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V E R S I O N 1.7

A ShareWare Computer Vision Program for IBM PCs
and compatibles
Copyright (c) 1989 by Robots, Etc

Loren Heiny
Robots, Etc
P.O. Box 122
Tempe, AZ 85280


WHAT IS EyeSight?.......................................1
WHAT CAN EyeSight DO?...................................1
WHAT EQUIPMENT DO YOU NEED?.............................1
WHAT FILES ARE ON THE EyeSight DISK?....................1
WHAT IS COMPUTER VISION?................................1
REGISTERING YOUR COPY OF EyeSight.......................2
GETTING STARTED.........................................3
MAKE A WORKING COPY.....................................3
INSTALLING EyeSight ON A HARD DISK......................3
RUNNING WITH EyeSight...................................3
HOW DO I GET OUT OF HERE? or HELP!....................3
LET'S DO SOMETHING......................................4
TRYING TO THRESHOLD.....................................4
EXPERIMENT SOME MORE....................................5
USING THE ENVIRONMENT...................................5
CHANGING YOUR MIND......................................6
VISION PROCESSING SUPPORTED.............................6
CONFIGURABLE EXEC MENU..................................7
ALL IN AN IMAGE.........................................7
WHAT YOU SEE............................................7
THE LEFT DISPLAY WINDOW.................................7
THE RIGHT DISPLAY WINDOW................................8
IMAGE COLORS............................................8
SELECTING THE DISPLAY WINDOW............................8
COPYING BETWEEN DISPLAY WINDOWS.........................9
LISTING THE IMAGE BUFFERS..............................10
WRITING AN IMAGE FILE..................................10
DEFAULT PATHNAMES......................................11
CONFIGURATION FILE.....................................11
INTERNAL DIRECTORY.....................................12
EXITING THE PROGRAM....................................12
PRINTING AN IMAGE......................................12
EXAMINING PIXELS.......................................13
TWO IMAGE OPERATIONS...................................13
IMAGE ANALYSIS FUNCTIONS...............................13
THE CONTOUR FOLLOWER...................................15
EXPERIMENTING WITH EYESIGHT............................16
SCRIPT LANGUAGE........................................19
SETTING THE GRAPHICS MODE..............................19
COMMAND SUMMARY........................................20
QUICK COMMANDS.........................................21


WHAT IS EyeSight?

EyeSight is a ShareWare vision processing program designed
as an introduction to the field of computer vision. You do
not need a camera or any prior knowledge of computer
vision to use EyeSight. (For a brief introduction to computer
vision refer to the file vision.doc.)


EyeSight provides an easy-to-use environment for reading and
writing image files, performing various image processing
functions, and displaying the results.


IBM PC/XT/AT or compatible computer
A graphics adapter: CGA, EGA, or VGA
At least 1 floppy drive (Hard disk recommended)
DOS Version 2.1 or later
At least 256K of memory (640k recommended)


manual.doc This file
vision.doc An introductory article on computer vision
eyesight.exe The image processing program
eyesight.hlp Internal help file used by EyeSight An image of clips An image of a computer An image of a mountain scene An image of bolts An image of some balloons An image of a flower
demo.scr A script file which demonstrates
some of EyeSight's vision routines
cga.cfg Configuration file for CGA mode
ega.cfg Configuration file for EGA mode
vga.cfg Configuration file for VGA mode


Computer Vision is a branch of Artificial Intelligence (AI)
attempting to endow computers with the gift of sight. There is
little doubt that for most of us vision is our most relied upon
sense. And as such, it is no wonder that computer vision is
receiving such a large amount of attention in the AI community.

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Already computer vision systems can be found on industrial assembly
lines inspecting products, guiding robots, and reading identification
markers. Of course, there are numerous applications that go beyond
the doors of industry, such as text reading machines and vision
systems for household robots. And the applications are only beginning
to unfold.

However, up to this point, computer vision technologies have rarely
been designed for the vast numbers of personal computers available.
EyeSight is a break from this tradition. With EyeSight you will be able
to experiment with a few simple vision processing techniques and
along the way familiarize yourself with several of the basic
concepts involved.


EyeSight V1.7 is a ShareWare program and in the tradition of
ShareWare, you are encouraged to try it out and share it with
your friends. However, if you use EyeSight regularly and
would like to encourage its further development, please
register your copy by sending $25 in check or money order to
the address below (AZ residents add sales tax).

