Ontology for Data Science: Difference between revisions

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'''Proposed Special Topics Course'''
'''Proposed Special Topics Course'''


'''Faculty: Barry Smith'''  
'''Faculty: [http://ontology.buffalo.edu/smith Barry Smith]'''  


'''Registration:''' [http://www.buffalo.edu/cas/philosophy/grad-study/grad_courses/springcourses_grad.html#title_0 Class# ]. Registration details for off-campus students are provided under Part Time/Graduate [http://studentaccounts.buffalo.edu/tuition/spring.php here].
'''Venue: TBA'''


'''Course Structure:''' This will be a one credit hour course intended for beginning PhDs, Masters and advanced Undergraduate students in all departments. Assessment will be in the form of class attendance (50%), together with ontology-building exercises using the Protégé ontology editing softaware to be completed within 2 weeks of the class (50%). An on-line version of this course will form part of the compulsory online ontology course in the CMIF [https://www.buffalo.edu/cmif/education.html Master of Engineering in Data and Information Fusion]. (It will constitute 1 of the 3 credit hours for this program.  
'''Registration:''' [http://www.buffalo.edu/cas/philosophy/grad-study/grad_courses/springcourses_grad.html#title_0 Class# ]. Registration details for off-campus students are provided under Part Time/Graduate [http://studentaccounts.buffalo.edu/tuition/spring.php here]. An online version of this course will be offered. Details to be provided HERE {link will be inserted}.
 
'''Course Structure:''' This is a one credit hour course intended for beginning PhDs, Masters and advanced Undergraduate students in all departments. Assessment will be in the form of  
:(1) attendance in two full days of lectures,
:(2) ontology-building exercises to be completed within the first 2 weeks of the semester.  
 
An on-line version of the course will form part of the compulsory online ontology course in the CMIF [https://www.buffalo.edu/cmif/education.html Master of Engineering in Data and Information Fusion]. (It will constitute 1 of the 3 credit hours for this program.  


'''Course Description:''' An ontology is a structured collection of terms used to tag data with the goal of making data deriving from heterogeneous sources more easily searchable, comparable. combinable, or analysable. Ontologies allow information to be shared across communities with different sorts of expertise. The course will provide an introduction to ontology for students of data science and information fusion. It is co-sponsored by the Department of Philosophy and the Center for Multi-Source Information Fusion.
'''Course Description:''' An ontology is a structured collection of terms used to tag data with the goal of making data deriving from heterogeneous sources more easily searchable, comparable. combinable, or analysable. Ontologies allow information to be shared across communities with different sorts of expertise. The course will provide an introduction to ontology for students of data science and information fusion. It is co-sponsored by the Department of Philosophy and the Center for Multi-Source Information Fusion.
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9:00 Introduction to Ontology, Data Science and Information Fusion
9:00 Introduction to Ontology, Data Science and Information Fusion
:Data mining
:Ontologies and Their Applicatoins
:Natural language processing
:Data Mining
:Explainable artificial intelligence
:Natural Language Processing
:Explainable Artificial Intelligence


10:30: Coffee
10:30: Coffee
Line 32: Line 39:
:2: 1990s: The Semantic Web, Linked Open Data
:2: 1990s: The Semantic Web, Linked Open Data
:3: 2000s: Lessons from the Human Genome Project
:3: 2000s: Lessons from the Human Genome Project
:4: 2019: Current examples of uses of ontology in data science and information fusion
:4: 2010s: Current examples of uses of ontology in data science and information fusion


11:00  
11:00  
Line 55: Line 62:


9:00 Use of Ontologies in Intelligence Domains
9:00 Use of Ontologies in Intelligence Domains
:Ontology and intelligence analysis
:Ontology and Intelligence Analysis
:Ontology of terrorism
:Ontology and Information Fusion
:Ontology and information fusion


