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| Course ID: | GEOG 4380/6380-4380L/6380L. 3 hours. 2 hours lecture and 2 hours lab per week. | | Course Title: | Transportation Modeling and GIS | Course
Description: | Theoretical frameworks for transportation network modeling and
transportation planning strategies are explored. Conceptual
issues linking geographic information systems and computer-based
technologies with transportation modeling and planning problems
are discussed. Recent developments in GIS-based transportation
network modeling and problem solving are emphasized, including
hand-on practices with a specialized GIS-transportation package. | | Oasis Title: | TRANSPORT GIS | | Prerequisite: | GEOG 4370/6370-4370L/6370L | Semester Course
Offered: | Offered spring semester every year. | | Grading System: | A-F (Traditional) |
| | Course Objectives: | The course introduces the basic theories, various modeling techniques, and specific
applications of transportation networks. It is organized in three interrelated parts.
The first part examines the representation, structures, and operations of
transportation networks in a GIS environment. The second part deals with
transportation planning strategies. A large portion of this part is devoted to the
conventional four-stage transportation modeling framework. The third part of the
course focuses on applications of GIS-T in solving location-allocation problems.
There will be weekly laboratories for hands-on exercises with TransCAD, a GIS-T
package, in a computer lab. The labs are closely related to the theories and
techniques discussed in class.
This course meets the following General Education Abilities, by accomplishing the
specific learning objectives listed below:
Communicate effectively through writing. This is met by a series of writing
assignments associated with supplemental reading and data analysis.
Computer Literacy is addressed through course administration, student-faculty
electronic interaction, data analysis activities and assignments, and exposure to
GIS technologies.
Critical Thinking is central to the learning objectives of this class, and are
developed through homework assignments, lecture, classroom discussion, and inquiry-
based learning efforts. | | Topical Outline: | Network representation and properties (week 1)
GIS-T data models (week 2)
Shortest path and routing (week 3)
The conventional 4-stage model
Trip generation modeling (week 4)
Trip Distribution modeling (week 5)
Model split (week 6)
Trip assignment (week 7)
Alternative transportation planning approaches
discrete choice models
activity pattern analysis
stated-preference techniques. (weeks 8 & 9)
Solving location problems with GIS-T (week 10)
Brief introduction to Linear Programming (week 11)
P-median problem (week 12)
Set covering and maximal covering problems (week 13)
P-centers problem (week 14)
Student presentations (week 15) | |
| Course ID: | GEOG 4380/6380-4380L/6380L. 3 hours. 2 hours lecture and 2 hours lab per week. |
| Course Title: | Transportation Modeling and GIS |
Course
Description: | Theoretical frameworks for transportation network modeling and
transportation planning strategies are explored. Conceptual
issues linking geographic information systems and computer-based
technologies with transportation modeling and planning problems
are discussed. Recent developments in GIS-based transportation
network modeling and problem solving are emphasized, including
hand-on practices with a specialized GIS-transportation package. |
| Oasis Title: | TRANSPORT GIS |
| Prerequisite: | GEOG 4370/6370-4370L/6370L |
Semester Course
Offered: | Offered spring semester every year. |
| Grading System: | A-F (Traditional) |
|
| Course Objectives: | The course introduces the basic theories, various modeling techniques, and specific
applications of transportation networks. It is organized in three interrelated parts.
The first part examines the representation, structures, and operations of
transportation networks in a GIS environment. The second part deals with
transportation planning strategies. A large portion of this part is devoted to the
conventional four-stage transportation modeling framework. The third part of the
course focuses on applications of GIS-T in solving location-allocation problems.
There will be weekly laboratories for hands-on exercises with TransCAD, a GIS-T
package, in a computer lab. The labs are closely related to the theories and
techniques discussed in class.
This course meets the following General Education Abilities, by accomplishing the
specific learning objectives listed below:
Communicate effectively through writing. This is met by a series of writing
assignments associated with supplemental reading and data analysis.
Computer Literacy is addressed through course administration, student-faculty
electronic interaction, data analysis activities and assignments, and exposure to
GIS technologies.