If you register your copy of EyeSight you will enjoy the following

1) The latest version of EyeSight
2) Technical support
3) A diskette of sample images from our image library
4) A one year subscription to the EyeSight newsletter -- an
occassional publication dedicated to the computer vision
experimenter which discusses ways to explore computer
and robot vision using EyeSight.

Please send all registrations and inquiries to:

Robots, Etc
P.O. Box 122
Tempe, AZ 85280

* IBM PC and IBM are registered trademarks of International
Business Machines Corporation

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The following sections will lead you through a step-by-step
introduction to EyeSight. Simply follow the instructions as they
are presented and you should have little trouble stepping into the
world of computer vision.


Before you do anything else, it is a good idea to make a working
copy of the EyeSight diskette. Once you have done this, set aside
the original EyeSight diskette and use your working copy from
this point on.


If you want to run EyeSight from your hard disk, simply create a
sub-directory and copy all of the files on the EyeSight diskette into
it. At this early stage in the game there isn't any reason to build
up an extensive directory structure for EyeSight. Why not just keep
it simple!


To run the program, get into the directory where the EyeSight.exe
file resides and simply type:


at the DOS prompt (Whenever you see , press the key marked

EyeSight will now load and its environment will appear on the
screen with an author message. Press any key to continue with the
program. (If you are using a VGA card and the majority of the
screen is purple, see the section SETTING THE GRAPHICS MODE.)

If your machine does not have enough memory the message:

Not enough memory

will appear. If you do not have a CGA,EGA, or VGA card, the program
will not run correctly either.


You can exit EyeSight at any time by holding down the ALT key and
pressing the letter x. In addition, Help is accessible from most
points in the program by pressing the F1 function key.

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The EyeSight distribution disk includes several images that are ready
for you to use. In this section we'll read one of these image files
into memory and then perform an image processing operation on it.

First let's read in one of the image files supplied on the EyeSight
disk. The read function is a file operation and is listed with the
other file options under the "File" menu option. To load an image:

1) Use the left and right arrow keys on the number
pad to move the highlighted section in the main
menu bar to the "File" option.
2) A pull-down menu will appear with several options.
Select "Load Image" by pressing the Enter key.
3) A prompt will appear for the filename of the
image to read. Type:
This is an image of several dark plastic clips on
a white background.
4) The image of the clips should now appear on the
left side of the screen.

Now let's try applying one of the vision processing functions to the
image. You'll find several image processing routines located in
the "Exec" pull-down menu. To get to these options, press the left
or right arrow keys until "Exec" is highlighted in the main menu bar.
A pull-down menu will appear with the options:



You can select any of these image processing functions, but first
let's try thresholding the image first. Never mind if you aren't
sure what this really does - for now just try to get used to the
environment (The section called IMAGE PROCESSING FUNCTIONS will
discuss what each of these functions do). To select the thresholding

1) Move the up-down arrow keys until the "Threshold"
option is highlighted. Press the key.

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2) A slide-bar will appear in the dialogue box at the
bottom of the screen. The slide-bar is used to
select a threshold value that will be used in the
thresholding operation. For now just use the default
value by pressing .

A thresholded image, which is simply a black-and-white version of
the original image, will now appear on the right side of the

Congratulations, you have just completed your first image
processing operation with EyeSight! It's easy, isn't it?


While you have this image in memory, why not try thresholding the
image again, but this time try using another threshold value. To
perform another thresholding operation, select the "Threshold"
function as before, but this time when the threshold bar pops-up
in the dialogue box, use the left and right arrow keys to reposition
the slide-bar to another threshold value. When the slide-bar is
where you want it, press and the thresholding operation
will use this new threshold value.

If you would like to go through a more in-depth example of using
EyeSight, look at the section "Experimenting with EyeSight" which
appears at the end of this manual.


EyeSight provides an extensive environment for vision processing. The
functions are built around pull-down menus that you can easily
access with the cursor keys, or as you become more familiar with
the program, through specially defined keys.