10:30: Coffee
10:30: Coffee


10:45:Basic Formal Ontology
10:45: Ontology of Terrorism
:ISO 21838
:Defining Terrorism
:Common Core Ontologies (CCO)
:Terrorism and Crime
:Industryial Ontologies Foundry (IOF)
:Predicting Terrorist Radicalization


12:00 Lunch
12:00 Lunch


12:45 Ontology Technology
12:45 Ontology Technology
:From HTML to the Web Ontology Language (OWL)
:The Web Ontology Language (OWL)
:Ontology Repositories
:Ontology Repositories
:The Protégé Ontology Editor
:The Protégé Ontology Editor
:SPARQL Queries


14:00 Introduction to Ontology Building
14:00 Introduction to Ontology Building
Line 78: Line 83:
:Examples  
:Examples  
:Interactive Ontology Building Session
:Interactive Ontology Building Session
==Feb 26: Simple Protege Introduction==
[https://www.youtube.com/playlist?list=PLea0WJq13cnAfCC0azrCyquCN_tPelJN1 Videos]
*When watching these videos please bear in mind that we have not introduced in the class so far the specific terminology used by Protege. Most importantly, 'class' in Sadawi's course is what we have been referring to as 'type' or 'universal'. 'Property' is what we have been referring to as 'Relation'. Each property has a domain and a range; for instance the property teaches has the domain teacher and the range student. A guide (probably more than you need) is [https://www.w3.org/TR/owl-guide/ here] and there is also an introduction to the Semantic Web in the Appendix to the [https://www.amazon.com/Building-Ontologies-Basic-Formal-Ontology/dp/0262527812 BFO book]. If there is terminology used in Sadawi's lectures which you think needs explaining please feel free to post a request to the the class email list [mailto:phi-549-sp-17-list@listserv.buffalo.edu].
*In addition to taking Sadawi's course you should also download Protege to your computer from [http://protege.stanford.edu/ here] and experiment with creating simple ontologies of your own and posting them to the web. Include links on the [https://phi-549-sp-17-buffalo.slack.com/ slack page] to the ontologies you create.


