Patent No. 6954591 Non-visible communication systems
Patent No. 6954591
Non-visible communication systems (Lupton, et al., Oct 11, 2005)
Abstract
Network for transmitting and using electromagnetic radiation for two or more functionally different useful purposes. Such a network may be comprised of a signal source apparatus to provide information, an electromagnetic radiation generator capable of being modulated for providing electromagnetic radiation, electronic circuitry for modulating the electromagnetic radiation generator, medium through which the electromagnetic radiation passes and is transmitted, a receiver apparatus for receiving and demodulating the modulated electromagnetic radiation, a first user means for processing and making use of the information to achieve a useful functional purpose, and second user means for achieving a useful functional purpose from said radiation said useful functional purpose being different from the purpose of said first user means.
Notes:
BACKGROUND
OF THE INVENTION
A communication network is a means for conveying information from one place
to another. The information can be in audio, digital data, video, text, graphics,
data, sign language or other forms. The network can be a wide area network such
as an intranet in an office, store or factory. Establishing and maintaining
communication networks is one of the oldest known activities of mankind ranging
from the shouting and drum signals of prehistory through written messages, signal
flags, signal fires, smoke signals, signal mirrors, heliographs, signal lanterns,
telegraphs, radios, telephones, televisions, microwave signals, linked computers
and the internet. Improving communication networks will continue to be a major
technical focus in the future.
The ideal communication network would be non-intrusive, inexpensive, extremely
large information carrying capability (wide bandwidth), instantaneous and suitable
for use with a broad variety of transmission and reception technologies.
There have been a few reports of the use of visible lighting as a carrier in
electronic communication networks. The earliest reference to using lighting
to send electronic information as well as to provide illumination appears to
be Dachs (U.S. Pat. No. 3,900,404) disclosing an analog amplitude-modulation
(AM) scheme to modulate the arc current in a fluorescent lamp, the "carrier"
signal, with an audio information signal. King, Zawiski and Yokoun (U.S. Pat.
No. 5,550,434) disclosed an updated electronic circuit that also provides for
AM modulation of the arc current with an analog signal. Smith (U.S. Pat. No.
5,657,145) teaches a method for encoding low-bandwidth digital information into
the lamp light using a pulsed AM technique. The encoding technique involves
chopping 100 microsecond slices of current out of the arc waveform. Nakada (Japanese
Patent application 60-32443, Feb. 19, 1985.)reports a FM modulation and a frequency
shift keying (FSK) scheme to transmit digital data using visible lighting. Gray
(U.S. Pat. No. 5,635,915 Jun. 3, 1997 and PCT WO90/13067, Oct. 11, 1991.) has
reported a product pricing system for supermarket shelf labels where a signal
is sent from visible lighting to individual product price labels on shelves
to cause the listed prices to change when desired.
Other communication schemes have been proposed that do not use the lamp light
as the carrier, but instead use the lamp fixture as an antenna for transmitting
conventional radio wave or microwave signals. In Uehara and Kagoshima (U.S.
Pat. No. 5,424,859), for example, the inventors disclose techniques for mounting
a microwave antenna on the glass surface of fluorescent and incandescent lamps.
Buffaloe, Jackson, Leeb, Schlecht, and Leeb, ("Fiat Lux: A Fluorescent Lamp
Transceiver," Applied Power Electronics Conference, Atlanta, Ga., 1997) first
outlined the possibility of using pulse-code modulation to transmit data with
a fluorescent lamp. In the latter reference, a three-level code shifts the arc
frequency to one of three possibilities every Tsw=2 milliseconds. The result
is a steady light output, on average, with no perceptible flicker. A one or
a zero bit does not correspond to a particular arc frequency, but rather, to
a three level pattern in arc frequency. A logic zero bit is transmitted by varying
the arc frequency first to 40 kHz, then to 38 kHz, and finally to 36 kHz. A
logic one bit is transmitted by the arc frequency pattern beginning with 38
kHz, followed by 40 kHz, and ending with 36 kHz. A unique start bit, used to
demarcate the beginning of a transmitted byte, is represented by a sequence
in the arc frequency beginning with 36 kHz, followed by 38 kHz, and ending with
36 kHz.
