Waste Management Information System
An Expert System Using Ontologies
Erdogan Dogdu, Bahadir Katipoglu and Umutcan Guney
Department of Computer Engineering, TOBB University of Economics and Technology, Ankara, Turkey
Keywords:
Ontology, Expert Systems, Software Design, Knowledge Systems, Waste Management.
Abstract:
Legal documents that include rules and regulations are hard to interpret most of the time. We present the
requirements and the design of an ontology-based expert system framework that we are developing for easy
translation of legal concepts, rules and constraints to an ontology. Ontology engineers and domain experts on
specific legal documents work collaboratively on this system to generate generic and customized ontologies via
an ontology generation workbench called WOBE (Ontology-based Expert System Workbench) and the expert
system built using the workbench allows end users to follow the rules and regulations without consulting the
complex legal documents. We compare WOBE framework with related tools at the end.
1 INTRODUCTION
Rules and regulations are difficult to follow using
written legal documents. Therefore, domain experts
and consultants are needed in many fields to help with
compliance with the law and regulations. Waste man-
agement and related environmental laws are one of
those areas that require strict compliance because the
fines and penalties have been significantly increased
in recent years all over the world in the case envi-
ronmental violation of law. We have looked at the
regulations that are overseen by the Waste Manage-
ment Division of The Ministry of Environment and
Urban Planning of Turkey. It consists of 16 separate
documents with over 100.000 words. They are very
detailed and difficult to search and follow. The reg-
ulations are very complex and therefore the Ministry
publishes flow-charts to explain the rules for involved
parties. There are over 700 environmental consulting
companies and more than 11 thousand experts regis-
tered by the Ministry to help companies and institu-
tions with the regulations.
We are developing a research project with fund-
ing from the Ministry of Science, Industry and Tech-
nology of Turkey to develop an expert system that
will help companies, institutions, and individuals to
comply with complex rules and regulations. The sys-
tem will enable domain experts to define the rules
for any application domain, and end-users to follow
their compliance with the rules. For this purpose an
ontology-based information system will be built with
a dynamic graphical user interface for easy creation
of rules with graphical components in a Web inter-
face. The system will utilize reasoning capabilities
of ontologies to deduce new information and addi-
tional rules, and automatically detect compliance or
non-compliancesituations for the users and alert them
appropriately.
As a case study,we will convert all rules in 16 doc-
uments by the Waste Management Division into the
system with the help of TAYTEK Waste Management
Inc. (Ankara), an environmental consulting company
located in Ankara with domain experts and is a part-
ner and sponsor in our project. We will measure the
effectiveness of the system with test cases in the field.
In section 2 we present the motivation for the
project. Then, we present the related work in sec-
tion 3. We present initial prototype design of the sys-
tem in section 4. In the same section we also present
WOBE (Ontology-based Expert System Workbench)
that can be utilized in similar domains as an ontology-
editor and presentation tool; the design and user inter-
face of the WOBE prototype. We present the future
evaluation plans and a comparison of WOBE to simi-
lar tools in section 5. We conclude in section 6.
2 MOTIVATION
We conducted a survey with 58 environmental engi-
neers and environmental consultants from different
regions of Turkey who gathered at a national work-
312
Dogdu E., Katipoglu B. and Guney U..
Waste Management Information System - An Expert System Using Ontologies.
DOI: 10.5220/0005084403120318
In Proceedings of the International Conference on Knowledge Engineering and Ontology Development (KEOD-2014), pages 312-318
ISBN: 978-989-758-049-9
Copyright
c
2014 SCITEPRESS (Science and Technology Publications, Lda.)
shop in 2013 in order to discuss the alterations in the
Turkish Environmental Legislation. This survey in-
cluded questions like “Are you making any mistakes
during the determination process of the articles that
will be included in the regulation?”. According to
the results of this survey, 69% of the participants an-
swered “rarely” and 16% answered as “often”. Con-
sequently, 85% of the participants accepted that they
make mistakes in the process at some point. On the
other hand, 72% of the participants agreed that “laws
and regulations are not written in an understandable
language (clearly)”. Among the participants of this
survey, 87% of them were “not aware of expert sys-
tems”, 81% of them were “not aware of decision
trees”, 83% of them were “not aware of ontologies”,
and 91% of them were “not aware of semantic web”.
