spike.ltn/src/master/docker/docker-ldb/ldb/sample/fix_hospital_10.py)
Case study: [hospital_10](../docker/docker-ldb/ldb/sample/fix_hospital_10.py)
* highlighted mapping difficulty, to get good learning the whole record should be mapped to real vectors,
for some types of field this activity is not immediate.
......@@ -227,7 +227,7 @@ for some types of field this activity is not immediate.
Using the entire data set consisting of
HoloClean hospital case study: [hospital_complete](https://bitbucket.org/semint/spike.ltn/src/master/docker/docker-ldb/ldb/sample/fix_hospital.py)
HoloClean hospital case study: [hospital_complete](../docker/docker-ldb/ldb/sample/fix_hospital.py)
* highlighted scalability difficulty, network training, application and effectiveness times remain largely optimizable.
......
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