Critical Thinking is central to the learning objectives of this class, and are
developed through homework assignments, lecture, classroom discussion, and inquiry-
based learning efforts. |
| Topical Outline: | Network representation and properties (week 1)
GIS-T data models (week 2)
Shortest path and routing (week 3)
The conventional 4-stage model
Trip generation modeling (week 4)
Trip Distribution modeling (week 5)
Model split (week 6)
Trip assignment (week 7)
Alternative transportation planning approaches
discrete choice models
activity pattern analysis
stated-preference techniques. (weeks 8 & 9)
Solving location problems with GIS-T (week 10)
Brief introduction to Linear Programming (week 11)
P-median problem (week 12)
Set covering and maximal covering problems (week 13)
P-centers problem (week 14)
Student presentations (week 15) |
| Course ID: | GEOG 4380/6380-4380L/6380L. 3 hours. 2 hours lecture and 2 hours lab per week. |
| Course Title: | Transportation Modeling and GIS |
Course
Description: | Theoretical frameworks for transportation network modeling and
transportation planning strategies are explored. Conceptual
issues linking geographic information systems and computer-based
technologies with transportation modeling and planning problems
are discussed. Recent developments in GIS-based transportation
network modeling and problem solving are emphasized, including
hand-on practices with a specialized GIS-transportation package. |
| Oasis Title: | TRANSPORT GIS |
| Prerequisite: | GEOG 4370/6370-4370L/6370L |
Semester Course
Offered: | Offered spring semester every year. |
| Grading System: | A-F (Traditional) |
|
| Course Objectives: | The course introduces the basic theories, various modeling techniques, and specific
applications of transportation networks. It is organized in three interrelated parts.
The first part examines the representation, structures, and operations of
transportation networks in a GIS environment. The second part deals with
transportation planning strategies. A large portion of this part is devoted to the
conventional four-stage transportation modeling framework. The third part of the
course focuses on applications of GIS-T in solving location-allocation problems.
There will be weekly laboratories for hands-on exercises with TransCAD, a GIS-T
package, in a computer lab. The labs are closely related to the theories and
techniques discussed in class.
This course meets the following General Education Abilities, by accomplishing the
specific learning objectives listed below:
Communicate effectively through writing. This is met by a series of writing
assignments associated with supplemental reading and data analysis.
Computer Literacy is addressed through course administration, student-faculty
electronic interaction, data analysis activities and assignments, and exposure to
GIS technologies.
Critical Thinking is central to the learning objectives of this class, and are
developed through homework assignments, lecture, classroom discussion, and inquiry-
based learning efforts. |
| Topical Outline: | Network representation and properties (week 1)
GIS-T data models (week 2)
Shortest path and routing (week 3)
The conventional 4-stage model
Trip generation modeling (week 4)
Trip Distribution modeling (week 5)
Model split (week 6)
Trip assignment (week 7)
Alternative transportation planning approaches
discrete choice models
activity pattern analysis
stated-preference techniques. (weeks 8 & 9)
Solving location problems with GIS-T (week 10)
Brief introduction to Linear Programming (week 11)
P-median problem (week 12)
Set covering and maximal covering problems (week 13)
P-centers problem (week 14)
Student presentations (week 15) |
| Course ID: | GEOG 4380/6380-4380L/6380L. 3 hours. 2 hours lecture and 2 hours lab per week. |
| Course Title: | Transportation Modeling and GIS |
Course
Description: | Theoretical frameworks for transportation network modeling and
transportation planning strategies are explored. Conceptual
issues linking geographic information systems and computer-based
technologies with transportation modeling and planning problems
are discussed. Recent developments in GIS-based transportation
network modeling and problem solving are emphasized, including
hand-on practices with a specialized GIS-transportation package. |
| Oasis Title: | TRANSPORT GIS |
| Prerequisite: | GEOG 4370/6370-4370L/6370L |
Semester Course
Offered: | Offered spring semester every year. |
| Grading System: | A-F (Traditional) |
|
| Course Objectives: | The course introduces the basic theories, various modeling techniques, and specific
applications of transportation networks. It is organized in three interrelated parts.
The first part examines the representation, structures, and operations of
transportation networks in a GIS environment. The second part deals with
transportation planning strategies. A large portion of this part is devoted to the
conventional four-stage transportation modeling framework. The third part of the
course focuses on applications of GIS-T in solving location-allocation problems.
There will be weekly laboratories for hands-on exercises with TransCAD, a GIS-T
package, in a computer lab. The labs are closely related to the theories and
techniques discussed in class.
This course meets the following General Education Abilities, by accomplishing the
specific learning objectives listed below:
Communicate effectively through writing. This is met by a series of writing
assignments associated with supplemental reading and data analysis.
Computer Literacy is addressed through course administration, student-faculty
electronic interaction, data analysis activities and assignments, and exposure to
GIS technologies.
Critical Thinking is central to the learning objectives of this class, and are
developed through homework assignments, lecture, classroom discussion, and inquiry-
based learning efforts. |
| Topical Outline: | Network representation and properties (week 1)
GIS-T data models (week 2)
Shortest path and routing (week 3)
The conventional 4-stage model
Trip generation modeling (week 4)
Trip Distribution modeling (week 5)
Model split (week 6)
Trip assignment (week 7)
Alternative transportation planning approaches
discrete choice models
activity pattern analysis
stated-preference techniques. (weeks 8 & 9)
Solving location problems with GIS-T (week 10)
Brief introduction to Linear Programming (week 11)
P-median problem (week 12)
Set covering and maximal covering problems (week 13)
P-centers problem (week 14)
Student presentations (week 15) |
Syllabus: No Syllabus Available
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