The results of this survey have shown that regula-
tions are not clear and not easy to follow. And, there
is a need for an expert information system for waste
management that is easy to use, makes rules clear, and
eliminates mistakes. This is also true for many such
regulated domains.
We aim to develop a software system and related
methodologies that can be used to transfer concepts,
relations, and rules in written legal documents to a
knowledgebase. An ontology engineer will use this
system to design an initial generic ontology for a spe-
cific domain, and a domain expert will customize the
ontology for the specific decision making processes
in the related field of their expertise.
Since any such expert system will need a similar
data and information management infrastructure, we
decided to develop a generic workbench that can be
used to develop similar expert systems. The work-
bench we are developing is called WOBE (Ontology
Based Expert System Workbench) that serves as a
framework and an infrastructure for developing ex-
pert systems.
3 RELATED WORK
There are many works in the literature on expert sys-
tems, ontology-based expert systems, and methods
used in ontology-based expert systems. Here we men-
tion some of the noteworthy work in the area. Ontolo-
gies are now being used in information systems more
frequently than before. We also see more publications
in this area in the literature. Ontology-based informa-
tion systems are used in the domains of law, health-
care, education, science, business, manufacturing and
so on.
There are also many works in the literature on
the design and use of ontologies in legal informa-
tion systems. Kayed presents an early attempt for
an e-law ontology capturing legal concepts and re-
lationships (Kayed, 2005). Gangemi proposes us-
ing Content Ontology Design Patterns which help on-
tology designers to develop legal ontologies easily
(Gangemi, 2007). Khadraoui et al present guidelines
for the development of an eGovernment Information
System ontology towards an eGovernment Informa-
tion System (Khadraoui et al., 2005). (Breuker et al.,
2004), (Cheng et al., 2008), (Lame, 2005), (Wyner
and Hoekstra, 2012), (Wyner, 2008), (van Heijst,
1995)
In JUMAS
1
(Judicial Management by Digital Lib-
riaries Semantics) project, which is a European Union
supported research project between 2008 and 2011,
tools and methods are developed for semantic enrich-
ment of legal documents (via annotation) for easy dis-
covery and presentation of legal document and multi-
media libraries (audio and video). They developed
a query expansion method and prototype implemen-
tation based on ontologies (Sartori and Palmonari,
2010).
To the best of our knowledge there is no work in
the literature that fully converts a set of legal docu-
ments into a knowledgebase system for testing. In our
project we aim to convert 16 legal documents in waste
management area into a comprehensive ontology and
also develop an expert system that will use these on-
tologies to guide end-users for compliance with those
laws.
Question answering systems are getting popular
with the advances in semantics-based knowledgebase
systems. We also see relevance that in future ex-
pert systems and decision support systems this kind
of semantic question answering will be used more ro-
bustly to guide users towards intelligentdecision mak-
ing using automated reasoning and some sort of nat-
ural language processing. Hakimov et al developed
and tested methods to answer natural language ques-
tions using linked data and relational patterns dis-
covered in the Web (Hakimov et al., 2013). Angele
et al developed an earlier question answering system
that uses semantic Web conceptsand ontologies based
on chemical laws in the context of Digital Aristotle
project (Angele et al., 2003).
In the system we are developing we also deal
with visual presentation and manipulation of ontolo-
gies. In ontology visualization area, Katifori et al sur-
veyed ontology visualization methods (Katifori et al.,
2007). They present the existing methods, evaluate
their characteristics and point to future directions in
ontology visualization. They especially focus on 2D
vs 3D visualization methods and their respective ben-
1
JUMAS project, http://www.jumasproject.eu
WasteManagementInformationSystem-AnExpertSystemUsingOntologies
313
efits and disadvantages (Katifori et al., 2007). Bosca
et al developed a reusable component for 3D visial-
ization of semantic Web (Bosca et al., 2007). We also
decided to experiment with 3D visualization as a re-
sult of evaluating these work since 3D offer a richer
view and better design approach in ontology visual-
ization and construction.
