Patent Application
20100205640
The invention relates to an advertising method and system. More particularly, the invention relates to a method and system for conveying messages to consumers in automobiles in a predetermined order.
In order for businesses to convey messages to consumers while in their automobiles, static advertising is strategically displayed on billboards and signs along roadways and outside of business establishments. For example, as a consumer is waiting in a line outside of a “fast-food” restaurant, the consumer may be subjected to stationary or “poster-like” advertisement that may not effectively capture the consumer's interest in the advertising. As a result, businesses do not adequately seize the opportunity to convey messages to the consumer while the consumer is traveling in an automobile along the path of a commercial enterprise's or businesses drive-thru service.
Businesses have previously failed to effectively capture the consumer's attention while the consumer is outside of the business establishment. Moreover, these businesses have also failed to provide a system to detect the presence of a consumer's automobile as it passes along the path of the business's drive-thru service such that the messages may be synchronized to change appropriately as the consumer proceeds along the path of the business's dive-thru service.
For the foregoing reasons, there is a need for a method that utilizes television monitors or displays to attract consumer's attention and dynamically convey the desired messages to the consumer while the consumer is in line at the drive-thru service. In addition, there is a need for a system that can compute the position of the consumer's automobile as it passes along the path of the drive-thru and rely the movement information to a processing unit in order to synchronize the movement of the automobile with the messages conveyed on the monitors.
One embodiment of the present invention relates to an advertising method that satisfies the needs of businesses to effectively convey messages while consumers move along the path of a drive-thru type service. The method enables adjusting the messages as the consumer's automobile is detected and moves along the path of the drive-thru.
Another embodiment relates to an advertising method having a series of television monitors or displays placed along the path of the drive-thru outside or proximate a business establishment. The monitors' messages are synchronized with the movement of the consumer's automobile as detected by a motion sensor system. The motion sensor system allows for new messages or updated information to be displayed as the consumer proceeds along the path of the drive thru to is final destination.
Yet another embodiment relates to a method for conveying audio/video information, the method comprising detecting a presence of at least one automobile including at least one consumer and communicating the presence of the at least one automobile to an information system. The information system comprises a number of display devices, where DN equals the number of display devices, and a processing unit. The display devices are positioned such that only one image provided by the display devices may be viewed from the at least one automobile at one time. The processing unit contains a library of audio/video portions, each audio/video portion having a total run time and divisible into segments, each segment has a segment run time, where VN equals the number of segments, VTL equals the audio/video portion total run time, VSL equals the segment run time, such that VN≦DN. The processing unit estimates a total viewing time to provide the audio/video information, based at least on the detected presence, where TV equals the total viewing time; selects at least one audio/video portion from the library of audio/video portions based at least on the estimated total viewing time such that VTL≈TV; and communicates the at least one selected audio/video portion to the display devices, where the display devices displays the audio/video information using at least the communicated audio/video portion.
Still another embodiment relates to a system for conveying information, the system comprising at least one motion sensor, a number of display devices and at least one processing unit. The at least one sensor is located proximate a roadway and adapted to detect a presence of at least one automobile. The number of display devices, where DN equals the number of display devices, are positioned such that only one image provided by the display devices may be viewed from the at least one automobile at one time. The at least one processing unit includes an algorithm, where the processing unit communicates with the at least one sensor and DN display devices, and contains a library of audio/video portions, each audio/video portion having a total run time, where each audio/video portion is divisible into segments, each segment have a segment run time, where VN equals the number of segments, VTL equals the audio/video portion total run time, VSL equals the segment run time, such that VN≦DN. The processing unit estimates a total viewing time to provide the audio/video information, based at least in part on the detected presence, where TV equals the total viewing time; selects at least one audio/video portion from the library of audio/video portions, based at least in part on the estimated total viewing time, such that VTL≈TV; and communicates the audio/video portion to the display devices, the display devices display the audio/video information using at least the communicated audio/video portion.
A still further embodiment relates to a computer-readable medium operable on a processing unit and containing one or more computer-executable instructions for conveying audio/video information. The computer-executable instructions are collectively configured to receive a signal from a sensor indicating a presence of at least one automobile and store a library of audio/video portions. Each audio/video portion has an audio/video total run time and is divisible into segments, each segment have a segment run time, where DN equals the number of display devices configured to display the audio/video information, VN equals the number of segments, VTL equals the audio/video portion total run time, VSL equals the segment run time, such that VN≦DN. The instructions estimate a total viewing time to provide the audio/video information based at least in part on the detected presence, where TV equals the total viewing time; select at least one audio/video portion from the library of audio/video portions based at lest in part on the estimated total viewing time, such that VTL≈TV; and communicate the selected audio/video portion to the display devices and displaying the audio/video information using at least the communicated audio/video information.
