-
[ Music ]
-
(Nohemi) I like computers a lot,
and I want to learn more about it,
-
because I want to study
computer science
-
so that's my career that I
want to have in the future.
-
(Buddy) The only thing I
need help with is turning
-
the computer on and putting
the headset on my head.
-
Other than that, I can operate
just about anything else by myself.
-
(Susanna) It's a real
accomplishment and you
-
really feel proud of yourself
when you're actually able
-
to make progress and do
something without having to ask
-
somebody else, you know.
-
It's like you actually did it
by yourself, yea!
-
(Narrator) Besides an
interest in technology,
-
what these people have in common
is mobility impairment.
-
But each one is different,
-
and so is the way they use
their computers.
-
(Doug Hayman) It's pretty rare that
there'd be a one-size-fits-all
-
technology for people.
-
Each person with a disability,
with a mobility impairment,
-
is going to have a unique setup
that's suited to meet their needs.
-
And they need to be the end
client that decides,
-
"Is this technology working for me
or is there something else that
-
I'd rather use that
would suit me better?"
-
(Narrator) An individual's
mobility impairment may
-
or may not be obvious to
others, and people with similar
-
medical conditions may need
different types of adaptive technology.
-
The important thing
is to work closely with
-
the person using the computer
to figure out the best fit.
-
(Andrew Riggle) Pay attention to the
individual and what he or she needs,
-
both through observation
of him or her in the actual
-
environment in which
the technology will be,
-
is being used, and also through
consultations with the individual.
-
(Narrator) We'll show you some
examples of adaptive technology
-
that have been used effectively
by people with mobility impairments.
-
And we'll start with getting
to the computer.
-
You can't use a computer
if you can't reach it.
-
You have to be able
to get in the building,
-
get through the aisles, and sit
comfortably at the workstation.
-
Computers at work
and at school should be
-
in locations that are accessible
to people using wheelchairs.
-
(Andrew) Physical access to
buildings, labs, classrooms,
-
all that is extremely important
because this technology,
-
no matter how good it is,
is completely unusable
-
to a physically disabled person
if they can't get to it.
-
(Dan Comden) And that means
having a ramp, if there are stairs;
-
having an elevator, if there are stairs
inside the building;
-
having enough room between aisles
if it's a computer lab;
-
or having enough room
in the hallway.
-
(Narrator) The furniture
makes a difference too.
-
It's important to be flexible
in the way you position
-
keyboards, computer screens,
and table height.
-
Adjustable tables can be
cranked higher or lower,
-
so that the monitor is at
the most comfortable height.
-
Keyboard trays can
move up and down, or tilt,
-
to make typing easier.
-
(Narrator) Some people with
mobility impairments don't have
-
the flexibility or range of motion
to use a standard keyboard.
-
Fortunately, there's a wide range
of alternatives available.
-
Some of those are already built
into current popular operating systems.
-
(Dan) The fact that there
are some basic features built
-
into operating systems is really
important. There are some very
-
simple things that can
be done using control panels,
-
accessibility options control panels,
that give access, basic access,
-
to the keyboard and
to the operating system.
-
(Narrator) For example,
someone using a single finger
-
or a mouth stick wouldn't
be able to type two keys
-
simultaneously, such as
"control" and something else.
-
There's a setting that allows those
keys to be entered sequentially.
-
Another setting eliminates
repeated keystrokes
-
for someone who keeps a key
pressed down too long.
-
And features such as AutoCorrect,
which are common
-
in word processing software
and other applications
-
allow the user to abbreviate
long words or even sentences
-
with a brief letter sequence.
-
Once the abbreviations are set,
-
they can make typing faster and
more accurate.
-
There are also physical
adaptations to consider.
-
For example, a keyguard.
-
(Susie) The keyguard's a grid
that fits over the keyboard
-
and it has holes for each key
and prevents people from
-
typing a key they
didn't mean to hit
-
if their movements
are not controlled.
-
(Narrator) For people who
have limited range of motion,
-
a mini-keyboard
may be helpful.
-
There and also left- and
right-handed keyboards,
-
which can be used
with only one hand.
-
For someone with good range of
motion but poor dexterity,
-
there are keyboards
with extra-large keys.
-
For someone who can't
activate a keyboard physically,
-
a virtual keyboard
may be useful.
-
This appears on
a computer screen
-
as a picture of a keyboard.
-
The keys can be activated
with a mouse, trackball,
-
or alternative pointing system.
-
Some virtual keyboards may include
features such as
-
alternate key layouts
or word prediction software.
-
(Narrator) Word prediction programs
help people type correctly
-
and more quickly.
-
The program prompts the user
with a list of possible word choices
-
based on words that have
already been typed.
-
Some programs collect new words
as they're used and work with
-
the user's common vocabulary
in making predictions.
-
(Buddy ) I've thrown in a letter.