4 ONTOLOGY-BASED EXPERT
SYSTEM
We are designing an ontology-based expert system
for waste management that will allow ontology engi-
neers, domain experts, and end users to work together.
The backbone of the system is an extended and exten-
sible ontology that will define the meta-data and rules
in written documents.
Expert system setup process consists of two main
steps: ontology development and ontology usage
phases as depicted in Figure 1. In the ontology devel-
opment phase, ontology engineer creates a “generic
ontology” by translating the artifacts (concepts, re-
lationships, rules) in the legal document to ontology
terms. While creating this ontology,engineer may use
any suitable tool, such as Prot´eg´e
2
, that is compati-
ble with OWL2 standards. The ontology created at
this phase is a “generic” one because it represents all
of the general concepts and rules in the written legal
document.
GENERIC ONTOLOGY
General Ontology
Instantiation Logic
Instantiation
Develop Use
User Specific Ontology
User Specific Ontology
User Specific Ontology
Ont.Eng./Domain Expert End User
Possible
OWL2
Ontologies
Figure 1: Ontology design and use phases.
In the ontology usage phase the domain experts
and end users customize this generic ontology for
their own needs in user specific ontologies (Figure 1).
To this end they instantiate the ontological concepts
and relationships by entering domain and/or user spe-
cific information. In the ontology design phage, on-
tolgy engineer also marks the decision points on the
ontology and therefore decision trees are automati-
cally generated for the domain expert’s use. A sample
decision point, the edge marked S between n
1
and n
2
nodes, is shown in Figure 2.
Even though separating the works of ontology en-
gineer and domain expert is not completely possible,
2
protege.stanford.edu
n
1
n
2
S
n
3
p1
n
4
n
5
p2
p3
Figure 2: A sample decision edge.
these decision trees inserted into the ontology isolates
their work to a degree. In the case an ontology engi-
neer needs advice from a domain expert, rather than
communicating with the domain expert, ontology en-
gineer may put decision trees to the necessary points
and let the domain expert make the decision later.
Moreover, the domain expert can complete his or her
design process without any knowledge about ontol-
ogy design. The tool called WOBE, which we are de-
veloping, gives the domain experts a chance of creat-
ing decision trees visually via finding marked connec-
tions (S edge in the above figure) in a given ontology.
Apart from this, domain expert or ontology engineer
can analyze the ontology with a three dimensional vi-
sualization if they wish (Figure 7).
Another advantage of inserting the decision trees
into the ontology as described above is that the do-
main expert can add question texts (Figure 8), which
is not in the written text (regulations), to ease the way
to reach to a decision point. Thus, while the general
ontology is a literal translation of the original text, the
decision trees are more user-oriented, asking ques-
tions to find out and construct the customized ontol-
ogy instance.
It is now also possible to make inferences on the
acquired ontology by running standard ontology rea-
soning engines on it. These inferences will again be
presented to the user by the client systems. We will
provide this web application within the scope of the
Waste Management Regulations that we are develop-
ing.
4.1 Sample Scenario
Consider the following rule taken from the written
regulation on the Control of Air Pollution Due to In-
dustrial Production of Turkish Environmental Protec-
tion Law:
Article 20b: Air dust emissions can not exceed
the limits set by the regulation for facilities which are
subject to legal authorization for establishment and
operation due to the significant impact on air pollu-
tion.
