IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
US-0374410
(2003-02-26)
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발명자
/ 주소 |
- Fitzpatrick, Kerien W.
- Coulter, R. Craig
- Pangels, Henning M.
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인용정보 |
피인용 횟수 :
42 인용 특허 :
7 |
초록
▼
A real-time buffer manager system that calculates optimal food buffer levels, for both completed products and product components, based on real-time counts of restaurant patrons throughout a restaurant's property and the estimated time for them to arrive at a food ordering station. The real-time buf
A real-time buffer manager system that calculates optimal food buffer levels, for both completed products and product components, based on real-time counts of restaurant patrons throughout a restaurant's property and the estimated time for them to arrive at a food ordering station. The real-time buffer manager employs a computer vision system, running a series of 2D image processing techniques that detect and track vehicles and people in several camera views. Patron counts are fed from the computer vision system into a queuing model that estimates when each patron will arrive at an ordering station. Thus, instead of analyzing historical sales data, the buffer manager according to the present invention electronically performs direct measurement of probable future demand, and electronically predicts, in real-time, what the future food product demand will be in a predetermined time (e.g., 3-5 minutes) immediately following the direct measurement of the demand.
대표청구항
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1. A method of managing food production and delivery in real time comprising:electronically predicting, based on real time data, an amount of food to be ordered at a food outlet in a specified time interval immediately succeeding a generation of said real time data; preparing said amount of food pre
1. A method of managing food production and delivery in real time comprising:electronically predicting, based on real time data, an amount of food to be ordered at a food outlet in a specified time interval immediately succeeding a generation of said real time data; preparing said amount of food predicted to be ordered; serving prepared food to patrons of said food outlet; and electronically performing at least one of the following in real time: estimating impending food product demand in view of said prediction of said amount of food to be ordered; and estimating demand for each completed food product available for consumption. 2. A real time food buffer management system comprising:means for electronically generating real time data about food consumers inside or in the vicinity of a food outlet; and means for electronically predicting, based on said real time data, an amount of food to be ordered by said food consumers in a predetermined time interval immediately following said generation of said real time data. 3. A system for managing food supply in real time comprising:a plurality of sensors placed inside and in the vicinity of a food outlet, wherein said plurality of sensors electronically tracks objects present inside and in the vicinity of a food outlet to generate electrical signals containing information about presence of food consumers inside and in the vicinity of said food outlet; and a computer containing a program code, which, upon execution by a processor in said computer, causes said processor to perform the following in real time: analyze said electrical signals to generate digital data about said food consumers, and predict, based on said digital data, an amount of food to be ordered by said food consumers in a predetermined time interval immediately following generation of said digital data. 4. A computer-readable data storage medium containing a program code, which,upon execution by a processor, causes said processor to perform the following in real time: generate data about food consumers inside or in the vicinity of a food outlet; and predict, based on said data, an amount of food to be ordered by said food consumers in a predetermined time interval immediately following said generation of said data. 5. The data storage medium of claim 4, wherein said program code, upon execution, causes said process to further perform at least one of the following in real time:estimate impending food product demand in view of said prediction of said amount of food to be ordered; and estimate demand for each completed food product available for consumption. 6. A method of managing food supply in real time comprising:electronically generating real time data about food consumers inside or in the vicinity of a food outlet; and electronically predicting, based on said real time data, an amount of food to be ordered by said food consumers in a predetermined time interval immediately following said generation of said real time data. 7. The method of claim 6, wherein electronically generating real time data includes electronically tracking objects present inside or in the vicinity of said food outlet to identify presence of said food consumers and to count a number of said food consumers present inside or in the vicinity of said food outlet.8. The method of claim 6, wherein electronically predicting said amount of food to be ordered includes electronically performing the following in real time:selecting one or more queuing models from a plurality of queuing models; inputting relevant portions of said real time data into respective one or more queuing models selected; and simulating each of said one or more queuing models after inputting said relevant portions of said real time data thereinto. 