Syllabus
Description:
Travel is an essential part of all of our lives. Yet, very few people
understand the technology that makes travel possible. This course
considers both the "hard" and "soft" technologies that support a
variety of recent advances in travel. It will help you both understand
what moves the world today and what might move the world in the future.
It is designed for students with an interest, but no previous background,
in technology. However, students in "tech" disciplines are also welcome.
Outline: This course is organized as
follows (though specific topics and dates may change).
Lectures in this course will be delivered on-line during
scheduled meeting times. Students may participate in lectures
synchronously, or watch a recording asynchronously (at any time
after it has been delivered).
Some course meeting times will be devoted to face-to-face
discussion/question-and-answer sessions. For these
sessions, students have been divided into two
groups/cohorts, purple and gold. Students may attend these
sessions only with their assigned cohort. When the other
cohort is meeting, you may use the time as you see
fit.
Exams will be delivered on-line during scheduled exam times.
Readings are listed in the right-most column.
Part I: Introduction and Background
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8/26 |
About the Course
|
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8/28 |
About the Course
|
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8/31 |
The Technology of Data
and
The Technology of Computation
|
|
█
9/2 |
Waves
and
Electromagnetic Waves
|
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█
9/4 |
The Technology of Communication
,
Transmission Hardware
and
Transmission Media
|
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9/7 |
Communications Networks
and
Communications Protocols
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|
Part II: The Technology of Determining Your Location
|
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9/9 |
3D Coordinates Systems
and
Geographic Coordinates
|
A 1
|
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9/11 |
Historical Tech:
Determining Latitude
and
Determining Longitude
|
|
█
9/14 |
Overview of Automatic Vehicle Location
,
Sensors
,
Dead Reckoning
,
Triangulation
and
The Global Positioning System
|
A2
|
Part III: The Technology of Mapping
|
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9/16 |
Cartography and Geodesy
,
Remote Sensing
and
Map Projections
|
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█
9/18 |
Digitizing
,
Geocoding
and
Map Matching
|
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█
9/21 |
Extra Office Hours
|
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█
9/23 |
Question and Answer Session
|
|
█
9/25 |
Exam 1
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Part IV: The Technology of Finding Your Way
|
█
9/28 |
Distances:
On a Plane
,
On a Sphere
and
Using Pieces of String
|
|
█
9/30 |
A Shortest Path Algorithm
,
Recalculating
and
Representing Street Networks
|
|
█
10/2 |
Class Discussion: Efficiency, Equity and Fairness
|
|
Part V: The Technology of Congestion and Traffic
|
█
10/5 |
Congestion
and
Queueing
|
|
█
10/7 |
Route Swapping
and
Equilibrium
|
RSP 15
|
Part VI: The Technology of Sensors I
|
█
10/9 |
Digital Cameras
|
K 1
|
█
10/12 |
Radar and Lidar
|
C 9.1
|
Part VII: The Technology of Toll/Fare Collection
|
█
10/14 |
Optical Technologies
,
Radio Technologies
,
Encryption (i.e., Privacy)
and
Digital Signatures (i.e., Integrity/Authentication)
|
E 1
|
█
10/16 |
Congestion Pricing
|
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█
10/19 |
Question and Answer Session
|
|
█
10/21 |
Exam 2
|
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Part VIII: The Technology of Sensors II
|
█
10/23 |
Sensor Overview
and
Inductive Loops, Pneumatic Tubes, and Piezoelectric Cables
|
|
█
10/26 |
Image Analysis
|
M 1
|
Part IX: The Technology of Traffic Control and Parking Management
|
█
10/28 |
Sensors for Traffic Control
and
Traditional Traffic Signals
|
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█
10/30 |
Smart Traffic Signals
and
Ramp Metering
|
|
█
11/2 |
Parking Management
|
|
Part X: The Technology of Driver Assistance and Autonomous Vehicles
|
█
11/4 |
Lane Departure Technology
,
Blind Spot (Side and Rear) Technology
and
Forward Collision Avoidance Technology
|
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█
11/6 |
Connected Vehicle Networks
|
|
█
11/9 |
Semi-Autonomous and Autonomous Vehicles
and
Linear Regression
|
WS 12
|
█
11/11 |
Logistic Regression
and
Machine Learning
|
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Part XI: The Technology of Alternative Fuel Vehicles
|
█
11/13 |
Planes, Trains and Automobiles (and Buses and Trucks)
|
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█
11/16 |
Question and Answer Session
|
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11/18 |
Exam 3
|
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11/20 |
Lecture Cancelled |
|
Part XII: Final Project
|
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11/30-12/9 |
Independent Work
|
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12/18 |
Presentations (10:30-12:30) |
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Attendance at discussion/question-and-answer sessions is
not mandatory. You should complete the readings on a topic before it
is covered for the first time.
Grading:
Final grades will be based on your performance on:
3 in-class exams (25% each)
,
several homework assignments (10% total)
and
1 final project (15% total).
Homework Assignments: 10 homework assignments
will be
assigned during the semester. Note that their due dates are subject
to change. Note also that the links to assignments on Canvas will
only work if you first login to Canvas.
Homework Assignment 1
; Due: 9/7, 11:00PM
(Computation)
Homework Assignment 2
; Due: 9/11, 11:00PM
(Waves)
Homework Assignment 3
; Due: 9/18, 11:00PM
(Location Determination)
Homework Assignment 4
; Due: 9/23, 11:00PM
(Mapping)
Homework Assignment 5
; Due: 10/5, 11:00PM
(Path Finding)
Homework Assignment 6
; Due: 10/12, 11:00PM
(Congestion and Traffic)
Homework Assignment 7
; Due: 10/19, 11:00PM
(Sensors and Toll/Fare Collection)
Homework Assignment 8
; Due: 11/2, 11:00PM
(Image Analysis)
Homework Assignment 9
; Due: 11/9, 11:00PM
(Traffic Control and Parking Management)
Homework Assignment 10
; Due: 11/16, 11:00PM
(Driver Assistance)
Make sure you read and understand all of the
policies
related to homework assignments.
Final Project:
Each student must complete a
project.
All project proposals are due on 11/13.
All project materials are due on the day of the presentation
.
Make sure you read and understand all of the
policies
related to projects.
Office Hours:
You may meet (either face-to-face or virtually, depending
on the situation and schedule) with Prof. Bernstein during his
scheduled office hours
or you may schedule an appointment with him.