KEOD2014-InternationalConferenceonKnowledgeEngineeringandOntologyDevelopment
314
Concentration limits are:
• CLASS 1 dust emissions (for emission flows of
0.1 kg/hour and above): 20 mg/Nm
3
• CLASS 2 dust emissions (for emission flows of 1
kg/hour and above): 50 mg/Nm
3
• CLASS 3 dust emissions (for emission flows of 3
kg/hour and above): 75 mg/Nm
3
Limits of mixtures:
• CLASS 1, 2: 50 mg/Nm
3
• CLASS 1, 3 or 2, 3 or 1, 2, 3: 75 mg/Nm
3
(Class 1,2,3 type materials are listed in the law)
First, an ontology engineer converts this article
into the general ontology terms (Figure 1 develop
phase). Ontology engineer also identifies decision
points in the ontology. For example for the above arti-
cle, dust emission limits can be 20, 50 or 75 mg/Nm3
for class 1, 2, 3 type of materials respectively. We
plan to introduce a visual tool for the engineer where
he or she can choose and mark decision points in the
ontology visually.
Facility
Waste Gas
Emission Limit
hasLimit
[Decision]
20 70 50
Facility
hasLimit
70
Figure 3: Generic ontology (left) and customized ontology
(right).
In the use phase (Figure 3, 4) the end users de-
cide what to do in decision points that are determined
in the previous stage. And this is done through a
question-answer session on the system. At the end,
the ontology will be customized for the end user with
specific facts as shown in Figure 3. On the left of the
figure we see the decision points based on the generic
ontology and on the right side the final statement (cus-
tomized ontology) for the end user, that is “the facility
has gas emission limit 70”.
4.2 System Architecture
The expert system we are designing is a multi-tiered
system like all modern information systems. The sys-
tem consists of mainly the following components as
depicted in Figure 5. WOBE, or Ontology Based
Are there any chemicals from CLASS 3 in
emission?
Are there any chemicals from CLASS 2 in
emission?
Are there any chemicals from CLASS 1 in
emission?
no
no
75
50
20
yes
yes
yes
no
X
Figure 4: A sample decision tree.
Expert System Workbench, is an integrated develop-
ment environment (IDE) for ontology engineers and
domain experts. It serves as a visual tool for these
users at development stage of the expert system build-
ing and it has modules for both ontology creation and
decision tree building.
Expert System Services is a web service that
provides resources for client applications serving
the end user customization stage of the expert sys-
tem. Generic Ontology Framework provides the main
functions for data modelling and customization of on-
tologies. It allows operations like storing, querying,
and updating on ontology model and related decision
trees.
Datastores layer consists of a NoSQL database for
decision trees and a triple store for ontology persis-
tence. Access to this layer is only possible via Generic
Ontology Framework layer.
WOBE
Generic Ontology Framework
Datastores
Expert System Services
Figure 5: Software components of the ontology-based ex-
pert system framework.
4.3 Detailed Architecture
Our initial detailed design is depicted in Figure 6. We
have used some of the open source libraries for spe-
cific tasks.
Our system uses OWL2
3
standard and is based on
Jena Framework
4
for ontology design and manipula-
tion. On top of these, there is another layer we de-
veloped, which we call Generic Ontology Framework
3
OWL2, www.w3.org/TR/owl2-overview
4
jena.apache.org
WasteManagementInformationSystem-AnExpertSystemUsingOntologies
315
WOBE: Ontology Based Expert System Workbench
Eclipse 4 RCP
Java 3D JGraphT
Decision Tree Modeller3D Ontology Visualizer
Generic Ontology Framework
Decision Tree DB
Apache Jena Framework
Triple Store
Generic Ontology
Web Service
Client Systems
Figure 6: Software components of the ontology-based ex-
pert system framework.
(GOF). This layer lets the generic ontologies process
using decision trees, save and present them. GOF
stores decision trees in a NoSQL database called De-
cision Tree DB and we use MongoDB
5
in our proto-
type. We constructed the Generic Ontology Develop-
ment tool named WOBE on Eclipse 4 RCP platform
6
and used libraries like Java3D
7
and JGraphT
8
for 3D
ontology visualization.