The various ways of pulling down a menu are:

1) Move the highlighted bar to the desired option
with the arrow keys.
or 2) If no pull-down menus are present, you can press
the first upper case letter of the desired
command. For example, you can type 'F' to select
the "File" option.
or 3) While in any pull-down menu you can jump to
another pull-down menu by holding down the ALT
key and pressing the first upper case letter of
the desired command.
or 4) If the highlighted bar is on the selection and
no pull-down menu is present, press the "Enter"

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Ways of selecting a function within a pull-down menu:

1) Move the highlighted bar up and down using the
arrow keys until the desired function is high-
lighted, then press the key.
or 2) Type the capitalized letter that is in the
desired function name (i.e. e, f, s, p, o, or x).
or 3) Some common functions, like reading an image file
have special function keys that can be used from
many points in the program (for a listing of
these see the section "Quick Commands").


To abort or exit ANY command or pull-down menu use the "ESC" key.


The following image processing functions are provided by default
in EyeSight.

Function Brief Description
Histogram Display a histogram of the current
image buffer
Profile Display the profile of the image
line specified for the current
image buffer
Threshold Threshold the current image buffer
Roberts Calculate and display the roberts
gradient of the current image
Average Average the current image and
display the result
Contour Trace the contours of regions in a
black and white image
Burns Locates lines in the current image

In addition, there are several other functions that you can add
to the EXEC menu. These functions are included under the OPTIONS/
ADD FUNCTION selection. A list of these routines are:

Function Brief Description
Sobel The Sobel edge detector
Prewitt The Prewitt edge detector
Sharpen Enhance the edges of the image
Contrast Stretch the contrast of the image
And Bitwise and two images
Or Bitwise or two images

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Function Brief Description (Continued)
Add Add two images pixel by pixel
Subtract Subtract two images
Invert Invert image values
Log Takes the log of the image


These functions can be accessed by first adding them to the EXEC
pull-down menu. This is accomplished by selecting the OPTIONS/
ADD FUNCTION menu choice. A pop-up menu listing these
functions will appear. Move the highlighted bar in the pop-up list
to the function you would like to add and press the
key. This function will then appear in the EXEC pull-down menu and
can be used like any of the other image processing routines in EXEC.

Beyond these, you can examine individual pixel values in an image
through the "Pixels" pull-down menu. For more on this, see the
section "Examining Pixels."


A computer image is made up of individual picture elements called
pixels. The images in EyeSight are restricted to 128 x 128 pixels
in size. A pixel represents the intensity of light in the image
at its location in the scene. For the images in EyeSight each pixel
can take on a value between 0 and 255, where 0 is black and 255
is white. The values inbetween are various shades of gray.

Note: EyeSight does not display all the gray-levels in an image.
For instance, on a CGA graphics card, EyeSight will only display
four gray-levels. For more on this, see the section entitled
"Image Colors."


EyeSight provides two windows for displaying images - one on the left
side of the screen and the other on the right. In addition, the
left window allows you to keep multiple images in memory at one time.


The left window is where all image files are read into and holds the
input image used in all image processing function. Even though you
can only display one image at a time in the left window, EyeSight
allows you to have multiple images open at once by placing them
into a circular list of buffers. (The image currently being displayed

- Page 7 -


in the left window is often called the current image.) You can step
through this list, and consequently change which one is displayed,
with the F4 function key. Alternatively, you can get a list of all
the currently open image buffers by holding the ALT key and pressing
the letter b. From this list of buffers you can use the up and down
arrow keys to select one of the buffers and then press to
have its image displayed in the left window.


The right display window has only one image buffer. Its primary
purpose is for displaying the results of an image processing
operation. By placing the results in the right window, the original
image (the image in the left display window) will not be over-
written and will stay intact.


Each pixel in an image is represented by one pixel on the screen.
The color on the screen indicates the value of the pixel. Even
though each image pixel can range between 0 and 255, you will
not see all of the variations. For instance, on a CGA graphics
card you will only see one of four colors displayed on the screen for
any given pixel. The EGA mode also can only display four intensity
levels but it uses four gray colors to accomplish this. VGA, on
the other hand, can display 64 gray-levels.

On a CGA the colors that are used to display an image correspond
to the intensity values shown in the table below.

Color on the screen Pixel Value Range Actual intensity
black 0 to 63 black
magenta 64 to 127 dark gray
cyan 128 to 191 light gray
white 192 to 255 white

To configure EyeSight to use a particular mode, see the


The output of all image processing operations is directed to the
window above the " Result ^" message. When the program begins,
"Result ^" defaults to the right window. You can alternate between
the two display windows by pressing the TAB key. If "Result ^" is on
the right side of the screen, (as it is by default) the result of
all image processing functions will be displayed on the right and
the original image will stay intact. If the result is to be placed
on the left side of the screen however, the original image will
be overwritten and lost.

