What is SHOTM
Technology?
Transcensus' patent-pending Scripted Human
Operator™ (SHO) technology is an exciting innovation in software
performance support and user assistance. SHO technology allows
content developers to create truly interactive software
instructional, assistance and support content that interfaces
directly with any Windows software application. No programming
knowledge is required. The content is delivered directly inside
the software application the user is attempting to use, instead
of a browser, simulation window or other external training
interface. In other words, the actual software application is
the training interface.
The SHO Platform, which is based on the Scripted Human Operator
technology, is an advanced content delivery engine for software
instruction, performance support and user assistance. The SHO
Engine can be thought of as a virtual instructor or tutor
looking over the user's shoulder and offering step-by-step
guidance inside the actual software application the user is
attempting to use.
SHO Engine vs. Simulation - Improving on
the State of the Art
Simulation, generally considered current state of the art in
interactive forms of software performance support, is an
approach to instruction and users assistance that is designed to
make the learning experience more interactive than traditional
presentations by simulating, or re-creating, certain types of
software interactions, such as menu selections and button
clicks, in a separate window that looks like the software
application the user is attempting to learn. For example, a user
wishing to learn Microsoft Excel will work in a window that
simulates the Excel interface and mimics some of the behaviors
of Excel, but is not actually Excel.
The SHO Engine takes software instruction beyond simulation to
true business process emulation. The instructional content
guides the user through interactions and workflows within the
actual software application, instead of simulating that
interaction in a separate window. In other words, the user
learns by doing real work inside the real software application
using instructional and assistance material that is completely
integrated into the application workflow.
Benefits of SHO Engine Over
Simulation
The SHO Engine provides many benefits over simulation, including
the following.
| SHO Engine |
Simulation |
| User
is guided while working inside the actual software
application by performing real interactions with the
software application instead of simulated interaction. |
User
works in a separate simulation window and must figure
out how to apply what was done in the simulation window
to the actual software application. The learning
environment is disconnected from actual software
application. |
| User
creates real data during the learning or guidance
process. |
User
does not create real data during the learning process.
Any "data" created in the simulation window is lost once
the simulation ends. |
| Does
not rely on video, animation or screen capture, so
visual presentations are dynamic and can adjust to the
current appearance and position of the software
application and its interface components (toolbars,
dialog boxes, etc). |
Creates static visual presentations of software
interfaces that do not adjust to user-defined
configurations (toolbar and dialog box placement,
interface settings, etc.). |
|
Majority of content remains viable across new versions
of the software application, resulting in longer content
shelf life. |
Visual presentation must be updated with each new version of the software application. |
| Reduces bandwidth requirements for remote content. | Heavier bandwidth requirements for remote content. |
| Visual presentation is language neutral to allow for easy localization. | Visual presentation is static and language specific and must be recaptured for other languages. |
| Provides intelligent verification of how the user is using the software inside the actual software application. | Verifies user interactions with the simulation window only. |
|
Eliminates the need to switch back and forth between the
software application and a training or simulation
window. |
User
must switch back and forth between the software
application and the simulation window. |
| Eliminates the need to resize windows in order to display a separate simulation window. | User must adjust window sizes to display both the actual software application and the simulation window. |
