US20180130159A1 - Systems and methods for delivering products via autonomous ground vehicles to restricted areas designated by customers - Google Patents
Systems and methods for delivering products via autonomous ground vehicles to restricted areas designated by customers Download PDFInfo
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Definitions
- This invention relates generally to providing purchased products to customers and, in particular, to delivering products purchased by customers via autonomous ground vehicles.
- FIG. 1 is a diagram of a system for facilitating delivery of a product ordered by a customer to a customer-specified restricted area accessible by an entryway openable via an access code in accordance with some embodiments;
- FIG. 2 is a functional diagram of an exemplary retailer computing device usable with the system of FIG. 1 in accordance with some embodiments.
- FIG. 3 is a flow chart diagram of a process of facilitating delivery of a product ordered by a customer to a customer-specified restricted area accessible by an entryway openable via an access code in accordance with some embodiments.
- systems and methods are provided for delivering, via autonomous ground vehicles (AGVs) and/or unmanned aerial vehicles (UAVs), products ordered by customers to a customer-specified restricted area accessible by an entryway openable via an access code.
- AGVs autonomous ground vehicles
- UAVs unmanned aerial vehicles
- the AGVs are provided with wireless access codes to gain access to the restricted area, where the AGVs are able to drop off products being delivered and/or pick up products being returned.
- a system for facilitating delivery of a product ordered by a customer to a customer-specified restricted area accessible by an entryway openable via an access code includes an autonomous ground vehicle configured to retain and transport the product ordered by the customer and a computing device including a processor-based control circuit and configured to send a first signal to the autonomous ground vehicle via a wireless network, the first signal including the access code for opening the entryway.
- the autonomous ground vehicle is configured to relay the access code to a control unit operatively coupled to the entryway to cause the control unit to open the entryway in response to receipt of the access code from the autonomous ground vehicle.
- the computing device is configured to transmit a second signal to the autonomous ground vehicle over the wireless network, the second signal including movement instructions for the autonomous ground vehicle.
- the autonomous ground vehicle after receipt of the second signal from the computing device over the wireless network, is configured to move into the restricted area, based on the movement instructions contained in the second signal, to deliver the product ordered by the customer.
- a method for facilitating delivery of a product ordered by a customer to a customer-specified restricted area accessible by an entryway openable via an access code includes providing an autonomous ground vehicle configured to retain and transport the product ordered by the customer; providing a computing device including a processor-based control circuit; sending a first signal from the computing device to the autonomous ground vehicle via a wireless network, the first signal including the access code for opening the entryway; relaying, via the autonomous ground vehicle and in response to receipt of the first signal from the computing device over the wireless network, the access code to a control unit operatively coupled to the entryway; causing the control unit to open the entryway in response to receiving the access code relayed by the autonomous ground vehicle to the control unit; transmitting, from the computing device, a second signal to the autonomous ground vehicle over the wireless network, the second signal including movement instructions for the autonomous ground vehicle; and moving the autonomous ground vehicle into the restricted area to deliver the product ordered by the customer based on the movement instructions contained in the second signal received by the autonomous ground vehicle from the computing device.
- FIG. 1 shows an embodiment of a system 100 for facilitating delivery of a product 190 ordered by a customer to a customer-specified restricted area 180 accessible by an entryway 185 .
- the retailer may be any entity operating as a brick-and-mortar physical location and/or a website accessible, for example, via the internet or another network, by way of which products 190 may be ordered by a consumer (e.g., customer of the retailer).
- a customer may be an individual or business entity.
- Exemplary products 190 that may be ordered by the customer via the system 100 may include, but are not limited to, general-purpose customer goods and consumable products (e.g., food items, medications, or the like).
- the exemplary system 100 depicted in FIG. 1 includes an order processing server 130 of the retailer configured to process a purchase order by the customer for one or more products 190 .
- the order processing server 130 may be implemented as one server at one location, or as multiple interconnected servers stored at multiple locations operated by the retailer, or for the retailer. As described in more detail below, the order processing server 130 may communicate with one or more electronic devices of system 100 via a network 125 .
- the network 125 may be a wide-area network (WAN), a local area network (LAN), a personal area network (PAN), a wireless local area network (WLAN), Wi-Fi, Zigbee, Bluetooth (e.g., Bluetooth Low Energy (BLE) network), or any other internet or intranet network, or combinations of such networks.
- WAN wide-area network
- LAN local area network
- PAN personal area network
- WLAN wireless local area network
- Wi-Fi Wireless Fidelity
- Zigbee wireless local area network
- Bluetooth e.g., Bluetooth Low Energy (BLE) network
- BLE Bluetooth Low Energy
- communication between various electronic devices of system 100 may take place over hard-wired, cellular, Wi-Fi or Bluetooth networked components or the like.
- one or more electronic devices of system 100 may include cloud-based features, such as cloud-based memory storage.
- the order processing server 130 is coupled to a customer information database 140 .
- the customer information database 140 may be configured to store information associated with customers of the retailer who order products 190 from the retailer.
- the customer information database 140 may store electronic information including but not limited to: personal information of the customers, including payment method information, delivery address information and any known delivery access restrictions associated with the residence of the customer, access code(s) associated with the restricted area 180 designated for delivery by the customer, product order history, pending order status, product order options, as well as product delivery options of the customer.
- the customer information database 140 may be stored, for example, on non-volatile storage media (e.g., a hard drive, flash drive, or removable optical disk) internal or external to the order processing server 130 , or internal or external to computing devices separate and distinct from the order processing server 130 . It will be appreciated that the customer information database 140 may likewise be cloud-based.
- the order processing server 130 may be also coupled to an electronic database configured to store information associated with the inventory of products 190 made available by the retailer to the customer.
- the order processing server 130 is illustrated in FIG. 1 as being coupled to one electronic database (i.e., customer information database 140 ), it will be appreciated that the order processing server 130 may be additionally coupled to an electronic database akin to the inventory management database 160 configured to store product inventory information
- the system 100 when a customer initially sets up an online account with the retailer, the system 100 (i.e., order processing server 130 or another server on the system 100 dedicated to new customer sign-up) is configured to permit the customer to generate a customer profile including personal information of the customer (e.g., name, address, phone number, and the like), payment methods (e.g., credit card information), as well as product delivery settings of the customer (e.g., preferred delivery address and/or preferred delivery method). It will be appreciated that the customer may select new options and/or update previously selected options at any time after setting up the account with the retailer.
- personal information of the customer e.g., name, address, phone number, and the like
- payment methods e.g., credit card information
- product delivery settings of the customer e.g., preferred delivery address and/or preferred delivery method
- the personal information of the customer and any product delivery options selected by the customer are stored in the customer information database 140 for subsequent retrieval by the order processing server 130 and/or by a retailer computing device 150 (e.g., in response to a login request by the customer, or product order placement by the customer).
- the customer may access the order processing server 130 of the retailer via a customer computing device 120 , which may be a stationary, portable, and/or hand-held electronic device, for example, a desktop computer, a laptop computer, a tablet, a mobile phone, or any other electronic, processor-based device that may be configured for data entry and communication with the order processing server 130 over the network 125 .
- the customer may access the order processing server 130 of the retailer via a graphical interface 122 displayed to the customer on the customer computing device 120 .
- the graphical interface 122 may include one or more graphical input fields 124 in the form of menu options and/or sub-interfaces that permit the customer to place an order for one or more products 190 and to select a delivery option for one or more products 190 ordered by the customer.
- the graphical interface 122 may be a retailer-associated mobile application (app) installed on the customer computing device 120 and configured to display various above-described menu options, notifications, and/or alerts for the customer. For example, electronic alerts may be transmitted to the customer computing device 120 via the network 125 from the retailer computing device 150 and/or from the order processing server 130 and displayed to the customer via the graphical interface 122 .
- the order processing server 130 may request a verification of the identity (e.g., username/password) of the customer.
- the order processing server 130 may first verify the identity of the customer (e.g., by comparing the username/password data entered by the customer into the login interface against username/password data in the profile of the customer stored in the customer information database 140 ).
- the order processing server 130 may then associate the customer profile with the identity of the customer, retrieve the customer profile from the customer information database 140 based on information stored in the profile, and send the retrieved customer account information to the customer computing device 120 , which includes a graphical interface 122 including one or more input fields 124 that permit the customer to customize various options relating to the ordering of products 190 from the retailer and/or the delivering of the ordered products 190 to the customer.
- the customer can specify that the product 190 ordered by the customer is to be delivered to a customer-designated restricted area 180 accessible by an entryway 185 openable by way of an access code.
- the restricted area 180 may be generally any area or structure that is accessible via a gate, door, or the like, that require being opened (e.g., via an access code) in order to gain access to the restricted area 180 .
- the restricted area 180 accessible by an entryway 185 that may be specified by the customer when placing the order may be a garage (having an access code-openable entryway in the form of a garage door), a front yard (having an access code-openable entryway in the form of a gate), a side entry walkway (having an access code-openable entryway in the form of a gate), a patio (having an access code-openable entryway in the form of a gate or door), a porch (having an access code-openable gate entryway in the form of a or door), a secure product storage lockers (or another product storage receptacle) having an access code-openable door, or the like, at or near the residence of the customer.
- a garage having an access code-openable entryway in the form of a garage door
- a front yard having an access code-openable entryway in the form of a gate
- a side entry walkway having an access code-openable entryway in the form of a gate
- a patio
- the order processing server 130 is configured to receive and process an order by a customer for a product 190 from the customer computing device 120 , to receive and process payment for the product 190 from the customer, and to transmit (e.g., to the retailer computing device 150 via the network 125 ) the customer's selection of an option to have the ordered products 190 delivered to a customer-designated restricted area 180 accessible by an entryway 185 openable by way of an access code.
- the order processing server 130 and the retailer computing device 150 may be located at separate physical locations (e.g., regional/central data center, product distribution center, retail store, or the like), the retailer computing device 150 and the order processing server 130 of the system 100 , in some embodiments, may be confined to a single facility.
- the retailer computing device 150 may be a stationary or portable electronic device, for example, a desktop computer, a laptop computer, a tablet, a mobile phone, or any other electronic device including a processor-based control circuit (i.e., control unit).
- the term “retailer computing device” will be understood to refer to a computing device owned by the retailer or any computing device owned and/or operated by an entity (e.g., manufacturer, delivery service, worker of the retailer) having an obligation to deliver products 190 to or for the retailer.
- the retailer computing device 150 is configured for data entry and processing as well as for communication with other devices of system 100 via the network 125 which, as described above.
- the retailer computing device 150 is configured to access one or more of the inventory management database 160 and customer information database 140 via the network 125 to facilitate delivery of the products 190 ordered by a customer to a restricted area 180 designated for delivery.
- the retailer computing device 150 is in two-way communication with the AGV 110 via the network 125 .
- the retailer computing device 150 is configured, in some approaches, to transmit at least one signal to the AGV 110 to cause the AGV 110 to move toward and/or away from the restricted area 180 in order to transport, pick up, and/or drop off the product or products 190 ordered by the customer.
- the retailer computing device 150 is configured to cause the UAV 110 to travel to the restricted area 180 designated by the customer, locate the restricted area 180 , cause the AGV 110 to wait a predetermined time at the restricted area 180 , and permit the customer to retrieve the products 190 from the AGV 110 , for example, after verification of the customer's identity by the AGV 110 (or by the retailer computing device 150 ).
- the retailer computing device 150 may be configured to determine whether one or more product pick/up and/or drop off conditions for the AGV 110 are met prior to instructing the AGV 110 to move into a product unloading position in the restricted area 180 and drop off a product 190 from the cargo space 119 of the AGV 110 in the restricted area 180 , permitting the customer to retrieve the product 190 delivered by the AGV 110 .
- the retailer computing device 150 is configured to obtain GPS coordinates of the restricted area 180 and to obtain GPS coordinates of a physical location of the AGV 110 .
- the control circuit 210 (see FIG. 2 ) of the retailer computing device 150 is configured, based on an analysis of the obtained GPS coordinates of the restricted area 180 and of the physical location of the AGV 110 , to determine a route for the AGV 110 toward the entryway 185 and into the restricted area 180 and to the drop-off location 189 to deliver the product 190 ordered by the customer.
- the retailer computing device 150 may obtain a street address associated with the restricted area 180 and determine the route of the AGV 110 based on a known street address of the restricted area 180 .
- the control circuit 210 of the retailer computing device 150 is also programmed to generate and transmit a signal including the route to the AGV 110 such that the movement of the AGV 110 is guided via the route determined by the control circuit 210 .
- the AGV 110 is generally a vehicle configured to autonomously traverse one or more intended environments in accordance with one or more routes and/or determined paths, and typically without the intervention of a human or a remote computing device, while retaining the products 190 therein and delivering the products 190 and/or to perform one or more tasks.
- a vehicle may be an autonomous ground vehicle (AGV), an unmanned aerial vehicle (UAV or drone), or the like.
- a remote operator or a remote computer may temporarily or permanently take over operation of the AGV 110 using feedback information from the AGV 110 (e.g., audio and/or video content, sensor information, etc.) communicated to a remote navigation center and/or central control system (e.g., via network 125 or other similar distributed network).
- feedback information from the AGV 110 e.g., audio and/or video content, sensor information, etc.
- a remote navigation center and/or central control system e.g., via network 125 or other similar distributed network.
- the exemplary AGV 110 of FIG. 1 includes one or more data stores 112 , sensors 114 , and emitters 116 each in communication with one or more control circuits 118 .
- emitter 116 and sensor 114 are implemented together through a single device.
- the AGV 110 deployed in some embodiments of the exemplary system 100 does not require physical operation by a human operator and wirelessly communicates with, and is wholly or largely controlled by, the retailer computing device 150 .
- the retailer computing device 150 may control directional movement of the AGV 110 to the restricted area 180 based on a variety of inputs.
- control circuit 118 of the AGV 110 is programmed with global positioning system (GPS) coordinates of a restricted area 180 where the products 190 are to be delivered, and is configured to determine a route of the AGV 110 to the restricted area 180 and to cause the AGV 110 to move toward the restricted area 180 without receiving remote signals (e.g., route instructions) from the retailer computing device 150 .
- GPS global positioning system
- the emitter 116 is configured as a two-way transceiver that can receive the movement instructions (i.e., route instructions) in a signal transmitted over the network 125 from the retailer computing device 150 , and that can send one or more signals to the retailer computing device 150 , or to an access control unit 187 operatively coupled to the entryway 185 and configured to open the entryway 185 of the restricted area 180 upon receiving the correct access code.
- the access control unit 187 is operatively coupled to a transceiver 188 configured to transmit the GPS coordinates of the restricted area 180 over the network 125 .
