The present disclosure is directed to autonomous vehicles, such as autonomous ground vehicles (“AGVs”) that may be utilized to transport items to specified locations (e.g., residences, dormitory rooms, etc.), operate as a safety escort for a human moving from one location to another (e.g., from a ca
The present disclosure is directed to autonomous vehicles, such as autonomous ground vehicles (“AGVs”) that may be utilized to transport items to specified locations (e.g., residences, dormitory rooms, etc.), operate as a safety escort for a human moving from one location to another (e.g., from a campus library to a dormitory room), form ad-hoc wireless networks with other autonomous vehicles, and/or to operate as a mobile security station that can provide direct connection between a person at the location of the autonomous vehicle and security, rescue, and/or other personnel.
대표청구항▼
1. A computer-implemented method comprising: receiving an order for a purchase of an item from a customer, wherein the order specifies a destination location for a delivery of the item;identifying, by at least one server, a source location where the item is located;planning a first navigation path b
1. A computer-implemented method comprising: receiving an order for a purchase of an item from a customer, wherein the order specifies a destination location for a delivery of the item;identifying, by at least one server, a source location where the item is located;planning a first navigation path between the source location and the destination location that may be navigated by an autonomous vehicle to transport the item from the source location to the destination location;determining a location of at least one person between the source location and the destination location;planning a second navigation path between the source location and the destination location that may be navigated by the autonomous vehicle such that the autonomous vehicle will navigate within a defined distance of the location of the at least one person as the autonomous vehicle navigates between the source location and the destination location to transport the item from the source location to the destination location;determining a first estimated delivery time with respect to the first navigation path;determining a second estimated delivery time with respect to the second navigation path, wherein the second estimated delivery time is greater than the first estimated delivery time;selecting, by the at least one server and based at least in part on the second navigation path causing the autonomous vehicle to navigate within the defined distance of the location, the first estimated delivery time and the second estimated delivery time, the second navigation path; andsending an instruction to the autonomous vehicle to navigate the second navigation path and to perform a safety check-in with respect to the at least one person, wherein the safety check-in includes determining a health or safety of the at least one person. 2. The computer-implemented method of claim 1, wherein the at least one person is a subscriber that has requested to receive safety check-ins by one or more autonomous vehicles. 3. The computer-implemented method of claim 1, wherein the safety check-in includes at least one of: the autonomous vehicle interacting with the at least one person, orthe autonomous vehicle measuring at least one characteristic of the at least one person. 4. The computer-implemented method of claim 3, wherein the at least one characteristic is at least one of a body temperature of the at least one person, a heartrate of the at least one person, a pupil dilation of the at least one person, a posture of the at least one person, a position of the at least one person, a gesture performed by the at least one person, a gait of the at least one person, a macro-expression presented by the at least one person, a micro-expression presented by the at least one person, or a speech of the at least one person. 5. The computer-implemented method of claim 1, further comprising: determining a safety area in which at least one or more autonomous vehicles are to be located to provide safety to one or more persons; andwherein planning the second navigation path includes planning the second navigation path such that the autonomous vehicle will navigate through at least a portion of the safety area. 6. The computer-implemented method of claim 5, wherein the safety area encompasses one or more of the source location, the destination location, or the subscriber. 7. The computer-implemented method of claim 1, further comprising: determining a time since a last safety check-in for the person; andwherein selecting is further based at least in part on the time since the last safety check-in. 8. A method comprising: receiving a request for a delivery of an item to a destination location;identifying, by at least one server, a source location where the item is located;receiving, from a device associated with a subscriber, position information indicating a location of the subscriber, wherein the subscriber is a person that has requested to receive safety check-ins by one or more autonomous vehicles navigating within a defined distance of a location of the subscriber;planning a navigation path between the source location and the destination location that may be navigated by an autonomous vehicle such that the autonomous vehicle will navigate within the defined distance of the location of the subscriber as the autonomous vehicle navigates between the source location and the destination location to transport the item from the source location to the destination location; andsending an instruction to the autonomous vehicle to navigate the navigation path and to perform a safety check-in with respect to the subscriber as the autonomous vehicle navigates within the defined distance of the subscriber, wherein the safety check-in includes determining a health or a safety of the subscriber. 