Share Course Ware
Social Studies > Media Arts and Sciences > Out of Context: A Course on Computer Systems That
 Out of Context: A Course on Computer Systems That   posted by  member150_php   on 2/20/2009  Add Courseware to favorites Add To Favorites  
Abstract/Syllabus
Courseware/Lectures
Test/Tutorials
Further Reading
Webliography
Downloads
More Options
 
Abstract/Syllabus:

Lieberman, Henry, MAS.963 Out of Context: A Course on Computer Systems That Adapt To, and Learn From, Context, Fall 2001. (Massachusetts Institute of Technology: MIT OpenCourseWare), http://ocw.mit.edu (Accessed 08 Jul, 2010). License: Creative Commons BY-NC-SA

Out of Context: A Course on Computer Systems That Adapt To, and Learn From, Context

Fall 2001

Diagram of a context-aware application with an explicit input and explicit output.

A context-aware application with an explicit input and explicit output. (Diagram courtesy of Prof. Henry Lieberman.)

Course Highlights

This class discusses the future of computing, especially as it relates to intelligent and context-sensitive computing.  Special attention should be given to the student projects, and the lecture notes from Professor Lieberman.

Course Description

Increasingly, we are realizing that to make computer systems more intelligent and responsive to users, we will have to make them more sensitive to context. Traditional hardware and software design overlooks context because it conceptualizes systems as input-output functions. Systems take input explicitly given to them by a human, act upon that input alone and produce explicit output. But this view is too restrictive. Smart computers, intelligent agent software, and digital devices of the future will also have to operate on data that they observe or gather for themselves. They may have to sense their environment, decide which aspects of a situation are really important, and infer the user's intention from concrete actions. The system's actions may be dependent on time, place, or the history of interaction, in other words, dependent upon context.

But what exactly is context? We'll look at perspectives from machine learning, sensors and embedded devices, information visualization, philosophy and psychology. We'll see how each treats the problem of context, and discuss the implications for design of context-sensitive hardware and software.

Course requirements will consist of critiques of class readings (about 3 papers/week), and a final project (paper or computer implementation project).

Syllabus

Out of Context: A Course on Computer Systems That Adapt To, and Learn From, Context
Increasingly, we are realizing that to make computer systems more intelligent and responsive to users, we will have to make them more sensitive to context. Traditional hardware and software design overlooks context because it conceptualizes systems as input-output functions. Systems take input explicitly given to them by a human, act upon that input alone and produce explicit output. But this view is too restrictive. Smart computers, intelligent agent software, and digital devices of the future will also have to operate on data that they observe or gather for themselves. They may have to sense their environment, decide which aspects of a situation are really important, and infer the user's intention from concrete actions. The system's actions may be dependent on time, place, or the history of interaction, in other words, dependent upon context.

But what exactly is context? We'll look at perspectives from machine learning, sensors and embedded devices, information visualization, philosophy and psychology. We'll see how each treats the problem of context, and discuss the implications for design of context-sensitive hardware and software.

Course requirements will consist of critiques of class readings (about 3 papers/week), and a final project (paper or computer implementation project).

Out of Context: Preliminary Schedule and Readings
Week 1: Introduction to "the context problem"
  • Why do computers need to take account of context?
  • What is and isn't context?
  • Context-sensitive vs. context-independent views of computing
  • Combating brittleness: adapting systems to changing context

Week 2: Context for software agents

  • Determining relevance of context
  • Implicit input and repurposing input
  • Context overload: Dealing with too much context

Readings:

Brown, P. J., J. D. Bovey, and X. Chen. "Context-aware applications: from the laboratory to the marketplace." IEEE Personal Communications 4(5) (October 1997).

Lieberman, Henry, and David Maulsby. "Software That Just Keeps Getting Better." IBM Systems Journal 35, Nos. 3 & 4 (1996).

Week 3: Designing User Interfaces for Just-In-Time Information

Designing for secondary task, or "How to give someone information they didn't ask for without driving them crazy."

Readings:

Rhodes, Bradley. Bulding a Contextually Aware Associative Memory (unpublished draft).

Wickens, CD. "Engineering Psychology and Human Performance." In Engineering Psychology and Human Performance, Scott Foesman Little Brown, 1992, pp. 74-115 (only skim 74-88).

Norman, Don. "How might we interact with agents?" in Software Agents. Edited by J. Bradshaw. AAAI Press/MIT Press, 1997.

Week 4: Context for learning by example

  • Generalizing context
  • The "data description problem" for learning agents

Readings:

Lieberman, Henry. Integrating user interface agents with conventional applications.

Potter, Richard. Just-in-Time Programming 

Week 5:

Readings:

Lenat, Doug. The Dimensions of Context-Space.