Let's say I've thrown in a "T"
-
and, like, five words that
start with "T" will pop up,
-
the most common ones that I use.
-
They'll pop up and I'll click on it
and it'll just print it up.
-
(Dan) Graphical user interfaces
are everywhere
-
and you need to have some
sort of a pointing device
-
to access the material
on the computer
-
icons, clicking, pointing
all those things.
-
So you either need
to use a mouse
-
or find an alternative
to using the mouse.
-
(Narrator) Trackballs are
a good place to start.
-
The trackball's control surface is
easier to manipulate than the mouse.
-
On some trackballs, buttons provide
features such as double-clicking,
-
click-and-hold, and
other commands.
-
They can be used on the
desk, or for people
-
who use their feet instead
of their hands, on the floor.
-
People with good head control,
but no use of their limbs
-
can use a head controlled
pointing system.
-
This system uses infrared
detection and a transmitter,
-
or reflector worn
on the user's head.
-
It translates head movements
into pointer movements
-
on the screen.
-
This can be combined
with an on-screen keyboard
-
for full computer control.
-
(Buddy) Well the Head Master
that I use,
-
it just controls the mouse,
the cursor on the keyboard.
-
The little thing that I blow
into, that's the button click.
-
(Narrator) Switches
work with a box
-
or an emulator that sends
keyboard or mouse commands
-
to the computer.
-
They come in a wide variety
and can be controlled
-
with nearly any body part.
-
(Doug) Some people will use
a switch mounted on an arm
-
and this arm can be mounted
so that it's in just the right
-
location for users.
-
Some may use one switch
that's just an on-off switch
-
that then interfaces with the
computer and most often,
-
that is used in a way that it's
either controlling an on-screen
-
keyboard so that they can
do the standard keystrokes.
-
And then software can also
be used with that same switch
-
to control the
direction of a mouse
-
and then the right and left
mouse clicks using that same switch.
-
(Narrator) Scanning
and Morse code
-
are two of the input methods
that rely on switches.
-
With scanning,
the user activates
-
a switch that brings up an
options menu on the screen
-
then continues to
activate the switch
-
to make specific choices.
-
Morse code uses a
sip-and-puff switch
-
where dot is a sip
and dash is a puff.
-
Special hardware and
software translates
-
Morse code into a form
that computers understand.
-
Any switch system
should be mounted
-
by a knowledgeable professional.
-
(Doug) So it's useful to
think about a wide range
-
of accommodation needs for
people with mobility impairments.
-
People may use a light-activated
switch near their eyes
-
that they can do a long
blink or a short blink
-
and then, with
that input device,
-
even the person with that
severe limitation
-
can control a computer.
-
They can use an onscreen
keyboard and write to somebody.
-
They could go to the Web,
do things everybody else
-
is used to using
on the computer.
-
Others may have
more functionality.
-
They may be limited from...
-
they can move their head, they
can speak fine but they can't
-
do anything with their hands,
so perhaps they would use speech
-
recognition to control a
computer or use switches that
-
could be located behind their
heads so they could click,
-
you know, left or right button
or maybe even use their head
-
to control the cursor as well.
-
(Oscar) I'm a junior this year.
-
(Narrator) Speech
recognition products
-
allow users to bypass
the keyboard completely.
-
(Oscar) This program
helps me type.
-
Whatever I say it types.
-
It's a microphone; I talk into
the microphone and it types it out
-
on the computer screen.
-
(Narrator) Speech recognition
software converts spoken words
-
into text on the computer.
-
The person using it
speaks into the microphone
-
in a normal manner.
-
This type of system
requires that the user
-
train it to recognize
their unique voice.
-
It's also important to
correct any recognition
-
errors that the system makes.
-
(Student, dictating) Most of us are
intimidated by computers.
-
(Narrator) To use speech
recognition technology effectively,
-
it's important to have good voice
and breath stamina.
-
Good reading comprehension is
also helpful because there are
-
always corrections to the
program's text output.
-
(Student, dictating) But it gets
easier with practice.
-
(Screen reader)
This research effort
-
confirms what so
many of us believe.
-
(Narrator) Reading systems,
which involve both hardware
-
and software, are
helpful for people
-
who find it difficult to
hold printed material
-
or turn pages.
-
A scanner converts hardcopy
into a digital image,
-
which is then converted
into a text file that
-
is recognized by the computer.
-
Next, the words come up on
the screen at the same time
-
that a speech
synthesizer reads them.
-
The most important part of
selecting adaptive technology
-
is to recognize the needs
of the individual using it.
-
The best adaptations are the
ones you choose yourself.
-
It's all about personal success.
-
(Andrew)The technology that's
being adopted that is now
-
quickly becoming the core
of our modern economy
-
and also our social life.
-
Without access to
the technology that
-
allows us to access
these new means,
-
it makes it nearly impossible
for the disabled individuals
-
to participate fully in society.
DO-IT