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Description  |
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BACKGROUND OF THE INVENTION
The present invention relates to cable television systems and apparatus,
and more particularly to the provision of different commercial messages to
different demographically targeted cable television audiences. Although
the invention is described in the context of cable television systems, it
will be appreciated that it has application in comparable systems, such as
satellite broadcasting systems and the like.
Viewers of commercial television are well aware that a typical television
channel contains television programs with periodic commercial message
breaks. Advertisers sponsor television programs by purchasing space for
their commercials during the broadcast of the program. Although different
commercials are often run for the same television program in different
geographic areas, there has been no way to target specific commercials to
specific television viewers on a case-by-case basis.
It would be advantageous to provide a method and apparatus for targeting
specific commercial advertisements to demographically selected audiences.
Such a system would enable commercial advertisements to be matched to
specific television viewers, thereby more efficiently utilizing
advertising budgets. It would be further advantageous to maintain
real-time records of demographic characteristics of particular television
viewers and the programs they watch, for subsequent retrieval and
analysis.
The present invention provides such a method and apparatus.
SUMMARY OF THE INVENTION
The present invention provides a cable television system or the like for
broadcasting different commercial messages to different demographically
targeted audiences. A headend transmits television signals. Means are
provided for identifying demographic characteristics of a television
viewer. Selection means, responsive to the identifying means, provide a
particular commercial message transmitted from the headend based on the
demographic characteristics.
Viewer demographic types can be determined in a variety of ways. In one
approach, a user demographic key on a handheld remote control is actuated
by the viewer before television channel selection is made. This
demographic type is then stored in the memory of a cable television
converter or the like. The converter will thereby know what demographic
type is viewing a television program.
Alternate methods of determining individual viewer demographic types
include household survey or diary information, known address/neighborhood
locations or known ethnic locations. All of these approaches allow for
demographic information to be programmed into a converter on an individual
basis during installation of a cable television converter or, by known
techniques from a cable system headend that transmits data to an
addressable converter.
In one embodiment of the present invention, the headend transmits a first
television channel comprising television programs with periodic commercial
messages, and a second television channel comprising alternate commercial
messages. The selection means provide a commercial message from the first
or second channel depending on the demographic characteristics of a
viewer. Such characteristics might include, for example, whether the
viewer is male or female, and whether the viewer is an adult or a child.
Means are provided for determining when a commercial message break is about
to occur, and the selection means are responsive thereto for providing an
appropriate commercial message during the break. In a preferred
embodiment, the headend transmits a plurality of alternate commercial
message channels for use by the selection means. Thus, for example, a
television program viewed by a child can have toy commercials, while the
same program viewed by an adult can have commercials for items such as
automobiles, air transportation services, and the like. In a more
comprehensive system, the headend can transmit a plurality of television
program channels each having periodic commercial message breaks, with each
television program channel having a corresponding plurality of alternate
commercial message channels associated therewith.
In order to provide a return to the television program at the termination
of a commercial message break, a timer can be provided that allocates a
specific time slot (e.g., 15 seconds, 30 seconds, 60 seconds) for
commercial messages to be received. At the termination of the time slot,
the system returns to the channel containing the television program. Other
means, such as commercial message break start and stop data signals, can
be provided to alert the selection means to switch from the television
program channel to an appropriate commercial channel, and back. Such data
signals can be transmitted by the headend as "tag information" on a
separate data path in a conventional manner.
In order to accommodate a plurality of television viewers watching a
television together, means are provided for prioritizing the demographic
characteristics of a group of viewers. The selection means is responsive
to the prioritizing means for providing a commercial message based on the
prioritization.
In order to provide market research functions and enable accurate billing
of advertisers for commercials presented to viewers, means are provided
for storing data indicative of cable services selected by viewers and
commercial messages provided by the selection means for subsequent
retrieval and analysis by the headend.
The present invention also provides subscriber apparatus for use in
receiving cable television services or the like. Means are provided for
receiving television signals including a first television channel
comprising television programs with periodic commercial message breaks and
a plurality of additional television channels comprising commercial
messages. Tuning means, coupled to the receiving means, provide a selected
channel for viewing. Means are provided for identifying demographic
characteristics of a television viewer. A determination is made as to when
a commercial message break is about to occur on the first television
channel, and selection means actuate the tuning means to provide a
particular commercial message channel for viewing during a commercial
message break, based on the viewer's demographic characteristics. Means
are further provided for actuating the tuning means to return to the first
television channel at the conclusion of a commercial message break.