In our previously filed patent applications Ser. No. 09/291,706 filed Apr. 14,
1999 and entitled "Dual-Use Electronic Transceiver Set for Wireless Data Networks"
and application Ser. No. 09/292,126 filed Apr. 14, 1999 entitled "Analog and
Digital Electronic Receivers for Dual-Use Wireless Data Networks", we have disclosed
visible light communications networks for analog and digital data based on frequency
modulation of light. The modulation techniques include direct FM, 2 level half
weight bit coding and other orthogonal bit coding schemes.
The visible light case mentioned above is a specific case of our invention which,
stated generally, involves simultaneous intentional dual use of transmitted
electromagnetic radiation for two completely different useful purposes.
SUMMARY OF THE INVENTION
With the new technology disclosed in our previously filed applications, the
recent advances in computer technology and other improvements in electronics,
a number of applications and uses are now enabled. These applications are most
preferentially executed using our new technology. However, in some cases, they
may be executed using some of the other technologies known in the prior art.
Our communication network contains the following elements in series: a) A source
of the information which will be transmitted b) A transmitter, which includes
lamp and a means for controlling the modulation of the lamp to cause the lamp
to carry a signal c) A medium through which the light passes from the transmitter
to the receiver d) A receiver for receiving and demodulating the light in order
to obtain the information e) A user for the information. This user can be a
device, like a computer or a compact disk player, or it can be a person.
Our invention embodies a number of uses and purposes for the light based communication
network. One purpose is to process the signal from the light is by the receiver
to control the selection of information from a computer memory, CD or other
storage device for large scale storage of data, greatly increasing the effective
bandwidth of the information which can be transmitted. Another purpose is to
provide data to the user from the receiver from both a large scale data storage
device, like a computer memory, compact disk or other such device, and from
the information transmitted by the light, with segments of data from the sources
interspersed in presentation to the user. Another purpose is to provide data
from a device source, like a computer chip, a tape cassette a compact disk or
other such device, to the transmitter. Another purpose is to repeat continually
the data from the device source, providing a continuous signal of finite period
to the user. Another purpose is to use two or more transmitting lights, each
transmitting its own signal at the same frequency to provide spatial resolution
of signal so that the receiver will receive and provide to the user information
from only one of the lights at any time and the receiver may shift its reception
from one light to another. Another purpose is to transmit two or more different
signals simultaneously at different frequencies from one light in such a manner
that two or more receivers can each pick up the different signals. Another purpose
is to transmit two or more different signals containing the same information
in two or more different languages or codes so that by selecting the proper
frequency, the user can select information in the language or code they deem
most suitable. Another purpose is to encrypt the information prior to transmission
and decrypted it subsequent to receipt. Another purpose is to use the lighting
of an individual exhibit to provide to the user a description of some aspect
of the exhibit. Another purpose is to transmit information over the network
is used to provide assistance to individuals who are visually impaired. Another
purpose is to transmit information transmitted over the network to provide assistance
to individuals who are hearing impaired. Another purpose is to transmit over
the network to provide assistance to individuals who are mentally impaired.
Another purpose is to transmit the information transmitted over the network
for processing by the user and subsequent sending out of a responding signal
by the user using some means. Another purpose is to use the network to provide
information to a receiver and user which are moving. Another purpose is to use
the network to provide information inside an aircraft, boat, submarine, bus,
auto, train or other vehicle. Another purpose is to use the network to provide
guidance information to a receiver and user which are moving. Another purpose
is to use the network to provide safety or warning information. Another purpose
is to use create a network where the same information is being provided by a
plurality of different lights. Another purpose is to use the network to provide
paging information to the user. Another purpose is to provide information in
classrooms and other meeting rooms. Another purpose is to create a repeater
network where the modulated signal initiated by one light will be received by
an adjoining light, that light started modulating, etc. until all lighting in
a network is being modulated and carrying the signal. Another purpose is to
create a network in which the electromagnetic radiation which is modulated is
infrared radiation. Another purpose is to create a network in which the electromagnetic
radiation which is modulated is ultraviolet radiation. Another purpose is to
create a network in which the electromagnetic radiation which is modulated is
radio frequency radiation. Another purpose is to create a network in which the
electromagnetic radiation which is modulated is microwave radiation. Another
purpose is to create a network in which the electromagnetic radiation which
is modulated is X-ray radiation. Another purpose is to create a network to transmit
compressed data.
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