----
----


==Mar 5: Ontology and Referent Tracking==
:[https://youtu.be/3DKUjATZOjY Video]
*This video presents a set of rules and best practices for ontology creation, together with examples 
*The three videos below introduce the idea of referent tracking. Where ontologies are descriptions of types (universals and defined classes in reality), a referent tracking system provides a way of referring to and keeping track of the instances of such types. Ontologies and referent tracking systems are thus two sides of a single kind.
*A referent system (RTS) is designed not merely to keep track of what is the case in reality but also to allow us to capture what is believed to be the case in reality. It also allows us to keep track of how changes in the information system correspond to changes in the reality outside that system. We will provide an introduction to referent tracking and its implementations.
:[http://ncor.buffalo.edu/2013/IE500/11-Basics-of-Referent-Tracking.pptx Basics of Referent Tracking (RT)] [http://ncor.buffalo.edu/2013/IE500/Videos/11-Referent-Tracking.mp4 Video]
:[http://ncor.buffalo.edu/2013/IE500/12-RT-and-Video-Surveillance.pptx RT and Video Surveillance] [http://ncor.buffalo.edu/2013/IE500/Videos/12-Video-Surveillance.mp4 Video]
:[http://ncor.buffalo.edu/2013/IE500/13-RT-and-Data-descriptions.pptx RT and Data descriptions] [http://ncor.buffalo.edu/2013/IE500/Videos/13-Data-Descriptions.mp4 Video]
*Reading: [[How to track absolutely everything?]]. Note that each time your download this pdf file the copy you create is assigned a new referent tracking ID. This enables Dr Ceusters to keep track of the IP addresses of those who are downloading materials from his site and of which versions of these materials they are downloading at which times.
----
==Mar 12: Basic Formal Ontology==
The video material for the period from March 12 through March 26 will cover Basic Formal Ontology as described in the [https://books.google.com/books?id=AUxQCgAAQBAJ&printsec=frontcover#v=onepage&q=contents&f=false book] and in the more technical specification [https://github.com/BFO-ontology/BFO/raw/master/docs/bfo2-reference/BFO2-Reference.pdf here].
:[http://ncor.buffalo.edu/2017/BFO-Part1.mp4 BFO Part One: Overview of BFO]
:[http://ncor.buffalo.edu/2012/BFO_Tutorial_2012.pptx Slides]
A shorter summary of the March 12-26 material is presented here:
:[https://www.youtube.com/watch?v=iTNQYyh88-Y BFO 2.0 Shorter Version Part One]
:[https://www.youtube.com/watch?v=IMCBON2me3Y BFO 2.0 Shorter Version Part Two]
----
:Mar 19 Spring Recess
==Mar 26 Basic Formal Ontology (Continued)==
:[http://ncor.buffalo.edu/2012/BFO_Tutorial_2012.pptx Slides]
:[http://ncor.buffalo.edu/2017/BFO-Part2.mp4 BFO Part Two: Varieties of continuant entities]
::Boundaries, sites and spatial regions
:::Material entities occupy spatial regions
:::Temporal instants and temporal intervals
==April 2: Basic Formal Ontology (Continued)==
:[http://ncor.buffalo.edu/2017/BFO-Part4.mp4 BFO Part Four: Granular Partitions]
:[http://ncor.buffalo.edu/2012/BFO_Tutorial_2012.pptx Slides]
::Manipulating partitions
::Object partitions
::Quality partitions
:::Color
::Map layers
::Process partitions
:::Map-based partitions of occurrent reality and the fiat entities they create
::::Weather
::::Napoleon's march to Moscow
::From photography to film
::Persistence in time
:::Partition sequences
::::Tossing a coin
::::Chess
::::Flying from Vienna to New York
::::Molecular pathways
::Defining 'process profile'
:::Focusing on the cello part when you listen to a string quartet
::Granular partitions and the Davidsonian theory of events
:[https://www.youtube.com/watch?v=xVVUH00cMNY Quantities as Fiat Universals]
:[http://ontology.buffalo.edu/smith/ppt/Quantities-Lugano-Feb-2017.pptx Slides]
Granular partitions are systems of cells which are projected on corresponding portions of reality. Maps of the territorial dioceses and archdioceses of the Catholic Church of the United States, for example, are granular partitions of a certain area of land. The former stands to the latter in the relation of refinement. Some granular partitions reflect bona fide divisions of reality, for example between mammals and reptiles. Others, for example, between normal and elevated blood pressure, represent reality in terms of fiat demarcations introduced for diagnostic or other purposes. This talk applies the theory of granular partitions to our understanding of quantities and of units of measure.
==Apr 9: Environments and Emotions==
:[https://www.youtube.com/watch?v=gxihMdMiV0Y Environments: Inside and Outside the Organism] [http://ontology.buffalo.edu/smith/ppt/Envo_Merced_Aug2011.ppt Slides]
::The talk begins with the question: What is an environment? Environments fall outside traditional philosophical classifications since they are neither things nor events. The Environment Ontology proposes a new approach to the understanding of environments grounded in the science of ecology, and considering environments within the same family as niches, habitats, and biomes. The talk concludes with a discussion of the relationship between the ontology of biological environments and the idea of environment underlying the ecological psychology of J. J. Gibson and the theory of behavior settings put forward by Roger Barker.
:[https://www.youtube.com/watch?v=18php_34s-M The Emotion Ontology] [http://ontology.buffalo.edu/smith/Emotion-Ontology/MFO-EM.pptx Slides]
