Gathering data from machine operating at worksite
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G07C-005/08
B64C-039/02
G07C-005/00
B64D-047/08
출원번호
US-0962097
(2015-12-08)
등록번호
US-9786105
(2017-10-10)
발명자
/ 주소
Moloney, Neil J.
Natale, Nicholas A.
출원인 / 주소
Caterpillar Inc.
인용정보
피인용 횟수 :
2인용 특허 :
3
초록▼
A data gathering system associated with a machine operating at a worksite is provided. The data gathering system includes a base station located at the worksite and an unmanned aerial device (UAD) in communication with the base station and the machine. The UAD includes an image capturing unit for ca
A data gathering system associated with a machine operating at a worksite is provided. The data gathering system includes a base station located at the worksite and an unmanned aerial device (UAD) in communication with the base station and the machine. The UAD includes an image capturing unit for capturing images of an area around the machine and a controller in communication with the image capturing unit. The controller receives a first input from the machine indicative of one or more machine parameters, and receives a second input from the image capturing unit indicative of the images of the area around the machine. The controller further determines multiple operational parameters associated with an operation of the machine based on the first input and the second input, and transmits the determined multiple operational parameters to at least one of the machine and the base station.
대표청구항▼
1. A data handling system associated with a working machine operating at a worksite, the data gathering system comprising: a base station located at the worksite; andan unmanned aerial device communicatively coupled to the working machine using a cable, and configured to communicate with the base st
1. A data handling system associated with a working machine operating at a worksite, the data gathering system comprising: a base station located at the worksite; andan unmanned aerial device communicatively coupled to the working machine using a cable, and configured to communicate with the base station, wherein the cable is configured to receive electric power from the working machine to propel the unmanned aerial device, the unmanned aerial device comprising: an image capturing unit configured to capture one or more image of an area around and including the working machine; anda controller in communication with the image capturing unit, the controller configured to: receive a first input from the working machine via the cable, the first input indicative of one or more machine parameters;receive a second input from the image capturing unit, the second input indicative of the one or more images of the area around and including the working machine;determine multiple operational parameters associated with an operation of the working machine based on the first input and the second input; andtransmit the determined multiple operational parameters to at least one of the working machine and the base station,wherein the unmanned aerial device is configured to be disposed at a height relative to the working machine so the image capturing unit captures one or more images of operation of the working machine corresponding to the one or more machine parameters associated with the first input,wherein the one or more machine parameters received from the working machine by the controller identify to the controller the one or more machine parameters of the working machine to capture and analyze using the image capturing unit of the unmanned aerial device,wherein the multiple operational parameters comprise at least one of a position of an implement of the working machine relative to a frame thereof, data regarding loading of the working machine, data regarding proximity of the working machine to a truck in the area around and including the working machine, a bucket fill factor associated with the implement of the working machine, and a bucket loading and unloading work cycle of the working machine, andwherein the determined multiple operational parameters are transmitted to the working machine via the cable and include instructions to be provided, via the working machine, to an operator of the working machine to operate the working machine to reach a predetermined value of at least one of the determined multiple operational parameters. 2. The data handling system of claim 1, wherein the controller is configured to communicate with a first processing unit disposed in the working machine, andwherein the first processing unit is in communication with a sensing unit of the working machine, the sensing unit configured to generate a signal indicative of the one or more machine parameters. 3. The data handling system of claim 2, wherein the cable is configured to communicate with the controller of the unmanned aerial device and the first processing unit of the working machine. 4. The data handling system of claim 3, wherein the controller is configured to transmit the first input and the second input to the first processing unit via the cable, andwherein the first processing unit is configured to determine the multiple operational parameters associated with the working machine based on the first input and the second input. 5. The data handling system of claim 1, wherein the controller is configured to communicate with a second processing unit disposed in the base station, and transmit the first input and the second input to the second processing unit, the controller configured to: receive a third input from the base station, the third input indicative of the multiple operational parameters associated with an operation of the working machine, wherein the third input is determined by the second processing unit; andtransmit the third input to the working machine. 6. The data handling system of claim 1, wherein the controller is configured to determine presence of the truck and a work aggregate within the area around and including the working machine, based on the second input received from the image capturing unit. 7. The data handling system of claim 1, wherein the unmanned aerial device comprises at least one of a camera, a light detection and ranging (LIDAR) unit, a forward looking infrared (FLIR) unit, a magnetometer, a global positioning system (GPS), and an inertial measurement unit (IMU). 8. A method for handling data associated with an operation of a working machine at a worksite, the method comprising: receiving, by a controller of an unmanned aerial device, from the working machine via a cable, a first input indicative of one or more machine parameters, wherein the unmanned aerial device is communicatively coupled to the working machine via the cable;disposing the unmanned aerial device at a height relative to the working machine so an image capturing unit of the unmanned aerial device captures one or more images of operation of the working machine corresponding to the one or more machine parameters associated with the first input;receiving, from the image capturing unit of the unmanned aerial device, a second input indicative of one or more images of an area around and including the working machine;determining, by the controller, multiple operational parameters associated with the operation of the working machine based on the first input and the second input;transmitting, by the controller, the determined multiple operational parameters to the working machine via the cable and to a base station, wherein the base station is in communication with the unmanned aerial device, the determined multiple operational parameters transmitted to the working machine via the cable including instructions to be provided, via the working machine, to an operator of the working machine to operate the machine to reach a predetermined value of each of the determined multiple operational parameters;electronically outputting, at the