- the transceiver 188 is configured to transmit the GPS coordinates of the restricted area 180 to the customer information database 140 such that the GPS coordinates of the restricted area 180 can be stored in the customer information database 140 in association with the customer for later retrieval (e.g., by the retailer computing device 150 ). In some configurations, the transceiver 188 is configured to transmit the GPS coordinates of the restricted area 180 directly to the retailer computing device 150 such that the retailer computing device 150 obtains the GPS coordinates of the restricted area 180 based on the GPS coordinates transmitted by the transceiver 188 directly to the computing device.
- the retailer computing device 150 determines an optimal travel route for the AGV 110 from the origin of travel (e.g., a deployment station) of the AGV 110 to the destination (e.g., entryway 185 to the restricted area 180 or drop off location 189 in the restricted area 180 ) of the AGV 110 . In some aspects, the retailer computing device 150 calculates multiple possible optimum routes. In some embodiments, the system 100 integrates 2D and 3D maps of the navigable space of the AGV 110 with physical locations of objects (e.g., trees, cars, houses, or the like) located between the deployment location of the AGV 110 and the destination location of the AGV 110 .
- objects e.g., trees, cars, houses, or the like
- the 2D and 3D maps of relevant geographic locations may be downloaded in real-time or pre-stored in the customer information database 140 .
- the grids may be applied sectioning off the maps into access ways and blocked sections, enabling the AGV 110 use such grids for navigation and recognition.
- the grids may be applied to 2D horizontal maps along with 3D models. Such grids may start at a higher unit level and then can be broken down into smaller units of measure by the retailer computing device 150 when needed to provide more accuracy.
- the retailer computing device 150 is configured to analyze GPS coordinates of the restricted area 180 designated by the customer, to determine an optimal route for the AGV 110 to the restricted area 180 , and to transmit to the AGV 110 a signal over the network 125 including route instructions to guide the AGV 110 to the restricted area 180 along the determined route.
- the AGV 110 upon receipt of such a signal from the retailer computing device 150 , is configured to navigate, based on the route instructions, to the restricted area 180 while retaining the products 190 ordered by the customer therein, and to navigate within the restricted area 180 after the entryway 185 is opened in order to drop off the product at the drop off location 189 .
- the route instructions after being determined by the retailer computing device 150 , can be recalculated by the control circuit 210 of the retailer computing device 150 in real-time, for example, if an obstacle or another movement restriction is detected along the originally calculated route of the AGV 110 , or if the customer updates the delivery location to another restricted area 180 designated by the customer.
- the system 100 may include any number of AGVs 110 and the retailer computing device 150 may simultaneously communicate with and/or transmit route instructions to more than one (e.g., 5, 10, 50, 100, 1000, or more) AGVs 110 simultaneously to guide the AGVs 110 along the routes determined by the retailer computing device 150 in order to transport products 190 to their respective delivery destinations (e.g., restricted areas 180 ).
- restricted areas 180 e.g., restricted areas
- one or more AGVs 110 of the system 100 may be simultaneously guided by one or more retailer computing devices 150 to deliver products 190 to more than one (e.g., 5, 10, 50, 100, 1000, or more) different restricted areas 180 .
- the AGV 110 after receiving a signal including the route instructions from the retailer computing device 150 over the network 125 , navigates to the location of the restricted area 180 based on the route instructions while retaining the products 190 ordered by the customer therein.
- the control circuit 118 of the AGV 110 is programmed to cause the emitter 116 of the AGV 110 to transmit, via the network 125 , a signal including an electronic confirmation that the product 190 ordered by the customer has been delivered by the AGV 110 to the entry way 185 at the restricted area 180 designated by the customer.
- the computing device 150 in response to receipt of such an electronic confirmation from the AGV 110 , is configured to transmit to the AGV 110 a signal including an access code for opening the entryway 185 .
- the AGV 110 in response to receipt of the signal including the access code from the retailer computing device 150 over the wireless network 125 , the AGV 110 is configured to relay (e.g., via the emitter 116 ) the access code to an access control unit 187 operatively coupled to the entryway 185 .
- the emitter 116 of the AGV 110 is configured to receive the signal including the access code from the retailer computing device 150 over the wireless network 125 and to relay the access code to the access control unit 187 operatively coupled to the entryway 185 .
- the emitter 116 of the AGV 110 is configured for one or two way communication with the transceiver 188 when the AGV 110 is located within a predetermined distance (e.g., 3 feet, 6 feet, 10 feet, 15 feet, 20 feet, etc.) of the transceiver 188 .
- the AGV 110 advantageously does not have to store the access code in the data store 112 , which both reduces the data storage requirements of the AGV 110 and improves the security of the system 100 in that the access code to the restricted area 180 of the customer's home is only permanently stored in the customer information database 140 at a secure facility and not stored on an AGV 110 , which moves around public streets and may become a theft target by hostile third parties.
- the access control unit 187 causes the entryway 185 to open, thereby enabling the AGV 110 to enter the restricted area 180 .
- control circuit 118 of the AGV 110 is configured to generate, and the emitter 116 of the AGV 110 is configured to transmit, via the network 125 , a signal including an electronic confirmation that the AGV 110 successfully entered the restricted area 180 via the entry way 185 .
- the retailer computing device 150 in response to receipt from the AGV 110 of the electronic confirmation that the AGV 110 successfully entered the restricted area 180 via the entryway 185 , is configured to transmit to the AGV 110 a signal over the wireless network 125 including movement instructions for the AGV 110 while in the restricted area 180 .
- the retailer computing device 150 is also configured to again transmit the access code to the AGV 110 to enable the AGV 110 to again relay the access code to the access control unit 187 in order to close the entryway 185 while the AGV 110 is present in the restricted area 180 , thereby advantageously enhancing the security of the restricted area 180 while the AGV 110 is moving within the restricted area 180 .
- the route (i.e., movement) instructions for the AGV 110 while in the restricted area 180 are transmitted to the AGV 110 prior to the AGV 110 entering the restricted area 180 and/or prior to arriving at the entry way 185 to the restricted area 180 .
- the route (i.e., movement) instructions for the AGV 110 may be transmitted by to the AGV 110 by the retailer computing device 150 after the product 190 is loaded into the AGV 110 and prior to commencement of the delivery of the product 190 by the AGV 110 .
- the AGV 110 is configured to move into and within the restricted area 180 and deliver the product 190 ordered by the customer to a product drop off location 189 in the restricted area 180 . In some configurations, based on the route instructions or a separate signal received from the retailer computing device 150 , the AGV 110 is configured to remain proximate the product drop off location 189 while retaining the product 190 ordered by the customer therein for a period of time indicated in the route instructions or separate control signal.
- the AGV 110 is configured to drop the product 190 off (i.e., release the product from the cargo space 119 ) at the product drop off location 189 .
- reference numeral 189 in FIG. 1 is referred to as a drop off location, it will be appreciated that in some embodiments, the AGV 110 is configured to pick up one or more products 190 (e.g. return products) from the drop off location 189 , for example, after dropping off one or more products 190 at the drop off location 189 , or without having to drop off the products at the drop off location 189 .
- the control circuit 118 of the AGV 110 is programmed to cause the emitter 116 of the AGV 110 to transmit, via the network 125 , a signal including an electronic confirmation that the product 190 ordered by the customer has been delivered by the AGV 110 to the drop off location 189 in the restricted area 180 .
- the computing device 150 in response to receipt from the AGV 110 of such an electronic delivery confirmation, is configured to transmit to the customer computing device 120 an electronic alert that the product 190 ordered by the customer has been delivered to the drop off location 189 .
- the customer may come out to the drop off location 189 after receiving such an electronic delivery confirmation in order to attempt to either retrieve the product 190 from the cargo space 119 of the AGV 110 , or from an exposed surface of the drop off location 189 .
- one or more product drop stations may be provided in the restricted area 180 in order to enable the AGV 110 to drop off the product 190 in a specifically designated place.
- product drop stations may be in the form of secure lockers such that the product remains secured and may be accessed only by the customer even after the AGV 110 drops the product off in the restricted area 180 (e.g., a garage).
- the product drop stations may include one or more charge ports where the AGV 110 may be recharged.
- the AGV 110 is configured to, in response to either a control signal from the retailer computing device 150 , or a verification code entered by the customer, to permit the customer to retrieve the products 190 ordered by the customer from the interior cargo space of the AGV 110 .
- the emitter 116 of the AGV 110 is also configured to transmit, via the network 125 , a signal including an electronic confirmation that the product 190 ordered by the customer has been retrieved by the customer from the AGV 110 at the drop off location 189 of the restricted area 180 .
- the retailer computing device 150 in response to receipt of such an electronic confirmation from the AGV 110 , is configured to transmit return route instructions to the AGV 110 to guide the AGV 110 back to a deployment station of the AGV 110 , or to another restricted area 180 of another customer designated as a delivery location for another product 190 stored in the AGV 110 .
- control circuit 118 is configured to generate and the emitter 116 of the AGV 110 is configured to transmit, via the network 125 , a signal including an electronic confirmation that the AGV has moved a predetermined distance (e.g., 3 feet, 6 feet, 10 feet, 15 feet, 20 feet, etc.) out of the restricted area 180 after having successfully delivered the product 190 at the drop off location 189 .
- the retailer computing device 150 in response to receipt of such an electronic confirmation from the AGV 110 , is configured to transmit a signal including the access code for closing the entryway 185 , which may be the same as, or different from the access code for opening the entryway 185 .
- the AGV 110 in response to receipt of the signal including the access code from the retailer computing device 150 over the wireless network 125 , the AGV 110 is configured to relay (e.g., via the emitter 116 ) the access code to the access control unit 187 operatively coupled to the entryway 185 in order to enable the access control unit 187 to close the entryway 185 and thereby prevent unauthorized access to the restricted area 180 .
- the AGV 110 is configured to confirm that the entryway 185 actually closes, for example, by activating (via the control circuit 118 ) the sensor 114 , which may be a video camera that visually confirms closure of the entryway 185 .
- the control circuit 118 of the AGV 110 is programmed to cause the AGV 110 to return to the drop off location 189 in order to guard the product 190 left in the drop off location 189 (e.g., to prevent theft).
- the AGV 110 includes one or more propulsion systems (e.g., motors, wheels, tank treads, etc.) that enable the AGV 110 to at least accelerate, deaccelerate, and/or traverse an environment using a navigation coordinate system, such as GPS, coordinate mapping information, beacon location information, cellular signal triangulation, other navigation systems and/or information, or a combination of two or more of such navigation systems and/or information.
- a navigation coordinate system such as GPS, coordinate mapping information, beacon location information, cellular signal triangulation, other navigation systems and/or information, or a combination of two or more of such navigation systems and/or information.
- the navigation coordinate system can be configured to provide location information, and in some instances time information.
- the AGV 110 is configured to operate in different weather conditions, and/or can be readily modified depending on expected weather conditions (e.g., wheels replaced with tank treads when it is anticipated that the AGV 110 may encounter snow and/or ice).
- the AGV 110 can, in some applications, be further configured to communicate with other AGVs, other autonomous vehicles (e.g., unmanned aerial vehicles (UAVs)), transport vehicles, multiple different types of computing devices, a remote central control system, other computing devices, remote databases, and/or other such devices.
- autonomous vehicles e.g., unmanned aerial vehicles (UAVs)
- UAVs unmanned aerial vehicles
- the emitter 116 of the AGV 110 is a wired or a wireless transceiver configured to convey information, notifications, warnings and/or deterrents to a customer, a worker of the retailer, a potential threat (e.g., animal, person that is a potential threat), unknown third party, a remote central control system, a security service, a municipal police service, other such entities, or combination of two or more of such entities.
- the emitter 116 can comprise one or more output devices (e.g., speakers, displays, whistles, buzzers, lights and similar items) that convey text, audio, and/or visual signals.
- emitter 116 can be configured to convey notifications having textual, audible and/or visual content.
- the emitter 116 may additionally or alternatively be configured to facilitate wireless data communications with a computing device, including but not limited to, retailer computing device 150 .
- the emitter 116 may be configured to emit one or more irritants.
- an “irritant” can include one or more stimuli or agents that can cause a “hostile” person, animal, or the like to not touch or tamper with the AGV 110 and/or to remove themselves from a predetermined perimeter about the AGV 110 .
- Applicable irritants can include chemical, audible, visual irritants, or combination of two or more such irritants.
- the emitter 116 can comprise one or more reservoirs, pumps, nozzles, motors, compressed gas, etc. that can be used to eject and/or adjust the direction of emission of the irritant.
- the output devices of the emitter 116 may include one or more speakers, whistles, buzzers, and the like that can be activated to generate one or more warnings (e.g., that may gradually increase in volume) audible irritants, and/or deterrent noises.
- Audible irritants can be substantially any relevant audible noise that can provide an alert, warn and/or deter interaction with the AGV 110 .
- audible irritants can include audible sounds within a frequency range of about 2 kHz to about 5 kHz, canine-specific audible sounds, sounds having a volume greater than one or more thresholds, audible alerts that can be understood by a person, and/or other such audible alerts and/or irritants.
- one or more emitters 116 enable the AGV 110 to progressively escalate the deterrent effect of the deterrent and/or irritant.
- the AGV 110 may initiate the generation of an audible alert when a human, animal, automobile, or the like is detected within a first threshold distance (which may depend on a speed at which the animal, person, automobile, etc. is approaching), increase the volume of the audible alert when within a second threshold distances (less than the first threshold distance), spray one or more streams of water when within a third threshold distance (less than the second distance), and spray prepper spray when within a fourth threshold distance for more than a threshold period of time and/or contacts the AGV 110 .
- a first threshold distance which may depend on a speed at which the animal, person, automobile, etc. is approaching
- a second threshold distances less than the first threshold distance
- spray one or more streams of water when within a third threshold distance (less than the second distance)
- spray prepper spray when within a fourth threshold distance for more than a threshold period of time
- the exemplary AGV 110 further includes one or more sensors 114 .
- the sensors 114 can include substantially any relevant device that provides information to the AGV 110 to be used in navigation, customer detection, potential threat detection, distance measurements, environment mapping, location determination, and/or other such sensor information.
- the sensor 114 includes one or more devices that can be used to capture data related to one or more objects located within a threshold distance relative to the AGV 110 .
- the AGV 110 includes at least one sensor 114 configured to detect at least one obstacle between the AGV 110 and the restricted area 180 or in the restricted area 180 between the AGV 110 and the drop off location 189 along the route determined by the retailer computing device 150 for the AGV 110 . Based on the detection of one or more obstacles by such a sensor 114 , the AGV 110 is configured to avoid the obstacle(s).