::The scientific study of emotions utilizes data of a wide range of different sorts, ranging from introspective and observational reports of individual emotional experiences to experimental data deriving from chemical, genetic, and neurological studies. Scientific ontologies provide a strategy for the integration of such heterogeneous data by providing formal definitions of the types of entities in the corresponding domains of reality and a controlled vocabulary in whose terms the different sorts of data can be consistently described. Heretofore, there has been little effort directed towards such formal representation for emotional phenomena, in part because of widespread debates within the affective science community on matters of definition and categorization. The Emotion Ontology is an attempt to rectify this shortfall. I will describe the ontology and show how it interoperates with ontologies in neighboring areas such as neurochemistry. I will also draw some general conclusions pertaining to classification in psychological and psychiatric domains, to the treatment of grief, and to the relation of all of the above to questions of philosophy.
==Apr 16: The Ontology of Social Reality (continued)==
:[https://www.youtube.com/watch?v=AaFnMesr6uQ Diagrams and Time] [http://ontology.buffalo.edu/smith/ppt/Diagrams-and-Time.pptx Slides]
::A set of intermeshed diagrams called musical scores guides the complex series of human actions we call an orchestral performance. A set of intermeshed diagrams in a military field manual, similarly, guides the complex series of human actions which is a military operation. Musical scores and field manuals serve similarly as the basis for training of the users of such diagrams, which are able to perform their guidance functions only if their users have correspondingly intermeshed types of expertise.
:[https://www.youtube.com/watch?v=tHap_q-dUKk Commanding and Other Social Acts] [http://ontology.buffalo.edu/smith/ppt/Commanding.pptx Slides]
::We begin by distinguishing speech acts from document acts, where the latter includes not only for example signing or stamping or filling in a paper document but also including the acts performed, for instance, when you are completing and submitting your tax forms using tax software. We refer to the latter as e-document acts. Planning, and especially military planning, is nowadays a matter of both paper document acts and e-document acts. Successful military planning requires that there be pre-defined types of actions which planners can incorporate into their plans. Planners must be confident that warfighters will be able to execute actions of these types in an effective way. We show how this confidence is achieved 1. through military doctrine -- which defines the relevant action types -- and 2. through military training -- which builds the warfighters who can execute them. Military plans, military doctrine and military training relate not only to the actions of individual warfighters, but also to team actions and to the sorts of team of team actions involved when entire armies are involved in military options. It is the role of military command to make this possible -- we plan team actions by planning the individual actions of commanders at different levels in the military hierarchy. The speech acts and document acts we call military commands thus occur in the typical case as part of the execution of military plans. We conclude with a comparison between the planning, training, and commanding on the side of the military with the orchestration, rehearsal, and conducting that takes place in the performance of symphonic music.
:[https://www.youtube.com/watch?v=VtRM4gPl0TU The Ontology of Terrorism] [http://ontology.buffalo.edu/16/Ontology-of-Terrorism.pdf Slides]
::Notoriously, intelligence agencies face the problem of Connecting the Dots. 'Connecting', here, means not only cross-identifying the individuals referred to in different sources, but also combining in useful ways all the data about such individuals. Ontologies allow analysts to harvest combinable information from messy inputs by providing consistent sets of terms for describing the entities involved. Suppose, for example, that ontology terms have been used to tag collections of heterogeneous source data about, say, persons in Baghdad. Analysts can then use the results to identify all available data regarding, say, persons who speak Armenian, or persons with expertise in Java programming; and they can do this independently of the type of data (text, images, audio)which served as inputs. To be effective, however, ontologies need to contain not just terms but also definitions. To illustrate how this works we will consider some simple examples of ontology building, concluding with an ontological approach to the definition of terrorism.
==Apr 23: The Ontology of Social Reality (continued)==
:[https://www.youtube.com/watch?v=18php_34s-M The Emotion Ontology]
::The scientific study of emotions utilizes data of a wide range of different sorts, ranging from introspective and observational reports of individual emotional experiences to experimental data deriving from chemical, genetic, and neurological studies. Scientific ontologies provide a strategy for the integration of such heterogeneous data by providing formal definitions of the types of entities in the corresponding domains of reality and a controlled vocabulary in whose terms the different sorts of data can be consistently described. Heretofore, there has been little effort directed towards such formal representation for emotional phenomena, in part because of widespread debates within the affective science community on matters of definition and categorization. The Emotion Ontology is an attempt to rectify this shortfall. I will describe the ontology and show how it interoperates with ontologies in neighboring areas such as neurochemistry. I will also draw some general conclusions pertaining to classification in psychological and psychiatric domains, to the treatment of grief, and to the relation of all of the above to questions of philosophy.
