Developing design documents (3D) model: Difference between revisions

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== Definition ==
== Definition ==


The '''Developing design documents (3D) model''' is a framework to discuss various kinds of instructional [[design language]]s and documents.
The '''Developing design documents (3D) model''' is a framework to discuss and improve various kinds of instructional [[design language]]s and documents.
 
{{quotation|Designers and producers of instructional materials lack a common design language. As a result, producers have difficulties translating design documents into technical specifications. The 3D-model is introduced to improve the stratification, elaboration and formalisation of design documents.}} (Boot et al. 2007: 917).
 
== Introduction ==


Boot (2005:26) argues that {{quotation | production-related information is typically embedded in three types of building blocks for the production process: (a) design documents as input, (b) programming structures as throughput, and (c) learning materials as output.}}  
Boot (2005:26) argues that {{quotation | production-related information is typically embedded in three types of building blocks for the production process: (a) design documents as input, (b) programming structures as throughput, and (c) learning materials as output.}}  


This "3D" model includes three major dimensions:
This "3D" model includes three major dimensions:
* stratification: Functionally different instructional and technical structures
# stratification: Functionally different instructional and technical structures
* degree of elaboration: conceptual, specification or implementation
# degree of elaboration: conceptual, specification or implementation
* formality: formal vs. informal
# formality: formal vs. informal


== The model ==
[[image:developing-design-documents-model.gif|frame|none|3D model of design documentation, reproduced without permission so far.]]


[[image:developing-design-documents-model.gif|frame|none|3D model of design documentation]]
== The model's dimensions ==


=== Stratification ===
=== Stratification ===
Layers of instructional design


Gibbons (2000) argues that instructional designs are layered structures. Layering is a general design principle.
According to Gibbons, Each instructional design layer can be the defined by:
* Content layer
* Strategy layer
* Control layer
* Message layer
* Representation layer
* Media Logic layer
* Management layer
 
Each instructional design layer is the defined by:
{{quotationbox |
{{quotationbox |
* A specific set of design goals or problems
* A specific set of design goals or problems
Line 36: Line 30:
([http://webpub.byu.net/asg33/layer.html  Layered View of Instructional Designs ], retrieved 14:37, 18 October 2006 (MEST))
([http://webpub.byu.net/asg33/layer.html  Layered View of Instructional Designs ], retrieved 14:37, 18 October 2006 (MEST))
}}
}}
Gibbons (2000) argues that instructional designs are layered structures and also points out that layering is a general design principle. The 3D developing design documents model integrates Gibbons 7 layers:
# Content layer
# Strategy layer
# Control layer
# Message layer
# Representation layer
# Media Logic layer
# Management layer


=== Elaboration ===
=== Elaboration ===
Boot (2005:27) adopts Fowler's three perspectives for which different levels of detail can be specified:
 
Boot (2005:27) adopts Fowler's three perspectives for which different levels of detail can be specified.
* A conceptual perspective, with more or less superficial and descriptive information;
* A conceptual perspective, with more or less superficial and descriptive information;
* a specification perspective, with more or less comprehensive and detailed information,
* a specification perspective, with more or less comprehensive and detailed information,
* an implementation perspective with more or less technical and meticulous information
* an implementation perspective with more or less technical and meticulous information
See also: [[UML]].


=== Formalization ===
=== Formalization ===
Designers can choose to use formal design languages or not.
Designers can choose to use formal design languages or not.
* formal
* formal
Line 57: Line 65:


* Boot, Eddy W.; Jon Nelson, Jeroen J.G. van Merriënboer, Andrew S. Gibbons (2007). Stratification, elaboration and formalisation of design documents: Effects on the production of instructional materials, ''British Journal of Educational Technology'' 38 (5), 917-933. [[http://dx.doi.org/10.1111/j.1467-8535.2006.00679.x doi:10.1111/j.1467-8535.2006.00679.x]]
* Boot, Eddy W.; Jon Nelson, Jeroen J.G. van Merriënboer, Andrew S. Gibbons (2007). Stratification, elaboration and formalisation of design documents: Effects on the production of instructional materials, ''British Journal of Educational Technology'' 38 (5), 917-933. [[http://dx.doi.org/10.1111/j.1467-8535.2006.00679.x doi:10.1111/j.1467-8535.2006.00679.x]]
* Fowler, M. (2003). UML distilled: a brief guide to the standard object modeling language. Boston, MA: Addison-Wesley Professional.