- one or more sensors 114 can be included and/or cooperated with the AGV 110 that include, but are not limited to, one or more sensors to detect an object within one or more threshold or predetermined distances of the AGV 110 , capture data within a threshold distance relative to AGV 110 , detect movement, measure temperature, capture images and/or video, capture thermographic, infrared, and/or multi spectral images, capture images of entities attempting to tamper with AGV 110 , one or more accelerometers, one or more gyroscopes, one or more odometers, one or more location sensors, one or more microphones (e.g., which can be configured to capture audible authentication codes and/or voice prints, threatening language, verbal input from customers, verbal inquiries from customers, etc.), one or more distance measurement sensors (e.g., laser sensors, sonar sensors, sensors that measure distance by emitting and capturing a wireless signal (which can comprise light and/or sound) etc.), 3D scanning sensors, other such sensors,
- the AGV 110 includes one or more sensors 114 in communication with one or more access panels of AGV 110 and/or positioned adjacent to such access panels to sense when such panels are tampered with.
- the AGV 110 includes one or more sensors configured to detect the temperature in the cargo space 119 of the AGV 110 and coupled to one or more controllers configured to raise or lower the temperature of the cargo space 119 of the AGV 110 in order to preserve the freshness of the product 190 or to bring the product 190 to an appropriate consumption temperature.
- package detection and tracking may include elements including but not limited to ambient temperature of the cargo space 119 , temperature of the product 190 , acceptable thresholds for temperature of the product 190 , or a combination thereof.
- the AGV 110 includes a sensor 114 configured to detect a combination of numbers indicating a street address associated with the restricted area 180 designated as a delivery location by the customer.
- the emitter 116 AGV 110 can be configured to transmit sensor data including the combination of letters detected by the sensor 114 on the curb in front of the house of which the garage is the restricted area 180 being delivered to, enabling the retailer computing device 150 to authenticate the restricted area 180 based on the received sensor data and the customer address information stored in the customer information database 140 .
- the system 100 may include an access encryption system comprising a blockchain that may include authentication-based access and encryption to enables the AGV 110 to access the restricted area and/or to track and authenticate the AGV 110 and/or the products 190 being delivered by the AGV 110 to the restricted area 180 .
- an access encryption system comprising a blockchain that may include authentication-based access and encryption to enables the AGV 110 to access the restricted area and/or to track and authenticate the AGV 110 and/or the products 190 being delivered by the AGV 110 to the restricted area 180 .
- a customer e.g., in the restricted area 180
- new blocks may be added to subsequent root blocks, which will contain information relating to the date and time a product 190 delivered by the AGV 110 was accessed, as well as the authentication key that accessed the product 190 .
- authentication and access may be restricted to specific blockchain authentication keys that enable access of the AGV 110 to the restricted area 180 and/or the customer to access the contents of an AGV 110 .
- access to the products in the AGV 110 may be determined at the scheduling and purchase of a delivery or products and in other aspects, access may be determined while a product 190 is moved through the supply chain and/or when the product 190 is delivered by the AGV 110 to the drop off location 189 .
- temporary authentication keys may be provide to a customer to grant temporary access to an AGV 110 or a specific storage compartment of the cargo space 119 of the AGV 110 .
- one or more data stores 112 provide an information repository that typically stores programs 111 and files 113 .
- the AGV 110 may, in some embodiments, further access one or more programs 111 , files 113 , and/or other relevant information external to AGV 110 and accessible via network 125 .
- Files 113 can comprise information transmitted by the retailer computing device 150 , data captured by the sensor 114 , customer information, customer identifier information, computing device identifier information, product information, customer order information, navigation and/or routing information, location information, mapping information, AGV identifier information, communication procedures, threat information, sensor data, images, video, historic information, and/or other such information, and/or other such information.
- files 113 can further comprise one or more notification templates, which are software used by the AGVs 110 as a basis to convey salutations and/or advertisements to customers and/or pedestrians located within a threshold distance relative to the AGVs 110 .
- Notification template's content may at least be provided by product manufacturers and/or owners of the AGVs 110 .
- notification templates may further be personalized using customer's specific information to, for example, target a specific customer and increase engagement between the customer and the AGV 110 .
- Personalized notifications can reference customer history, current needs, anticipated needs, and/or similar information that can increase the probability that customers make desired product and/or service purchases.
- Commercial product information and/or customer specific information may be added to notification templates in real-time prior to their transmission by the AGVs 110 when the presence of customers and/or pedestrians is detected by the AGV 110 .
- Commercial product information can include, for example, product names, product types, manufacturer names, manufacturer origin, ingredient names, ingredient types, component names, and/or component types.
- Notification templates can comprise audio and/or visual components, for example, music, speech, tones, images, and/or video.
- Files 113 can further comprise personal and/or non-public information about the customers, including but not limited to, information about browser history, location, birthdays, delivery dates, spouses, pets, and/or heirs associated with the customers.
- Files 113 can comprise predetermined biometric data associated with the customers, which can be used for authentication purposes, and/or determining unknown and/or hostile third parties.
- Applicable biometric data can include, but is not limited to voice prints, iris patterns, retina-patterns, hand geometries, earlobe geometries, facial landmarks, thermographic signatures, vascular patterns, skin texture data points, and/or walking gate data points.
- Predetermined biometric data can include data captured by the sensors 114 , provided by the customers, external sensors, and/or received from an external central computing system.
- the AGV 110 further includes programs 111 that are stored in the data store 112 and/or other memory, and utilized at least by the one or more control circuits 118 .
- one or more of the programs 111 are software that are executed by the one or more control circuits 118 to facilitate the operation, control, commercial activity, interaction with customers, deterring potential danger and the like to the AGV 110 .
- the one or more control circuits 118 in executing one or more programs 111 , can use data generated by sensors 114 to detect when customers or hostile third parties are positioned within a threshold distance relative to the AGVs 110 , generate notifications in response to detecting the presence of customers and/or hostile third parties, as well as generate notifications in response to receiving triggering events from the retailer computing device 150 .
- the presence of customers positioned within threshold distances relative to AGVs 110 can be confirmed using geolocation data, which reflects the locations of the customers, received from the retailer computing device 150 (e.g., based on GPS data obtained from the customer computing device 120 ).
- Hostile third parties can refer to any human or animal or autonomous vehicle attempting to interfere with the operation of AGV 110 , which may, for example, be characterized as any attempts to gain unauthorized access to the cargo space 119 of the AGV 110 , attempts to gain unauthorized access to the AGV 110 software and/or hardware, attempts to gain unauthorized access to products 190 being transported by the AGV 110 , attempt to damage the AGV 110 , attempts to obstruct the travel path of AGV 110 , and/or other activities that may be detrimental to the AGV 110 , and/or interfere with the AGV 110 .
- control circuit 118 in executing one or more programs 111 , can generate one or more types of biometric data (discussed above) using information captured via sensor 114 , and determine whether the generated biometric data has one or more threshold relationships to predetermined biometric data included in files 113 , wherein generated biometric data having threshold relationships identify customers and such data lacking the threshold relationships identify unknown and/or hostile third parties.
- an exemplary retailer computing device 150 configured for use with the systems and methods described herein may include a control circuit or control circuit 210 including a processor (for example, a microprocessor or a microcontroller) electrically coupled via a connection 215 to a memory 220 and via a connection 225 to a power supply 230 .
- the control circuit 210 can comprise a fixed-purpose hard-wired platform or can comprise a partially or wholly programmable platform, such as a microcontroller, an application specification integrated circuit, a field programmable gate array, and so on.
- the control circuit 210 of the retailer computing device 150 can be configured (for example, by using corresponding programming stored in the memory 220 as will be well understood by those skilled in the art) to carry out one or more of the steps, actions, and/or functions described herein.
- the memory 220 may be integral to the processor-based control circuit 210 or can be physically discrete (in whole or in part) from the control circuit 210 and is configured non-transitorily store the computer instructions that, when executed by the control circuit 210 , cause the control circuit 210 to behave as described herein.
- non-transitorily will be understood to refer to a non-ephemeral state for the stored contents (and hence excludes when the stored contents merely constitute signals or waves) rather than volatility of the storage media itself and hence includes both non-volatile memory (such as read-only memory (ROM)) as well as volatile memory (such as an erasable programmable read-only memory (EPROM))).
- ROM read-only memory
- EPROM erasable programmable read-only memory
- the memory and/or the control unit may be referred to as a non-transitory medium or non-transitory computer readable medium.
- the control circuit 210 of the retailer computing device 150 is also electrically coupled via a connection 235 to an input/output 240 that can receive signals from the order processing server 130 (e.g., data from the customer information database 140 relating to an order for a product 190 placed by the customer and/or information (e.g., GPS coordinates) associated with a physical location (e.g., GPS coordinates or street address) of the restricted area 180 selected by the customer), or from any other source that can communicate with the retailer computing device 150 via a wired or wireless connection.
- the order processing server 130 e.g., data from the customer information database 140 relating to an order for a product 190 placed by the customer and/or information (e.g., GPS coordinates) associated with a physical location (e.g., GPS coordinates or street address) of the restricted area 180 selected by the customer
- information e.g., GPS coordinates
- the input/output 240 of the retailer computing device 150 can also send signals to the order processing server 130 (e.g., electronic notification confirming retrieval of the product 190 by the customer from the AGV 110 ), or to any other device in wired or wireless communication with the retailer computing device 150 .
- the order processing server 130 e.g., electronic notification confirming retrieval of the product 190 by the customer from the AGV 110
- any other device in wired or wireless communication with the retailer computing device 150 e.g., electronic notification confirming retrieval of the product 190 by the customer from the AGV 110
- the processor-based control circuit 210 of the retailer computing device 150 is electrically coupled via a connection 245 to a user interface 250 , which may include a visual display or display screen 260 (e.g., LED screen) and/or button input 270 that provide the user interface 250 with the ability to permit an operator of the retailer computing device 150 to manually control the retailer computing device 150 by inputting commands via touch-screen and/or button operation and/or voice commands to, for example, to communicate with the customer computing device 120 and/or an AGV 110 .
- a visual display or display screen 260 e.g., LED screen
- button input 270 e.g., button input 270 that provide the user interface 250 with the ability to permit an operator of the retailer computing device 150 to manually control the retailer computing device 150 by inputting commands via touch-screen and/or button operation and/or voice commands to, for example, to communicate with the customer computing device 120 and/or an AGV 110 .
- the performance of such functions by the processor-based control circuit 210 of the retailer computing device 150 is not dependent
- the display screen 260 of retailer computing device 150 is configured to display various graphical interface-based menus, options, and/or alerts that may be transmitted to the retailer computing device 150 and displayed on the display screen 260 in connection with various aspects of the order placed by the customer.
- the inputs 270 of the retailer computing device 150 may be configured to permit an operator to navigate through the on-screen menus on the retailer computing device 150 and make changes and/or updates to the route instructions for the AGV 110 during delivery of the product 190 to the restricted area 180 .
- the display screen 260 may be configured as both a display screen and an input 270 (e.g., a touch-screen that permits an operator to press on the display screen 260 to enter text and/or execute commands.)
- the control circuit 210 of the retailer computing device 150 is programmed to determine that one or more products 190 ordered by the customer via the order processing server 130 is to be delivered to a restricted area 180 having an access code controlled entryway 185 . For example, when the customer places an order for one or more products 190 via the processing server 130 , the customer is provided with an input field 124 on the graphical interface 122 of the customer computing device 120 prompting the customer to select a delivery option, with one of the available options being delivery of the product 190 to a restricted area 180 (e.g., a garage, front yard, side entry, etc.) designated by the customer. In some embodiments, the control circuit 210 of the retailer computing device 150 is programmed to authorize commencement of a delivery attempt of the product 190 to the customer after verification that physical location of the restricted area 180 has been identified.
- a restricted area 180 e.g., a garage, front yard, side entry, etc.
- the control circuit 210 of the retailer computing device 150 is programmed to receive and/or otherwise obtain the physical location of the restricted area 180 .
- the control circuit 210 may obtain the street address of the customer and/or GPS coordinates and/or other location identifiers associated with the garage at the customer's residence from the customer information database 140 or, in one aspect, directly from the transceiver 188 located in the customer's garage.
- the control circuit 210 when the delivery of the product 190 via the AGV 110 is in progress, and more specifically, after the AGV 110 has arrived at the entryway 185 to the restricted area 180 , the control circuit 210 is configured to receive, via the network 125 , an authentication of the identity of the restricted area 180 .
- the sensor 114 of the AGV 110 may include a video camera configured to visually detect the customer's street address (e.g., by detecting the numbers on a curb or on the house of the customer) and/or visually detect the garage door itself (e.g., snap a still photo of the garage door) and generate identity detection data.
- the emitter 116 of the AGV 110 may then transmit such identity detection data over the network 125 to the retailer computing device 150 , after which the control circuit 210 of the retailer computing device 150 is configured to obtain (e.g., from the customer information database 140 ) authentic identification data associated with the restricted area 180 to determine whether there is a match.
- the control circuit 210 of the retailer computing device 150 is programmed to send (via the input/output 240 ) to the AGV 110 a signal including an access code that, when relayed by the AGV 110 , causes the access control unit 187 to open the entryway 185 .
- the access code to the access control unit 187 is not transmitted to the AGV 110 directly from the retailer computing device 150 , but is transmitted to the AGV 110 directly from customer information database 140 .
- the AGV 110 upon a successful relay of the access code by the AGV 110 to the access control unit 187 and successful opening of the entryway 185 (which is confirmed by sensor 114 of the AGV 110 ), the AGV 110 is configured to transmit, and the control circuit is 210 of the retailer computing device 150 is configured to receive, over the network 125 , an electronic confirmation that the AGV 110 has been successfully granted access into the restricted area 180 .
- the control circuit 210 of the retailer computing device 150 is programmed to generate customer alerts in connection with the delivery of the products 190 to the drop off location 189 at the restricted area 180 .
- the customer alerts may be generated by the retailer computing device 150 based on information received from the AGV 110 .
- the customer alerts may be transmitted from the retailer computing device 150 via the network 125 to the customer computing device 120 , and the customer computing device 120 may transmit data responsive to the customer alerts and/or other data to the retailer computing device 150 via the network 125 .
- the retailer computing device 150 may transmit a signal over the network 125 to the customer computing device 120 including an alert indicating that the AGV 110 has dropped off the product 190 at the drop of location 189 , or an alert indicating that the AGV 110 was unable to successfully gain access to the restricted area 180 .
- the customer computing device 120 may transmit a signal over the network 125 to the retailer computing device 150 including a notification that the product 190 dropped off by the AGV 110 at the drop off location 189 has been successfully picked up by the customer.
- customer alerts sent to the customer computing device 120 may include but are not limited to short message service (SMS) messages, electronic mail (e-mail) messages, instant messenger messages, voice mail messages, and/or push notifications (to a mobile app on the customer computing device 120 ).
- SMS short message service
- e-mail electronic mail
- instant messenger instant messenger
- voice mail voice mail
- push notifications to a mobile app on the customer computing device 120 .
- FIG. 3 shows an embodiment of an exemplary method 300 for facilitating delivery of a product 190 ordered by a customer to a customer-specified restricted area 180 accessible by an entryway 185 openable via an access code.