Week 6: Information visualization

Context-dependent presentation of information

Readings:

Tufte, Edward. The Visual Display of Quantitative Information.

Shneiderman, Ben. Information Visualization.

Cooper, Muriel. Computers and Design.

Week 7: The role of background knowledge as context

  • Active Ontologies
  • The "Size Matters" Approach: Cyc
  • The Rule-Based Approach: Expert systems
  • The Mining Approach: Information extraction
  • The Interactive Learning Approach: Incremental development
  • The Reactive Approach: Just don't do representation

Readings:

Guha and Doug Lenat. Cyc.

Lehnert, Wendy. Computers and Car Bombs.

Brooks, Rod. Intelligence without Representation.

Week 8 (Project proposals due): Systems that adapt to context

  • Cognitive Adaptive Computer Help
  • User Modeling
  • User-system communication through annotated examples

Readings:

Selker, Ted. COACH: A Teaching Agent That Learns.

Rich, Elaine. Stereotypes and User Modeling.

Week 9: Philosophical and mathematical positions on context

Readings:

Barwise, Jon, and John Perry. Situations and Attitudes.

Suchman, Lucy. Situated Systems.

Nardi, Bonnie. Context and Consciousness.

Week 10: Machine Learning and formal approaches

Readings:

Mitchell, Tom, and Pat Langley. Machine Learning.

Neville-Manning, Craig, and David Maulsby. Sequitur.

McCarthy, John. Circumscription.

Week 11: Sensing context from the environment

  • Pattern recognition for determining context 
  • Roz Picard: Affective Computing

Week 12: Psychological and social perspectives on context

Computers as social actors

Readings:

Nass, Cliff, and Byron Reeves. The Media Equation.

Bates, Joseph. The Role of Emotion in Believable Agents.

Laurel, Brenda. Metaphors with Character.

Week 13: Final Project Reports

Week 14: Final Project Reports

Calendar

         
 

WEEK #

     

TOPICS

     

READINGS

         
         
 

1

     

Introduction to "the context problem"

       
         
         
 

2

     

Context for software agents

     

Brown, P. J., J. D. Bovey, and X. Chen. "Context-aware applications: from the laboratory to the marketplace." IEEE Personal Communications, 4(5) (October 1997).
Lieberman, Henry, and David Maulsby. "Software That Just Keeps Getting Better." IBM Systems Journal, Volume 35, Nos. 3 & 4 (1996).

         
         
 

3

     

Designing User Interfaces for Just-In-Time Information

     

Rhodes, Bradley. Bulding a Contextually Aware Associative Memory (unpublished draft).
Wickens, CD. "Engineering Psychology and Human Performance." In Engineering Psychology and Human Performance, Scott Foesman Little Brown, 1992,  74-115 (only skim 74-88).
Norman, Don. "How might we interact with agents?" In Software Agents.  Edited by J. Bradshaw. AAAI Press/MIT Press, 1997.

         
         
 

4

     

Context for learning by example

     

Lieberman, Henry. Integrating user interface agents with conventional applications.
 
Potter, Richard. Just-in-Time Programming.

         
         
 

5

             

Lenat, Doug. The Dimensions of Context-Space.

         
         
 

6

     

Information visualization

     

Tufte, Edward. The Visual Display of Quantitative Information.

Shneiderman, Ben. Information Visualization.

Cooper, Muriel. Computers and Design.

         
         
 

7

     

The role of background knowledge as context

     

Guha and Doug Lenat. Cyc.

Lehnert, Wendy. Computers and Car Bombs.
Brooks, Rod. Intelligence without Representation.

         
         
 

8

     

Systems that adapt to context

     

Selker, Ted. COACH: A Teaching Agent That Learns.

Rich, Elaine. Stereotypes and User Modeling.

         
         
 

9

     

Philosophical and mathematical positions on context

     

Barwise, Jon, and John Perry. Situations and Attitudes.

Suchman, Lucy. Situated Systems.

Nardi, Bonnie. Context and Consciousness.

         
         
 

10

     

Machine Learning and formal approaches

     

Mitchell, Tom,and Langley, Pat. Machine Learning.
 
Neville-Manning, Craig, and David Maulsby. Sequitur.

McCarthy, John. Circumscription.

         
         
 

11

     

Sensing context from the environment

       
         
         
 

12

     

Psychological and social perspectives on context

     

Nass, Cliff, and Byron Reeves. The Media Equation.
 
Bates, Joseph. The Role of Emotion in Believable Agents.

Laurel, Brenda. Metaphors with Character.

         
         
 

13

     

Final Project Reports

       
         
         
 

14

     

Final Project Reports

       
         



www.sharecourseware.org   Tell A Friend