9. The method of claim 8, further comprising: receiving from a sensor of the autonomous vehicle and as the autonomous vehicle is navigating the navigation path, sensor data;processing the sensor data to determine if a safety measure is to be activated by the autonomous vehicle; andin response to determining that a safety measure is to be activated, causing at least one safety measure to be initiated. 10. The method of claim 9, further comprising: in response to determining that a safety measure is not to be activated, determining from the processed sensor data that an investigation notification is to be sent to a second autonomous vehicle. 11. The method of claim 10, wherein the investigation notification provides an indication of an area to be further investigated by the second autonomous vehicle to determine if a safety measure is to be activated. 12. The method of claim 8, further comprising: determining a respective location for each of a plurality of people located between the source location and the destination location; andwherein the navigation path causes the autonomous vehicle to navigate within at least a defined distance of each person of the plurality of people. 13. The method of claim 8, further comprising: detecting a non-subscriber within a distance of the navigation path;collecting sensor data corresponding to the non-subscriber;processing the sensor data to determine if a safety measure is to be performed; andinitiating a default safety measure in response to a determination that a safety measure is to be performed. 14. The method of claim 8, further comprising: receiving from a sensor of the autonomous vehicle, sensor data, wherein the sensor data is at least one of processed by the autonomous vehicle or wirelessly transmitted to a monitoring station for processing. 15. An autonomous vehicle, comprising: a frame;a motor;a sensor;a storage compartment;a computing system configured to at least: receive instructions to navigate a navigation path between a source location and a destination location to complete an item delivery corresponding to an item included in the storage compartment;cause the autonomous vehicle to navigate the navigation path;determine, based at least in part on position information received from a device associated with a subscriber, a location of the subscriber, wherein the subscriber is a person that has requested to receive safety check-ins by one or more autonomous vehicles navigating within a defined distance of the location of the subscriber;cause the autonomous vehicle to navigate within the defined distance of the location of the subscriber as the autonomous vehicle navigates the navigation path between the source location and the destination location; andcause the autonomous vehicle to perform a safety check-in with respect to the subscriber as the autonomous vehicle navigates within the defined distance of the subscriber, wherein the safety check-in includes collecting, using the sensor, sensor data corresponding to the person subscriber when the autonomous vehicle is within the defined distance. 16. The autonomous vehicle of claim 15, wherein the computing system further causes the autonomous vehicle to at least: navigate away from the navigation path such that the autonomous vehicle can navigate to within the defined distance of the person location of the subscriber. 17. The autonomous vehicle of claim 15, wherein the computing system further causes the autonomous vehicle to at least: perform a safety check-in with respect to the subscriber, and based at least in part on the sensor data, to determine whether a safety measure is to be performed with respect to a health or a safety of the subscriber. 18. The autonomous vehicle of claim 17, wherein the autonomous vehicle maintains or has access to information corresponding to the subscriber. 19. The autonomous vehicle of claim 15, wherein the safety check-in includes at least one safety measure specified by the subscriber to be performed in response to determining that the safety check-in is to be performed. 20. The autonomous vehicle of claim 15, wherein the computing system is further configured to at least: determine, based at least in part on the sensor data, a risk level; andinitiate a first safety measure of a plurality of safety measures corresponding to the risk level. 21. The autonomous vehicle of claim 15, further comprising: an aerial vehicle that may be deployed from the autonomous vehicle to obtain images or other data from an aerial perspective.
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이 특허에 인용된 특허 (36)
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Evans ; Jr. John M. (Brookfield CT) Weiman Carl F. R. (Westport CT) King Steven J. (Woodbury CT), Visual navigation and obstacle avoidance structured light system.
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