U.S. patent application number 16/298427 was filed with the patent office on 2019-07-04 for queue based advertisement scheduling and sales.
The applicant listed for this patent is Prime Research Alliance E., Inc.. Invention is credited to John P. Blasko, Charles A. Eldering, Gregory C. Flickinger, John A. Schlack.
Application Number | 20190208286 16/298427 |
Document ID | / |
Family ID | 45877503 |
Filed Date | 2019-07-04 |
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United States Patent
Application |
20190208286 |
Kind Code |
A1 |
Eldering; Charles A. ; et
al. |
July 4, 2019 |
QUEUE BASED ADVERTISEMENT SCHEDULING AND SALES
Abstract
In accordance with the invention, advertisements may be inserted
into a programming stream in a communications network. For example,
a programming stream may be transmitted from a first location to
one or more receiving nodes. One or more queues may be aggregated
at a node of the network. Each queue may be associated with one or
more subscribers and/or may comprise a plurality of queue locations
forming an ordered list of advertisements. Each advertisement may
be matched (e.g., previously matched) to one or more of the
subscribers. The aggregated specific individual queue locations may
determine the ordered list of the advertisements within the queues.
One or more intervals may be detected in the programming stream
within which advertisements may be inserted. Advertisements may be
inserted from the queues into the programming stream within the
detected one or more intervals. The advertisements may be inserted
in accordance with the ordered list.
Inventors: |
Eldering; Charles A.;
(Furlong, PA) ; Flickinger; Gregory C.;
(Indialantic, FL) ; Schlack; John A.; (Quakertown,
PA) ; Blasko; John P.; (New Hope, PA) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
Prime Research Alliance E., Inc. |
Tortola |
|
VG |
|
|
Family ID: |
45877503 |
Appl. No.: |
16/298427 |
Filed: |
March 11, 2019 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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15890032 |
Feb 6, 2018 |
10231031 |
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16298427 |
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15251792 |
Aug 30, 2016 |
9888297 |
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15890032 |
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14337806 |
Jul 22, 2014 |
9432733 |
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15251792 |
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13438458 |
Apr 3, 2012 |
8789091 |
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14337806 |
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09712790 |
Nov 14, 2000 |
8151295 |
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13438458 |
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60229156 |
Aug 31, 2000 |
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Current U.S.
Class: |
1/1 |
Current CPC
Class: |
H04N 21/23424 20130101;
H04N 21/44016 20130101; H04N 21/4331 20130101; H04N 21/458
20130101; H04N 21/812 20130101; H04N 21/26233 20130101; H04N
21/25883 20130101 |
International
Class: |
H04N 21/81 20060101
H04N021/81; H04N 21/234 20060101 H04N021/234; H04N 21/262 20060101
H04N021/262; H04N 21/433 20060101 H04N021/433; H04N 21/258 20060101
H04N021/258; H04N 21/44 20060101 H04N021/44; H04N 21/458 20060101
H04N021/458 |
Claims
1. A method of inserting advertisements into a programming stream
in a communications network, the method comprising: transmitting
said programming stream from a first location to one or more
receiving nodes; aggregating one or more queues at a node of the
network, each queue associated with one or more subscribers and
comprising a plurality of queue locations forming an ordered list
of advertisements, each advertisement being previously matched to
one or more of the subscribers, wherein the aggregated specific
individual queue locations at least partially determine the ordered
list of the advertisements within the queues; detecting one or more
intervals in said programming stream within which advertisements
may be inserted; and inserting advertisements from the queues into
said programming stream within said detected one or more intervals,
the advertisements being inserted in accordance with the ordered
list.
2. The method of claim 1 wherein an order of the advertisements in
the queues is independent of the substance of the programming
stream.
3. The method of claim 1 wherein each of the one or more queues is
associated with a channel in the programming stream.
4. The method of claim 1 wherein the inserting includes inserting
the advertisements from a queue associated with a selected channel
into the detected intervals in the selected channel.
5. The method of claim 1 wherein the queues are stored at the node
of the network.
6. The method of claim 1 wherein specific queue slots are sold to
advertisers.
7. The method of claim 1 wherein specific queue slots are sold
based at least partially on a repetition rate within the queue of
the sold specific queue slots.
8. The method of claim 1 further comprising: recording a portion of
the programming stream for subsequent playback.
9. The method of claim 8 wherein the advertisements are inserted
into the programming stream as the stream is being recorded.
10. The method of claim 8 wherein the advertisements are inserted
into the programming stream when the stream is played back.
11. The method of claim 8 wherein the advertisements are inserted
into the programming stream between the time the stream is recorded
and the time the stream is played back.
12. The method of claim 1 wherein the inserted advertisement is
independent of a selection of the inserted advertisement.
13. The method of claim 1 wherein an order of the advertisements in
the ordered list is independent of the substance of the
advertisements in the queue.
14. The method of claim 1 wherein an order of the advertisements in
the ordered list is independent of the timing of the detected
intervals.