- the embodiment of the method 300 illustrated in FIG. 3 includes providing an AGV 110 configured to retain and transport the product 190 ordered by the customer (step 310 ) and providing a retailer computing device 150 including a processor-based control circuit 210 (step 320 ).
- the control circuit 118 of the AGV 110 causes the emitter 116 of the AGV 110 to transmit, via the network 125 , a signal including an electronic confirmation that the product 190 ordered by the customer has been delivered by the AGV 110 to the entry way 185 at the restricted area 180 .
- a predetermined distance e.g. 3 feet, 6 feet, 10 feet, 15 feet, 20 feet, etc.
- the control circuit 118 of the AGV 110 causes the emitter 116 of the AGV 110 to transmit, via the network 125 , a signal including an electronic confirmation that the product 190 ordered by the customer has been delivered by the AGV 110 to the entry way 185 at the restricted area 180 .
- the 300 includes sending a first signal from the retailer computing device 150 to the AGV 110 via a wireless network 125 , the first signal including the access code for opening the entryway 185 (step 330 ). After the signal including the access code for opening the entryway 185 is transmitted over the network 125 from the retailer computing device 150 to the AGV 110 , the exemplary method 300 further includes relaying, via the AGV 110 and in response to receipt of the first signal from the computing device over the wireless network 125 , the access code to the access control unit 187 operatively coupled to the entryway 185 (step 340 ).
- the AGV 110 is configured to relay the access code received from the retailer computing device 150 via the emitter 116 , which is configured for one or two way communication with the transceiver 188 coupled to the access control unit 187 when the AGV 110 is located within a predetermined distance (e.g., 3 feet, 6 feet, 10 feet, 15 feet, 20 feet, etc.) of the transceiver 188 .
- a predetermined distance e.g., 3 feet, 6 feet, 10 feet, 15 feet, 20 feet, etc.
- the method 300 further includes causing the access control unit 187 to open the entryway 185 in response to receiving the access code relayed by the AGV 110 to the access control unit 187 (step 350 ).
- the retailer computing device 150 determines an optimal travel route for the AGV 110 from the origin of travel (e.g., a deployment station) of the AGV 110 to the destination (e.g., entryway 185 to the restricted area 180 or drop off location 189 in the restricted area 180 ) of the AGV 110 .
- the retailer computing device 150 is configured to analyze GPS coordinates of the restricted area 180 designated by the customer, to determine an optimal route for the AGV 110 to the restricted area 180 , and to transmit to the AGV 110 a signal over the network 125 including route instructions to guide the AGV 110 to the restricted area 180 and/or to the drop off location 189 along the determined route.
- the exemplary method 300 includes transmitting, from the retailer computing device 150 , a second signal to the AGV 110 over the wireless network 125 , the second signal including movement instructions for the AGV 110 (step 360 ).
- the AGV 110 upon receipt of such a signal from the retailer computing device 150 , is configured to navigate, based on the route instructions, to the entryway 185 of the restricted area 180 and to the drop off location 189 in the restricted area 180 while retaining the products 190 ordered by the customer therein.
- the exemplary method 300 of FIG. 3 further includes moving the AGV 110 into the restricted area 180 to deliver the product 190 ordered by the customer based on the movement instructions contained in the second signal received by the AGV 110 from the retailer computing device (step 370 ).
- control circuit 210 of the retailer computing device 150 is programmed to recalculate the route of the AGV 110 in real-time, for example, to facilitate avoidance of obstacles along the originally calculated route of the AGV 110 .
- the AGV 110 transmits (e.g., via the emitter 116 over the network 125 ) a signal including an electronic confirmation that the product 190 ordered by the customer has been dropped off by the AGV 110 at the drop off location 189 designated by the customer.
- a signal including an electronic confirmation is sent directly to the retailer computing device 150 , although the electronic confirmation may be instead sent to the customer information database 140 for retrieval by the retailer computing device 150 .
- the retailer computing device 150 transmits an electronic notification to the customer computing device 120 indicating that the product 190 ordered by the customer has been dropped off at the drop off location 189 .
- the route instructions transmitted to the AGV 110 by the retailer computing device 150 include an instruction to the AGV 110 to remain at the drop off location 189 for a predetermined interval of time (e.g., 15 minutes, 30 minutes, 1 hour, or more than 1 hour)
- the AGV 110 is configured to remain at the drop off location 189 for the period of time indicated in the route instructions.
- the electronic notification transmitted by the retailer computing device 150 to the customer computing device 120 includes an indication of the interval of time that the AGV 110 will wait at the drop off location 189 for the customer to retrieve the product 190 from the cargo space 119 of the AGV 110 .
- the electronic notification transmitted by the retailer computing device 150 to the customer computing device 120 includes a verification code that the customer would be required to provide to the AGV 110 (either via the customer computing device 120 or by manually entering via an interface of the AGV 110 ) in order to gain access to the cargo space 119 of the AGV 110 .
- the AGV 110 instead of a verification code that must be entered or otherwise transmitted by the customer, the AGV 110 according to some embodiments is equipped with a sensor 114 configured to detect biometric data associated with the customer, enabling the verification of the customer via the biometric data detected by the sensor 114 .
- the AGV 110 in response to either a control signal from the retailer computing device 150 , or a verification code or biometric data entered by the customer, permits the customer to retrieve the product 190 ordered by the customer from the cargo space 119 of the AGV 110 .
- the AGV 110 either opens the cargo space 119 to permit the customer to remove the product 190 from the cargo space 119 , or ejects the product 190 from the cargo space 119 without opening the cargo space 119 to access by the customer.
- the emitter 116 of the AGV 110 is also configured to transmit, via the network 125 , a signal including an electronic confirmation that the product 190 ordered by the customer has been retrieved by the customer from the AGV 110 at the drop off location 189 in the restricted area 180 designated as the delivery location by the customer.
- the retailer computing device 150 transmits a signal including updated route instructions to the AGV 110 to guide the AGV 110 back to a deployment station of the AGV 110 , or to another restricted area 180 designated as a delivery location by another customer of the retailer.
- the AGV 110 upon receipt of such a signal from the retailer computing device 150 , navigates either back to a deployment station or to the next delivery destination based on the updated route instructions.
- the retailer computing device 150 in response to receipt of the electronic confirmation from the AGV 110 that an authorized customer retrieved the product 190 from the AGV 110 , the retailer computing device 150 transmits a signal to the order processing server 130 indicating that the order placed by the customer to have the product 190 delivered to the restricted area 180 has been successfully completed.
- the systems and methods described herein advantageously allow customers to purchase products from a retailer and have the products conveniently delivered for the customers to restricted areas at the residences of the customers while the customers may be away from their residences.
- Such systems and methods provide a significant convenience for the customers of the retailer and are likely to increase customer loyalty to the retailer.
- systems and methods provide retailers with significant operation cost savings, since deliveries are made via autonomous ground vehicles that do not require a human operator.
- the systems and methods provided herein by dropping off products in secured areas, increase the likelihood that the product delivered by the autonomous ground vehicles may be stolen by hostile third parties or damages by severe weather conditions.
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Abstract
Description
- This application claims the benefit of U.S. Provisional Application No. 62/420,122, filed Nov. 10, 2016, which is incorporated herein by reference in its entirety.
- This invention relates generally to providing purchased products to customers and, in particular, to delivering products purchased by customers via autonomous ground vehicles.
- Customers often purchase products from retailers over the internet and request delivery of the products. The products purchased by a customer are most often delivered to a home where the customer lives, and are very commonly delivered at times when the customer is not home. Products delivered to a home address and left on the property of the customer when the customer is not home (e.g., at work) may be stolen and/or damaged (e.g., by people or weather) before the product is picked up by the customer. While it is not uncommon for residences to have restricted access areas protected by gates/doors where the product or products being delivered may be dropped off by the delivery service, such gates/doors typically require an access code that the delivery services do not have and thus cannot access such restricted areas.
- Disclosed herein are embodiments of systems, apparatuses, methods, and systems pertaining to facilitating delivery of a product ordered by a customer to a customer-specified restricted area accessible by an entryway openable via an access code. This description includes drawings, wherein:
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FIG. 1 is a diagram of a system for facilitating delivery of a product ordered by a customer to a customer-specified restricted area accessible by an entryway openable via an access code in accordance with some embodiments; -
FIG. 2 is a functional diagram of an exemplary retailer computing device usable with the system ofFIG. 1 in accordance with some embodiments; and -
FIG. 3 is a flow chart diagram of a process of facilitating delivery of a product ordered by a customer to a customer-specified restricted area accessible by an entryway openable via an access code in accordance with some embodiments. - Elements in the figures are illustrated for simplicity and clarity and have not been drawn to scale. For example, the dimensions and/or relative positioning of some of the elements in the figures may be exaggerated relative to other elements to help to improve understanding of various embodiments of the present invention. Also, common but well-understood elements that are useful or necessary in a commercially feasible embodiment are often not depicted in order to facilitate a less obstructed view of these various embodiments of the present invention. Certain actions and/or steps may be described or depicted in a particular order of occurrence while those skilled in the art will understand that such specificity with respect to sequence is not actually required. The terms and expressions used herein have the ordinary technical meaning as is accorded to such terms and expressions by persons skilled in the technical field as set forth above except where different specific meanings have otherwise been set forth herein.
- The following description is not to be taken in a limiting sense, but is made merely for the purpose of describing the general principles of exemplary embodiments. Reference throughout this specification to “one embodiment,” “an embodiment,” or similar language means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment of the present invention. Thus, appearances of the phrases “in one embodiment,” “in an embodiment,” and similar language throughout this specification may, but do not necessarily, all refer to the same embodiment.
- Generally speaking, pursuant to various embodiments, systems and methods are provided for delivering, via autonomous ground vehicles (AGVs) and/or unmanned aerial vehicles (UAVs), products ordered by customers to a customer-specified restricted area accessible by an entryway openable via an access code. The AGVs are provided with wireless access codes to gain access to the restricted area, where the AGVs are able to drop off products being delivered and/or pick up products being returned.
- In some embodiments, a system for facilitating delivery of a product ordered by a customer to a customer-specified restricted area accessible by an entryway openable via an access code includes an autonomous ground vehicle configured to retain and transport the product ordered by the customer and a computing device including a processor-based control circuit and configured to send a first signal to the autonomous ground vehicle via a wireless network, the first signal including the access code for opening the entryway. In response to receipt of the first signal from the computing device over the wireless network, the autonomous ground vehicle is configured to relay the access code to a control unit operatively coupled to the entryway to cause the control unit to open the entryway in response to receipt of the access code from the autonomous ground vehicle. The computing device is configured to transmit a second signal to the autonomous ground vehicle over the wireless network, the second signal including movement instructions for the autonomous ground vehicle. The autonomous ground vehicle, after receipt of the second signal from the computing device over the wireless network, is configured to move into the restricted area, based on the movement instructions contained in the second signal, to deliver the product ordered by the customer.
- In other embodiments, a method for facilitating delivery of a product ordered by a customer to a customer-specified restricted area accessible by an entryway openable via an access code includes providing an autonomous ground vehicle configured to retain and transport the product ordered by the customer; providing a computing device including a processor-based control circuit; sending a first signal from the computing device to the autonomous ground vehicle via a wireless network, the first signal including the access code for opening the entryway; relaying, via the autonomous ground vehicle and in response to receipt of the first signal from the computing device over the wireless network, the access code to a control unit operatively coupled to the entryway; causing the control unit to open the entryway in response to receiving the access code relayed by the autonomous ground vehicle to the control unit; transmitting, from the computing device, a second signal to the autonomous ground vehicle over the wireless network, the second signal including movement instructions for the autonomous ground vehicle; and moving the autonomous ground vehicle into the restricted area to deliver the product ordered by the customer based on the movement instructions contained in the second signal received by the autonomous ground vehicle from the computing device.