A remote control is provided for use with a cable television converter,
which comprises selector switches for enabling a user to remotely control
various functions including channel selection. In accordance with the
present invention, the remote control comprises means for enabling a user
to input demographic data to the converter. Such means can comprise a
plurality of switches for entering information indicative of the sex and
age of the user.
In another embodiment, the present invention provides a cable television
system or the like with the option of commercial free television
programming. A headend transmits television signals, including a first
television channel comprising television programs with periodic commercial
messages and a second television channel comprising a non-commercial
program (e.g., music, fine arts, or the like). Alternately, the second
channel can provide another television program (e.g., a sports event) the
viewer wants to watch intermittently during commercial breaks in the
primary show being viewed. Means are provided for receiving the first
channel from the headend, and determining when a commercial message break
is about to occur on the first television channel. Means responsive to the
determining means receive the second channel instead of the first channel
during the duration of the commercial message break.
Headend apparatus is provided for broadcasting different commercial
messages to different demographically targeted cable television audiences.
Means are provided for transmitting a television signal containing
television programs and periodic commercial message breaks on a first
television channel on a cable distribution network. A library of recorded
television commercials is provided for playback under the control of a
system controller. Means concurrently transmit, on separate television
channels on the cable distribution network, a plurality of different
television commercials played back under the control of the system
controller during a periodic commercial message break.
The headend apparatus can further comprise means for storing data
indicative of demographic characteristics of a cable television
subscriber. Means responsive to the stored data direct subscriber
apparatus serving the subscriber to tune to a designated channel, during a
periodic commercial message break, for receipt of a television commercial
targeted to the subscriber. Means are provided for recording data
indicative of commercials transmitted on the cable distribution network
from the library, and for billing advertisers based on this data.
A method is provided for broadcasting different commercial messages to
demographically different television audiences. A first channel is
transmitted, containing television programs and periodic commercial
messages. A second transmitted channel contains alternate commercial
messages. Demographic characteristics of a viewer are identified, and
commercial messages are selectively provided from the first or second
channel, depending upon the demographic characteristics. A plurality of
channels containing alternate commercial messages may be transmitted,
wherein commercial messages are provided selectively from the first,
second or an alternate channel depending on the demographic
characteristics identified. The demographic data can be received from the
television viewer, and prioritized where a plurality of television viewers
are watching a television together.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a block diagram of a cable television converter for use in
connection with the present invention;
FIG. 2 is a plan view of a handheld remote control that a viewer can use to
input demographic information;
FIG. 3 is a flowchart of a software routine used by the converter of FIG. 1
in connection with the present invention;
FIG. 4 is a flowchart of a routine used by the converter of FIG. 1 for
storing command and demographic data entered by a viewer and prioritizing
demographic data of a plurality of viewers watching a television program
together;
FIG. 5 is a block diagram of headend apparatus in accordance with the
present invention;
FIG. 6 is a block diagram showing an alternate embodiment of headend
apparatus in accordance with the present invention; and
FIG. 7 is a block diagram of a routine used by the converter of FIG. 1 to
retrieve stored data and transmit it to the headend.
DETAILED DESCRIPTION OF THE INVENTION
The present invention allows the targeting of particular commercial
advertisements to television viewers having particular demographic
characteristics, and the subsequent retrieval of market research data
identifying the programs selected and commercials viewed by particular
demographic types. The invention is disclosed in connection with a cable
television system. It should be appreciated, however, that the invention
is equally applicable to other television broadcast systems as will be
apparent to those skilled in the art.
In accordance with the invention, a cable television converter tunes
automatically to a predefined commercial channel when a commercial message
break is about to occur in a television program being viewed. The
predefined commercial channel contains commercials targeted to the viewer
demographic type. The tuning from the program channel to the commercial
channel is only minimally noticeable by the viewer. For example, the
tuning can occur during the vertical blanking interval of the television
program signal. The implementation of control functions during the
vertical blanking interval is well known in the art, and circuitry for
effecting a tuning change during the vertical blanking interval will be
apparent to those skilled in the art. By enabling different converters to
tune to different commercial channels, one viewer demographic type using
one converter might see a commercial for automobiles while another viewer
using a similar converter could see an advertisement for toys during the
same commercial break.