Description
CROSS REFERENCE TO RELATED APPLICATIONS
[0001] The present application is a continuation of U.S. patent
application Ser. No. 15/890,032, filed Feb. 6, 2018, which is a
continuation of U.S. patent application Ser. No. 15/251,792 (now
U.S. Pat. No. 9,888,297), filed Aug. 30, 2016, which is a
continuation of U.S. patent application Ser. No. 14/337,806 (now
U.S. Pat. No. 9,432,733), filed Jul. 22, 2014, which is a
continuation of U.S. patent application Ser. No. 13/438,458 (now
U.S. Pat. No. 8,789,091), filed Apr. 3, 2012, which is a
continuation of U.S. patent application Ser. No. 09/712,790 (now
U.S. Pat. No. 8,151,295), filed Nov. 14, 2000, which claims the
benefit of U.S. Provisional Patent Application No. 60/229,156,
filed Aug. 31, 2000. The disclosures of the aforementioned priority
applications are incorporated herein by reference as if set forth
in full.
FIELD OF THE INVENTION
[0002] The invention pertains to advertising. More particularly,
the invention pertains to targeted advertising, such as in
television programming delivery systems utilizing set top boxes,
memory enabled set top boxes, and/or personal video recorders, for
each subscriber.
BACKGROUND OF THE INVENTION
[0003] The traditional paradigm for delivering advertisements in
the stream of television programming is herein termed linked
advertising. Whether the television programming service is being
provided by antenna broadcast, analog cable, digital broadcast
satellite (DBS), digital cable, switched digital video (SDV) or any
other means, generally all viewers of a particular program will see
the same ads in the same order at the same times. In essence, each
advertisement is "linked" to a particular point within a particular
program. If any particular viewer is not viewing the particular
program at the particular time, he or she will not see the
advertisement. That is, in linked advertising, the advertisements
are simply part of the data stream from the head end, i.e., from
the central office of the television service provider to all
subscribers of that service.
[0004] However, with modern digital television service methods,
including SDV systems (in which television service is received over
the telephone lines) via very high speed digital subscriber line
(VDSL) and digital cable, both of which utilize the concept of
addressable set top boxes (STBs), more personalized service is now
available. For instance, in both types of systems, two-way
communication between the subscribers set top box and the service
provider via the network is possible. Further, the service provider
can send different data to different subscribers. In telephone
based systems such as SDV, the service provider can actually send
different information to any individual subscriber.
[0005] In fact, in one embodiment, the VDSL television delivery
standard essentially is an access network utilizing asynchronous
transfer mode (ATM) protocol. In digital cable systems, different
data can be sent to different groups of customers.
[0006] Accordingly, it is an object of the present invention to
provide an improved method and apparatus for delivering advertising
via a network, such as a television service network.
[0007] It is another object of the present invention to provide a
method and apparatus by which targeted advertisements can be
inserted into the television program stream in a targeted fashion
either by individual subscriber or group of subscribers on a
network.
[0008] It is a further object of the present invention to provide a
method and apparatus for providing targeted advertisements to
individual subscribers or groups of subscribers on a network.
SUMMARY OF THE INVENTION
[0009] In accordance with the invention, one or more queues of
advertisement resource locators (ARLs) are maintained for each
subscriber on a communications network, such as a cable television
network, preferably in a memory of the subscribers' set top boxes.
In a preferred embodiment of the invention, the actual
advertisements corresponding to the advertisement identifiers also
are stored in the memory in the individual set top boxes. Each
advertisement identifier comprises, at a minimum, information
indicating where the advertisement may be found on the network or
on a local memory.
[0010] In a preferred embodiment, when an advertising opportunity
is detected or otherwise determined in the data stream, e.g., a
commercial break in a television program, the advertisement
corresponding to the ARL at the top of the queue is retrieved and
inserted into the program stream at the individual addressable node
of the network, e.g., the set top box. This break may occur before
the programming starts, during the programming, or afterwards.
Thus, the insertion of the advertisement is independent of the
programming being watched. Unlike prior art where the advertisement
is "linked" to a particular point within a particular program, in
the present invention, the advertisements are linked to the
subscribers by forming the queue of address locators of different
advertisements and wherein the targeted advertisement is inserted
by detecting a commercial break in any programming being watched by
the subscriber. Thus, insertion of advertisements is independent of
programming being watched and the subscriber will receive the
designated advertisement in the designated order as opportunities
occur regardless of the channel program or time of day.
[0011] In accordance with the invention, the television service
provider sells places in the individual (or grouped) queues to
advertisers based on available information about the subscribers.
Such information may include publicly available demographic and
psychographic information, as well as more individualized
information which may be obtained through questionnaires filled out
by subscribers.
[0012] While the invention is particularly suitable for inserting
targeted advertisements into television programming, the invention
is readily adaptable to inserting any particular data into any
particular stream of other data transmitted via a communications
system.
[0013] Such systems can include targeted advertising in Electronic
Program Guides or digital overlay/insertion systems.
[0014] These and other features and objects of the invention will
be more fully understood from the following detailed description of
the preferred embodiments which should be read in light of the
accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
[0015] The accompanying drawings, which are incorporated in and
form a part of the specification, illustrate the embodiments of the
present invention and, together with the description serve to
explain the principles of the invention.
[0016] In the drawings:
[0017] FIG. 1 is a block diagram of an exemplary television service
communication network;
[0018] FIG. 2 is a block diagram of an exemplary set top box of
FIG. 1;
[0019] FIG. 3 is a logic diagram illustrating an advertisement
identifier queue stored in memory in accordance with the present
invention;
[0020] FIG. 4 is a functional block diagram illustrating
queue-based advertisement scheduling and advertisement insertion
according to one embodiment of the present invention;
[0021] FIGS. 5A and 5B comprise logic diagrams illustrating other
advertisement identifier queue organizations in accordance with the
present invention; and
[0022] FIG. 6 is a graph illustrating one potential pricing scheme
in accordance with the present invention.
DETAILED DESCRIPTION OF THE INVENTION
[0023] In describing a preferred embodiment of the invention
illustrated in the drawings, specific terminology will be used for
the sake of clarity. However, the invention is not intended to be
limited to the specific terms so selected, and it is to be
understood that each specific term includes all technical
equivalents which operate in a similar manner to accomplish a
similar purpose.
[0024] With reference to the drawings, in general, and FIGS. 1
through 6 in particular, the apparatus of the present invention is
disclosed.
[0025] FIG. 1 generally illustrates three of the most common types
of digital television service delivery networks with which the
present invention can be suitably used. These include (1) VDSL, (2)
digital cable and (3) digital broadcast satellite (DBS). In a
digital broadcast satellite system, a programming stream comprising
upwards of a hundred channels of television programming is
delivered directly from a geo-stationary satellite transmitter 12
orbiting the earth to a receiving antenna 14 mounted on or near
each subscriber's house and from the antenna via a cable to a
satellite receiving station 15 in the subscriber's house 16. The
satellite receiving station 15 (which is a form of set top box)
selects a channel and demodulates the signal for delivery to a
monitor (e.g., a television, not shown). Most DBS systems are
arranged such that data also can be sent in the upstream direction,
that is, from the set top box 15 to the DBS provider. In most DBS
systems, the set top box also is coupled to the telephone line and
is designed and programmed to place telephone calls to the DBS
service provider to periodically send information in the upstream
direction. Such information commonly may comprise requests for
Pay-Per-View programs, requests for changes in the subscription (a
request that one or more of premium channels be added to the
service, etc.).
[0026] In a typical digital cable network 20, multiple channels of
television information are transmitted from a head end or central
office 22 via a cable network. Particularly, the channels are
transmitted via cables 24 to nodes 26. The nodes are essentially
switching/routing stations which service multiple homes (usually a
few hundred). The nodes 26 route the signals to individual
subscribers 28. The individual subscriber will have set top boxes
27 that select a particular channel from the transmit stream,
demodulate it and forward it for display on one or more monitors or
televisions (not shown). Different data streams can be sent to the
different nodes 26 of the network such that households coupled to
node 26a can receive different programming than households coupled
to node 26b. Thus, such systems are "addressable" by node, but not
by individual subscriber. Upstream information may be sent from the
set top box to the central office via a dedicated upstream channel
over the cable. In cable systems that do not support two-way
communication, the upstream "channel" can be through the telephone
as described above in connection with DBS systems.
[0027] In accordance with a third common type of system, namely,
SDV 30, television programming is transmitted over the regular
telephone network. Particularly, television signals are transmitted
from a central office 31 via wire, typically fiber optic cable 32,
to a universal service access multiplexer (USAM) 34 which then
delivers the data to multiple individual subscriber households 35
via regular telephone twisted wire pair 36 using VDSL modems and
protocols. The USAM 34 receives a wide bandwidth signal comprising
some or all of the television channels. However, because of the
bandwidth limitations of twisted pair wire, typically only about
one channel of television programming at a time can be delivered
from the USAM to the household. Accordingly, the subscriber has a
set top box 38 that is similar in functionality to the set top box
of a digital cable system or DBS system, except that when the user
changes channels such as by operating a remote control, the remote
channel change signal is received by the STB and transmitted to the
USAM 34 which switches the channel for the user and begins sending
the newly selected channel to the household. SDV systems are
essentially fully modern asynchronous two-way communication
networks. Accordingly, the set top box can transmit information
upstream via the same VDSL modem that receives the downstream
signals. SDV systems typically operate using an asynchronous
transfer mode (ATM) protocol which is well-known in the networking
arts. In an alternative embodiment, the signals are transmitted
from the central office 31 to a broadband network unit (BNU) 33.
The BNU 33 delivers the data to individual households 35 using
coaxial cable 37.
[0028] FIG. 2 is a block diagram showing the basic components of a
set top box 200 within which the present invention may be
incorporated, whether it is for DBS, SDV, digital cable or any
other system. The set top box 200 includes an input port 202 for
coupling to the input signal, e.g., a coaxial cable in the case of
analog or digital cable TV, the telephone line in the case of SDV
or an input cable from an antenna in the case of DBS. The
television input signal may be analog or digital. Alternatively,
the signal may be a video stream or multimedia stream such as a
motion picture expert group (MPEG) signal from any communications
network, such as the Internet. The set top box includes a system
control unit 204 which controls operation of the components of the
STB. The system control unit essentially is a central processing
unit (CPU) and may be any digital processing device, such as a
microprocessor, finite state machine (FSM), digital signal
processor (DSP), application specific integrated circuit (ASIC),
general purpose computer, etc. The system control unit 204 receives
commands from the subscriber, such as through infrared (IR)
reception of commands from a handheld remote control unit (not
shown) through an IR receiving circuit 208, decodes the commands
and forwards control signals to other circuits in the set top box
200 in order to carry out the subscriber's commands, such as
changing the channel. The STB further includes a read only memory
(ROM) 210 containing software and fixed data used for operating the
STB, and a random access memory (RAM) 212 for storing changeable
data, such as the queues and advertisements in accordance with the
present invention. Preferably, the STB also includes a separate
internal or external large memory device, such as a hard disk drive
214 or optical disk drive for storing the very large amounts of
data that comprise digital multimedia data, e.g., television
programs and advertisements. The SCU 204, RAM 212, ROM 210 and hard
disk 214 are coupled to a master bus 216 over which the units can
communicate with each other.
[0029] The input signal from input port 202 is passed through a
tuning circuit 218. Under control of the system control unit 204,
the tuning circuit selectively parses out the data corresponding to
the particular channel selected by the viewer. That data is passed
to a demodulator 220 that demodulates the data. A channel
processing circuit 222 takes the demodulated channel data and
processes it as needed. The necessary channel processing may
comprise almost nothing to significant processing of the data
depending on the particular form of the input data and the features
of the STB which would be familiar to persons of skill in the
related arts. Exemplary functions that might be performed in the
channel processing circuitry include decoding an encoded data
stream (e.g., MPEG, Dolby SurroundSound.RTM.) or inserting
advertisements into the data stream in accordance with the present
invention.
[0030] If received data is to be stored locally at the STB, the
channel processing circuit can pass the data to one of the memory
devices 212 or 214 through the system control unit 204.
[0031] The output of the channel processing circuit typically is
coupled to a demultiplexer 224 which separates the audio and video
portions of the channel and forwards them to audio and video output
ports 226 and 228, respectively.
[0032] At least tuner 218 and channel processing circuit 222 are
controlled by the system control unit 204. However, the demodulator
and demultiplexer may also need control.
[0033] Many STBs also can transmit data upstream to the head end.
Such STBs would include a modulator 230 coupled to the system
control unit for modulating data generated in the system control
unit for transmission to the head end as well as an output port 232
for coupling a cable or other link to the head end. It will be
understood by those of skill in the art that the input port 202 and
output port 232 might comprise the same physical port.
[0034] A set top box for an SDV network typically would not include
the tuner 218 since, as indicated above, channel selection is not
processed in the set top box but is merely transmitted to the USAM
for processing.
[0035] It also will be apparent to those of skill in the related
arts that FIG. 2 is a very high level depiction of the most basic
components of an STB and that other forms are possible.
[0036] The invention will now be described in connection with the
particular embodiment in which it is used to insert advertisements
into television programming. However, it should be understood by
persons of skill in the art that the invention can be used to
insert any data into any other data stream. For instance, the
invention can be applied to the Internet, streaming audio data,
etc. It also may be applied to insert advertisements in the
electronic program guides that are frequently provided in one
channel of television programming and which commonly include
advertisements in a portion of the display. The system can also be
utilized for the management of advertisements which are inserted
directly into a portion of the screen during the actual
programming, such as those advertisements which are electronically
placed on the billboards in sports arenas or on the field. Such
advertisement insertion technology is commercially available from
companies such as Princeton Video Image, Inc., of Lawrenceville,
N.J. Preferably, the information stream includes particular time
intervals which are dedicated for insertion of such external data.
However, the invention can be utilized to replace existing data in
the data stream, if desired. In the nomenclature of the
specification, such designated intervals are termed avails.
[0037] In accordance with a preferred embodiment of the invention,
the various television programming channels include open commercial
breaks designated specifically for the insertion of ads by the
television service provider. That is, the normal stream of
information in the channel includes blank intervals so that an
advertisement from a source external to the channel data itself can
be inserted into that interval. The avails also may be created when
a program is recorded on a set top box with memory or a personal
video recorder. In such instances, the consumer may agree to watch
advertising prior to, during, or even after a recorded program is
played back. The present invention can thus be used to manage
advertisements in recorded video streams. The advertisement
insertion can be performed as the programming is being recorded, as
it is played back to the monitor or even between recording and
playback by rearranging the content in memory to add the
advertisements.
[0038] Also in accordance with the invention, there should be some
means by which the set top box can determine the location and
preferably the duration of avails. Several different means for
performing this function are possible. For instance, PCT Patent
Publication No. WO 99/66719, the disclosure of which is
incorporated hereby by reference, discloses several means, such as
detecting the black frames which television programmers typically
provide in the video stream at the beginning of a television
commercial avail. Alternatively, DVS-253 is a digital video
standard for television promulgated by the Society of Cable and
Television Engineers (SCTE) which provides for digital queue tones
within the data stream indicating the start of commercial avails.
In an analog television data stream, an avail indicator can be
embedded within the vertical blanking interval which can be
detected by the set top box. The indicator can include information
indicating the duration of the avail.
[0039] In accordance with a preferred embodiment of the invention,
the CPU in the set top box maintains an advertisement queue in RAM
memory. The queue is a stacked list of advertisement resource
locators (ARLs) such as illustrated in FIG. 3. As illustrated in
FIG. 3, each address locator may have its own address within the
stacked list. FIG. 3, for exemplary purposes, illustrates a first
address resource locator ARL.sub.1 (301), a second address resource
locator ARL.sub.2 (303), a third address resource locator ARL.sub.3
(305), and an nth address resource locator ARL.sub.n (321). At a
minimum, the ARLs indicate the location of a particular
advertisement on the network. Preferably, the ARLs also indicate
other information about the advertisement, such as the duration of
the advertisement.
[0040] The ads that are pointed to by the ARLs preferably are
stored in a memory local to the set top box. The local memory for
storing the advertisement may comprise any high volume memory,
including, but not limited to, RAM, magnetic hard drive and optical
storage media such as optical disks. Alternately, the ads can be
stored on a remote server coupled to the communications
network.
[0041] In accordance with the invention, the set top box (1)
determines whether the box is turned on and, if so, to what
particular channel it is tuned, (2) detects avails in that channel,
and (3) inserts the advertisements identified by the ARLs in the
queue in the order indicated in the queue into the avails as they
arrive.
[0042] Thus, in accordance with the invention, advertisements are
no longer linked to any particular advertisement spot in any
particular program. In accordance with the invention, a virtual
roadblock can be set up whereby the subscriber will receive the
designated ads in the designated order as avails occur in whatever
programming he or she is viewing, regardless of the channel,
program or time of day. In this manner, advertisers can more
specifically reach their target audience while also being given a
much higher level of confidence that their ads have actually been
viewed by the target audience.
[0043] With traditional linked advertising, the advertiser pays to
have an advertisement displayed in a designated time slot in a
designated channel regardless of who or how many viewers are tuned
to the channel at that time. In accordance with the present
invention, the advertisement is not played to any subscriber unless
that subscriber's set top box is turned on. Further, the
advertisement is played in the channel to which the set top box is
tuned, thus virtually guaranteeing that the subscriber actually
sees the advertisement that the advertiser has paid to have
displayed.
[0044] Even further, the television service provider can address
individual STBs or at least groups of STBs depending on the
particular network and instruct them to insert particular ARLs in
their queues. Accordingly, the television service provider can sell
advertising space to advertisers in a much more targeted fashion
than in the prior art.
[0045] The advertisement identifiers are transmitted to the
individual set top boxes for storage in the queues from the central
office of the television service provider in any reasonable manner.
Preferably, the advertisements themselves are also transmitted to
the STBs for storage until they are "played". Several manners are
well known in connection with existing digital cable and VDSL
systems for transmitting data to individual receiving nodes coupled
to the network. For instance, VDSL systems essentially operate on
an asynchronous transfer mode (ATM) protocol with video typically
being carried as MPEG data. In digital cable and DBS systems,
advertisements can be delivered in MPEG transport streams.
[0046] Numerous means are available for delivering ARLs to the set
top boxes for placement in the queue as well as delivering the ads
themselves for storage. Common to all of these architectures are
multiple forward channels (head end transmitting to STBs) and one
return channel (STB transmitting to the head end). One of the
forward channels (hereinafter the advertisement channel) may be
dedicated to delivering the advertisements, meta data about the
advertisements, ARLs, and instructions for the STBs regarding how
the ARLS are to be organized in the queues. The return path/channel
is used for, among other things, communicating to the service
provider what ads are stored at the STB, what ads have been played
and when, what ads are scheduled for play, etc. Such information is
critical for selling and charging the advertisers for playing the
ads. The return path typically would be a low bandwidth channel
since the amount of data transmitted upstream is very limited
relative to the video and audio data which is transmitted in the
downstream channels. Also, as previously noted, the return path
need not be through the same network as the downstream path. For
instance, as discussed above in connection with SDV or DBS, the
return path can be through a modem via POTS (Plain Old Telephone
Service).
[0047] In one exemplary embodiment, a service provider (DBS, cable,
SDV, local multipoint distribution system) allocates and dedicates
one or more channels of the system to be used for delivering
nothing but advertisements and advertisement metadata, including
ARLs. This channel could be a high band width (e.g., 6 MHZ)
channel. This channel would be encoded and transported in the same
manner as any other programming content channel on the system and
would include all advertisements that are intended for display to
any subscriber on the network.
[0048] The STBs could be pre-programmed with advertisement maps
which indicate which types of advertisements they are to download
from the advertisement channel and which they can ignore.
[0049] In one embodiment, each advertisement can have a tag
associated with it (e.g., embedded within it or linked to it). This
tag could be a simple identifier or a complete advertisement vector
describing many characteristics of the advertisement. Such meta
data could be transported with the advertisement or in advance of
the ad.
[0050] Each STB contains in memory a map which tells the STB the
particular advertising group or groups to which it belongs, the
group or groups, of course depending on the demographic,
psychographic or other information available to the cable service
provider about the owner of the STB.
[0051] This tag or vector can be detected by the STB to determine
whether or not to store the advertisement and when and how to
display the advertisement. Such determination can be accomplished
in a number of ways depending on the application. If the tag is a
simple identifier (of the advertisement or the advertisement group
to which it belongs) and is sent with the ad, the STB could examine
the tag on the fly as the advertisement is received and either save
it or ignore it based upon the instructions/rules preprogrammed
into the STBs advertisement map.
[0052] The tags would indicate for which one (or more) of a
plurality of advertising groups the advertisement is intended. The
STBs pick out and store those ads that have a matching advertising
group in the tag to the advertising group or groups in the STBs
advertising group map.
[0053] The advertisement maps can be preprogrammed into the STB
before it is delivered to the subscriber. However, more preferably,
the maps are sent to the STBs via the network on a periodic basis,
such as is done via a carousel mechanism. In one embodiment, each
advertisement is assigned a unique identifier. Each advertisement
also is assigned to one or more target groups (i.e., subscribers)
for which it may be appropriate. The television service provider
constructs a map which indicates, for each unique advertisement
identifier, the target groups for which that advertisement is
intended. The entire map can be sent to each STB so that each STB
can utilize the map to identify and pick out the appropriate ads.
Alternately, individual tables for each individual advertising
group can be generated at the central office and sent to the
appropriate STBs. In either case, the STB processor having the
table examines each advertisement identifier and compares it to its
table. If the advertisement identifier matches one contained in its
table, the STB would pick out that advertisement and save it.
Otherwise, it would ignore the ad.
[0054] In another embodiment, the ads delivered on the
advertisement channel(s) could be time-division or channel-division
multiplexed by advertising group. In time division multiplexing,
advertisements corresponding to advertising groups are temporally
grouped together when transmitted. The STBs could be instructed to
download all advertisements sent on the advertisement channel
during particular time periods, those time periods corresponding to
the advertising group or groups to which it belongs. In channel
division multiplexing, each advertising group is assigned a
different advertising channel. The STBs are instructed to download
all advertisements sent on the particular advertisement channel(s)
to which it corresponds.
[0055] In a system such as SDV which operates on an ATM protocol,
because the ATM switching occurs at the central office, the central
office is able to direct different advertisement channels to one or
more of its subscribers' STBs on different VPI/VCIs. In this type
of embodiment, one or more advertisement channels corresponding to
one or more specific subscribers could be created and sent to the
appropriate subscriber(s). Each STB would be instructed to tune to
a particular advertisement channel (VPI/VCIs) in order to receive
and store all the ads on that particular channel. This type of
embodiment is advantageous in that the STBs would not need to
filter the ads since each advertisement received on the channel
would be appropriate for that STB. In such a system, the central
office would typically have its own advertisement server for
generating the advertisement channel.
[0056] In the case of analog video, the advertisements could be
transmitted just as analog video is transmitted over the network
and subsequently digitized at the reception point.
[0057] Ads can be delivered to the STBs via low, medium or high
width channels and in any of a variety of formats such a streaming
media, MPEG2, MPEG4, and in various protocols (ATM, IP).
[0058] In a simplest embodiment of the invention, the
advertisements are inserted in the avails in the channel to which
the STB is tuned in the memory address order in which they are
listed in the queue. In a more practical embodiment, the ads are
displayed in the avails in accordance with an algorithm that takes
into account both the order of the ads in the queue and the
duration of the avail relative to the duration of the ads
identified in the queue such that the duration of the
advertisement(s) inserted into the avail match the duration of the
avail.
[0059] In accordance with a more preferred embodiment of the
invention, the set top box maintains multiple queues and executes a
viewer determination algorithm for selecting from which queue ARLs
will be retrieved based on predetermined criteria. For instance, a
different queue may be maintained for each potential television
viewer at the subscriber location (e.g., mother, father, child).
The algorithm for determining from which queue to retrieve ads
could be based on many factors including, the nature of the program
to which the set top box is tuned, the time of day, recent channel
change or volume control history which might be indicative of the
particular viewer. For instance, PCT Publication No. WO 033233A1,
entitled "Subscriber Identification System" and assigned to the
same assignee as the present invention (corresponding to U.S.
patent application Ser. No. 09/452,893, filed on Dec. 2, 1999), the
disclosure of which is incorporated herein by reference, discloses
a method and apparatus in accordance with this feature for
determining the probable identity or at least characteristics of
the particular viewer in a subscriber household that is viewing the
television.
[0060] It will be understood by those of skill in the art that
maintaining separate queues is merely an exemplary embodiment and
that the invention can be adapted such that there is only one
queue, but the ARLs include an additional field that signifies
which viewer or type of viewer the advertisement is intended for
and that is utilized by the viewer determination algorithm in
determining which advertisement will be inserted in a particular
avail. It also should be understood by those of skill in the art
that the term order is not intended to correspond necessarily to
the numerical address order of the ARLs in the queue, but
encompasses any ordering algorithm that may be used to retrieve
ARLs from the queue. For instance, one ordering scheme that would
be particularly useful in households with multiple potential
viewers of different demographic characteristics is to assign tags
within the ARLs that indicate their order. These tags may be
rewritten as the viewer prediction changes (such as by changes in
time of day or program being watched).
[0061] In accordance with alternative embodiments of the invention,
the queue itself need not be stored at the set top box but can be
stored at a separate server on the network which communicates with
the set top box via the network.
[0062] Several methods and apparatus are presently available for
recording television programming for viewing at a time other than
the time it was originally transmitted. At present, the most common
apparatus for doing so is a video cassette recorder. However, other
apparatus and methods in which the programming is recorded
digitally are becoming more common. Some presently available
digital recording systems and services, for instance, are sold
under the brand names TiVo.RTM. and Replay TV.RTM..
[0063] The present invention can readily be applied to recorded
programming as long as the recorded program is played back through
the STB so that the advertisement insertion module may insert the
advertisement.
[0064] In fact, the invention can be applied to any information
stream regardless of source as long as the information stream
passes through the advertisement insertion module. Thus, for
instance, the invention is equally applicable to analog cable,
regular earth-based broadcast television, the Internet, a read-out
from any type of memory device, including compact disks, digital
video disks, other optical media, magnetic disks, ROM, RAM,
etc.
[0065] In a preferred embodiment of the invention, the set top box
transmits back to the head end or central office information
concerning the ads that have been played at that subscriber
location. In this manner, the television service provider can then
bill the advertiser based on ads that were played.
[0066] It should be apparent to those of skill in the art, that the
number of particular embodiments of the invention is practically
limitless. Technologies for inserting data such as advertisements
into other data streams are well known. In accordance with the
invention, ads stored in digital format could be readily inserted
into digital video streams as well as analog video streams.
Further, as previously noted, the invention is not limited to
insertion of ads but can apply to any form of data and also is not
limited to television but can be used to insert any information
into any data stream.
[0067] FIG. 4 is a functional block diagram illustrating
queue-based advertisement scheduling and advertisement insertion
according to one embodiment of the present invention. In this
example, the received programming stream 401 is in the form of a
DVB transport stream, i.e. a multiple program transport stream
(MPTS). In the tuner function 402, the channel selected by the
subscriber is extracted and demodulated from the MPTS. This channel
carries digital queue tones which are detected by a detection
module 410. The advertisement to be inserted in the next detected
avail has already been queued up (e.g., from the scheduler 412
using the avail data and prioritization or other scheduling
algorithm. The advertisement insertion module 404 inserts or
splices the queued advertisement according to the queue tone
timing. The resulting program stream 405 with the substituted
advertisement is decoded by decode module 406 and sent to the
television 408 or other display device.
[0068] The queue based insertion can be combined with a
time/program based set of rules in which case the ad to be
presented is determined in part by the time-of-day program being
watched or a combination thereof.
[0069] In one embodiment, the time-based aspect is addressed by
having time dependent queues. As an example, there can be a morning
queue, a mid-day queue, an evening (prime-time) queue, and a late
night queue. For instance, if it is expected that children are the
most likely demographic segment to watch television in the morning,
the "morning queue" is designed for children. Similarly, the late
night queue may be designed for adults. Having a time dependent
queue allows direction of the advertisement at the particular
individual that might be watching.
[0070] It also is possible to use a system such as described in
aforementioned PCT Publication No. WO033233A1 to determine who is
watching the television and organize the queue based at least
partially on that criterion. Other methods include the use of
personal identification Nos. (PINs) to determine who is viewing the
television, or monitoring interaction with an Electronic Program
Guide (EPG). By characterizing the household, it is possible to
establish the most appropriate queues for each time of day.
[0071] Program based rules also may be used in conjunction with the
queues to provide a combination of "linked" advertising and
advertising in accordance with the concepts of the present
invention. Using such a combination, the order of the ARLs may be
varied depending upon the program being watched. This allows a
particular advertiser to link to a certain program. In one
embodiment, the ARL is moved to the top of the queue when a
particular program is being watched. In an alternate embodiment,
program dependent queues can be created, such that there is a queue
for a program like "ER" and a different one for "Survivor".
[0072] The scheduler 412 is the ARL retrieval circuit which
receives the ARLs and instructions for their organization in the
queue and then organizes the queue (not separately shown in FIG. 4)
in accordance with the received ARLs and instructions. In this
exemplary embodiment, the scheduler retrieves the ARLs from a
dedicated control channel 415 in the media stream 401. However, as
previously noted, this is just one of many possible transport
streams for the ARLs and/or instructions. The scheduler also
provides a schedule and notifies the advertisement insertion module
404 of the schedule.