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FIG. 1 shows an embodiment of asystem 100 for facilitating delivery of aproduct 190 ordered by a customer to a customer-specifiedrestricted area 180 accessible by anentryway 185. It will be understood that the details of this example are intended to serve in an illustrative capacity and are not necessarily intended to suggest any limitations in regards to the present teachings. The retailer may be any entity operating as a brick-and-mortar physical location and/or a website accessible, for example, via the internet or another network, by way of whichproducts 190 may be ordered by a consumer (e.g., customer of the retailer). A customer may be an individual or business entity.Exemplary products 190 that may be ordered by the customer via thesystem 100 may include, but are not limited to, general-purpose customer goods and consumable products (e.g., food items, medications, or the like). - The
exemplary system 100 depicted inFIG. 1 includes anorder processing server 130 of the retailer configured to process a purchase order by the customer for one ormore products 190. Theorder processing server 130 may be implemented as one server at one location, or as multiple interconnected servers stored at multiple locations operated by the retailer, or for the retailer. As described in more detail below, theorder processing server 130 may communicate with one or more electronic devices ofsystem 100 via anetwork 125. - The
network 125 may be a wide-area network (WAN), a local area network (LAN), a personal area network (PAN), a wireless local area network (WLAN), Wi-Fi, Zigbee, Bluetooth (e.g., Bluetooth Low Energy (BLE) network), or any other internet or intranet network, or combinations of such networks. Generally, communication between various electronic devices ofsystem 100 may take place over hard-wired, cellular, Wi-Fi or Bluetooth networked components or the like. In some embodiments, one or more electronic devices ofsystem 100 may include cloud-based features, such as cloud-based memory storage. - In the embodiment of
FIG. 1 , theorder processing server 130 is coupled to acustomer information database 140. In some embodiments, thecustomer information database 140 may be configured to store information associated with customers of the retailer who orderproducts 190 from the retailer. In some embodiments, thecustomer information database 140 may store electronic information including but not limited to: personal information of the customers, including payment method information, delivery address information and any known delivery access restrictions associated with the residence of the customer, access code(s) associated with the restrictedarea 180 designated for delivery by the customer, product order history, pending order status, product order options, as well as product delivery options of the customer. - The
customer information database 140 may be stored, for example, on non-volatile storage media (e.g., a hard drive, flash drive, or removable optical disk) internal or external to theorder processing server 130, or internal or external to computing devices separate and distinct from theorder processing server 130. It will be appreciated that thecustomer information database 140 may likewise be cloud-based. In some embodiments, theorder processing server 130 may be also coupled to an electronic database configured to store information associated with the inventory ofproducts 190 made available by the retailer to the customer. In other words, while theorder processing server 130 is illustrated inFIG. 1 as being coupled to one electronic database (i.e., customer information database 140), it will be appreciated that theorder processing server 130 may be additionally coupled to an electronic database akin to theinventory management database 160 configured to store product inventory information - In some embodiments, when a customer initially sets up an online account with the retailer, the system 100 (i.e.,
order processing server 130 or another server on thesystem 100 dedicated to new customer sign-up) is configured to permit the customer to generate a customer profile including personal information of the customer (e.g., name, address, phone number, and the like), payment methods (e.g., credit card information), as well as product delivery settings of the customer (e.g., preferred delivery address and/or preferred delivery method). It will be appreciated that the customer may select new options and/or update previously selected options at any time after setting up the account with the retailer. In some embodiments, the personal information of the customer and any product delivery options selected by the customer are stored in thecustomer information database 140 for subsequent retrieval by theorder processing server 130 and/or by a retailer computing device 150 (e.g., in response to a login request by the customer, or product order placement by the customer). - The customer may access the
order processing server 130 of the retailer via acustomer computing device 120, which may be a stationary, portable, and/or hand-held electronic device, for example, a desktop computer, a laptop computer, a tablet, a mobile phone, or any other electronic, processor-based device that may be configured for data entry and communication with theorder processing server 130 over thenetwork 125. In some embodiments, the customer may access theorder processing server 130 of the retailer via agraphical interface 122 displayed to the customer on thecustomer computing device 120. Thegraphical interface 122 may include one or moregraphical input fields 124 in the form of menu options and/or sub-interfaces that permit the customer to place an order for one ormore products 190 and to select a delivery option for one ormore products 190 ordered by the customer. In some embodiments, thegraphical interface 122 may be a retailer-associated mobile application (app) installed on thecustomer computing device 120 and configured to display various above-described menu options, notifications, and/or alerts for the customer. For example, electronic alerts may be transmitted to thecustomer computing device 120 via thenetwork 125 from theretailer computing device 150 and/or from theorder processing server 130 and displayed to the customer via thegraphical interface 122. - In some embodiments, as the customer is attempting to connect (e.g., via the customer's
computing device 120 such as a cell phone) to the retailer's website, theorder processing server 130 may request a verification of the identity (e.g., username/password) of the customer. Theorder processing server 130 may first verify the identity of the customer (e.g., by comparing the username/password data entered by the customer into the login interface against username/password data in the profile of the customer stored in the customer information database 140). Theorder processing server 130 may then associate the customer profile with the identity of the customer, retrieve the customer profile from thecustomer information database 140 based on information stored in the profile, and send the retrieved customer account information to thecustomer computing device 120, which includes agraphical interface 122 including one ormore input fields 124 that permit the customer to customize various options relating to the ordering ofproducts 190 from the retailer and/or the delivering of the orderedproducts 190 to the customer. - In some embodiments, after placing an on order for one or
more products 190 via theorder processing server 130 using thegraphical interface 122 of thecustomer computing device 120, the customer can specify that theproduct 190 ordered by the customer is to be delivered to a customer-designated restrictedarea 180 accessible by anentryway 185 openable by way of an access code. Generally, therestricted area 180 may be generally any area or structure that is accessible via a gate, door, or the like, that require being opened (e.g., via an access code) in order to gain access to therestricted area 180. For example, therestricted area 180 accessible by anentryway 185 that may be specified by the customer when placing the order may be a garage (having an access code-openable entryway in the form of a garage door), a front yard (having an access code-openable entryway in the form of a gate), a side entry walkway (having an access code-openable entryway in the form of a gate), a patio (having an access code-openable entryway in the form of a gate or door), a porch (having an access code-openable gate entryway in the form of a or door), a secure product storage lockers (or another product storage receptacle) having an access code-openable door, or the like, at or near the residence of the customer. - In some embodiments, the
order processing server 130 is configured to receive and process an order by a customer for aproduct 190 from thecustomer computing device 120, to receive and process payment for theproduct 190 from the customer, and to transmit (e.g., to theretailer computing device 150 via the network 125) the customer's selection of an option to have the orderedproducts 190 delivered to a customer-designated restrictedarea 180 accessible by anentryway 185 openable by way of an access code. It will be appreciated that while theorder processing server 130 and theretailer computing device 150 may be located at separate physical locations (e.g., regional/central data center, product distribution center, retail store, or the like), theretailer computing device 150 and theorder processing server 130 of thesystem 100, in some embodiments, may be confined to a single facility. - The
retailer computing device 150 may be a stationary or portable electronic device, for example, a desktop computer, a laptop computer, a tablet, a mobile phone, or any other electronic device including a processor-based control circuit (i.e., control unit). For purposes of this specification, the term “retailer computing device” will be understood to refer to a computing device owned by the retailer or any computing device owned and/or operated by an entity (e.g., manufacturer, delivery service, worker of the retailer) having an obligation to deliverproducts 190 to or for the retailer. In the embodiment ofFIG. 1 , theretailer computing device 150 is configured for data entry and processing as well as for communication with other devices ofsystem 100 via thenetwork 125 which, as described above. In some embodiments, as will be described below, theretailer computing device 150 is configured to access one or more of theinventory management database 160 andcustomer information database 140 via thenetwork 125 to facilitate delivery of theproducts 190 ordered by a customer to a restrictedarea 180 designated for delivery. - In the
exemplary system 100 ofFIG. 1 , theretailer computing device 150 is in two-way communication with theAGV 110 via thenetwork 125. For example, theretailer computing device 150 is configured, in some approaches, to transmit at least one signal to theAGV 110 to cause theAGV 110 to move toward and/or away from the restrictedarea 180 in order to transport, pick up, and/or drop off the product orproducts 190 ordered by the customer. In some embodiments, theretailer computing device 150 is configured to cause theUAV 110 to travel to the restrictedarea 180 designated by the customer, locate the restrictedarea 180, cause theAGV 110 to wait a predetermined time at the restrictedarea 180, and permit the customer to retrieve theproducts 190 from theAGV 110, for example, after verification of the customer's identity by the AGV 110 (or by the retailer computing device 150). In some embodiments, as will be described in more detail below, theretailer computing device 150 may be configured to determine whether one or more product pick/up and/or drop off conditions for theAGV 110 are met prior to instructing theAGV 110 to move into a product unloading position in the restrictedarea 180 and drop off aproduct 190 from thecargo space 119 of theAGV 110 in the restrictedarea 180, permitting the customer to retrieve theproduct 190 delivered by theAGV 110. - In some embodiments, the
retailer computing device 150 is configured to obtain GPS coordinates of the restrictedarea 180 and to obtain GPS coordinates of a physical location of theAGV 110. In one approach, the control circuit 210 (seeFIG. 2 ) of theretailer computing device 150 is configured, based on an analysis of the obtained GPS coordinates of the restrictedarea 180 and of the physical location of theAGV 110, to determine a route for theAGV 110 toward theentryway 185 and into the restrictedarea 180 and to the drop-off location 189 to deliver theproduct 190 ordered by the customer. It will be appreciated that instead or in addition to the GPS coordinates, theretailer computing device 150 may obtain a street address associated with the restrictedarea 180 and determine the route of theAGV 110 based on a known street address of the restrictedarea 180. Thecontrol circuit 210 of theretailer computing device 150 is also programmed to generate and transmit a signal including the route to theAGV 110 such that the movement of theAGV 110 is guided via the route determined by thecontrol circuit 210. - The
AGV 110 is generally a vehicle configured to autonomously traverse one or more intended environments in accordance with one or more routes and/or determined paths, and typically without the intervention of a human or a remote computing device, while retaining theproducts 190 therein and delivering theproducts 190 and/or to perform one or more tasks. Such a vehicle may be an autonomous ground vehicle (AGV), an unmanned aerial vehicle (UAV or drone), or the like. In some instances, however, a remote operator or a remote computer (e.g., retailer computing device 150) may temporarily or permanently take over operation of theAGV 110 using feedback information from the AGV 110 (e.g., audio and/or video content, sensor information, etc.) communicated to a remote navigation center and/or central control system (e.g., vianetwork 125 or other similar distributed network). - The
exemplary AGV 110 ofFIG. 1 includes one ormore data stores 112,sensors 114, andemitters 116 each in communication with one ormore control circuits 118. In some embodiments,emitter 116 andsensor 114 are implemented together through a single device. TheAGV 110 deployed in some embodiments of theexemplary system 100 does not require physical operation by a human operator and wirelessly communicates with, and is wholly or largely controlled by, theretailer computing device 150. For example, theretailer computing device 150 may control directional movement of theAGV 110 to the restrictedarea 180 based on a variety of inputs. In some approaches, thecontrol circuit 118 of theAGV 110 is programmed with global positioning system (GPS) coordinates of a restrictedarea 180 where theproducts 190 are to be delivered, and is configured to determine a route of theAGV 110 to the restrictedarea 180 and to cause theAGV 110 to move toward the restrictedarea 180 without receiving remote signals (e.g., route instructions) from theretailer computing device 150. - In some embodiments, the
emitter 116 is configured as a two-way transceiver that can receive the movement instructions (i.e., route instructions) in a signal transmitted over thenetwork 125 from theretailer computing device 150, and that can send one or more signals to theretailer computing device 150, or to anaccess control unit 187 operatively coupled to theentryway 185 and configured to open theentryway 185 of the restrictedarea 180 upon receiving the correct access code. In some embodiments, theaccess control unit 187 is operatively coupled to atransceiver 188 configured to transmit the GPS coordinates of the restrictedarea 180 over thenetwork 125. In some configurations, thetransceiver 188 is configured to transmit the GPS coordinates of the restrictedarea 180 to thecustomer information database 140 such that the GPS coordinates of the restrictedarea 180 can be stored in thecustomer information database 140 in association with the customer for later retrieval (e.g., by the retailer computing device 150). In some configurations, thetransceiver 188 is configured to transmit the GPS coordinates of the restrictedarea 180 directly to theretailer computing device 150 such that theretailer computing device 150 obtains the GPS coordinates of the restrictedarea 180 based on the GPS coordinates transmitted by thetransceiver 188 directly to the computing device. - In some embodiments, the
retailer computing device 150 determines an optimal travel route for theAGV 110 from the origin of travel (e.g., a deployment station) of theAGV 110 to the destination (e.g.,entryway 185 to the restrictedarea 180 or drop offlocation 189 in the restricted area 180) of theAGV 110. In some aspects, theretailer computing device 150 calculates multiple possible optimum routes. In some embodiments, thesystem 100 integrates 2D and 3D maps of the navigable space of theAGV 110 with physical locations of objects (e.g., trees, cars, houses, or the like) located between the deployment location of theAGV 110 and the destination location of theAGV 110. The 2D and 3D maps of relevant geographic locations may be downloaded in real-time or pre-stored in thecustomer information database 140. In one approach, after theretailer computing device 150 maps all objects to specific locations using algorithms, measurements and global position system (GPS) geo-location, the grids may be applied sectioning off the maps into access ways and blocked sections, enabling theAGV 110 use such grids for navigation and recognition. The grids may be applied to 2D horizontal maps along with 3D models. Such grids may start at a higher unit level and then can be broken down into smaller units of measure by theretailer computing device 150 when needed to provide more accuracy. - In some embodiments, the
retailer computing device 150 is configured to analyze GPS coordinates of the restrictedarea 180 designated by the customer, to determine an optimal route for theAGV 110 to the restrictedarea 180, and to transmit to the AGV 110 a signal over thenetwork 125 including route instructions to guide theAGV 110 to the restrictedarea 180 along the determined route. In turn, theAGV 110, upon receipt of such a signal from theretailer computing device 150, is configured to navigate, based on the route instructions, to the restrictedarea 180 while retaining theproducts 190 ordered by the customer therein, and to navigate within the restrictedarea 180 after theentryway 185 is opened in order to drop off the product at the drop offlocation 189. It will be appreciated that the route instructions, after being determined by theretailer computing device 150, can be recalculated by thecontrol circuit 210 of theretailer computing device 150 in real-time, for example, if an obstacle or another movement restriction is detected along the originally calculated route of theAGV 110, or if the customer updates the delivery location to another restrictedarea 180 designated by the customer. - While only
AGV 110 is shown inFIG. 1 for ease of illustration, it will be appreciated that in some embodiments, thesystem 100 may include any number ofAGVs 110 and theretailer computing device 150 may simultaneously communicate with and/or transmit route instructions to more than one (e.g., 5, 10, 50, 100, 1000, or more) AGVs 110 simultaneously to guide theAGVs 110 along the routes determined by theretailer computing device 150 in order to transportproducts 190 to their respective delivery destinations (e.g., restricted areas 180). Similarly, while only one restrictedarea 180 is depicted inFIG. 1 for ease of illustration, it will be appreciated that in some embodiments, one or more AGVs 110 of thesystem 100 may be simultaneously guided by one or moreretailer computing devices 150 to deliverproducts 190 to more than one (e.g., 5, 10, 50, 100, 1000, or more) different restrictedareas 180. As described above, theAGV 110, after receiving a signal including the route instructions from theretailer computing device 150 over thenetwork 125, navigates to the location of the restrictedarea 180 based on the route instructions while retaining theproducts 190 ordered by the customer therein. - In some embodiments, when the