FIG. 1 illustrates, in block diagram form, a converter 10 used in
connection with the present invention. An RF input signal, comprising a
plurality of television program channels and commercial message channels,
is input at terminal 12 from a cable system headend. The input signal is
coupled, via splitter 16, to a tuner 18 that is used to tune to a
particular television program channel or commercial channel under the
direction of microprocessor 30. The output of tuner 18 is coupled via
splitter 20 to a conventional descrambler 24, which outputs television
program signals to a viewer's television set (or other video appliance,
such as a VCR) via terminal 14. An AM data receiver 22 receives "tag
information" carried on a particular television channel and inputs the
information to microprocessor 30. FM data receiver 26 receives other
information from the headend (i.e., descrambler authorization data) for
input to microprocessor 30. The use of AM and FM data receivers in cable
television converters for retrieving tag information and addressable data
is well known.
Operational software for converter 10 is contained in ROM 32. Existing
cable television converters, such as the DP5/DPV5/DPBB converters and the
DP7 family of converters manufactured by the Jerrold Division of General
Instrument Corporation can be upgraded to implement the present invention
by interchanging the ROM chip contained in the converter with a new ROM
device containing additional software.
A serial number PROM 34 in converter 10 contains a unique code identifying
the converter to the headend, enabling the converter to be addressed on an
individual basis. RAM 36 is the operating memory for microprocessor 30,
and in accordance with the present invention stores data indicative of
demographic characteristics of a viewer or viewers using the converter at
any given time. RAM 36 may also store data indicative of the television
channels or other cable services selected by particular demographic types.
This data can be appended with date and time information by microprocessor
30, to enable subsequent cross-referencing of channels selected by viewers
to the programs shown on the channel at the time of selection.
LED display 38 outputs the television channel number to which the converter
is tuned by a viewer. IR receiver 40 receives data transmitted by a
handheld remote control for input to microprocessor 30. Keypad 42 enables
users to input channel selection and other information to the converter
directly without the use of a handheld remote control.
A remote control 120 for use with converter 10 is illustrated in FIG. 2.
Data are transmitted from the front end 122 of remote control 120 using an
infrared or equivalent remote data path. A plurality of conventional
function buttons 132 and channel selection buttons 134 are provided. In
accordance with the present invention, a plurality of switches 124, 126,
128, 130 is provided to enable a user to input demographic data to
converter 10. For example, switches 124 and 126 can be provided to
indicate that the viewer is an adult male or female, respectively.
Switches 128 and 130 can be provided to indicate that the viewer is a male
or female child, respectively. Other demographic information can
alternately be provided via switches 124-130, or by the provision of
additional demographic switches on remote control 120. Equivalent switches
can also be provided on the converter itself, as part of keypad 42. In an
alternate embodiment, a user code is entered on the numeric keys of the
remote control or converter to identify the demographic type of the viewer
before any commands are executed. Use of a user code would expand the
number of demographic types allowable, but may require additional keys to
be actuated to initiate a converter response.
In operation, a viewer is required to press a demographic key on the remote
control 120 (or on keypad 42) before any other key is depressed to select
a channel or other converter function. The demographic data (and any other
relevant data, such as data indicative of the converter function selected)
are then stored in RAM 36 so that the converter knows what demographic
type is watching the television associated with the converter at any given
instant. This implementation provides a dynamic system where the viewer
demographics can change at any time. In addition, multiple viewer data
and/or demographic types can be entered and stored in the converter. A
"delete" button can be provided to tell the system that a particular
demographic type has left the viewing area. Prioritization of multiple
viewers for use in selecting appropriate commercials is handled as
described below in connection with FIG. 4.
Alternate methods of identifying viewer demographic types include a passive
approach, relying upon image recognition technology to determine what
viewer or viewers are watching television at any given time. Demographic
types can also be identified using household survey or diary information,
known address/neighborhood locations or known ethnic locations.
Information determined by such techniques is transferred into RAM 36 of
converter 10 on an individual basis by a technician installing the
converter, or via a communication from the cable system headend which
addresses converter 10, via FM data receiver 26, to download the
demographic data. This approach allows the headend to update and modify
changes in household demographics for particular subscribers.
A headend in accordance with the present invention transmits television
program channels to converter 10 together with separate channels
containing commercial messages (i.e., advertisements). Information
alerting the converter as to when a commercial message break is about to
occur during a television program, and identifying the channels containing
commercials for different demographic audiences, is transmitted by the
headend in the form of tag information on the particular television
program channel to which the converter is tuned. The tag information is
detected by AM data receiver 22 and input to microprocessor 30, which
forces tuner 18 to tune in the appropriate commercial message channel at
the appropriate time. The AM tag data detected by receiver 22 is carried
on the audio portion of the television program signal in a conventional
manner. Alternately, the tag data can be included in the vertical blanking
interval using known techniques to alert converter 10 (via microprocessor
30) that a commercial break is about to occur.