4.4 WOBE: Ontology-based Expert
System Workbench
This tool is mainly developed for ontology engineers
and domain experts for designing a “generic ontol-
ogy” which is the base ontology for creating user spe-
cific ontologies. WOBE is carefully designed to iso-
late the work spaces of ontology engineer and domain
expert from each other. It lets the ontology engineer
create the template ontology with the least knowledge
about the subject and lets the domain expert add the
details having the least knowledge about the ontology.
This is one of the main design principles of WOBE,
that is the “separation of concerns”.
One of the edges in Figure 7 is marked as an edge
which needs a decision model. You can see the de-
sign screen for the decision tree for that edge, which
is used by the domain expert for ontology customiza-
tion in Figure 8.
5
www.mongodb.org
6
www.eclipse.org
7
java3d.java.net
8
jgrapht.org
Table 1: Comparison table of WOBE with similiar tools
WOBE GEPHI Protege Neoclipse
1.0 0.8.2 4.3 1.9.5
Infrastructure Java Java Java Java
Eclipse 4 Netbeans Eclipse
OWL2 Support
+ - + -
2D Visualization
+ + + +
3D Visualization
+ + +* -
Decision Tree Support
+ - - -
Export to RDF
+ - + -
Graph algorithms
+ + - -
Reasoning
+ + + -
DataStore
TDB Neo4J* TDB Neo4J
∗
with plugin
5 EVALUATION AND
COMPARISON
We are developing WOBE and the expert system soft-
ware. We plan to evaluate the finished system as fol-
lows:
After creating the waste management regulations
ontology using WOBE, we plan to evaluate the ex-
pert system by user evaluation. For this we employ
our clients and employees of TAYTEK company. We
will conduct a survey about their experience and the
interaction they had with the system after a trial pe-
riod. Thus we will be able to evaluate our systems’
efficiency (usability, correctness, etc.). After making
improvements on the system based on the survey re-
sults, we will conduct test with outside users as well.
Here we also present a comparison of features of
WOBE with other ontology design tools (Table 1).
WOBE is not only a graph or ontology development
tool. It is a generic ontology production, editing and
presentation tool that can be used to develop expert
systems for rule-based information management and
decision making.
Gephi is a successful tool on graph visualization
and graph algorithms but it does not support OWL
and RDF standards. Protege is the widely used on-
tology editor but it has no support for decision tree
customization. Neoclipse is an advanced integrated
development environment (IDE) among all.
6 CONCLUSIONS
In this paper we presented the requirements for and
a prototype design of an ontology-based expert sys-
tem that is mainly targeting waste management do-
main. We presented a generic ontology design and
customization tool WOBE and compared its features
with similar tools. Currently we are developing
WOBE. One of the main advantages of WOBE is that
it enables ontology designers and domain experts in
KEOD2014-InternationalConferenceonKnowledgeEngineeringandOntologyDevelopment
316
Figure 7: Prototype view of WOBE.
Figure 8: Prototype view of decision tree designer.
specific fields to work together. WOBEs main pur-
pose is to translate concepts, rules, and regulations
written in textdocuments to an information and expert
system via an ontology and related decision trees.
WOBE and its relevant systems are planned to be
licensed by an open-source license. Thus any com-
pany, person or academic foundation can obtain, de-
velop or use freely for building their own expert sys-
tems. The tool will be developed on Eclipse 4 RCP
that has great acceptance from the community and
gives us much more flexibility on extending and de-
veloping.
Companies, which aim to optimize or improve
their processes such as quality control and manage-
ment or systems like CRM and ERM, need computer
assisted autonomous systems. The tool we are devel-
WasteManagementInformationSystem-AnExpertSystemUsingOntologies
317
oping can be used to develop expert systems in any
area by translating rules and regulations to the sys-
tem with the help of an ontology engineer initially.
Then, domain experts can customize the ontology for
specific usage areas (such as decision making). We
expect to see more sophisticated ontology-based ex-
pert systems in many areas besides legal domain such
as healthcare, business, manufacturing, etc. in near
future.
ACKNOWLEDGEMENT
This work was supported in part by The Ministry of
Science, Industry and Technology of Turkey under
Grant No. SANTEZ-0479.STZ.2013-2.
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