9. The method of claim 8, where said plurality of queuing models includes a zero queue model; a single queue model; a single queue, multiple station model; and a multi queue model.10. The method of claim 6, further comprising electronically performing at least one of the following in real time:estimating impending food product demand in view of said prediction of said amount of food to be ordered by said food consumers; and estimating demand for each completed food product available for consumption. 11. The method of claim 10, wherein estimating impending food product demand includes electronically performing at least one of the following:estimating a desired nominal component buffer level, wherein said component buffer level includes a plurality of bins of food product components; estimating remaining time for each of said plurality of bins before each said bin runs out of corresponding food product components; and estimating time required to fill one of said plurality of bins with corresponding food product components when said bin becomes empty. 12. The method of claim 10, wherein estimating impending food product demand includes displaying estimated food product demand on a display terminal.13. The method of claim 10, wherein estimating demand for each completed food product includes estimating said demand for each said completed food product using a food production data input received from an employee of said food outlet.14. The method of claim 6, wherein electronically generating said real time data includes at least one of the following:placing a first plurality of sensors inside said food outlet to generate, in real time, a first information about potential food consumers inside said food outlet; placing a second plurality of sensors around said food outlet to generate, in real time, a second information about human and automobile traffic flow external to said food outlet and in the vicinity thereof; and electronically analyzing said first and said second information in real time to generate said data about said food consumers. 15. The method of claim 14, wherein said first information includes indications of one or more of the following:whether said potential food consumers are present inside said food outlet; a total number of said potential food consumers inside said food outlet; a direction of motion of one or more of said potential food consumers; whether one or more of said potential food consumers are placing food orders; a food ordering pattern of each of said potential food consumers that is placing a food order; and how long it takes for an employee of said food outlet to receive said food order. 16. The method of claim 14, wherein said second information includes indications of one or more of the following:direction of movement of said human and said automobile traffic flow including: whether one or more humans in said human traffic are entering or exiting the property of said food outlet, and whether one or more vehicles in said automobile traffic are entering or exiting the property of said food outlet; a total number of human food consumers entering and exiting said food outlet; a total number of vehicles constituting said automobile traffic; whether said human and automobile traffic is present on the property of said food outlet; whether one or more vehicles in said automobile traffic are entering or exiting a drive-thru food order lane on the property of said food outlet; and a total number of vehicles entering or exiting said drive-thru lane. 17. The method of claim 14, wherein said real time data includes one or more of the following:a first amount of time that it takes, on average, for one of said potential food consumers to wait prior to placing a food order; a first number of potential food consumers inside said food outlet; a second number of vehicles on the property of said food outlet; a third number of automobiles in a drive-thru food order lane on the property of said food outlet; a second amount of time that it takes, on average, for an automobile to remain in said drive-thru lane prior to arriving at a drive-thru ordering window; a third information about a corresponding ordering pattern of each food consumer present inside said food outlet or in said drive-thru lane; for each food consumer entering said food outlet, a corresponding fourth amount of time that it takes for each said human food consumer to walk to a food order panel inside said food outlet after entering the property of said food outlet; and for each food order received, a corresponding fifth amount of time that it takes for an employee of said food outlet to receive each said food order. 18. The method of claim 14, wherein electronically analyzing said first and said second information includes electronically performing at least one of the following in real time:processing said second information to identify and count vehicles constituting said automobile traffic external to and in the vicinity of said food outlet; further processing said second information to identify and count vehicles present in a drive-thru food order lane on the property of said food outlet; and processing said first and said second information to identify and count humans inside and in the vicinity of said food outlet. 19. The method of claim 14, wherein at least one of said first and said second plurality of sensors is one of an electrical sensor; a mechanical sensor; and a chemical sensor.20. The method of claim 19, wherein said electrical sensor is one of a magnetic loop sensor; a laser beam switch; and a camera.21. The method of claim 19, wherein said mechanical sensor is one of a piezo-electric switch; and a pneumatic pressure switch.22. The method of claim 19, wherein said chemical sensor is a device that measures changes in CO (carbon monoxide) emissions.
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