:[https://www.youtube.com/watch?v=WIJJlnLLWGU Deontology Ontology]
::Basic Formal Ontology provides no obvious category under which deontic entities such as claims, rights, obligations, permissions fall. The lecture provides a summary of how such entities may be treated in a way that is consistent with BFO, focusing on the case of obligations generated through acts of promising. a longer version of this material is presented [https://www.youtube.com/watch?v=W4Vefe5p6p4 here] and [https://www.youtube.com/watch?v=Hk6Df2geYiQ here].
:[https://www.youtube.com/watch?v=bp3B2GkgaB8 Ontology of the Organigram]
::An organigram is a graph-theoretic structure consisting of nodes and edges. The nodes standardly represent three sorts of entities: divisions within the organization, offices of the persons who head these divisions, and the current holders of such offices. The edges represent relations of sub- and superordination between the entities represented by the nodes. Where such a relation obtains the subordinate has obligations based upon his consent to perform certain duties as directed and controlled by the superordinate. We will evaluate the hypothesis that an organization is itself a graph-theoretic structure that is (or is capable of being) represented by an organigram.
==Apr 30: Ontology of Medicine ==
:[https://www.youtube.com/watch?v=b4kULamlFaM The Ontology of Disease]
::A recent paper in the journal Healthcare Informatics Research identifies a paradigm shift - 'from concept representations to ontologies' - in the ways medical terminologies and vocabularies are used to describe medical data [1]. We will describe what this paradigm shift involves, what it means to talk about 'ontologies' in the medical context, and how such talk relates to the traditional concerns of philosophical ontologists. We shall conclude with an ontological definition of disease, and illustrations of how this definition can be applied to a range of clinical examples. [1] See http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3920035/
:[https://www.youtube.com/watch?v=3U55vU8SfEo How to Build an Imaging Ontology]
::We will provide an introduction to the field of biomedical ontology with special reference to the field of pathology informatics. We will look at examples of existing ontologies especially the Ontology for Biomedical Investigations (OBI), the Ontology for Biological and Clinical Statistics (OBCS), and the Ontology for General Medical Science (OGMS). We will then draw lessons from these examples for an ontology of pathology imaging.
:[https://www.youtube.com/watch?v=gc5a0LaXaBo The Glory and Misery of Electronic Health Records]
::Starting from around 2005, national programs for the introduction of Electronic Health Records (EHRs) were launched with great enthusiasm in the US and UK. EHRs were seen as a means of increasing quality, safety and continuity of clinical care while at the same time reducing healthcare costs. I will survey the results of these, pointing out both achievements and failures. Specific topics to be addressed include: problems of data interoperability; ‘meaningful use’; the role of SNOMED CT, openEHR, and FHIR; and the prospects for secondary use of EHR data in information-driven clinical and translational research.​While bioinformatics has witnessed enormous technological advances since the turn of the millennium, progress in the EHR field has been stymied by outdated approaches entrenched through ill-conceived government mandates. In the US, especially, the dominant EHR systems are expensive, difficult to use, fail to ensure even a minimal level of interoperability, and detract from patient care. I will conclude by sketching an evolutionary path towards the sort of EHR landscape that will be needed in the future, in which consistency with biomedical ontologies will play a central role.
:[https://www.youtube.com/watch?v=PhW-ix-FoOQ Ethics, Informatics and Obamacare]
::Surveys a series of ethical, economic, clinical and also safety issues relating to the application of informatics to healthcare, focusing especially on the role of informatics in the Patient Protection and Affordable Care Act. Talk presented in the University at Buffalo Clinical/Research Ethics Seminar - Ethics, Informatics and Obamacare, November 20, 2012. Slides are available here: http://ontology.buffalo.edu/13/ethics-informatics-obamacare.pptx
==May 7 Student video presentations==
==Background Materials==
'''Example Ontologies'''
::[http://obofoundry.org/ontology/iao.html Information Artifact Ontology]
::[http://geneontology.org Gene Ontology]
::[http://obofoundry.org OBO (Open Biomedical Ontologies) Foundry]
::[https://jbiomedsem.biomedcentral.com/articles/10.1186/2041-1480-4-43 The Environment Ontology]
::[https://www.youtube.com/watch?v=b4kULamlFaM Ontology for General Medical Science]
'''Text:''' Robert Arp, Barry Smith and Andrew Spear, [https://mitpress.mit.edu/index.php?q=books/building-ontologies-basic-formal-ontology Building Ontologies with Basic Formal Ontology], Cambridge, MA: MIT Press, August 2015


