Distributed maintenance decision and support system and method
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G08G-001/09
G08G-001/0967
G08G-001/00
출원번호
US-0180474
(2016-06-13)
등록번호
US-10008112
(2018-06-26)
발명자
/ 주소
Groeneweg, Kevin K.
출원인 / 주소
Concaten, Inc.
대리인 / 주소
Hjort, III, Carl A.
인용정보
피인용 횟수 :
0인용 특허 :
177
초록▼
The present disclosure is directed to a computer that receives weather information from a weather service provider (“WSP”) server and automatic vehicle locating system (“AVL”) collected information from an AVL server, accesses a material performance specification for at least one treatment material,
The present disclosure is directed to a computer that receives weather information from a weather service provider (“WSP”) server and automatic vehicle locating system (“AVL”) collected information from an AVL server, accesses a material performance specification for at least one treatment material, and determines, based on the weather information and/or AVL collected information and the material performance specification, a treatment recommendation for a selected roadway segment and/or route.
대표청구항▼
1. A method of operation of a maintenance decision support system, comprising: providing an on-board computer in an operating maintenance vehicle with a treatment material application algorithm;receiving, over a network and by the on-board computer, at least one real time input;collecting, by the on
1. A method of operation of a maintenance decision support system, comprising: providing an on-board computer in an operating maintenance vehicle with a treatment material application algorithm;receiving, over a network and by the on-board computer, at least one real time input;collecting, by the on-board computer at least one sensor input, acquired from at least one sensor mounted on the maintenance vehicle and comprising data relating to the operation of the maintenance vehicle and at least one operator input, acquired from an operator of the maintenance vehicle and relating to the operation of the maintenance vehicle;mapping, by the algorithm on the on-board computer, at least one of the real-time input, the sensor input and the operator input against a treatment material application parameter to determine a set of recommended treatment material application instructions; andproviding the set of recommended treatment atrial application instructions to the operator. 2. The method of clan 1, wherein the set of recommended treatment material application instructions comprises real-time or near real-time information regarding treatment material type, amount, concentration, and/or application rate to be applied to a roadway surface. 3. The method of claim 1, wherein the algorithm maps roadway surface temperature against a treatment material application parameter. 4. The method of claim 1, wherein the operator input is a road condition and the road condition is selected from the group comprising wet, dry, snow-packed and icy. 5. The method of claim 1, wherein the sensor input is ambient external temperature. 6. The method of claim 1, wherein the real-time input is a set of predicted weather conditions from a weather service provider. 7. The method of claim 1, wherein the sensor input is provided to a central server to refine a weather prediction model. 8. The method of claim 1, wherein the operator input is provided to a central server to refine a weather prediction model. 9. The method of claim 1, wherein the treatment material application parameter is selected from the group comprising a treatment material type to be applied, a treatment material performance specification, a treatment material amount, a treatment material concentration, a treatment material application rate, a time to start application of a treatment material, a location to start application of a treatment material, a time to stop application of the treatment material and a location to stop application of a treatment material. 10. The method of claim 1, wherein the algorithm is selected from the group comprising a two-dimensional algorithm, a three-dimensional algorithm, and a four-dimensional algorithm. 11. A maintenance decision support system, comprising: an on-board computer in an operating maintenance vehicle provided with a processor operable to process a treatment material application algorithm, wherein said algorithm causes the on-board computer to:(a) receives, over a network, at least one real-time input;(b) collects at least one sensor input, acquired from at least one sensor mounted on the maintenance vehicle and comprising data relating to the operation of the maintenance vehicle and at least one operator input, acquired from an operator of the maintenance vehicle and relating to the operation of the maintenance vehicle;(c) maps, at least one of the real-time input, the sensor input and the operator input against a treatment material application parameter to determine a set of recommended treatment material application instructions; and(d) provides the set of recommended treatment material application instructions to the operator. 