[0073] When the queue tone is detected by detection module 410, the
advertisement insertion module 404 requests the appropriate
advertisement from the advertisement storage unit 414 which then
sends the advertisement to the insertion module 404. The
advertisement insertion module then inserts the advertisement with
the proper timing.
[0074] In this exemplary embodiment, the advertisements that are
stored into the advertisement storage unit 404 are received over a
dedicated advertisement channel in the media stream. For instance,
the scheduler 412 may include circuitry for picking out the
appropriate advertisements for the particular STB from a continuous
stream of advertisements as previously described and writing them
to the advertisement storage unit 414.
[0075] The watchdog module 420 notifies the scheduler 412 of any
changes that may require a queue update or switching among multiple
queues as previously described. For instance, a profiler module 422
can process information such as data as to the program being
watched and remote control operation such a volume control and
channel change control to attempt to determine which particular
viewer in a subscriber household is viewing the television in order
to choose among the various queues as previously described.
[0076] The advertisement insertion module 404 generates and stores
an advertisement insertion log 416 of all insertion events. This is
essentially the schedule of the ads inserted and whether or not
they were inserted successfully and/or displayed. The insertion
logs will eventually be sent upstream to the central office to be
used for billing advertisers based on the ads that have been played
at each subscriber's location.
[0077] Since FIG. 4 is functional block diagram, the blocks in FIG.
4 do not necessarily correspond to separate hardware components,
such as illustrated in FIG. 2. For exemplary purposes, however,
blocks 412, and 416 represent portions of memory and might
correspond to any one of more of the memories 210, 212, 214 shown
in FIG. 2. Functional blocks 404, 406, 410, 412, 420, and 422
represent processing steps and might correspond to the system
control unit 204 and the channel processing circuit 222 shown in
FIG. 2. As processing steps, these blocks may correspond to
software executed by any form of digital processor in the system
control unit. However, any one or more of these functions could be
performed by dedicated hardware (e.g., an analog circuit) within
the system control unit or separate therefrom. It should be
understood that the term circuit as used in this specification is
intended to be all-inclusive and to encompass analog circuits and
digital circuits, including finite state machines, digital signal
processors, computers, central processing units, ASICs, and
programmed general purpose processors. Functional block 402
correspond to one or more of tuner block 218, demodulator block 220
and demultiplexer block 224 in FIG. 2.
[0078] Advertisement avails can be sold to the advertisers in a
number of ways. For instance, in a first scheme illustrated in FIG.
5A termed repetition-based sales, the advertiser, e.g., FORD, pays
according to the frequency at which an advertisement is displayed.
For example, if an advertiser desires that its advertisement be
played every fifth avail (or alternately, every fifth advertisement
since avails do not necessarily have a one-to-one correspondence to
advertisements), the ARL for that advertisement would be placed in
the queue every fifth slot. FIG. 5A illustrates, for exemplary
purposes, a FORD advertisement located at a first address resource
locator (ARL.sub.1), at a sixth address resource locator
(ARL.sub.6) and at an eleventh address resource locator
(ARL.sub.11). It is not necessary that every fifth advertisement be
the same advertisement. For instance, as shown in FIG. 5B, the
advertiser may have a serial advertisement campaign and thus every
fifth advertisement can be the next advertisement in the series. In
FIG. 5B, different FORD advertisements are used, for example,
FORD.sub.1, FORD.sub.2, FORD.sub.3.
[0079] Pricing for repetition-based advertisement sales may be
arranged such that the more closely spaced the ads are, the higher
the price for placing the advertisements. The pricing need not be
linear. FIG. 6 is a graph illustrating one potential pricing scheme
following such a paradigm. In FIG. 6, for exemplary purposes, the
repetition rate is shown on the X axis and the cost of advertising
is shown on the Y axis. The cost of advertising is shown to be
directly proportional to the repetition rate, i.e., the higher the
repetition, the higher the cost of advertising. Further, there is
no requirement that the advertisements be spaced evenly. For
instance, they may be more closely spaced near the beginning of the
advertisement campaign and then reduced in frequency later, herein
termed non-linear repetition rate. Also, as already noted,
advertisements can be inserted based on entirely other criteria.
For instance, it is still possible to set up some or all of the
advertisements to be displayed at a particular time of day (as long
as the set top box is turned on and tuned to a programming
channel).
[0080] Another alternative method for sales of advertisement
opportunities is herein termed time-based priority queuing. In
time-based priority queuing, an advertiser may require that an
advertisement be shown at a particular time or within a particular
time interval (e.g., prime time).
[0081] Having thus described a few particular embodiments of the
invention, various alterations, modifications, and improvements
will readily occur to those skilled in the art. Such alterations,
modifications and improvements as are made obvious by this
disclosure are intended to be part of this description though not
expressly stated herein, and are intended to be within the spirit
and scope of the invention. Accordingly, the foregoing description
is by way of example only, and not limiting. The invention is
limited only as defined in the following claims and equivalents
thereto.
* * * * *