Telecoils
as Assistive Listening Devices (ALDs)
Mark Ross, Ph.D.
Small induction coils have been used in hearing aids at
least since l946 (Lybarger, l982). The one I personally used in the early l950s
was encased in small cube situated on top of the body worn hearing aid. It was
spring-loaded and had to be physically depressed against the earpiece when I
used the phone. (Long telephone conversations were avoided since they
invariably produced muscle cramps in the arm!)
From this inauspicious beginning, telecoils (as they were
soon labeled) have become smaller and more efficient. During the era when only
body and behind-the-ear (BTE) hearing aids were available, most aids included
telecoils. Since then, as the size of hearing aids has diminished, there has
consequently been less room in which to fit a telecoil. This, and the fact that
direct acoustical coupling can be quite effective with the smaller hearing
aids, is responsible for the decline in popularity of telecoils. Currently, in
the U.S., no more than 30%-40 % of current hearing aids include telecoils.
This is unfortunate in several respects. First, there are
still many people for whom telephone conversation can be improved with the use
of inductive (compared to acoustical) coupling. Without a telecoil in the
hearing aid it is not possible to make this comparison. Second, and the main theme of this paper, is
that by restricting our consideration of telecoils to its telephone
application, we are overlooking what can be an equally important function: to
serve as an assistive listening device. This was dramatically experienced by
Dr. David Myers, a Michigan social psychologist (and the person who motivated
me to write this paper) on a recent trip to Scotland).
During this visit, he attended a religious service that was
taking place within the high stone walls of the 800 year old Iona Abbey. Before
the services began, while listening to the babble of the other 300 worshipers,
he just knew his experiences were going to be what they ordinarily were in such
situations - half-heard words and lots of stress and aggravation. But his wife
noticed a sign indicating that an induction loop system (ILS) was available,
and she suggested that he switch on the telecoils of his hearing aids. He did, and now he feels that his life has
been transformed by the resulting auditory experience. Suddenly the surrounding
babble fell away, to be replaced by the sound of music emanating from musicians
across the Abbey. When the services began, the leader’s words came across
clearly and distinctly. For the first time in many years, Dr. Myers could
actually attend to the service rather than strain to understand the words. As he continued his travels through Great
Britain, attending professional, social, and religious events, he found that
induction loop systems were available in just about all of the large events
that he attended. Later he learned that IL systems were present in large settings throughout Europe. Why, he
has been wondering, is this same type of auditory access not available in our
country? Well, why indeed?
We could argue, of course, that it is available. The
Americans with Disabilities Act (ADA), and particularly the latest set of ADA
accessibility guidelines (ADAAG) requires that an assistive listening system
(ALS) be provided whenever “audible communication is integral to the use of the
space.” Except for a few exceptions (such as houses of worship) this applies to
all large-area listening venues attended by the public. The specific type of ALS is left up to the
local facility and can be an FM, Infra-Red (IR) or Induction Loop (IL). In practice, however, just about the only
type of ALS installed in large venues have been FM and IR systems.
So what’s the problem?
The problem is that the current situation hasn’t worked very well. While
FM and IR assistive listening systems are available, they have not provided
widespread auditory access to people wearing hearing aids. For a number of reasons the broad scope of
auditory access that Dr. Myers achieved in Europe does not occur here.
Why FM and IR
systems have been underutilized
The first reason is sheer inertia and lack of professional
and consumer pressure. Large public
facilities (such as auditoriums, theaters, movie houses, etc.) do not respond
in a proactive manner. The fact that
the ADA requires installation of an ALS does not cut much ice with most such
facilities. Without continued pressure by those directly concerned, there is
not much chance that managers of these facilities would spend the necessary
money to obtain an ALS. Moreover, their resistance is likely to increase when
they are informed that the care and maintenance of the ALS receivers are an
ongoing responsibility for their facility.
It would be easier to convince them to install an ALS if
receivers were not involved. Care of receivers necessitates that a staff member
be assigned to oversee this function, with all the attendant responsibilities.