- Page 8 -


Note: Even though you can control where the output of an image
processing function goes, all the vision processing functions use
the current image from the left side of the screen as input.


In order to provide a flexible environment for processing and
displaying images, EyeSight allows you to copy images between the left
and right windows. A "Duplicate" option exists under the "Images"
menu. However, there are several quick keys which it informs you of
that you can use directly. These commands are:

Keys to use Description
F5 Copy currently displayed left image
to the right display window
F6 Copy the image in the right display
window to the left image. The
currently displayed left image will
be over-written
SHIFT-F5 Copy the current image in the left
window into a NEW image buffer
(which this function will automat-
ically allocate) on the left side
of the screen. This effectively
creates a duplicate of the current
SHIFT-F6 Allocate a new image buffer in the
left window and copy the image in
the right window to it

These copy commands will work with all images, except the results
of the histogram, profile, contour, and Burns functions.


As mentioned earlier, EyeSight supports multiple image buffers for the
left display window. As a convenience, when EyeSight begins it
automatically sets up a buffer for the first image to be read into.
Therefore, when the "Load Image" option is selected, the image will
be read directly from the image file to this buffer and displayed
on the left side of the screen. The "Load Image" function will prompt
you for the filename to read. If you use wildcard characters in
the filename EyeSight will display a list of files that match its
specifications from which you can select which file to be read.

By default, the "Load Image" function always reads an image file into
the current image buffer in the left display window. However, if an
image already exists in the current image buffer, EyeSight will prompt
you if its okay to overwrite the buffer with the new image.

- Page 9 -


Alternatively, you can manually create a new buffer first by using
the "Open Image" selection in the "File" pull-down menu and then
reading the image file into this buffer by performing the "Load Image"
function. Yet another way to read an image into a new buffer is to
use the SHIFT-F2 key combination. This will invoke a function which
allocates a new image buffer and then reads an image into it.

(An alternative way of opening a new image buffer is to use the gray
'+' key. Once again, to swap between the multiple buffers use the F4
function key or the ALT-b command.)

You can close a buffer by selecting the "Close Image" command also
under the "File" menu bar. The grey '-' key performs the same
function and makes a handy way of quickly deleting image
buffers. Closing a buffer will erase the current image (in the left
display window), delete it from the list of images, and then display
the next image in the list, if one exists.


You can also instruct EyeSight to read in an image file by specifying
its name when you invoke the program. For instance, to read in the
clips image when the program is invoked, you need only type:


If there are other images you want EyeSight to read, you may also put
them after the EyeSight name -- each image file name should be
separated by a space. The images will be placed into separate
image buffers in the left display window and the last image in the
list will be displayed in the left window.


You can pop-up a list of the currently open image buffers by
holding down the ALT key and pressing the letter b. You can
switch the current image to one of these buffers by using
the up and down arrow keys to select a buffer by highlighting
it and then pressing . The image corresponding to the
selected buffer will appear in the left display window.


You can write the current image to a disk file with the "Save Image"
option under the "File" selection in the main menu bar. The file
is stored as a binary file with a special header that is used
internally by EyeSight.

- Page 10 -


In addition to this, each buffer has a name associated with
it. This name is used as the filename for the "Save Image" command.
You can change the name of the image with the "Rename Image" option
under the "File" header.


EyeSight also provides a set of default path prefixes that are used
when reading or writing image files. This is particularly useful
when you want to store images in various directories. The path
prefixes are:

Pathname Description
input image Directory image files are read from.
output image Directory image files are written to.
current Directory used for internal dir.
DOS Directory holding COMMAND.COM

When EyeSight begins, the path prefixes are set to NULL so that all
image files default to the current directory.

Note: If you specify a directory prefix you should not place a "\"
symbol at the end of the pathname.

For most uses of EyeSight you will never need to alter these path
names. EyeSight will always default to using the current directory
which is adequate for most operations.


There are several user-definable constants in EyeSight - threshold
values, graphics mode, path prefixes, and so on. These can all be
defined in a configuration file. When EyeSight begins it looks
in the current directory for a text file called


If this file exists, the specifications in the configuration are
used. If the file does not exist, the system defaults to the
internal configurations. Once in EyeSight, you can read in any
configuration file with the "Option", "Load Configuration" command.
In addition, you can save the current state of all settings in
EyeSight at any time to a configuration file, by using the
"Save Configuration" command under the "Option" pull-down menu.