Further readings are provided here: http://ontology.buffalo.edu/smith/
Further readings are provided here: http://ontology.buffalo.edu/smith/
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| F || 0 || 59.9% or below
| F || 0 || 59.9% or below
|}
|}
An interim grade of Incomplete (I) may be assigned if the student has not completed all requirements for the course. An interim grade of 'I' shall not be assigned to a student who did not attend the course. The default grade accompanying an interim grade of 'I' shall be 'U' and will be displayed on the UB record as 'IU.' The default Unsatisfactory (U) grade shall become the permanent course grade of record if the 'IU' is not changed through formal notice by the instructor upon the student's completion of the course.
Assignment of an interim 'IU' is at the discretion of the instructor. A grade of 'IU' can be assigned only if successful completion of unfulfilled course requirements can result in a final grade better than the default 'U' grade. The student should have a passing average in the requirements already completed. The instructor shall provide the student specification, in writing, of the requirements to be fulfilled.
The university’s Graduate Incomplete Policy can be found [http://grad.buffalo.edu/study/progress/policylibrary.a-to-z.html#iugrade here].


=='''Related Policies and Services'''==
=='''Related Policies and Services'''==
Line 300: Line 164:


== '''Background Reading and Video Materials''' ==
== '''Background Reading and Video Materials''' ==
'''Optional Background Reading''' Robert Arp, Barry Smith and Andrew Spear, [https://mitpress.mit.edu/index.php?q=books/building-ontologies-basic-formal-ontology Building Ontologies with Basic Formal Ontology], Cambridge, MA: MIT Press, August 2015


*[http://ontology.buffalo.edu/smith/articles/ontologies.htm Ontology: An Introduction]
*[http://ontology.buffalo.edu/smith/articles/ontologies.htm Ontology: An Introduction]

Revision as of 19:46, 18 February 2018

Title: PHI 549 Introduction to Ontology for Data Science and Information Fusion, Spring 2019

Proposed Special Topics Course

Faculty: Barry Smith

Venue: TBA

Registration: Class# . Registration details for off-campus students are provided under Part Time/Graduate here. An online version of this course will be offered. Details to be provided HERE {link will be inserted}.

Course Structure: This is a one credit hour course intended for beginning PhDs, Masters and advanced Undergraduate students in all departments. Assessment will be in the form of

(1) attendance in two full days of lectures,
(2) ontology-building exercises to be completed within the first 2 weeks of the semester.

An on-line version of the course will form part of the compulsory online ontology course in the CMIF Master of Engineering in Data and Information Fusion. (It will constitute 1 of the 3 credit hours for this program.

Course Description: An ontology is a structured collection of terms used to tag data with the goal of making data deriving from heterogeneous sources more easily searchable, comparable. combinable, or analysable. Ontologies allow information to be shared across communities with different sorts of expertise. The course will provide an introduction to ontology for students of data science and information fusion. It is co-sponsored by the Department of Philosophy and the Center for Multi-Source Information Fusion.