This can be a burden, requiring, as it does, an increased workload,
re-assignment of existing personnel, and frequent retraining of new employees.
If receivers were not involved, facility managers could simply hook the ALS
into the existing sound system and forget about it. The ALS would then be
operative each time the PA system was activated.
Then there are the many facilities that do comply with the
law and provide an ALS with appropriate FM and IR receivers. Many managers
complain, however, that after spending the money and in spite of their good
intentions, patrons very rarely ask for a receiver. Eventually, the receivers
are relegated to a closet somewhere.
Often, the newer employees are not even aware of the existence of the
ALS. When a receiver is requested and one is located (likely at the dusty bottom
of that closet), patrons often complain that it doesn’t work properly for one
reason or another. Well of course it doesn’t; it may have been months since it
was last taken out of the closet and used.
I myself have had experiences along this line. I helped
several local synagogues acquire and install ALS systems, one of which was an
FM system and the other an IR system.
In both places, the ALS was hooked into the existing PA system;
whenever, therefore, the PA system was turned on the FM or IR system would be
transmitting. At first, in both locations, somebody (either a congregant or a
maintenance man) took responsibility for ensuring that the receivers were
available at the door prior to each service. In both places, there were
initially rave responses by the few people who used the system. That was three
or four years ago. Now, in both places, the receivers are locked in a closet
somewhere and haven’t been in use for the last several years. Whenever the PA
systems are turned on (i.e. in every service), the assistive listening systems
are still doing their thing. But, unfortunately, their signals are not being
“heard” and benefit nobody. This
happens all the time.
Even when FM or IR receivers are available and working
properly, hard of hearing people are often reluctant to request them. Many
people do not like to draw attention to themselves by wearing a visible device,
one that signals a hearing loss (not a healthy attitude in my opinion but still
a reality). For some, the dangling of an IR receiver from the ears is an
uncomfortable prospect after a few hours of wear. Other people object to using
earphones or ear buds. And many others have had such poor experiences with the
ALS they’ve used in the past (e.g. batteries that go dead in the middle of a performance)
that they are reluctant to subject themselves to the same annoyance again.
Then there are lots of people, particularly older ones, who
need a bit of extra help and encouragement in their first attempts to use an
assistive listening device. Anything new or unfamiliar tends to be resisted.
These people would be much more willing to simply switch their hearing aids to
the “T” position, rather than search for the location where the receivers are
being checked out (and have to provide some sort of ID), learn how to
manipulate an unfamiliar device (it may look simple, but not to a first-time
user), and then have to return it after the event (and find oneself the last to
leave the facility). For lots of
people, this is just too much of a bother.
In short, we have not been overly
successful in this country in ensuring large area auditory access for the
majority of people with hearing loss. Granted, when IR and FM systems work, and
care is taken to ensure functional receivers, the listening advantages are
apparent and wonderful. Still, for the reasons indicated above, we need to try
another approach. This is not a trivial problem. There are millions of people
out there with hearing loss whose appreciation of cultural and religious events
is being needlessly restricted. This applies to just about everyone with a
hearing loss. They can all benefit from an increase in the speech-to-noise
ratio, which is the basic principle behind any type of ALS.
The telecoil as an assistive
listening device
Clearly, then, the root cause of
inadequate auditory access in many listening venues is the necessity to provide
listeners with functional IR or FM receivers. Installation problems with these
types of listening systems can be worked through; receiver issues, however, are
perennial. They will always have to be checked out and somebody must always be
responsible for doing this; weak and dead batteries will always be a problem;
people will always resist wearing a visible device; reluctance to try something
“new” will always be a factor; and individually “tailored” signals will never
be possible. The only type of ALS now
available that does not require an external receiver is the telecoil, since it
is, itself, a “receiver” of electromagnetic energy.
Hearing aids are very personal
devices. When people who wear hearing aids attend a performance or lecture,
their aids accompany them. If an IL system is installed in the facility, then
all they have to do is switch their T-coils on. Presto, they’re on the air! No
need to check out receivers and no worry about weak or dead batteries.