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EyeSight provides two levels of help. Pressing the F1 function key
will initiate a general help system that is divided into several
topics. You can select topics from the help screen by using the
cursor keys and pressing when the topic desired is

In addition, EyeSight provides a hypertext, context-sensitive
help that is accessible with the SHIFT-F1 key combination. It
provides short help descriptions about your current location in the
environment. For example, if the highlight bar is on the
"Threshold" option and SHIFT-F1 is pressed, a brief help message
will appear explaining the threshold operation. Words that appear
in color within a help window act as hypertext links to other
help displays. If you want help on such a topic, move the highlight
bar in the help screen (using the arrow keys) to the word and
press Enter. To exit a help screen, press ESC.


You can get a listing of the current directory (the directory
specified in the OPTIONS/ CURRENT DIRECTORY option) by selecting
the DIRECTORY option under the FILE option. You may use a wild
card specification to restrict the directory listing.


You can exit EyeSight at almost any point in the program by typing
ALT-x. Alternatively, you can elect to suspend the program by
pressing ALT-z and thereby enter the DOS environment. This option is
handy if you have forgotten a filename and want to go out searching
for it. Once you have suspended the program you can return to
where you left off in EyeSight by typing "exit" at a DOS prompt.


Another utility provided in EyeSight is a print screen function. You
will find it under the "Images" menu header. For this function you
will need an IBM compatible graphics printer connected to your PC.
This function will only work in CGA mode. The function uses the DOS
print screen call, so you must first initialize the systems to
graphics mode by executing GRAPHICS.COM which is included in your
DOS distribution disk. You only need to run this program once before
you run EyeSight and only if you are going to print the screen.
If you select this option, you will see the screen redrawn with
the negatives of the images, then the printing enabled, and finally
the screen restored to its original form. The image negation is
needed in order for the printing to appear as it does on the screen.

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You can check the location of pixels in an image and their values
with the "pixel Values" option under "Images". This selection will
let you move a cursor to a particular image location and display its
coordinates and pixel value. The cursor defaults to the "Result ^"
window. You can toggle between the left and right images with the
TAB key. In addition, if the "Result ^" window is pointing to the
left display window, you can step through the image buffers using
the F4 function key. To exit the pixel inspection routine, use the
ESC key.

The arrow keys move the cursor around the image. You can toggle the
"Insert" key below the keypad to alter the amount that the cursor
moves by. At any time you can jump the cursor back to the center of
the image by pressing CTRL-HOME.


Some image operations, like add and subtract, require two images
as input. Therefore an image marking function is provided so
that you can select which images in the list of image buffers
will be used in the operation. All the functions that use
two images use the current image in the left display window and
the currently marked image as input.

To mark an image, first step through the list of images until
the desired image is in the left display window. Then hold down the
ALT key and press the letter m. This will mark that image. To show
that the image has been marked, its name will be shown in reverse
video. The marked image will be used in all succeeding two image
operations until you unmark it by pressing ALT-m again or when
you mark another image.

Once you have selected the second image, step back through the
list of images until you get to the other image you want in the
image operation. The result will be shown in the Result window
as before.

If there are only two images in the list of images, then you do
not need to mark either of the images -- it will automatically
use the two images.


The following is a very brief overview of the image processing
functions supported in EyeSight.

- Page 13 -


Histogram - This function graphically displays the number of
occurrences of each intensity value in an image. All possible
gray scale values (intensity values) are plotted on the horizontal
axis and the number of occurrences of each of the gray scale values
is represented by the vertical axis. Histograms are useful for
determining good threshold values and checking the intensity
distribution in an image.

Threshold - Converts the current image to a black and white image.
All pixels below a threshold value are set to black and all other
values are set to white. Converting gray scale images to binary form
is quite common in industrial systems. It simplifies the processing
since the vision program only has to deal with two intensities --
black and white. Usually contour followers are used in conjunction
with thresholding operations to locate objects. See the description
of the contour operation.

Profile - This function graphically displays the pixel intensities
for a single line in an image. This routine can give you a good
idea how strong edges are in an image.