Other embodiments comprises one or more sensors located proximate a roadway and a drive-thru service of a commercial enterprise and adapted to detect the presence of the at least one automobile. Further, the one or more sensors can detect at least one piece of information related to the at least one automobile for later use.
Embodiments are contemplated in which each audio/video portion has the same or different audio/video total run times. Further, each segment of the audio/video portion may have substantially the same segment run time, such that VTL÷DN=VSL or a different segment run time VSL.
In another embodiment, estimating the total viewing time TV comprises predicting or estimating a total time for the at least one automobile to complete a drive-thru service, a time to take an order and a time to fill an order, where TPT equals the total time to complete the drive-thru service, TO equals the time to take an order and TF equals the time to fill an order, such that TPT−TO−TF=TV.
In one or more embodiments, the selected video portions are communicated to the display devices in a predetermined order, where only one of the DN segments is communicated to each one of the display devices; one of the DN segments and additional information is communicated to at least one of the display devices or more than one of the DN segments is communicated to one of the display devices.
The foregoing and other features and advantages of the invention will become further apparent from the following detailed description of the presently preferred embodiment, read in conjunction with the accompanying drawings. The drawings are not to scale. The detailed description and drawings are merely illustrative of the invention rather than limiting, the scope of the invention being defined by the appended claims and equivalents thereof.
Throughout the various figures, like reference numbers refer to like elements.
Referring to
In this embodiment, automobile 22 is detected by one or more sensors 24 (a motion sensor for example) which communicates with processing unit 26, which may include an algorithm/computer readable medium having instructions. Further, system 10 includes DN display devices or monitors 28. In
As illustrated, system 10 communicates audio/video information to at least one automobile containing at least one consumer. System 10 comprises a number of display devices 28, where DN equals the number of display devices and at least one processing unit 26 including an algorithm, where the processing unit 26 communicates with the at least one sensor 24 and DN display devices 28. In at least one embodiment, DN is an integer greater than on (DN>1) and only one image provided by the plurality of display devices 28 may be viewed from the automobile at one time, although other arrangements, such as enabling two or more displays to be viewed simultaneously is contemplated.
The processing unit 26 contains a library of audio/video portions where each audio/video portion is divisible into segments, where VN equals the number of segments such that:
VN≦DN Equation 1:
Each audio/video portion has a total run time and each segment has a segment run time, where VTL equals the audio/video portion total run time and VSL equals the segment run time, such that:
V
TL
÷D
n
=V
SL. Equation 2:
Embodiments are contemplated in which each audio/video portion has the same or different audio/video total run times. Further, each segment of the audio/video portion may have a different segment run time VSL or have substantially the same segment run time.
The processing unit 26 determines or estimates a total viewing time to provide the audio/video information based on a time estimate related to the at least one automobile, where TV equals the total viewing time. The processing unit selects one audio/video portion having DN separate segments from the library of audio/video portions such that:
VTL≈TV; Equation 3:
Where VTL is the audio/video portion total run time of the selected audio/video portion.
The processing unit then communicates the DN segments to the display devices, thereby conveying the audio/video information to the at least one consumer, such that the audio/video information is displayed.
In at least one embodiment, the processing unit 26 of system 10 determines a total viewing time TV by predicting a total time for the at least one automobile to complete a drive-thru service, a time to take an order and a time to fill an order, where TPT equals the total time to complete the drive-thru service, TO equals the time to take an order and TF equals the time to fill an order, such that:
T
PT
−T
O
−T
F
=T
V. Equation 4:
Further, system 10 communicates the selected audio/video portion to the display devices 28 in a predetermined order. In at least one embodiment, the system 10 communicates the selected audio/video portion to display devices 28 in a predetermined order such that only one of the DN segments is communicated to each one of the display devices 28. Additionally, the system 10 may adjust the messages as the consumer's automobile is detected and moves along the path of the drive-thru by communicating one of the DN segments and additional information (sale items, upcoming provisions, previously purchased items, other menu items, other audio/video information not previously provided, advertisements from local or related commercial enterprises, etc) to at least one of the display devices 28, communicating more than one of the DN segments or even communicating different or additional audio/video information.
In at least one embodiment, system 10 communicates with a central processing system (not shown). More specifically, the processing unit 26 communicates with a remote main frame or central processing unit through the Internet or other communication network (satellite network or dedicated line for example), uploading collected or sensed information and downloading new or additional audio/video portions. Additionally, the processing unit 26 may provide device status information to the remote main frame or central processing unit, thereby prompting a service call to fix any breaks.
In at least one embodiment, the information processing system comprises a number of display devices, where DN equals the number of display devices; and a processing unit containing a library of audio/video portions, each audio/video portion divisible into segments, such that:
VN≦DN. Equation 1:
Each segment of the audio/video portion may have a different segment run time VSL or have substantially the same segment run time, where VTL equals the audio/video portion total run time and VSL equals the segment run time, such that:
V
TL÷Dn=VSL. Equation 2:
Embodiments are contemplated in which each audio/video portion has the same audio/video total run times.
Method 100 further comprises estimating a total viewing time to provide the audio/video information based on a time estimate related to the at least one automobile, block 114, where TV equals the total viewing time. More particularly, estimating the total viewing time TV comprises predicting a total time for the at least one automobile to complete a drive-thru service, a time to take an order and a time to fill an order, where TPT equals the total time to complete the drive-thru service, TO equals the time to take an order and TF equals the time to fill an order, such that:
T
PT
−T
O
−T
F
=T
V. Equation 4:
Method 100 additional comprises selecting one audio/video portions in DN separate segments from the library of audio/video portions such that:
VTL≈TV, Equation 3:
where VTL is the audio/video portion total run time of the selected audio/video portion.
Method 100 additionally comprises communicating the selected audio/video segments to the display devices, block 120, thereby conveying the audio/video information to the at least one consumer. In at least one embodiment, the selected audio/video portions are communicated to the display devices in a predetermined order such that only one of the DN segments is communicated to each one of the display devices, one of the DN segments and additional information is communicated to at least one of the display devices or the selected audio/video portions are communicated to the display devices in a predetermined order such that more than one of the DN segments is communicated to one of the display devices.
Other embodiments of method 100 comprise detecting the presence of the at least one automobile using one or more motion sensors communicating with the information system, where the at least one sensor and the display devices are located proximate a drive-thru service of a commercial enterprise. Additionally, at least one piece of information related to the at least one automobile is stored.
Yet another embodiment relates to a computer-readable medium containing one or more computer-executable instructions for conveying audio/video information, the computer-executable instructions collectively configured to receive a signal from a sensor indicating a presence of at least one automobile including at least one consumer and store a library of audio/video portions. In at least one embodiment, each audio/video portion has an audio/video total run time, where each audio/video portion is divisible into segments, each segment have a segment run time, where DN equals the number of display devices configured to display the audio/video information, VN equals the number of segments, VTL equals the audio/video portion total run time, VSL equals the segment run time, such that:
VN≦DN. Equation 1:
Embodiments are contemplated in which each audio/video portion has the same or different audio/video total run times Further, each segment of the audio/video portion may have a different segment run time VSL or have substantially the same segment run time, such that:
V
TL
÷D
n
=V
SL. Equation 2:
The computer-readable medium determines a total viewing time to provide the audio/video information based on a time estimate related to the at least one automobile, where TV equals the total viewing time; selecting one audio/video portion parsed into DN separate segments from the library of audio/video portions such:
VTL≈TV, Equation 3:
where VTL is the audio/video portion total run time of the selected audio/video portion.
The computer-readable medium communicates the DN segments to the display devices thereby conveying the audio/video information to the at least one consumer.
In at least one embodiment, the computer-readable medium determines a total viewing time TV by predicting a total time for the at least one automobile to complete a drive-thru service, a time to take an order and a time to fill an order, where TPT equals the total time to complete the drive-thru service, TO equals the time to take an order and TF equals the time to fill an order, such that:
T
PT
−T
O
−T
F
=T
V. Equation 3:
Further, the selected audio/video portions are communicated to the display devices in a predetermined order such that only one of the DN segments is communicated to each one of the display devices; or communicated to the display devices in a predetermined order such that one of the DN segments and additional information is communicated to at least one of the display devices.
While the embodiments of the invention disclosed herein are presently considered to be preferred, various changes and modifications can be made without departing from the spirit and scope of the invention. The scope of the invention is indicated in the appended claims, and all changes that come within the meaning and range of equivalents are intended to be embraced therein.