Furthermore, since the input signal from the telecoil simply substitutes for a
microphone signal, the output is still “tailored” to the specific individual.
(This assumes that the telecoil has been programmed to produce the same
response as the microphone input, something possible with the newest generation
of hearing aids.)
As noted above, only about 30% to
40% of the hearing aids worn in this country include a telecoil. In Europe, however, some 85% to 90% of
hearing aids, generally BTE and ITE aids, include telecoils. This high
percentage is undoubtedly influenced by the fact that IL systems have been
available in Europe for many years. More than twenty years ago I noted that
almost all the churches in Denmark had installed loops (Ross, l982). And as Dr.
Myers’ experience suggests, the availability of IL systems on the continent has
increased over the years. In Europe, unlike here, telecoils have long had an
important role to play as an assistive listening device in addition to their
telephone function.
We should also note that telecoils
can also help in other ways. Many people
permanently loop a listening area near their TV set, thus making TV
sound access simple and convenient. No other receiver is required. Hearing aid
users can adjust the volume to their satisfaction without bombarding the
normally hearing listeners in the same room as them. Actually, of all the
potentially useful applications of a telecoil, this one may be the most useful
for the most people. But there are other applications as well.
Counter loops are now available
that permit a hearing aid user to understand the clerk at such noisy places as
airports and hotel counters (but good microphone usage is still a prerequisite).
If more hearing aids contained telecoils, there would be an incentive for more
facilities to provide these loops. Many other hearing aid users have found a
neckloop to be an important accessory device. For example, I use a neckloop and
as a two-ear connection with my telephone and answering machine (both of which
have an audio output connection). Finally, there is a new highly directional
array microphone now being marketed, termed the “Link-it,” which requires
inductive coupling to a person’s hearing aids.
So telecoils already have current and potential applications that
transcend their traditional telephone function.
Implementing effective IL
listening
There are going to be times when a
hearing aid user would like to hear both the signal emanating from the loop and
a companion’s occasional comments. When only telecoil reception is possible,
such a person would have to switch the aid from the “T” to the “M” position.
Not a big problem, but at times it can be inconvenient. There is an easy solution
to this situation, something that first arose many years ago when IL systems
were being used in educational settings with hearing-impaired children. We
wanted the children to hear the teacher and each other directly, as well as
being able to monitor their own speech output. Hearing aid manufacturers then
provided another switch position, the “M/T,” in which both the microphone and
telecoils were activated. While not a crucial consideration for adults, it
would be desirable if hearing aids provided this choice in addition to
microphone and telecoil options.
The specific physical orientation
of the telecoil in the hearing aid has been a recurring concern (Preves, 1994).
Inductive coupling is affected by the relationship between the magnetic field
and the position of the coil. For
optimal reception of a telephone signal, a horizontal positioning of the coil
is recommended. To optimally detect a signal from a loop (floor or neck) the
telecoil should be situated in the vertical position. Often recommended is a
compromise position in which the telecoil is angled so that adequate (though
not optimal) inductive coupling can be achieved with both telephones and
loops. However, since it is much easier
for people to manipulate a telephone for optimal coupling than to angle their
own heads relative to a loop (!), I would suggest the vertical position as the
normative one. Still, there is need for some creative engineering on the topic
of telecoils, an area of research that does not seem to have interested the
hearing aid industry very much.
Of course, initially, there would
be legitimate objections if a facility only provided an IL system to its
patrons. What happens to people who do not now have a telecoil in their hearing
aids? Are they going to have to wait until they acquire new hearing aids before
they can “tune” in to the system? As it happens, there are several commercially
available IL receivers that can be employed to pick up the signal emanating
from the loop. The use of these receivers does preclude the main advantage of
the use an IL system, i.e., the convenience of using one’s personal hearing aid
as a receiver. However, the IL receiver should be viewed primarily as a
transitional and occasionally needed device.
As more facilities are looped, and as more hearing aids contain
telecoils, the number of these IL receivers could be reduced. At worst, having
to check out a few IL receivers would be no different than the current
situation. At the same time, the facilities could phase out the number of IR or
FM receivers now required by ADA accessibility guidelines (4% of total number
of seats, including 25% neckloops).