Schedule: The class will be taught over two consecutive days in the week before the beginning of the Spring semester.

Day 1

8:30 Registration and Coffee

9:00 Introduction to Ontology, Data Science and Information Fusion

Ontologies and Their Applicatoins
Data Mining
Natural Language Processing
Explainable Artificial Intelligence

10:30: Coffee

10:45 Ontology Time-Line

1: 1970s: Strong AI, Robotics, PSL
2: 1990s: The Semantic Web, Linked Open Data
3: 2000s: Lessons from the Human Genome Project
4: 2010s: Current examples of uses of ontology in data science and information fusion

11:00

12:00 Lunch

12:45 Use of Ontologies in Data Fusion and Data Analysis

Examples from biology
Examples from environmental sciences
Examples from medicine

14:00 Use of Ontologies in Military Domains

Joint Doctrine Ontology
Ontology for command and control
Ontology and military logistics
Space ontology

16:00 Close

Day 2 8:30 Registration and Coffee

9:00 Use of Ontologies in Intelligence Domains

Ontology and Intelligence Analysis
Ontology and Information Fusion

10:30: Coffee

10:45: Ontology of Terrorism

Defining Terrorism
Terrorism and Crime
Predicting Terrorist Radicalization

12:00 Lunch

12:45 Ontology Technology

The Web Ontology Language (OWL)
Ontology Repositories
The Protégé Ontology Editor

14:00 Introduction to Ontology Building

Simple Guide to Building Ontologies with Protégé
Examples
Interactive Ontology Building Session


Further readings are provided here: http://ontology.buffalo.edu/smith/

Requirements: This course is open to all persons with an undergraduate degree and some relevant experience (for example in data scientists, information engineers, terminology researchers).

Grading will be based on:

1. class participation (50%)
2. completion of

For policy regarding incompletes see here

For academic integrity policy see here

Student Learning Outcomes

Program Outcomes/Competencies Instructional Method(s) Assessment Method(s)
The student will acquire an introductory knowledge of current ontology methods in areas relating to data science and information fusion Class lectures Review of submitted online content and of participation in online discussion forum
The student will acquire experience in ontology development Ontology-building exercise Review of results in the form of Protégé file

Grading

Grading will be based on two factors: class participation and Protégé ontology-building exercise; the former will be assessed on the basis of attendance lists which will be circulated at on both days at non-preannounced times,

Grades will be weighted according to the following breakdown:

Weighting Assignment

50% - class attendance
50% - completion of Protégé ontology-building exercise

Students whose presence is not recorded in both lists will receive 0% for attendance. Details of requirements for the ontology-building exercise will be provided in class.

Final Grades

Grade Quality Percentage

A 4.0 93.0% -100.00%
A- 3.67 90.0% - 92.9%
B+ 3.33 87.0% - 89.9%
B 3.00 83.0% - 86.9%
B- 2.67 80.0% - 82.9%
C+ 2.33 77.0% - 79.9%
C 2.00 73.0% - 76.9%
C- 1.67 70.0% - 72.9%
D+ 1.33 67.0% - 69.9%
D 1.00 60.0% - 66.9%
F 0 59.9% or below

Related Policies and Services

Academic integrity is a fundamental university value. Through the honest completion of academic work, students sustain the integrity of the university while facilitating the university's imperative for the transmission of knowledge and culture based upon the generation of new and innovative ideas. See http://grad.buffalo.edu/Academics/Policies-Procedures/Academic-Integrity.html.

Accessibility resources: If you have any disability which requires reasonable accommodations to enable you to participate in this course, please contact the Office of Accessibility Resources in 60 Capen Hall, 645-2608 and also the instructor of this course during the first week of class. The office will provide you with information and review appropriate arrangements for reasonable accommodations, which can be found on the web here.

Background Reading and Video Materials

Optional Background Reading Robert Arp, Barry Smith and Andrew Spear, Building Ontologies with Basic Formal Ontology, Cambridge, MA: MIT Press, August 2015

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