* Gibbons, A. S. (2003). What and how designers design? A theory of design structure. ''TechTrends'', 47(5), 22-27. [http://www.aect.org/pdf/techtrends/4705/4705_05.pdf PDF] {{ar}}
* Gibbons, A. S. (2003). What and how designers design? A theory of design structure. ''TechTrends'', 47(5), 22-27. [http://www.aect.org/pdf/techtrends/4705/4705_05.pdf PDF] {{ar}}

Revision as of 16:39, 7 November 2007

Draft

Definition

The Developing design documents (3D) model is a framework to discuss and improve various kinds of instructional design languages and documents.

“Designers and producers of instructional materials lack a common design language. As a result, producers have difficulties translating design documents into technical specifications. The 3D-model is introduced to improve the stratification, elaboration and formalisation of design documents.” (Boot et al. 2007: 917).

Introduction

Boot (2005:26) argues that “production-related information is typically embedded in three types of building blocks for the production process: (a) design documents as input, (b) programming structures as throughput, and (c) learning materials as output.”

This "3D" model includes three major dimensions:

  1. stratification: Functionally different instructional and technical structures
  2. degree of elaboration: conceptual, specification or implementation
  3. formality: formal vs. informal
3D model of design documentation, reproduced without permission so far.

The model's dimensions

Stratification

According to Gibbons, Each instructional design layer can be the defined by:

  • A specific set of design goals or problems
  • Sets of layer-specific design structures, expressed in the terms of design languages
  • Principles for the selection, arrangement, and mapping of structures within a layer
  • Principles for the relation of structures across layers
(Layered View of Instructional Designs , retrieved 14:37, 18 October 2006 (MEST))

Gibbons (2000) argues that instructional designs are layered structures and also points out that layering is a general design principle. The 3D developing design documents model integrates Gibbons 7 layers:

  1. Content layer
  2. Strategy layer
  3. Control layer
  4. Message layer
  5. Representation layer
  6. Media Logic layer
  7. Management layer

Elaboration

Boot (2005:27) adopts Fowler's three perspectives for which different levels of detail can be specified.

  • A conceptual perspective, with more or less superficial and descriptive information;
  • a specification perspective, with more or less comprehensive and detailed information,
  • an implementation perspective with more or less technical and meticulous information

See also: UML.

Formalization

Designers can choose to use formal design languages or not.

  • formal
  • informal

Links

References

  • Boot, Eddy (2005), Building-block solutions for developing instructional software, PhD Dissertation, Open Universiteit Nederland. PDF and PDF
  • Boot, Eddy W.; Jon Nelson, Jeroen J.G. van Merriënboer, Andrew S. Gibbons (2007). Stratification, elaboration and formalisation of design documents: Effects on the production of instructional materials, British Journal of Educational Technology 38 (5), 917-933. [doi:10.1111/j.1467-8535.2006.00679.x]
  • Fowler, M. (2003). UML distilled: a brief guide to the standard object modeling language. Boston, MA: Addison-Wesley Professional.
  • Gibbons, A. S. (2003). What and how designers design? A theory of design structure. TechTrends, 47(5), 22-27. PDF (Access restricted)
  • Gibbons, Andrew, S. and Erin K. Brewer, (2005) "Elementary principles of design languages and design notation systems for instructional design". In J.M. Spector, C. Ohrazda, A. Van Schaack, and D. Wiley (Eds.), Innovations to instructional technology: Essays in honor of M. David Merrill, Lawrence Erlbaum Associates, Mahwah NJ, pp. 111-129.
  • Waters, Sandie, H. & Andrew, S. Gibbons (2004). Design languages, notation systems, and instructional technology: A case study: Educational Technology Research and Development, 52(2), 57-69. PDF (Access restricted)
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