working machine, the instructions to the operator of the working machine to operate the working machine to reach the predetermined value of each of the determined multiple operational parameters;controlling the working machine based on the transmitted multiple operational parameters;determining, by the controller, presence of a truck within the area around and including the working machine based on the second input;electronically receiving, by the working machine from the base station, information regarding the presence of the truck within the area around and including the working machine; andelectronically outputting, by the working machine, the information regarding the presence of the truck within the area around and including the working machine,wherein the one or more machine parameters received from the working machine by the controller identify to the controller the one or more machine parameters of the working machine to capture and analyze using the image capturing unit of the unmanned aerial device, andwherein the multiple operational parameters comprise at least one of a position of an implement of the working machine relative to a frame thereof, data regarding loading of the working machine, data regarding proximity of the working machine to the truck in the area around and including the working machine, a bucket fill factor associated with the implement of the working machine, and a bucket loading and unloading work cycle of the working machine. 9. The method of claim 8 further comprising generating, by the controller, a signal indicative of the one or more machine parameters via a sensing unit of the working machine, wherein the sensing unit is in communication with a first processing unit disposed in the working machine. 10. The method of claim 9 further comprising: transmitting, by the controller, the first input and the second input to the first processing unit via the cable; anddetermining, by the first processing unit, the multiple operational parameters associated with the working machine, based on the first input and the second input. 11. The method of claim 8 further comprising: communicating, by the controller, the first input and the second input to a second processing unit disposed at the base station to determine multiple operational parameters;receiving, by the controller, the determined multiple operation parameters from the second processing unit; andtransmitting, by the controller, the determined multiple operational parameters to the working machine. 12. A machine capable of operating at a worksite, the machine comprising: a land vehicle; andan unmanned aerial device communicatively coupled to the land vehicle,wherein the land vehicle includes: a sensing unit configured to generate a signal indicative of one or more machine parameters; anda first processing unit in communication with the sensing unit, the first processing unit configured to communicatively couple to the unmanned aerial device via a cable, wherein the cable is configured to receive electric power from the land vehicle to propel the unmanned aerial device,wherein the unmanned aerial device is configured to communicate with a base station located at the worksite and includes: an image capturing unit configured to capture one or more images of an area around and including the land vehicle; anda controller in communication with the image capturing unit, the controller configured to: receive a first input from the land vehicle via the cable, the first input indicative of one or more land vehicle parameters;receive a second input from the image capturing unit, the second input indicative of the one or more image of the area around and including the land vehicle;determine multiple operational parameters associated with an operation of the land vehicle based on the first input and the second input;transmit the determined multiple operational parameters to the land vehicle via the cable and to the base station, the determined multiple operational parameters transmitted to the machine via the cable including instructions to be provided, via the land vehicle, to an operator of the land vehicle to operate the land vehicle to reach a predetermined value of each of the determined multiple operational parameters; anddetermine presence of a truck within the area around and including the land vehicle based on the second input;wherein the first processing unit of the land vehicle is configured to: control electronic output of, at the land vehicle, the instructions to the operator of the land vehicle to operate the land vehicle to reach the predetermined value of each of the determined multiple operational parameters;control the land vehicle based on the transmitted multiple operational parameters;receive, from the base station, information regarding the presence of the truck within the area around and including the land vehicle; andcontrol electronic output of the information regarding the presence of the truck within the area around and including the land vehicle,wherein the unmanned aerial device is configured to be disposed at a height relative to the land vehicle so the image capturing unit captures one or more images of operation of the land vehicle corresponding to the one or more machine parameters associated with the first input,wherein the one or more machine parameters received from the land vehicle by the controller of the unmanned aerial device identify to the controller the one or more machine parameters of the land vehicle to capture and analyze using the image capturing unit of the unmanned aerial device,wherein the multiple operational parameters comprise at least one of a position of an implement of the land vehicle relative to a frame thereof, data regarding loading of the land vehicle, data regarding proximity of the land vehicle to the truck in the area around and including the land vehicle, a bucket fill factor associated with the implement of the land vehicle, and a bucket loading and unloading work cycle of the land vehicle, andwherein the determined multiple operational parameters are transmitted to the land vehicle via the cable and include instructions to be provided, via the land vehicle, to an operator of the land vehicle to operate the land vehicle to reach a predetermined value of at least one of the determined multiple operational parameters. 13. The machine of claim 12, wherein the controller is configured to transmit the first input and the second input to the first processing unit via the cable, andwherein the first processing unit is configured to determine the multiple operational parameters associated with the land vehicle. 14. The machine of claim 12, wherein the controller is configured to communicate with a second processing unit disposed in the base station, and transmit the first input and the second input to the second processing unit, the controller configured to: receive a third input from the base station, the third input indicative of the multiple operational parameters associated with an operation of the land vehicle, wherein the third input is determined by the second processing unit; andtransmit the third input to the land vehicle. 15. The machine of claim 12, wherein the controller is configured to determine presence of the truck and a work aggregate within the area around and including the land vehicle, based on the second input from the image capturing unit. 16. The machine of claim 12, wherein the unmanned aerial device includes at least one of a camera, a light detection and ranging (LIDAR) unit, a forward looking infrared (FLIR) unit, a magnetometer, a global positioning system (GPS), and an inertial measurement unit (IMU).
Johnson, Samuel Alan; Burkard, William Dennis; Mimlitch, III, Robert H.; Mimlitch, Jr., Robert Henry; Norman, David Anthony, Aerial robot with dispensable conductive filament.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.