AGV 110 moves to within a predetermined distance (e.g., 3 feet, 6 feet, 10 feet, 15 feet, 20 feet, etc.) from theaccess control unit 187, thecontrol circuit 118 of theAGV 110 is programmed to cause theemitter 116 of theAGV 110 to transmit, via thenetwork 125, a signal including an electronic confirmation that theproduct 190 ordered by the customer has been delivered by theAGV 110 to theentry way 185 at the restrictedarea 180 designated by the customer. In one approach, in response to receipt of such an electronic confirmation from theAGV 110, thecomputing device 150 is configured to transmit to the AGV 110 a signal including an access code for opening theentryway 185. In some embodiments, in response to receipt of the signal including the access code from theretailer computing device 150 over thewireless network 125, theAGV 110 is configured to relay (e.g., via the emitter 116) the access code to anaccess control unit 187 operatively coupled to theentryway 185. In other words, in some aspects, theemitter 116 of theAGV 110 is configured to receive the signal including the access code from theretailer computing device 150 over thewireless network 125 and to relay the access code to theaccess control unit 187 operatively coupled to theentryway 185. In some embodiments, theemitter 116 of theAGV 110 is configured for one or two way communication with thetransceiver 188 when theAGV 110 is located within a predetermined distance (e.g., 3 feet, 6 feet, 10 feet, 15 feet, 20 feet, etc.) of thetransceiver 188. - As such, the
AGV 110 advantageously does not have to store the access code in thedata store 112, which both reduces the data storage requirements of theAGV 110 and improves the security of thesystem 100 in that the access code to the restrictedarea 180 of the customer's home is only permanently stored in thecustomer information database 140 at a secure facility and not stored on anAGV 110, which moves around public streets and may become a theft target by hostile third parties. In response to receipt of the access code relayed by theAGV 110, theaccess control unit 187 causes theentryway 185 to open, thereby enabling theAGV 110 to enter the restrictedarea 180. In some embodiments, thecontrol circuit 118 of theAGV 110 is configured to generate, and theemitter 116 of theAGV 110 is configured to transmit, via thenetwork 125, a signal including an electronic confirmation that theAGV 110 successfully entered the restrictedarea 180 via theentry way 185. - In some approaches, in response to receipt from the
AGV 110 of the electronic confirmation that theAGV 110 successfully entered the restrictedarea 180 via theentryway 185, theretailer computing device 150 is configured to transmit to the AGV 110 a signal over thewireless network 125 including movement instructions for theAGV 110 while in the restrictedarea 180. In one approach, theretailer computing device 150 is also configured to again transmit the access code to theAGV 110 to enable theAGV 110 to again relay the access code to theaccess control unit 187 in order to close theentryway 185 while theAGV 110 is present in the restrictedarea 180, thereby advantageously enhancing the security of the restrictedarea 180 while theAGV 110 is moving within the restrictedarea 180. In some approaches, the route (i.e., movement) instructions for theAGV 110 while in the restrictedarea 180 are transmitted to theAGV 110 prior to theAGV 110 entering the restrictedarea 180 and/or prior to arriving at theentry way 185 to the restrictedarea 180. For example, the route (i.e., movement) instructions for theAGV 110 may be transmitted by to theAGV 110 by theretailer computing device 150 after theproduct 190 is loaded into theAGV 110 and prior to commencement of the delivery of theproduct 190 by theAGV 110. - In some configurations, based on the route instructions or a separate signal received from the
retailer computing device 150, theAGV 110 is configured to move into and within the restrictedarea 180 and deliver theproduct 190 ordered by the customer to a product drop offlocation 189 in the restrictedarea 180. In some configurations, based on the route instructions or a separate signal received from theretailer computing device 150, theAGV 110 is configured to remain proximate the product drop offlocation 189 while retaining theproduct 190 ordered by the customer therein for a period of time indicated in the route instructions or separate control signal. In some configurations, based on the route instructions or a separate signal received from theretailer computing device 150, theAGV 110 is configured to drop theproduct 190 off (i.e., release the product from the cargo space 119) at the product drop offlocation 189. Whilereference numeral 189 inFIG. 1 is referred to as a drop off location, it will be appreciated that in some embodiments, theAGV 110 is configured to pick up one or more products 190 (e.g. return products) from the drop offlocation 189, for example, after dropping off one ormore products 190 at the drop offlocation 189, or without having to drop off the products at the drop offlocation 189. - In some embodiments, when the
AGV 110 moves into position to drop off theproduct 190 or to release theproduct 190 to the customer at the drop offlocation 189, thecontrol circuit 118 of theAGV 110 is programmed to cause theemitter 116 of theAGV 110 to transmit, via thenetwork 125, a signal including an electronic confirmation that theproduct 190 ordered by the customer has been delivered by theAGV 110 to the drop offlocation 189 in the restrictedarea 180. In one approach, in response to receipt from theAGV 110 of such an electronic delivery confirmation, thecomputing device 150 is configured to transmit to thecustomer computing device 120 an electronic alert that theproduct 190 ordered by the customer has been delivered to the drop offlocation 189. In situations when the customer is home, the customer may come out to the drop offlocation 189 after receiving such an electronic delivery confirmation in order to attempt to either retrieve theproduct 190 from thecargo space 119 of theAGV 110, or from an exposed surface of the drop offlocation 189. - In some embodiments, one or more product drop stations may be provided in the restricted
area 180 in order to enable theAGV 110 to drop off theproduct 190 in a specifically designated place. In one approach, such product drop stations may be in the form of secure lockers such that the product remains secured and may be accessed only by the customer even after theAGV 110 drops the product off in the restricted area 180 (e.g., a garage). In one approach, the product drop stations may include one or more charge ports where theAGV 110 may be recharged. - In some embodiments, the
AGV 110 is configured to, in response to either a control signal from theretailer computing device 150, or a verification code entered by the customer, to permit the customer to retrieve theproducts 190 ordered by the customer from the interior cargo space of theAGV 110. According to some embodiments, theemitter 116 of theAGV 110 is also configured to transmit, via thenetwork 125, a signal including an electronic confirmation that theproduct 190 ordered by the customer has been retrieved by the customer from theAGV 110 at the drop offlocation 189 of the restrictedarea 180. In some approaches, in response to receipt of such an electronic confirmation from theAGV 110, theretailer computing device 150 is configured to transmit return route instructions to theAGV 110 to guide theAGV 110 back to a deployment station of theAGV 110, or to another restrictedarea 180 of another customer designated as a delivery location for anotherproduct 190 stored in theAGV 110. - In some embodiments, the
control circuit 118 is configured to generate and theemitter 116 of theAGV 110 is configured to transmit, via thenetwork 125, a signal including an electronic confirmation that the AGV has moved a predetermined distance (e.g., 3 feet, 6 feet, 10 feet, 15 feet, 20 feet, etc.) out of the restrictedarea 180 after having successfully delivered theproduct 190 at the drop offlocation 189. In some approaches, in response to receipt of such an electronic confirmation from theAGV 110, theretailer computing device 150 is configured to transmit a signal including the access code for closing theentryway 185, which may be the same as, or different from the access code for opening theentryway 185. In some embodiments, in response to receipt of the signal including the access code from theretailer computing device 150 over thewireless network 125, theAGV 110 is configured to relay (e.g., via the emitter 116) the access code to theaccess control unit 187 operatively coupled to theentryway 185 in order to enable theaccess control unit 187 to close theentryway 185 and thereby prevent unauthorized access to the restrictedarea 180. In one approach, after theAGV 110 relays the access code to theaccess control unit 187 in order to close theentryway 185, theAGV 110 is configured to confirm that theentryway 185 actually closes, for example, by activating (via the control circuit 118) thesensor 114, which may be a video camera that visually confirms closure of theentryway 185. In one configuration, if thesensor 114 indicates that theentryway 185 has not closed, thecontrol circuit 118 of theAGV 110 is programmed to cause theAGV 110 to return to the drop offlocation 189 in order to guard theproduct 190 left in the drop off location 189 (e.g., to prevent theft). - In some embodiments, the
AGV 110 includes one or more propulsion systems (e.g., motors, wheels, tank treads, etc.) that enable theAGV 110 to at least accelerate, deaccelerate, and/or traverse an environment using a navigation coordinate system, such as GPS, coordinate mapping information, beacon location information, cellular signal triangulation, other navigation systems and/or information, or a combination of two or more of such navigation systems and/or information. Further, the navigation coordinate system can be configured to provide location information, and in some instances time information. In some embodiments, theAGV 110 is configured to operate in different weather conditions, and/or can be readily modified depending on expected weather conditions (e.g., wheels replaced with tank treads when it is anticipated that theAGV 110 may encounter snow and/or ice). TheAGV 110 can, in some applications, be further configured to communicate with other AGVs, other autonomous vehicles (e.g., unmanned aerial vehicles (UAVs)), transport vehicles, multiple different types of computing devices, a remote central control system, other computing devices, remote databases, and/or other such devices. - In some embodiments, the
emitter 116 of theAGV 110 is a wired or a wireless transceiver configured to convey information, notifications, warnings and/or deterrents to a customer, a worker of the retailer, a potential threat (e.g., animal, person that is a potential threat), unknown third party, a remote central control system, a security service, a municipal police service, other such entities, or combination of two or more of such entities. Theemitter 116 can comprise one or more output devices (e.g., speakers, displays, whistles, buzzers, lights and similar items) that convey text, audio, and/or visual signals. In some embodiments,emitter 116 can be configured to convey notifications having textual, audible and/or visual content. Similarly, theemitter 116 may additionally or alternatively be configured to facilitate wireless data communications with a computing device, including but not limited to,retailer computing device 150. - In some embodiments, the
emitter 116 may be configured to emit one or more irritants. For example, an “irritant” can include one or more stimuli or agents that can cause a “hostile” person, animal, or the like to not touch or tamper with theAGV 110 and/or to remove themselves from a predetermined perimeter about theAGV 110. Applicable irritants can include chemical, audible, visual irritants, or combination of two or more such irritants. In some embodiments, theemitter 116 can comprise one or more reservoirs, pumps, nozzles, motors, compressed gas, etc. that can be used to eject and/or adjust the direction of emission of the irritant. Additionally or alternatively, the output devices of theemitter 116 may include one or more speakers, whistles, buzzers, and the like that can be activated to generate one or more warnings (e.g., that may gradually increase in volume) audible irritants, and/or deterrent noises. Audible irritants can be substantially any relevant audible noise that can provide an alert, warn and/or deter interaction with theAGV 110. For example, audible irritants can include audible sounds within a frequency range of about 2 kHz to about 5 kHz, canine-specific audible sounds, sounds having a volume greater than one or more thresholds, audible alerts that can be understood by a person, and/or other such audible alerts and/or irritants. - In some instances, one or
more emitters 116 enable theAGV 110 to progressively escalate the deterrent effect of the deterrent and/or irritant. For example, theAGV 110 may initiate the generation of an audible alert when a human, animal, automobile, or the like is detected within a first threshold distance (which may depend on a speed at which the animal, person, automobile, etc. is approaching), increase the volume of the audible alert when within a second threshold distances (less than the first threshold distance), spray one or more streams of water when within a third threshold distance (less than the second distance), and spray prepper spray when within a fourth threshold distance for more than a threshold period of time and/or contacts theAGV 110. - The
exemplary AGV 110 further includes one ormore sensors 114. Thesensors 114 can include substantially any relevant device that provides information to theAGV 110 to be used in navigation, customer detection, potential threat detection, distance measurements, environment mapping, location determination, and/or other such sensor information. In some embodiments, thesensor 114 includes one or more devices that can be used to capture data related to one or more objects located within a threshold distance relative to theAGV 110. For example, theAGV 110 includes at least onesensor 114 configured to detect at least one obstacle between theAGV 110 and the restrictedarea 180 or in the restrictedarea 180 between theAGV 110 and the drop offlocation 189 along the route determined by theretailer computing device 150 for theAGV 110. Based on the detection of one or more obstacles by such asensor 114, theAGV 110 is configured to avoid the obstacle(s). - In some embodiments, one or
more sensors 114 can be included and/or cooperated with theAGV 110 that include, but are not limited to, one or more sensors to detect an object within one or more threshold or predetermined distances of theAGV 110, capture data within a threshold distance relative toAGV 110, detect movement, measure temperature, capture images and/or video, capture thermographic, infrared, and/or multi spectral images, capture images of entities attempting to tamper withAGV 110, one or more accelerometers, one or more gyroscopes, one or more odometers, one or more location sensors, one or more microphones (e.g., which can be configured to capture audible authentication codes and/or voice prints, threatening language, verbal input from customers, verbal inquiries from customers, etc.), one or more distance measurement sensors (e.g., laser sensors, sonar sensors, sensors that measure distance by emitting and capturing a wireless signal (which can comprise light and/or sound) etc.), 3D scanning sensors, other such sensors, or a combination of two or more of such sensors. - In some aspects, the
AGV 110 includes one ormore sensors 114 in communication with one or more access panels ofAGV 110 and/or positioned adjacent to such access panels to sense when such panels are tampered with. In some aspects, theAGV 110 includes one or more sensors configured to detect the temperature in thecargo space 119 of theAGV 110 and coupled to one or more controllers configured to raise or lower the temperature of thecargo space 119 of theAGV 110 in order to preserve the freshness of theproduct 190 or to bring theproduct 190 to an appropriate consumption temperature. More generally, in some embodiments, package detection and tracking may include elements including but not limited to ambient temperature of thecargo space 119, temperature of theproduct 190, acceptable thresholds for temperature of theproduct 190, or a combination thereof. - In some embodiments, the
AGV 110 includes asensor 114 configured to detect a combination of numbers indicating a street address associated with the restrictedarea 180 designated as a delivery location by the customer. For example, theemitter 116AGV 110 can be configured to transmit sensor data including the combination of letters detected by thesensor 114 on the curb in front of the house of which the garage is the restrictedarea 180 being delivered to, enabling theretailer computing device 150 to authenticate the restrictedarea 180 based on the received sensor data and the customer address information stored in thecustomer information database 140. - In some embodiments, the
system 100 may include an access encryption system comprising a blockchain that may include authentication-based access and encryption to enables theAGV 110 to access the restricted area and/or to track and authenticate theAGV 110 and/or theproducts 190 being delivered by theAGV 110 to the restrictedarea 180. For example, when a customer (e.g., in the restricted area 180) interacts with aproduct 190, the customer is permitted to do so via a private or public authentication key. In response, new blocks may be added to subsequent root blocks, which will contain information relating to the date and time aproduct 190 delivered by theAGV 110 was accessed, as well as the authentication key that accessed theproduct 190. In some embodiments, authentication and access may be restricted to specific blockchain authentication keys that enable access of theAGV 110 to the restrictedarea 180 and/or the customer to access the contents of anAGV 110. In some aspects, access to the products in theAGV 110 may be determined at the scheduling and purchase of a delivery or products and in other aspects, access may be determined while aproduct 190 is moved through the supply chain and/or when theproduct 190 is delivered by theAGV 110 to the drop offlocation 189. In some embodiments, temporary authentication keys may be provide to a customer to grant temporary access to anAGV 110 or a specific storage compartment of thecargo space 119 of theAGV 110. - In some embodiments, one or
more data stores 112 provide an information repository that typically storesprograms 111 and files 113. TheAGV 110 may, in some embodiments, further access one ormore programs 111,files 113, and/or other relevant information external toAGV 110 and accessible vianetwork 125.Files 113 can comprise information transmitted by theretailer computing device 150, data captured by thesensor 114, customer information, customer identifier information, computing device identifier information, product information, customer order information, navigation and/or routing information, location information, mapping information, AGV identifier information, communication procedures, threat information, sensor data, images, video, historic information, and/or other such information, and/or other such information. For example, in some embodiments,files 113 can further comprise one or more notification templates, which are software used by theAGVs 110 as a basis to convey salutations and/or advertisements to customers and/or pedestrians located within a threshold distance relative to theAGVs 110. Notification template's content may at least be provided by product manufacturers and/or owners of theAGVs 110. In some embodiments, notification templates may further be personalized using customer's specific information to, for example, target a specific customer and increase engagement between the customer and theAGV 110. - Personalized notifications can reference customer history, current needs, anticipated needs, and/or similar information that can increase the probability that customers make desired product and/or service purchases. Commercial product information and/or customer specific information may be added to notification templates in real-time prior to their transmission by the
AGVs 110 when the presence of customers and/or pedestrians is detected by theAGV 110. - Commercial product information can include, for example, product names, product types, manufacturer names, manufacturer origin, ingredient names, ingredient types, component names, and/or component types. Notification templates can comprise audio and/or visual components, for example, music, speech, tones, images, and/or video.