Roberts Gradient - Named after its developer, the Robert's gradient
is an edge detector known for its simplicity and speed. Edge
detectors try to locate edges of objects in an image in the hopes
of being able to identify them. Although the Robert's gradient
doesn't yield results that are as good as many other edge detectors,
it is acceptable for exploring computer vision. As with each of the
edge detectors in EyeSight, the roberts function will display a
gradient image where each pixel indicates how strong edges are at
each point in the image. The stronger the edge the greater the
image pixel value displayed in the gradient image.

Average - Reduces noise in an image by averaging small 3 by 3
neighborhoods of pixels. This operation will also tend to blur
an image.

Sharpen - Enhances the edges of images by subtracting the Laplacian
of the image with itself. Unfortunately, it often enhances noise
too. It's fun to experiment with this routine -- especially when
the image is a little blurred.

Sobel - One of the most common edge detectors. It detects
edges reasonably well although it does take a bit more time to
compute than say the Roberts gradient. (See Roberts.)

Prewitt - Yet another edge detector. It works much like the Sobel
edge detector. The main difference is how the pixel neighborhoods
are weighted when the edge operation is performed. (See Roberts.)

And - Performs a bitwise AND of two images.

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Or - Performs a bitwise OR of two images.

Add - Adds two images together. All values are truncated to 255.

Invert - Inverts an image so that black becomes white, white
becomes black, and so on.

Subtract - Takes the absolute value of the difference between two

Contrast - Improves the contrast of an image. It removes a
portion of the image's intensity values from the top and bottom
of the histogram. The rest of the image is stretched to fill
the full range of intensity values.

Log - Calculates the logarithm of an image and rescales the
resulting intensity values so that they range between 0 and 255.
Consequently, it alters the distribution of the gray scale values
in an image. Some researchers theorize that the human eye
automatically performs a log operation on all scenes so that
we can see greater detail in shadowy areas.

Burns - A line finding algorithm that uses regions of edge gradients
as a basis for locating lines. This algorithm is excellent for
detecting a wide variety of edges; however it is memory greedy and
computationally expensive. Nonetheless, finding lines can be
a useful step in higher level vision processing.

Contour - Thresholds the image and then divides the result into
black and white regions that can be used for object recognition.
The next section discusses it in greater detail.


Under the "Exec" menu selection is the Contour option. This routine
is an implementation of a Binary Region Tracer. Quite simply, the
routine traces the outlines of any regions it finds in a black and
white image (hence the name binary). Binary Region Tracers were
developed as the result of early vision research towards object
recognition. They have found greatest acceptance on the
industrial assembly line where the lighting can be strictly

The routine implemented in EyeSight accumulates statistics
about each region's area, perimeter, color, and so on as it
scans the image. You can inspect this data after the contour
routine has been run by pressing ALT-d. After doing this, one
of the regions will be marked with a cursor and a window will
appear on the other side of the screen with its statistics. To
inspect the statistics for other regions, use the up and down
arrow keys. Press ESC when you are finished.

- Page 15 -


Since the routine will only work on a black and white image, each
time you call the contour program it will prompt you for a
threshold value to apply against the image. The contour result will
be displayed in the result window.

To fully understand the limitations of the contour routine, try
various threshold values on each image and see what happens.


This section provides a hands-on tour through some of the
facilities included in EyeSight. You should already have read
the previous sections in this manual before continuing with
this section.

In particular, we will use EyeSight to demonstrate some of
the differences between the Roberts and Sobel edge detectors.
The following set of step-by-step instructions will guide
you through reading an image file, calculating its gradient
using the Roberts and Sobel edge detectors, and then subtracting
these two intermediate results to illustrate the differences
between them. For this example we will use the image
file. You may want to experiment with others later.

Step 1: Begin the EyeSight program, if you have not already
done so, by typing


at the DOS prompt and pressing the Enter key. EyeSight will
appear with an author message, simply press Enter to continue.

Step 2: Read the image file. This is done by moving the
highlight bar to the File pull-down menu using the left and
right arrow keys (if it is not already selected) and then

selecting the Load Image function in this pull-down menu by
moving its highlight bar to Load Image and then pressing
Enter. The program will then prompt you for an image file
name. You should now type:

and press Enter. The image of a set of black clips on a white
background will appear.