12. The system of claim 11, wherein the set of recommended treatment material application instructions comprises real-time or near real-time information regarding treatment material type, amount, concentration, and/or application rate to be applied to a roadway surface. 13. The system of claim 11, wherein the algorithm maps roadway surface temperature against a treatment material application parameter. 14. The system of claim 11, wherein the operator input is road condition and the road condition is selected from the group comprising wet, dry, snow-packed and icy. 15. The system of claim 11, wherein the sensor input is ambient external temperature. 16. The system of claim 11, wherein the real-time input is a set of predicted weather conditions from a weather service provider. 17. The system of claim 11, wherein the sensor input is provided to a central server to refine a weather prediction model. 18. The system of claim 11, wherein the operator input is provided to a central server to refine a weather prediction model. 19. The system of claim 11, wherein the treatment material application parameter is selected from the group comprising a treatment material type to be applied, a treatment material performance specification, a treatment material amount, a treatment material concentration, a treatment material application rate, a time to start application of a treatment material, a location to start application of a treatment material, a time to stop application of the treatment material and a location to stop application of a treatment material. 20. The system of claim 11, wherein the algorithm is selected from the group comprising a two-dimensional algorithm, a three-dimensional algorithm, and a four-dimensional algorithm.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (177)
Sawada Mamoru (Aichi JPX), Acceleration slip control device for a motor vehicle.
Doherty John A. ; Kalbfleisch Charles A., Apparatus and system for synchronized application of one or more materials to a surface from a vehicle and control of.
Doherty John A. ; Kalbfleisch Charles A., Apparatus and system for synchronized application of one or more materials to a surface from a vehicle and control of a vehicle mounted variable position snow removal device.
Doherty, John A.; Kalbfleisch, Charles A., Apparatus and system for synchronized application of one or more materials to a surface from a vehicle and control of a vehicle mounted variable position snow removal device.
Braun Otto P. (Ludwigsburger Strasse 80 ; D-7141 Freiberg/Neckar DEX), Apparatus for controlling the regulator of a device for spreading salt or the like on roads.
Wise James J. (3020 Mason Ave. Las Vegas NV 89102) Doherty John A. (1 Round Hill Rd. Granby CT 06035), Apparatus for spreading granular and liquid materials.
Wise James J. (3020 Mason Ave. Las Vegas NV 89102) Doherty John A. (1 Round Hill Rd. Granby CT 06035), Apparatus for synchronized spreading of granular and liquid material.
Haeder Thomas Q. (Lisbon ND) Shelbourn William C. (Bismarck ND), Auxiliary coupler pressure relief hydraulic system with pump drive ignition switch relief.
Berard Alfredo J. (4521 Parkwood La. East Niceville FL 32578) Mentzer James L. (128 Phillips Dr. Crestview FL 32536) Nixon David C. (274 Okaloosa Ave. East Valparaiso FL 32580), Cellular/GPS system for vehicle tracking.
Dahlgren,Darwin; Dahlgren,Nicoline; Dahlgren,Dean; Chao,Tah Wei; Fritsch,Michael R.; Kadlec,Anthony; Pellegrino,Michael John, Centralized facility and intelligent on-board vehicle platform for collecting, analyzing and distributing information relating to transportation infrastructure and conditions.
Terao,Masayuki; Sakai,Akira; Takizawa,Masakatsu; Yamaguchi,Shuuji, Communication device, communication device set, authentication method and method of wireless-connecting terminals.
Huber Gerd,DEX ; Haas Anton,DEX ; Bauer Werner,DEX, Device for checking the function of an electronically controlled regulating system in a motor vehicle following a manu.
Henderson Graeme W. (1777 La Cresta Dr. Pasadena CA 91103) Giles Durham K. (43 Parkside Dr. Davis CA 95616) Funk Kent D. (#1 Quivira Ct. Hiawatha KS 66434) Kolb Troy C. (R.R. 1 ; Box 131 Fairview KS , Independent flow rate and droplet size control system and method for sprayer.