Installation of a large area IL
system is likely to require more effort than the installation of either an FM
or IR system. It takes skill to properly install any large area listening
system, but the installation of a floor loop seems to be the most challenging.
Signal spill over is a concern, particularly when adjacent areas are to be
looped and used simultaneously. This may occur in convention centers, multiplex
theaters, schools, and similar locations.
One way this has been accomplished is by looping just a portion of an
auditorium, sufficient for 65% to 70% of the seats, and clearly labeling the
looped area. This would preclude significant spill over between adjacent sites
and still give hearing aid users an adequate choice of seats. Incidentally, an
excellent site for a IL system, where spill over would not be a concern is a
house of worship, precisely that location not covered by the ADA.
We should recall that this is a
technology that has been in use for many years, predating FM and IR systems by
many decades. Possible problems have
long been identified and mainly resolved. Yes, of course, in addition to spill
over there are concerns about ambient electromagnetic interference (EMI) from
such sources as defective lighting, power transformers, light dimmers, computer
monitors, etc. Yet, by one estimate (Lederman, 2002) 9 out of 10 sites are
sufficiently free of EMI to permit a satisfactory loop response.
There is always going to be a need
for the unique characteristics of FM and IR systems. There are many times when
an IR system would be the most appropriate (e.g. when privacy is a major
concern) and other times when an FM system would be the system of choice (e.g.
large outdoor stadiums, frequent changes of listening venues, etc.). What we
should keep in mind is that all potential venues offer a unique challenge, and
that there is no substitute for the advice offered by knowledgeable venders,
installers, and hearing care professionals. The hearing care professional
should not be a bystander in this effort to extend to use of IL systems in our
society.
Right now, we seem to be in a
“chicken and egg” situation: Most hearing aids do not include telecoils because
they are perceived to be of benefit only with telephones, whereas there are
relatively few IL systems out there because most aids do not include telecoils.
I don’t think we can focus only on the “chicken” or only on the “egg.” Instead,
I would suggest a combined approach, but one which emphasizes the role of
hearing aid dispensers. They are in a position to strongly recommend the
inclusion of telecoils in all of the hearing aids they dispense. At the same
time, consumers and other interest groups can lobby strenuously for more IL
installations. Unfortunately, a recent survey showed that less than 50% of all
hearing aid dispensers even mentioned the possibility of a telecoil to their
clients (Stika and Ross, 2002). Dispensers cannot, of course, require that
their clients include a telecoil in their hearing aids, but people can be given
enough information so that they can make an informed choice. Many people would
be more than willing to accept the need for a slightly larger hearing aid if the
potential benefits of a telephone coil were explained to them.
Our society is full of examples of
how changes in terminology are intended to modify our views about people or
topics. To stress the fact that telecoils have a role to play that far transcends
their traditional one with telephones, it would be useful if we could re-label
this little coil in order to stress its potentially wider application. Perhaps
its time to change its name. Maybe if we now termed the “telecoil” a “listening
coil” or “audio coil” we could be more effective in communicating its full
scope as an ALD.
References
Lederman, N. (2002) Personal
Communication.
Lybarger, S. (l982). Telephone
Coupling. In G. A. Studebaker
and F. H. Bess (Eds.), The
Vanderbilt Hearing-Aid Report, Monographs in Contemporary Audiology
(91-93), Upper Darby: PA.
Preves, D. A. (1994). A look at the
telecoil – Its development and potential. SHHH
Journal, 15(5), 7-10.
Ross, M. (1982). Communication
Access. In G. A. Studebaker and F. H. Bess (Eds.). The Vanderbilt Hearing-Aid Report, Monographs in
Contemporary Audiology (203-208), Upper Darby: PA.
Stika, C. J., Ross, M. and Ceuvas, C. (2002). Hearing aid services and satisfaction: The consumer viewpoint, Hearing Loss, 23(3), 25-31.