Step 3: Now let's calculate the Roberts gradient for this image.
The Roberts gradient is located in the Exec pull-down menu. To
get to it, move the highlight bar to Exec using the left and

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right arrow keys and to the word Roberts within its pull-down
menu using the up and down arrow keys. Press Enter to execute
the Roberts function.
On the right of the screen will appear a gradient image of
the original clips image. It indicates how strong edges are
at each pixel in the image. The stronger the edge, the higher
the pixel value (and brighter the color used to display the pixel).

Step 4: We will be using the Roberts gradient image later so
we need to copy it to our list of image buffers on the left
side of the screen. To do this, hold down the Shift key and
press the F6 function key. The Roberts result will now appear
on the left side of the screen. (Note: the original clips
image is still intact since we have copied the gradient
image into a NEW buffer.) It is given a name of NONAME.IM.

Step 5: Give the gradient image a name. Since we will be
referring to the Roberts gradient result later, let's give it
a new name. This is accomplished using the Rename Image function
contained in the File pull-down menu. To use it press ALT-f (or
use the arrow keys to get to the File pull-down menu), move the
highlight bar to "Rename Image" and then press Enter. EyeSight
will prompt you for the new image name. Type in:


and press Enter. The name of the gradient image is now clips.rob.

Step 6: Now let's get back to the original image of the clips by
pressing the F4 function key. The will now appear.

Step 7: Perform the Sobel edge detector on the clips image.
Before we can do this we must add the Sobel function to the
Exec pull-down menu. This is done by selecting the Add Function
operation under the Option header in the main menu. To do this
press ALT-o, followed by the letter 'a'. (Alternatively you can
select this function by using the arrow keys.) A pop-up window
listing several functions will appear in the middle of the screen.
Move the highlight bar in this window down (using the down arrow
key) until it is on the word sobEl. Press the Enter key. Now the
Sobel function is available to you in the Exec pull-down menu. To
use it press ALT-e and move the highlight bar until sobEl is
selected and then press Enter.
This will execute the Sobel function. (Note that the Sobel
function takes longer to execute than the Roberts gradient did.)

Step 8: Copy the Sobel result to the image buffer list on the left
side of the screen. This is done by holding down the Shift key and
pressing the function key F6. (The Sobel result will now appear in
the left window.)

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Step 9: Although it is not necessary, let's give the Sobel
gradient image a new name. This is accomplished, as before,
by using the Rename Image function in the File pull-down
menu. To do this type ALT-f followed by the letter 'r'.
Then type:


at the prompt.

Step 10: Now to subtract the two gradient images... First
we need access to the image subtraction function in EyeSight.
It is also included in the Add Function list under the Options
menu. To return to this list press ALT-o and then the letter 'a'.
Move the highlight bar in the pop-up list of functions, that
should now appear, to the word sUbtract and press Enter.
The subtraction routine should now be in the Exec pull-down

Step 11: When we execute the image subtraction routine it will
use as input the current image (shown in the left display window)
and a marked image. We will select and mark an image by pressing
the ALt-m key combination when the desired image to mark is in
the left display window. In this case we will make clips.sob the
marked image. Since it is already the current image, simply
type ALT-m. The name clips.sob should now appear in bold to
indicate that it is a marked image.

Step 12: Now move to the clips.rob image in the circular list
of image buffers by pressing the F4 function key until it appears.
You should only have to press F4 twice.

Step 13: And finally (!) let's subtract clips.rob and clips.sob to
illustrate the difference between the Roberts and Sobel edge detectors.
To do this, press ALT-e, move the highlight bar to the word sUbtract,
and then press Enter. The difference between the two edge gradient
images will now appear on the right side of the screen.
In practical terms this example illustrates that not all
edge detectors are made equal. As you can see, the Sobel edge
detector has done a better job of detecting object edges -- although
it was a little slower to do so.
To see how significant the differences are, you might want to
try using the pixel Values function in the Images pull-down
menu or run the histogram on the difference image (To do the latter
you should first copy the difference image to the left display
window, since all image functions operate on the current image in
the left display window.)

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If you've made it this far, you are well on your way to using
EyeSight to its fullest and will probably be discovering (or
rediscovering) just how amazing our own vision capabilities
really are! Good-luck!


EyeSight is going through a change. EyeSight is being equipped
with a powerful script language that provides access to each of
its functions. Unfortunately, this language interface is not
complete so it is not presented here. However, the EyeSight
distribution disk does contain a short script file, demo.scr,
that demonstrates a handful of the EyeSight language primitives.
To run this demonstration file type at the DOS prompt:

eyesight demo.scr

This script file will execute a few of the functions provided
in EyeSight and will display brief statements on each. You
may want to take a closer look at this file.