Carlstedt, Robert P.; Smith, Mark C.; Foster, Steven M.; Whitney, Daniel E.; Geib, Eric S.; Clisch, Richard M.; Shih, Shan; Marcos Munoz, Juan J., Intervehicle network communication system.
Prusak John J. (Pike Township ; Marion County IN) Lock Brian E. (Princeton Borough NJ) Thorn Joseph H. (Indianapolis IN), Lubricant detector and measuring device.
Ehrat Arthur H. (c/o Farmers Elevator Co. Lowder IL 62662), Material-spreading field vehicle having means for on-site metering and mixing of soil-treating chemicals.
Hanson, Aaron D.; Sturniolo, Emil A.; Menn, Anatoly; Olson, Erik D.; Savarese, Joseph T., Method and apparatus for providing mobile and other intermittent connectivity in a computing environment.
Hanson, Aaron D.; Sturniolo, Emil A.; Menn, Anatoly; Olson, Erik D.; Savarese, Joseph T., Method and apparatus for providing mobile and other intermittent connectivity in a computing environment.
Arthur, Richard Brownell; Lorensen, William Edward; LaBlanc, Michael Robert; Barnett, Janet Arlie; Kornfein, Mark Mitchell; Forman, Douglas Roy; Houpt, Paul Kenneth, Method and apparatus for vehicle management.
Simmons Charles M. (Memphis TN) Thompson James R. (Cove-Southaven MS) Harkins ; Jr. Thomas V. (Memphis TN) Talleg Charles W. (Lake Coumovant MS), Mobile system for deicing aircraft.
Kapolka,Michael; Chang,Sam; Crull,Brian; Ditchfield,Andrew; Bromley,William, Remote monitoring, configuring, programming and diagnostic system and method for vehicles and vehicle components.
Coffee, Ronald A.; Bennett, Peter C.; Houghton, Leonard E.; Johnson, Graham C.; Sommerville, John A.; Boyce, Peter H.; Currall, William J. P., Spraying system.
Doherty John A. (829 St. Andrews La. Louisville CO) Kalbfleisch Charles A. (Boulder CO) Keathley Donald P. (Middlefield CT) Collins William J. (Denver CO), Surface material and condition sensing system.
Wise James J. (3020 Mason Ave. Las Vegas NV 89102) Doherty John A. (1 Round Hill Rd. Granby CT 06035), Synchronized granular material and liquid spreading device with full hydraulic control.
Chou Paul Bao-Luo ; Iyer Bhavani S. ; Lai Jennifer ; Levas Anthony ; Lieberman Lawrence Isaac ; Liu Te-Kai ; Moskowitz Paul Andrew ; Tang Jung-Mu ; Williams Rose Marie ; Wong Danny Chan-Yong ; Chakra, System and method for vehicle diagnostics and health monitoring.
Nakao, Yukio; Yoshinaga, Hiroshi, System for distributing road surface information, system for collecting and distributing vehicle information, device for transmitting vehicle information and program for controlling vehicle.
Jenkins Paul C. ; Deal David V. ; Cuthbertson Thomas G. ; Morton James W. ; Smith Andrew D. ; Hoy David R. ; Egeberg Gerald W., System for monitoring vehicle efficiency and vehicle and driver performance.
Kapolka, Michael; Chang, Sam; Smith, Andrew, System for remote monitoring of a vehicle and method of determining vehicle mileage, jurisdiction crossing and fuel consumption.
Karklins Elgin J. (Kettering OH) Scroggie Stephen J. (El Paso TX) Tracht Steven L. (Springboro OH) Striker Mark W. (West Carrollton OH), Vehicle window washer with washer fluid temperature responsive pressure control.
Banet, Matthew J.; Lightner, Bruce; Borrego, Diego; Myers, Chuck; Lowrey, Larkin Hill, Wireless diagnostic system for characterizing a vehicle's exhaust emissions.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.