Files 113 can further comprise personal and/or non-public information about the customers, including but not limited to, information about browser history, location, birthdays, delivery dates, spouses, pets, and/or heirs associated with the customers.Files 113 can comprise predetermined biometric data associated with the customers, which can be used for authentication purposes, and/or determining unknown and/or hostile third parties. Applicable biometric data can include, but is not limited to voice prints, iris patterns, retina-patterns, hand geometries, earlobe geometries, facial landmarks, thermographic signatures, vascular patterns, skin texture data points, and/or walking gate data points. Predetermined biometric data can include data captured by thesensors 114, provided by the customers, external sensors, and/or received from an external central computing system. - As described above, the
AGV 110 further includesprograms 111 that are stored in thedata store 112 and/or other memory, and utilized at least by the one ormore control circuits 118. In some applications, one or more of theprograms 111 are software that are executed by the one ormore control circuits 118 to facilitate the operation, control, commercial activity, interaction with customers, deterring potential danger and the like to theAGV 110. For example, the one ormore control circuits 118, in executing one ormore programs 111, can use data generated bysensors 114 to detect when customers or hostile third parties are positioned within a threshold distance relative to theAGVs 110, generate notifications in response to detecting the presence of customers and/or hostile third parties, as well as generate notifications in response to receiving triggering events from theretailer computing device 150. For example, the presence of customers positioned within threshold distances relative toAGVs 110 can be confirmed using geolocation data, which reflects the locations of the customers, received from the retailer computing device 150 (e.g., based on GPS data obtained from the customer computing device 120). - Hostile third parties can refer to any human or animal or autonomous vehicle attempting to interfere with the operation of
AGV 110, which may, for example, be characterized as any attempts to gain unauthorized access to thecargo space 119 of theAGV 110, attempts to gain unauthorized access to theAGV 110 software and/or hardware, attempts to gain unauthorized access toproducts 190 being transported by theAGV 110, attempt to damage theAGV 110, attempts to obstruct the travel path ofAGV 110, and/or other activities that may be detrimental to theAGV 110, and/or interfere with theAGV 110. - Additionally or alternatively,
control circuit 118, in executing one ormore programs 111, can generate one or more types of biometric data (discussed above) using information captured viasensor 114, and determine whether the generated biometric data has one or more threshold relationships to predetermined biometric data included infiles 113, wherein generated biometric data having threshold relationships identify customers and such data lacking the threshold relationships identify unknown and/or hostile third parties. - With reference to
FIG. 2 , an exemplaryretailer computing device 150 configured for use with the systems and methods described herein may include a control circuit orcontrol circuit 210 including a processor (for example, a microprocessor or a microcontroller) electrically coupled via aconnection 215 to amemory 220 and via aconnection 225 to apower supply 230. Thecontrol circuit 210 can comprise a fixed-purpose hard-wired platform or can comprise a partially or wholly programmable platform, such as a microcontroller, an application specification integrated circuit, a field programmable gate array, and so on. These architectural options are well known and understood in the art and require no further description here. - The
control circuit 210 of theretailer computing device 150 can be configured (for example, by using corresponding programming stored in thememory 220 as will be well understood by those skilled in the art) to carry out one or more of the steps, actions, and/or functions described herein. In some embodiments, thememory 220 may be integral to the processor-basedcontrol circuit 210 or can be physically discrete (in whole or in part) from thecontrol circuit 210 and is configured non-transitorily store the computer instructions that, when executed by thecontrol circuit 210, cause thecontrol circuit 210 to behave as described herein. (As used herein, this reference to “non-transitorily” will be understood to refer to a non-ephemeral state for the stored contents (and hence excludes when the stored contents merely constitute signals or waves) rather than volatility of the storage media itself and hence includes both non-volatile memory (such as read-only memory (ROM)) as well as volatile memory (such as an erasable programmable read-only memory (EPROM))). Accordingly, the memory and/or the control unit may be referred to as a non-transitory medium or non-transitory computer readable medium. - The
control circuit 210 of theretailer computing device 150 is also electrically coupled via aconnection 235 to an input/output 240 that can receive signals from the order processing server 130 (e.g., data from thecustomer information database 140 relating to an order for aproduct 190 placed by the customer and/or information (e.g., GPS coordinates) associated with a physical location (e.g., GPS coordinates or street address) of the restrictedarea 180 selected by the customer), or from any other source that can communicate with theretailer computing device 150 via a wired or wireless connection. The input/output 240 of theretailer computing device 150 can also send signals to the order processing server 130 (e.g., electronic notification confirming retrieval of theproduct 190 by the customer from the AGV 110), or to any other device in wired or wireless communication with theretailer computing device 150. - In the embodiment shown in
FIG. 2 , the processor-basedcontrol circuit 210 of theretailer computing device 150 is electrically coupled via aconnection 245 to auser interface 250, which may include a visual display or display screen 260 (e.g., LED screen) and/orbutton input 270 that provide theuser interface 250 with the ability to permit an operator of theretailer computing device 150 to manually control theretailer computing device 150 by inputting commands via touch-screen and/or button operation and/or voice commands to, for example, to communicate with thecustomer computing device 120 and/or anAGV 110. It will be appreciated that the performance of such functions by the processor-basedcontrol circuit 210 of theretailer computing device 150 is not dependent on a human operator, and that thecontrol circuit 210 may be programmed to perform such functions without a human operator. - In some embodiments, the
display screen 260 ofretailer computing device 150 is configured to display various graphical interface-based menus, options, and/or alerts that may be transmitted to theretailer computing device 150 and displayed on thedisplay screen 260 in connection with various aspects of the order placed by the customer. Theinputs 270 of theretailer computing device 150 may be configured to permit an operator to navigate through the on-screen menus on theretailer computing device 150 and make changes and/or updates to the route instructions for theAGV 110 during delivery of theproduct 190 to the restrictedarea 180. It will be appreciated that thedisplay screen 260 may be configured as both a display screen and an input 270 (e.g., a touch-screen that permits an operator to press on thedisplay screen 260 to enter text and/or execute commands.) - In some embodiments, the
control circuit 210 of theretailer computing device 150 is programmed to determine that one ormore products 190 ordered by the customer via theorder processing server 130 is to be delivered to a restrictedarea 180 having an access code controlledentryway 185. For example, when the customer places an order for one ormore products 190 via theprocessing server 130, the customer is provided with aninput field 124 on thegraphical interface 122 of thecustomer computing device 120 prompting the customer to select a delivery option, with one of the available options being delivery of theproduct 190 to a restricted area 180 (e.g., a garage, front yard, side entry, etc.) designated by the customer. In some embodiments, thecontrol circuit 210 of theretailer computing device 150 is programmed to authorize commencement of a delivery attempt of theproduct 190 to the customer after verification that physical location of the restrictedarea 180 has been identified. - In one aspect, prior to, or after the commencement of the delivery attempt of one or
more products 190 to the restrictedarea 180 designated for delivery by the customer, thecontrol circuit 210 of theretailer computing device 150 is programmed to receive and/or otherwise obtain the physical location of the restrictedarea 180. For example, in a situation where the customer requested delivery of theproducts 190 to a garage at a residence of the customer, thecontrol circuit 210 may obtain the street address of the customer and/or GPS coordinates and/or other location identifiers associated with the garage at the customer's residence from thecustomer information database 140 or, in one aspect, directly from thetransceiver 188 located in the customer's garage. - In some embodiments, when the delivery of the
product 190 via theAGV 110 is in progress, and more specifically, after theAGV 110 has arrived at theentryway 185 to the restrictedarea 180, thecontrol circuit 210 is configured to receive, via thenetwork 125, an authentication of the identity of the restrictedarea 180. In one aspect, thesensor 114 of theAGV 110 may include a video camera configured to visually detect the customer's street address (e.g., by detecting the numbers on a curb or on the house of the customer) and/or visually detect the garage door itself (e.g., snap a still photo of the garage door) and generate identity detection data. Theemitter 116 of theAGV 110 may then transmit such identity detection data over thenetwork 125 to theretailer computing device 150, after which thecontrol circuit 210 of theretailer computing device 150 is configured to obtain (e.g., from the customer information database 140) authentic identification data associated with the restrictedarea 180 to determine whether there is a match. In one approach, if the identity detection data associated with the restrictedarea 180 transmitted by theemitter 116 matched the authentic identification data stored in thecustomer information database 140, thecontrol circuit 210 of theretailer computing device 150 is programmed to send (via the input/output 240) to the AGV 110 a signal including an access code that, when relayed by theAGV 110, causes theaccess control unit 187 to open theentryway 185. In one approach, the access code to theaccess control unit 187 is not transmitted to theAGV 110 directly from theretailer computing device 150, but is transmitted to theAGV 110 directly fromcustomer information database 140. In one aspect, upon a successful relay of the access code by theAGV 110 to theaccess control unit 187 and successful opening of the entryway 185 (which is confirmed bysensor 114 of the AGV 110), theAGV 110 is configured to transmit, and the control circuit is 210 of theretailer computing device 150 is configured to receive, over thenetwork 125, an electronic confirmation that theAGV 110 has been successfully granted access into the restrictedarea 180. - In some embodiments, the
control circuit 210 of theretailer computing device 150 is programmed to generate customer alerts in connection with the delivery of theproducts 190 to the drop offlocation 189 at the restrictedarea 180. The customer alerts may be generated by theretailer computing device 150 based on information received from theAGV 110. In the embodiment shown inFIG. 1 , the customer alerts may be transmitted from theretailer computing device 150 via thenetwork 125 to thecustomer computing device 120, and thecustomer computing device 120 may transmit data responsive to the customer alerts and/or other data to theretailer computing device 150 via thenetwork 125. - For example, the
retailer computing device 150 may transmit a signal over thenetwork 125 to thecustomer computing device 120 including an alert indicating that theAGV 110 has dropped off theproduct 190 at the drop oflocation 189, or an alert indicating that theAGV 110 was unable to successfully gain access to the restrictedarea 180. Similarly, thecustomer computing device 120 may transmit a signal over thenetwork 125 to theretailer computing device 150 including a notification that theproduct 190 dropped off by theAGV 110 at the drop offlocation 189 has been successfully picked up by the customer. In some embodiments, customer alerts sent to thecustomer computing device 120 may include but are not limited to short message service (SMS) messages, electronic mail (e-mail) messages, instant messenger messages, voice mail messages, and/or push notifications (to a mobile app on the customer computing device 120). -
FIG. 3 shows an embodiment of anexemplary method 300 for facilitating delivery of aproduct 190 ordered by a customer to a customer-specifiedrestricted area 180 accessible by anentryway 185 openable via an access code. The embodiment of themethod 300 illustrated inFIG. 3 includes providing anAGV 110 configured to retain and transport theproduct 190 ordered by the customer (step 310) and providing aretailer computing device 150 including a processor-based control circuit 210 (step 320). - In some embodiments, when the
AGV 110 moves to within a predetermined distance (e.g., 3 feet, 6 feet, 10 feet, 15 feet, 20 feet, etc.) from theaccess control unit 187 that controls the opening and closing of theentryway 185 to the restrictedarea 180, thecontrol circuit 118 of theAGV 110 causes theemitter 116 of theAGV 110 to transmit, via thenetwork 125, a signal including an electronic confirmation that theproduct 190 ordered by the customer has been delivered by theAGV 110 to theentry way 185 at the restrictedarea 180. In response to receipt of such an electronic confirmation from theAGV 110, theexemplary method 300 ofFIG. 300 includes sending a first signal from theretailer computing device 150 to theAGV 110 via awireless network 125, the first signal including the access code for opening the entryway 185 (step 330). After the signal including the access code for opening theentryway 185 is transmitted over thenetwork 125 from theretailer computing device 150 to theAGV 110, theexemplary method 300 further includes relaying, via theAGV 110 and in response to receipt of the first signal from the computing device over thewireless network 125, the access code to theaccess control unit 187 operatively coupled to the entryway 185 (step 340). - In one aspect, the
AGV 110 is configured to relay the access code received from theretailer computing device 150 via theemitter 116, which is configured for one or two way communication with thetransceiver 188 coupled to theaccess control unit 187 when theAGV 110 is located within a predetermined distance (e.g., 3 feet, 6 feet, 10 feet, 15 feet, 20 feet, etc.) of thetransceiver 188. When theAGV 110 relays the access code received from theretailer computing device 150 to thetransceiver 188 coupled to theaccess control unit 187 that controls the opening and closing of theentryway 185 to the restrictedarea 180, themethod 300 further includes causing theaccess control unit 187 to open theentryway 185 in response to receiving the access code relayed by theAGV 110 to the access control unit 187 (step 350). - As discussed above, in some embodiments, the
retailer computing device 150 determines an optimal travel route for theAGV 110 from the origin of travel (e.g., a deployment station) of theAGV 110 to the destination (e.g.,entryway 185 to the restrictedarea 180 or drop offlocation 189 in the restricted area 180) of theAGV 110. For example, according to some configurations, theretailer computing device 150 is configured to analyze GPS coordinates of the restrictedarea 180 designated by the customer, to determine an optimal route for theAGV 110 to the restrictedarea 180, and to transmit to the AGV 110 a signal over thenetwork 125 including route instructions to guide theAGV 110 to the restrictedarea 180 and/or to the drop offlocation 189 along the determined route. To that end, theexemplary method 300 includes transmitting, from theretailer computing device 150, a second signal to theAGV 110 over thewireless network 125, the second signal including movement instructions for the AGV 110 (step 360). - In turn, the
AGV 110, upon receipt of such a signal from theretailer computing device 150, is configured to navigate, based on the route instructions, to theentryway 185 of the restrictedarea 180 and to the drop offlocation 189 in the restrictedarea 180 while retaining theproducts 190 ordered by the customer therein. To that end, theexemplary method 300 ofFIG. 3 further includes moving theAGV 110 into the restrictedarea 180 to deliver theproduct 190 ordered by the customer based on the movement instructions contained in the second signal received by theAGV 110 from the retailer computing device (step 370). It will be appreciated that after transmitting initial movement instructions to theAGV 110, thecontrol circuit 210 of theretailer computing device 150 according to some embodiments is programmed to recalculate the route of theAGV 110 in real-time, for example, to facilitate avoidance of obstacles along the originally calculated route of theAGV 110. - In some embodiments, the
AGV 110 transmits (e.g., via theemitter 116 over the network 125) a signal including an electronic confirmation that theproduct 190 ordered by the customer has been dropped off by theAGV 110 at the drop offlocation 189 designated by the customer. In one approach, such an electronic confirmation is sent directly to theretailer computing device 150, although the electronic confirmation may be instead sent to thecustomer information database 140 for retrieval by theretailer computing device 150. In some embodiments, after receipt from theAGV 110 of such an electronic confirmation, theretailer computing device 150 transmits an electronic notification to thecustomer computing device 120 indicating that theproduct 190 ordered by the customer has been dropped off at the drop offlocation 189. In some configurations, when the route instructions transmitted to theAGV 110 by theretailer computing device 150 include an instruction to theAGV 110 to remain at the drop offlocation 189 for a predetermined interval of time (e.g., 15 minutes, 30 minutes, 1 hour, or more than 1 hour), theAGV 110 is configured to remain at the drop offlocation 189 for the period of time indicated in the route instructions. In such situations, the electronic notification transmitted by theretailer computing device 150 to thecustomer computing device 120 includes an indication of the interval of time that theAGV 110 will wait at the drop offlocation 189 for the customer to retrieve theproduct 190 from thecargo space 119 of theAGV 110. - In some embodiments where the
AGV 110 is instructed to remain at the drop offlocation 189 until the customer manually retrieves theproduct 190 from thecargo space 119 of theAGV 110, the electronic notification transmitted by theretailer computing device 150 to thecustomer computing device 120 includes a verification code that the customer would be required to provide to the AGV 110 (either via thecustomer computing device 120 or by manually entering via an interface of the AGV 110) in order to gain access to thecargo space 119 of theAGV 110. As described above, instead of a verification code that must be entered or otherwise transmitted by the customer, theAGV 110 according to some embodiments is equipped with asensor 114 configured to detect biometric data associated with the customer, enabling the verification of the customer via the biometric data detected by thesensor 114. As described above, theAGV 110, in response to either a control signal from theretailer computing device 150, or a verification code or biometric data entered by the customer, permits the customer to retrieve theproduct 190 ordered by the customer from thecargo space 119 of theAGV 110. - For example, after the customer or person attempting to retrieve the
product 190 from theAGV 110 is authenticated as an authorized person, theAGV 110 either opens thecargo space 119 to permit the customer to remove theproduct 190 from thecargo space 119, or ejects theproduct 190 from thecargo space 119 without opening thecargo space 119 to access by the customer. In addition, in some configurations, theemitter 116 of theAGV 110 is also configured to transmit, via thenetwork 125, a signal including an electronic confirmation that theproduct 190 ordered by the customer has been retrieved by the customer from theAGV 110 at the drop offlocation 189 in the restrictedarea 180 designated as the delivery location by the customer. - In one approach, in response to receipt of such an electronic confirmation from the
AGV 110, theretailer computing device 150 transmits a signal including updated route instructions to theAGV 110 to guide theAGV 110 back to a deployment station of theAGV 110, or to another restrictedarea 180 designated as a delivery location by another customer of the retailer. In turn, theAGV 110, upon receipt of such a signal from theretailer computing device 150, navigates either back to a deployment station or to the next delivery destination based on the updated route instructions. In some embodiments, in response to receipt of the electronic confirmation from theAGV 110 that an authorized customer retrieved theproduct 190 from theAGV 110, theretailer computing device 150 transmits a signal to theorder processing server 130 indicating that the order placed by the customer to have theproduct 190 delivered to the restrictedarea 180 has been successfully completed. - The systems and methods described herein advantageously allow customers to purchase products from a retailer and have the products conveniently delivered for the customers to restricted areas at the residences of the customers while the customers may be away from their residences. Such systems and methods provide a significant convenience for the customers of the retailer and are likely to increase customer loyalty to the retailer. In addition, such systems and methods provide retailers with significant operation cost savings, since deliveries are made via autonomous ground vehicles that do not require a human operator. In addition, the systems and methods provided herein, by dropping off products in secured areas, increase the likelihood that the product delivered by the autonomous ground vehicles may be stolen by hostile third parties or damages by severe weather conditions.
- Those skilled in the art will recognize that a wide variety of other modifications, alterations, and combinations can also be made with respect to the above described embodiments without departing from the scope of the invention, and that such modifications, alterations, and combinations are to be viewed as being within the ambit of the inventive concept.
Claims (20)
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Cited By (13)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20190041852A1 (en) * | 2017-08-02 | 2019-02-07 | X Development Llc | Model for Determining Drop-off Spot at Delivery Location |
GB2571150A (en) * | 2018-02-15 | 2019-08-21 | Jaguar Land Rover Ltd | Vehicle control system and control method |
US10553061B2 (en) * | 2017-12-12 | 2020-02-04 | Toyota Jidosha Kabushiki Kaisha | Authentication information control system, authentication information control method, and non-transitory computer-readable recording medium |
CN110852660A (en) * | 2018-08-20 | 2020-02-28 | 富晋精密工业(晋城)有限公司 | Logistics scheduling device, logistics scheduling method and storage equipment |
US10592843B2 (en) * | 2015-11-25 | 2020-03-17 | Walmart Apollo, Llc | Unmanned aerial delivery to secure location |
CN111198567A (en) * | 2020-01-17 | 2020-05-26 | 北京大学 | Multi-AGV collaborative dynamic tracking method and device |
US10874240B2 (en) | 2016-10-04 | 2020-12-29 | Walmart Apollo, Llc | Landing pad receptacle for package delivery and receipt |
CN113168182A (en) * | 2018-12-03 | 2021-07-23 | 伊玛谢林(德国)有限公司 | Infrastructure system |
US11353892B2 (en) * | 2016-10-17 | 2022-06-07 | X Development Llc | Drop-off location planning for delivery vehicle |
US20220230132A1 (en) * | 2019-12-17 | 2022-07-21 | The Chamberlain Group Llc | System and Method For Enabling Unattended Package Delivery to Multi-Dwelling Properties |
US11580614B2 (en) | 2016-11-10 | 2023-02-14 | Walmart Apollo, Llc | Systems and methods for delivering products via autonomous ground vehicles to restricted areas designated by customers |
US11654570B2 (en) * | 2019-12-27 | 2023-05-23 | Lg Electronics Inc. | Self-driving robot and method of operating same |
US20240092313A1 (en) * | 2022-09-21 | 2024-03-21 | Ford Global Technologies, Llc | Consignment delivery methods and systems |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2019028039A1 (en) | 2017-08-01 | 2019-02-07 | The Chamberlain Group, Inc. | System for facilitating access to a secured area |
US11055942B2 (en) | 2017-08-01 | 2021-07-06 | The Chamberlain Group, Inc. | System and method for facilitating access to a secured area |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20100100233A1 (en) * | 2008-10-22 | 2010-04-22 | Lockheed Martin Corporation | Universal intelligent postal identification code |
US9134426B1 (en) * | 2010-09-16 | 2015-09-15 | United Parcel Service Of America, Inc. | Systems and methods for identifying attributes located along segments of a driving route |
US20150301150A1 (en) * | 2014-02-17 | 2015-10-22 | Bruce E. Stuckman | Delivery beacon device and methods for use therewith |
US9534905B1 (en) * | 2016-01-25 | 2017-01-03 | International Business Machines Corporation | Indoor location vehicle delivery |
US10245993B1 (en) * | 2016-09-29 | 2019-04-02 | Amazon Technologies, Inc. | Modular autonomous ground vehicles |
Family Cites Families (21)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US7979173B2 (en) * | 1997-10-22 | 2011-07-12 | Intelligent Technologies International, Inc. | Autonomous vehicle travel control systems and methods |
US6300873B1 (en) * | 1999-09-16 | 2001-10-09 | Atlantes Services, Inc. | Locking mechanism for use with one-time access code |
US20140254896A1 (en) | 2011-07-18 | 2014-09-11 | Tiger T G Zhou | Unmanned drone, robot system for delivering mail, goods, humanoid security, crisis negotiation, mobile payments, smart humanoid mailbox and wearable personal exoskeleton heavy load flying machine |
US20060184456A1 (en) | 2003-07-21 | 2006-08-17 | De Janasz Christopher G | Vehicle-based wireless identification system |
US7332890B2 (en) | 2004-01-21 | 2008-02-19 | Irobot Corporation | Autonomous robot auto-docking and energy management systems and methods |
US9070101B2 (en) * | 2007-01-12 | 2015-06-30 | Fatdoor, Inc. | Peer-to-peer neighborhood delivery multi-copter and method |
US9373149B2 (en) * | 2006-03-17 | 2016-06-21 | Fatdoor, Inc. | Autonomous neighborhood vehicle commerce network and community |
US20090066476A1 (en) * | 2007-04-17 | 2009-03-12 | Fonekey, Inc. | Method of self-service access control for frequent guests of a housing facility |
US20120280783A1 (en) * | 2011-05-02 | 2012-11-08 | Apigy Inc. | Systems and methods for controlling a locking mechanism using a portable electronic device |
US10551851B2 (en) * | 2013-07-01 | 2020-02-04 | Steven Sounyoung Yu | Autonomous unmanned road vehicle for making deliveries |
US9785911B2 (en) | 2013-07-25 | 2017-10-10 | I AM Robotics, LLC | System and method for piece-picking or put-away with a mobile manipulation robot |
US9573684B2 (en) * | 2013-10-26 | 2017-02-21 | Amazon Technologies, Inc. | Unmanned aerial vehicle delivery system |
US20150180980A1 (en) * | 2013-12-24 | 2015-06-25 | Dropbox, Inc. | Systems and methods for preserving shared virtual spaces on a content management system |
US20150202770A1 (en) * | 2014-01-17 | 2015-07-23 | Anthony Patron | Sidewalk messaging of an autonomous robot |
US10078136B2 (en) | 2014-03-25 | 2018-09-18 | Amazon Technologies, Inc. | Sense and avoid for automated mobile vehicles |
US10657483B2 (en) * | 2014-04-29 | 2020-05-19 | Vivint, Inc. | Systems and methods for secure package delivery |
US9767701B2 (en) | 2014-06-26 | 2017-09-19 | Amazon Technologies, Inc. | Ground effect based surface sensing in automated aerial vehicles |
US9550577B1 (en) | 2014-06-26 | 2017-01-24 | Amazon Technologies, Inc. | Electricity generation in automated aerial vehicles |
US20160016664A1 (en) * | 2014-07-19 | 2016-01-21 | Umm Al-Qura University | Unmanned aerial delivery device |
US9809305B2 (en) | 2015-03-02 | 2017-11-07 | Amazon Technologies, Inc. | Landing of unmanned aerial vehicles on transportation vehicles for transport |
US20180130159A1 (en) | 2016-11-10 | 2018-05-10 | Wal-Mart Stores, Inc. | Systems and methods for delivering products via autonomous ground vehicles to restricted areas designated by customers |
-
2017
- 2017-10-31 US US15/798,992 patent/US20180130159A1/en not_active Abandoned
- 2017-11-03 MX MX2019005418A patent/MX2019005418A/en unknown
- 2017-11-03 CA CA3042680A patent/CA3042680A1/en not_active Abandoned
- 2017-11-03 CN CN201780082794.2A patent/CN110226176A/en active Pending
- 2017-11-03 GB GB1907478.0A patent/GB2571221A/en not_active Withdrawn
- 2017-11-03 WO PCT/US2017/059829 patent/WO2018089257A1/en active Application Filing
-
2021
- 2021-05-04 US US17/307,382 patent/US11580614B2/en active Active
-
2023
- 2023-01-10 US US18/152,322 patent/US11756144B2/en active Active
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20100100233A1 (en) * | 2008-10-22 | 2010-04-22 | Lockheed Martin Corporation | Universal intelligent postal identification code |
US9134426B1 (en) * | 2010-09-16 | 2015-09-15 | United Parcel Service Of America, Inc. | Systems and methods for identifying attributes located along segments of a driving route |
US20150301150A1 (en) * | 2014-02-17 | 2015-10-22 | Bruce E. Stuckman | Delivery beacon device and methods for use therewith |
US9534905B1 (en) * | 2016-01-25 | 2017-01-03 | International Business Machines Corporation | Indoor location vehicle delivery |
US10245993B1 (en) * | 2016-09-29 | 2019-04-02 | Amazon Technologies, Inc. | Modular autonomous ground vehicles |
Cited By (18)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US10592843B2 (en) * | 2015-11-25 | 2020-03-17 | Walmart Apollo, Llc | Unmanned aerial delivery to secure location |
US10874240B2 (en) | 2016-10-04 | 2020-12-29 | Walmart Apollo, Llc | Landing pad receptacle for package delivery and receipt |
US11353892B2 (en) * | 2016-10-17 | 2022-06-07 | X Development Llc | Drop-off location planning for delivery vehicle |
US11756144B2 (en) | 2016-11-10 | 2023-09-12 | Walmart Apollo, Llc | Systems and methods for delivering products via autonomous ground vehicles to restricted areas designated by customers |
US11580614B2 (en) | 2016-11-10 | 2023-02-14 | Walmart Apollo, Llc | Systems and methods for delivering products via autonomous ground vehicles to restricted areas designated by customers |
US10545500B2 (en) * | 2017-08-02 | 2020-01-28 | Wing Aviation Llc | Model for determining drop-off spot at delivery location |
US20190041852A1 (en) * | 2017-08-02 | 2019-02-07 | X Development Llc | Model for Determining Drop-off Spot at Delivery Location |
US11514736B2 (en) | 2017-12-12 | 2022-11-29 | Toyota Jidosha Kabushiki Kaisha | Authentication information control system, authentication information control method, and non-transitory computer-readable recording medium |
US10553061B2 (en) * | 2017-12-12 | 2020-02-04 | Toyota Jidosha Kabushiki Kaisha | Authentication information control system, authentication information control method, and non-transitory computer-readable recording medium |
US11011000B2 (en) | 2017-12-12 | 2021-05-18 | Toyota Jidosha Kabushiki Kaisha | Authentication information control system, authentication information control method, and non-transitory computer-readable recording medium |
GB2571150A (en) * | 2018-02-15 | 2019-08-21 | Jaguar Land Rover Ltd | Vehicle control system and control method |
GB2571150B (en) * | 2018-02-15 | 2020-04-22 | Jaguar Land Rover Ltd | Vehicle control system and control method |
CN110852660A (en) * | 2018-08-20 | 2020-02-28 | 富晋精密工业(晋城)有限公司 | Logistics scheduling device, logistics scheduling method and storage equipment |
CN113168182A (en) * | 2018-12-03 | 2021-07-23 | 伊玛谢林(德国)有限公司 | Infrastructure system |
US20220230132A1 (en) * | 2019-12-17 | 2022-07-21 | The Chamberlain Group Llc | System and Method For Enabling Unattended Package Delivery to Multi-Dwelling Properties |
US11654570B2 (en) * | 2019-12-27 | 2023-05-23 | Lg Electronics Inc. | Self-driving robot and method of operating same |
CN111198567A (en) * | 2020-01-17 | 2020-05-26 | 北京大学 | Multi-AGV collaborative dynamic tracking method and device |
US20240092313A1 (en) * | 2022-09-21 | 2024-03-21 | Ford Global Technologies, Llc | Consignment delivery methods and systems |
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US20210319529A1 (en) | 2021-10-14 |
GB2571221A (en) | 2019-08-21 |
US11756144B2 (en) | 2023-09-12 |
CN110226176A (en) | 2019-09-10 |
GB201907478D0 (en) | 2019-07-10 |
CA3042680A1 (en) | 2018-05-17 |
WO2018089257A1 (en) | 2018-05-17 |
MX2019005418A (en) | 2019-10-09 |
US11580614B2 (en) | 2023-02-14 |
US20230169620A1 (en) | 2023-06-01 |
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