EyeSight supports three video adapters: the CGA, EGA, and VGA.
The CGA is used by default. (For more information on what each
of these modes can display, see the section entitled: Image Colors.)
You can select which graphics mode to use by specifying in the
configuration file the type of adapter installed. This is done
with the "DISPLAY" command. For example, to configure EyeSight
to use CGA, the command is:


Similarly, to use EGA:


and finally, to use VGA, use:


Three sample configuration files are included with the distribution
disk that already have these values in them. The one CGA.CFG is
for the CGA, EGA.CFG for EGA, and VGA.CFG for the VGA. If you
want to use a mode other than CGA (remember, EyeSight uses CGA by
default), you should rename the file corresponding to the mode
you'd like to use to "eyesight.cfg" and place this file in
EyeSight's directory. Then when you start EyeSight it will appear
in the mode selected.

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Tip: The EGA mode is the slowest, so if you have an EGA card, you
may want to use the CGA mode anyway-- the difference in speed will
more than make up for the inability to display images in gray

Warning: On some VGA cards, the CGA colors will not appear correctly.
For these boards, you should only use the EGA4 or VGA64 settings.


Although all of the commands can be accessed through the cursor
keys, they may also be selected by entering one or two letter
command sequences and some even have specially defined quick-keys.
The following is a list of all of the commands available
in the default configuration of EyeSight.

These commands do not appear in the menu system:

Key Sequence Description

ALT-b List all image buffers -- enables you to
jump to another image buffer by selecting
a buffer from the list and pressing
ALT-m Mark an image to be used in a two operand
image operation like and, subtract, or add

The following commands are listed in the menu system. You can
use a combination of the arrow keys and the key to select
one of these functions or you can elect to use the key sequences


Key Sequence Description

ALT-f, l load an image file into the current buffer
ALT-f, s save the current image buffer to a file
ALT-f, o open a new image buffer
ALT-f, c close the current image buffer
ALT-f, n display the next image buffer
ALT-f, r rename the current image buffer
ALT-f, d list files in the current directory

ALT-e, h display histogram of current image buffer
ALT-e, p display a profile of the current image buffer
ALT-e, t threshold the current image
ALT-e, r calculate and display roberts gradient
ALT-e, a average the current image
ALT-e, c trace the contours of a b&w version of the image
ALT-e, b find lines in the current image

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Key Sequence Description

ALT-s take a picture from a camera - NOT SUPPORTED
IN EyeSight

ALT-i, v examine pixel values in the Result window
ALT-i, p print the screen
ALT-i, c clear the display window above the "Result ^"
ALT-i, t toggle the Result window to the other display
ALT-i, d make a duplicate of an image

ALT-o, p change the default directory prefixes
ALT-o, w save the settings of the program in a
configuration file
ALT-o, l load a configuration file
ALT-o, a add a function to the "Exec" pull-down menu
ALT-o, d remove a function from the "Exec" pull-down menu
ALT-o, s suspend the program and return to DOS

Beyond the standard commands there are several quick access commands.
These are:


Key Sequence Description

TAB change window for vision processing results
This window is called the result window.
ALT-c clear Result display window
ALT-p perform a print screen
ALT-x exit program
ALT-z suspend program, exit to DOS
+ open an image buffer
- close an image buffer
F1 help
F2 load an image file into the current image buffer
F3 write the current image buffer to a file
F4 display next image buffer
F5 copy current image buffer to right window
F6 copy right image to current image buffer
SHIFT-F1 quick command reference sheet
SHIFT-F2 load an image file into a NEW buffer
SHIFT-F5 copy current image into a new image buffer
and display it in left window
SHIFT-F6 copy right image into a NEW buffer and
display it on the left side of the screen

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  3 Responses to “Category : Science and Education
Archive   : EYESIG.ZIP
Filename : MANUAL.DOC

  1. Very nice! Thank you for this wonderful archive. I wonder why I found it only now. Long live the BBS file archives!

  2. This is so awesome! 😀 I’d be cool if you could download an entire archive of this at once, though.

  3. But one thing that puzzles me is the “mtswslnkmcjklsdlsbdmMICROSOFT” string. There is an article about it here. It is definitely worth a read: