Product delivery methods and systems utilizing portable unmanned delivery aircraft
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64D-001/22
B64D-047/08
G06K-009/00
B64F-001/20
G01S-019/13
G06Q-010/08
B64C-039/02
G05D-001/00
B66C-023/18
출원번호
US-0346030
(2016-11-08)
등록번호
US-9896207
(2018-02-20)
발명자
/ 주소
Natarajan, Chandrashekar
High, Donald R.
출원인 / 주소
Wal-Mart Stores, Inc.
대리인 / 주소
Fitch, Even, Tabin & Flannery LLP
인용정보
피인용 횟수 :
0인용 특허 :
6
초록▼
In some embodiments, provide systems, apparatuses and methods to deliver products using unmanned delivery aircraft. In some embodiments, product delivery system is provided, comprising: an unmanned delivery aircraft configured to deliver a package to a package drop point corresponding to a location
In some embodiments, provide systems, apparatuses and methods to deliver products using unmanned delivery aircraft. In some embodiments, product delivery system is provided, comprising: an unmanned delivery aircraft configured to deliver a package to a package drop point corresponding to a location of a vehicle at a predefined drive-through station, wherein the delivery aircraft comprises: one or more cameras; an image processor configured to process images captured by the one or more cameras and based on the processing of the images confirm a precise location of the package drop point as defined according to a determined current location and an orientation of the vehicle; and a crane system that supports the first package and lowers the first package to the package drop point relative to the current location and orientation of the vehicle while the delivery aircraft hovers above the vehicle by a threshold distance.
대표청구항▼
1. A product delivery system, comprising: an unmanned delivery aircraft configured to carry at least a first package to be delivered to a package drop point corresponding to a location of a vehicle at a predefined drive-through station associated with a shopping facility, wherein the delivery aircra
1. A product delivery system, comprising: an unmanned delivery aircraft configured to carry at least a first package to be delivered to a package drop point corresponding to a location of a vehicle at a predefined drive-through station associated with a shopping facility, wherein the delivery aircraft comprises: one or more cameras positioned to capture images of at least the drive-through station and the vehicle waiting at the drive-through station when the unmanned delivery aircraft is above the drive-through station;an image processor configured to process images captured by the one or more cameras and based on the processing of the images confirm a precise location of the package drop point as defined according to a determined current location and an orientation of the vehicle; anda crane system that supports the first package and lowers the first package to the package drop point relative to the current location and orientation of the vehicle while the delivery aircraft hovers above the vehicle by a threshold distance. 2. The product delivery system of claim 1, wherein the image processor in confirming the precise location of the package drop point comprises confirming the determined location of the package drop point that is fixed to the vehicle. 3. The product delivery system of claim 1, further comprising: a series of fixed beacons positioned at locations that are proximate to the drive-through station, wherein three beacons generate predefined beacons signals;wherein the delivery aircraft further comprises: a beacon detector that detects one or more beacon signals from one or more of the series of beacons; anda location detection system coupled with the beacon detector, wherein the location detection system continuously and autonomously determines a precise location of the delivery aircraft utilizing the predefined beacon signals when the beacon signals are detected. 4. The product delivery system of claim 3, wherein the delivery aircraft further comprises: a global positioning satellite system, wherein the global positioning satellite system receives global positioning information corresponding to a current location of the delivery aircraft, wherein the location detection system utilizes the global positioning information in cooperation with the beacon signals in continuously and autonomously determining the precise location of the delivery aircraft; anda control circuit configured to utilize a known predefined global position of the drive-through station relative to the determined precise location of the delivery aircraft in controlling movement and routing of the delivery aircraft to the drive-through station and to maintain a position of the delivery aircraft while hovering above the vehicle while delivering the first package into the package drop point. 5. The product delivery system of claim 1, wherein the image processor is further configured to process one or more of the images captured prior to the crane system lowering the first package and confirm there are no detected humans outside the vehicle and within a threshold distance of the package drop point; and a control circuit coupled with the crane system and configured to activate the crane system to lower the first package after confirming there are no detected humans outside the vehicle and within a threshold distance of the package drop point. 6. The product delivery system of claim 1, further comprising: one or more shopping facility cameras orientated to capture additional images of the drive-through station; anda shopping facility image processor configured to receive the additional images captured by the one or more shopping facility cameras, determine the current location and orientation of the vehicle, and communicate the determined current location and orientation information of the vehicle to the delivery aircraft. 7. The product delivery system of claim 6, wherein the shopping facility image processor is further configured to confirm the package drop point is open and accessible to receive the first package based on the processing of the additional images through a comparison of at least two additional images of the vehicle at the drive-through station that are captured at different times separated by at least a threshold period of time. 8. The product delivery system of claim 1, further comprising: a delivery control system that is separate and distinct from the delivery aircraft and in communication with the delivery aircraft, wherein the delivery control system comprises a transceiver that receives a communication identifying a customer corresponding to the vehicle; the delivery control system identifies the first package is to be delivered to the vehicle based on the identified customer, and activates the delivery aircraft to deliver the first package to the package drop point corresponding to the location of the vehicle within the drive-through station in response to a detection of the vehicle at the drive-through station. 9. The product delivery system of claim 8, further comprising: a vehicle detection system at the shopping facility configured to detect a presence of the vehicle at the drive-through station and communicate a vehicle notification to the delivery control system triggering the activation of the delivery aircraft. 10. A method of delivering a product, comprising: receiving images of at least a predefined drive-through station and a vehicle waiting at the drive-through station from one or more cameras of an unmanned delivery aircraft that is configured to carry at least a first package to be delivered to a package drop point corresponding to a location of the vehicle at the drive-through station associated with a shopping facility;processing the images through an image processor of the delivery aircraft;confirming, based on the processing of the images, a precise location of the package drop point as defined according to a determined current location and an orientation of the vehicle; andcontrolling a crane system of the delivery aircraft to lower the first package to the package drop point relative to the current location and orientation of the vehicle while the delivery aircraft hovers above the vehicle by a threshold distance. 11. The method of claim 10, wherein processing the images and confirming the precise location of the package drop point comprises confirming the determined location of the package drop point that is fixed to the vehicle. 12. The method of claim 10, further comprising: detecting, through a beacon detector on the delivery aircraft, one or more beacon signals from one or more of a series of fixed beacons positioned at locations that are proximate to the drive-through station;continuously and autonomously determining, through a location detection system of the delivery aircraft, a precise location of the delivery aircraft utilizing the predefined beacon signals when the beacon signals are detected. 13. The method of claim 12, wherein the determining the precise location of the delivery aircraft further comprises: receiving, through a global positioning satellite system of the delivery aircraft, global positioning information corresponding to a current location of the delivery aircraft;wherein the continuously and autonomously determining the precise location of the delivery aircraft comprises determine the precise location utilizes the global positioning information in cooperation with the beacon signals; andcontrolling the delivery aircraft utilizing a known predefined global position of the drive-through station relative to the determined precise location of the delivery aircraft in controlling movement and routing of the delivery aircraft to the drive-through station and to maintain a position of the delivery aircraft while hovering above the vehicle while delivering the first package into the package drop point. 14. The method of claim 10, further comprising: processing images captured prior to controlling the crane system to lower the first package and confirming there are no detected humans outside the vehicle and within a threshold distance of the package drop point, wherein the controlling the crane system to lower the first package comprises activating the crane system to lower the first package after confirming there are no detected humans outside the vehicle and within a threshold distance of the package drop point. 15. The method of claim 10, further comprising: receiving, at a shopping facility image processor, additional images from one or more shopping facility cameras orientated to capture the additional images of the drive-through station;determining the current location and orientation of the vehicle, andcommunicating the determined current location and orientation information to the delivery aircraft. 16. The method of claim 15, further comprising: comparing at least two of the additional images of the vehicle at the drive-through station that are captured at different times separated by at least a threshold period of time; andconfirming the package drop point is open and accessible to receive the first package based on the comparing of the at least two additional images. 17. The method of claim 10, further comprising: receiving, at a delivery control system that is separate and distinct from the delivery aircraft, a communication identifying a customer corresponding to the vehicle;identifying the first package is to be delivered to the vehicle based on the identified customer; andactivating the delivery aircraft to deliver the first package to the package drop point corresponding to the location of the vehicle within the drive-through station in response to a detection of the vehicle at the drive-through station. 18. The method of claim 17, further comprising: detecting a presence of the vehicle at the drive-through station; andcommunicating a vehicle notification to the delivery control system triggering the activation of the delivery aircraft.
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이 특허에 인용된 특허 (6)
Soundararajan, Varun; Agrawal, Anurag, Automated package delivery to a delivery receptacle.
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