Once converter 10 has been alerted that a commercial message break is
imminent, it identifies the demographic characteristics of the current
viewer from data stored in RAM 36. The converter software stored in ROM 32
then initiates an automatic channel change during a vertical blanking
interval to the specific commercial message channel to which the
demographic characteristics correspond. This channel is maintained for
either a pre-established fixed time period (e.g., 15, 30, 45 seconds,
etc.) by a timer operatively associated with microprocessor 30, or until a
"return to original channel" instruction is detected by the converter
through tag data transmitted by the headend. After the commercial break,
the converter returns back to the original television program channel
during a vertical blanking interval. Switching back and forth between
television program and commercial message channels during the vertical
blanking interval minimizes any visible interruption to the television
viewer. The software for accomplishing the retuning of tuner 18 contains
program instructions that will be apparent to those skilled in the art.
In the event separate commercial message channels are not being transmitted
by the headend, or if commercials already included on the television
program channel being viewed are appropriate for the viewer, the converter
maintains the current television program channel during commercial breaks
and no automatic tuning to alternate commercial message channels occurs.
The system of the present invention is compatible with existing systems,
and enables "cable-ready" televisions viewing cable television channels
directly (without a converter) to receive the commercials carried on the
television program channel being viewed.
A flowchart illustrating the operation of the converter software contained
in ROM 32 in a preferred embodiment is provided in FIG. 3. The software
routine begins at box 150, which passes control to box 152 where tag
information transmitted by the system headend is read. The tag information
defines if and when a commercial is about to occur, how long it will last,
and which channel the converter should tune to given the viewer
demographic type. If the tag information does not indicate that a
commercial is about to occur, as determined at box 154, the converter
stays tuned to the present television program channel, as indicated at box
156. Otherwise, control passes to box 158 where a determination is made as
to whether demographic commercial options are available. If not, the
converter remains tuned to the present channel as indicated at box 160.
If the converter contains data indicative of a viewer's demographic
characteristics, and the headend is providing a channel for commercials
targeted to such a viewer, the targeted commercials will be provided to
the viewer. At box 162, the viewer demographic type stored in RAM 36 is
determined. At box 164, the length of the impending commercial message
break is determined from the tag information transmitted by the headend.
At box 166, the converter determines which channel to tune to in order to
receive the targeted commercials. The channel information is either
defined by the tag information received from the headend, or has
previously been stored in converter memory 36. Then, at box 168, the
converter tunes to the correct channel for the commercials to be received.
This is accomplished by a signal from microprocessor 30, that directs
tuner 18 to tune in the appropriate commercial message channel.
Tuner 18 remains tuned to the commercial message channel for a preset
length of time (i.e., the length of the commercial break) or until new tag
information is received from the headend directing the converter to retune
to the original television program channel. The return to the original
channel is effected at box 172. Control then returns to box 152 where the
process repeats.
In the event that a group of television viewers are watching a television
together, and more than one viewer demographic type is present, a
hierarchy/priority decision is made by the converter software to determine
the dominant demographic type present. The prioritization method can be
based, for example, upon a weighted average of all the viewers present.
Alternately, the viewer who initiated the present channel decision, or the
person who makes household buying decisions can be given priority. The
flowchart of a routine for receiving data input by a viewer (including
demographic data), dealing with a plurality of viewers, and storing said
data for possible later retrieval and analysis is provided in FIG. 4.
The routine of FIG. 4 commences at box 180, and control is passed to box
182 where a determination is made as to whether a command initiated by a
viewer is being input to the converter. Once an incoming command is
detected (e.g., from a viewer's remote control), control passes to box 184
where data indicative of selections made by a viewer, including
demographic data pertaining to the viewer(s), are received. At box 186, a
determination is made as to whether demographic data were received for
more than one viewer. If so, the highest priority viewer is identified at
box 188. The viewer demographic type of the highest priority viewer is
stored in RAM 36, as indicated at box 190. Then, at box 192, the actual
command (e.g., change of channel) entered by the viewer is executed.
Control then returns to box 182 where the process repeats.
In the event the cable television system operator wants to provide market
research data to advertisers concerning, e.g., demographic information,
channels/programs viewed, pay-per-view purchases, etc., RAM 36 will also
store cumulative data indicative of the selections made by users via the
remote control or converter keyboard. As indicated at box 190,
microprocessor 30 will append this data with the date and time of the
selections so that the actual programs or other services selected can be
identified. The date and time information can be received by
microprocessor 30 from the headend via FM data receiver 26. Information
concerning other converter functions, such as the position of A/B switches
for bypassing the converter or viewing off-air programs, can also be
determined and stored. A routine for the subsequent transmission of this
market research data to the headend is shown in FIG. 7.
The routine of FIG. 7 commences at box 200, and at box 202 a determination
is made as to whether the converter 10 (FIG. 1) has received a data
retrieval tag instruction from the headend. Such an instruction would be
sent down the cable and received by FM data receiver 26. Upon recognition
of a data retrieval tag in the FM data stream addressed to the particular
converter, microprocessor 30 determines whether any pertinent data are
stored in RAM 36, as indicated at box 204. If not, control returns to box
202 until a data retrieval tag instruction is received and relevant data
are found in RAM 36.
If relevant market research data have been stored in RAM 36, control passes
from box 204 to box 206 where the data are retrieved from RAM 36. As
indicated at box 208, the data are then transmitted to the headend via
return path 44, which may be any conventional return path well known in
the art. For example, if a telephone return path is used, return path 44
will include a modem to modulate the data for transmission over a
telephone line. In a two-way cable system, an RF return path may be used.
At box 210, a determination is made as to whether all of the pertinent
market research data have been transmitted to the headend and whether the
transmission has been verified. If not, the data transmission repeats
until it is complete. At box 212, the accumulated market research data are
cleared from RAM 36, although the current viewer demographic data will
remain so that a user will not have to re-enter this information after the
market research data have been retrieved. Control then returns to box 202
to await the next request by the headend for the retrieval of market
research data from the converter.
One embodiment of a cable television system headend that can be used to
implement the present invention is shown in block diagram form in FIG. 5.
The components for handling commercial message sequencing and insertion
are depicted in box 50. In this embodiment, the cable system operator, who
controls the headend, is provided with the capability to insert
commercials in the commercial break portions of programs carried on the
main television program channel, and also for providing a plurality of
alternate commercial channels targeted to different demographically
defined audiences.
A system controller 58, which comprises a computer such as a personal
computer or mini computer, provides overall control of a commercial
inserter 60, commercial sources 62a-n, and a commercial interface
matrix/controller 64. Controller 58 also provides billing and traffic data
to a billing and traffic computer 56 that is shared with other
conventional headend components (not shown) for billing subscribers and
advertisers, and managing the cable television services provided.
Commercial inserter 60 receives commercials from one or more commercial
sources 62a-n which may, for example, comprise VCRs, video disc players,
or the like, containing recorded commercial messages. The commercial
inserter can serve a plurality of television program channels, each fed by
a respective program source 52a-n. Each program source carries television
programs having periodic commercial message breaks. Commercials are
inserted during the commercial message breaks by commercial inserter 60,
and output on the same television channel that carries the program source
via a scrambler/encoder 66a and television modulator 68a for each
television program channel. The scrambler/encoder scrambles premium
program signals as necessary, and encodes the program signal with the tag
information necessary to identify the commencement of a commercial break,
etc. The channel signal output from television modulator 68a is coupled to
the cable television distribution system at terminal 74 via a coupler 72,
in a conventional manner.
Commercial interface matrix/controller 64 enables the cable system operator
to provide a plurality of alternate commercial message channels, each of
which is scrambled and encoded as necessary by scrambler/encoders 66b-n,
which in turn output the commercial message channels to television
modulators 68b-n. Each television modulator outputs the commercial
messages input to it on a different channel. The channels are coupled to
the cable television distribution network via couplers 72 for output on
terminal 74.
The individual commercials contained in an alternate commercial message
channel are retrieved by commercial interface matrix/controller 64 from
commercial sources 62a-n. Where, for example, an alternate commercial
message channel is provided for children, commercials for various toys can
be retrieved by controller 64 from commercial sources 62a-n.
System controller 58 provides overall control of the headend apparatus. For
example, it controls the state of commercial inserter 60 to select between
a television program from program source 52a and a commercial message
from commercial sources 62a-n. Commercials from sources 62a-n are
available on a time shared basis, under the control of software contained
in the system controller. In this manner, for example, the same commercial
can be provided on the main television program channel (via commercial
inserter 60) and on an alternate commercial message channel (via
commercial interface matrix/controller 64) at different time slots within
the same commercial break. For example, the same commercial can be run on
one channel during the first 15 seconds of a 45 second commercial break,
and on another channel during the last 15 seconds of the same commercial
break. The ordering of various different commercials within a commercial
break, and the selection of those commercials is ultimately controlled by
system controller 58 in accordance with sequencing rules established by
the cable system operator.
As noted above, tag information necessary, e.g., for the converter to
determine that a commercial break is about to occur on a given channel, is
"encoded" on television channels via scrambler encoders 66a-n. This
information is included either as AM data in the audio portion of the
television signal, or as vertical blanking interval data. Specific tag
data and timing of such data are relayed to scrambler/encoders 66a-n via
system controller 58. The tag information can be encoded with or without
signal scrambling.
An FM data modulator 70 is provided to enable the headend to download
information, such as demographic information, to subscriber converters.
This information can be transmitted on an individual basis where it is
addressed to a particular converter, globally, or by groups of converters
assigned to subscribers having similar demographic characteristics.
Billing and traffic computer 56 allows for accurate commercial tracking and
advertiser billing. This computer, through a clock in system controller
58, records when various commercials were run, with data indicative of the
channel on which each commercial was run and for how long. Feedback to
advertisers can also be provided on who and how many people viewed a
particular commercial, through the use of an optional return path 44
provided in converter 10 (see FIG. 1). Optional return path 44 comprises
an output from microprocessor 30 that communicates with the headend via
the cable television network (where a two-way system is provided) or on
another return path, such as a telephone line. Return paths for providing
two-way communication between cable television headends and subscriber
converters are well known in the art.
FIG. 6 illustrates an alternate headend embodiment, wherein commercial
interface matrix/controller 64 is eliminated. A plurality of television
program channels 54 are coupled, via a coupler 72, for output on the cable
television distribution network at terminal 74. The television program
channels contain television programs and periodic commercial messages.
Alternate commercial messages are provided on a plurality of commercial
message channels that are also coupled to the cable television
distribution network. Each alternate commercial message channel receives
commercials from an associated commercial player 80, 82, 84, 86 controlled
by system controller 58. The commercial players can comprise, for example,
video disc players equipped with interchangeable video discs each
containing a plurality of commercials. Each player can retrieve and play
back any of the commercials from a video disc on a random access basis.
The system operator programs a set of commercials for playback on each
commercial message channel in any order desired. In practice, the system
operator will create sets of commercials to fill commercial breaks of
different time periods and grouped to target different demographic
audiences.
Television signals containing the commercials are output from each player
to scrambler/encoders 90, 92, 94, 96, respectively. The scrambled and/or
encoded commercial signals are input to television modulators 100, 102,
104, 106, respectively, where the commercials from each player are output
on a different television channel. These television channels form the
alternate commercial message channels retrieved by subscriber converters
as described above. The commercial message channels are coupled to the
cable television distribution network by couplers 72.
In another embodiment of the present invention, a "commercial killer"
option can be provided. In this embodiment, one of players 80, 82, 84, 86
will play a non-commercial program (e.g., music, fine arts, etc.) instead
of commercials. A subscriber converter can be programmed to tune to the
non-commercial channel during all commercial breaks, and then return to
the regular television program channel upon the completion of each
commercial break. With this feature, subscribers can eliminate all
commercial messages from their television viewing. Alternately, a
subscriber converter can be programmed to tune to another program channel
(selected by the viewer) during commercial breaks occurring on the primary
channel being viewed. Thus, for example, a viewer can watch portions of a
second sports event during the commercial breaks in an event of primary
interest.
Demographic programming is also available using the apparatus of the
present invention, allowing total program material (including programs and
commercials) to be automatically selected by the converter based on a
viewer's demographics. A viewer would tune to a certain channel number,
and all programming for the viewer would be provided by the converter
automatically tuning to program and commercial channels according to
demographics or pre-established viewer preferences.
It will now be appreciated that the present invention provides a system,
apparatus, and method for broadcasting different commercial messages to
different demographically targeted audiences. Although the invention has
been described in connection with various preferred embodiments, those
skilled in the art will recognize that various modifications may be made
thereto. For example, the invention is not limited to use in a cable
television system, and can be utilized in connection with other television
transmission schemes. It is intended that the following claim language be
read in its broad sense to cover all such equivalent schemes.
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