Methods for displaying physical network topology and environmental status by location, organization, or responsible party
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06F-015/16
H04L-029/06
H04L-012/24
H04L-012/26
H04L-029/08
출원번호
US-0607573
(2012-09-07)
등록번호
US-8966044
(2015-02-24)
발명자
/ 주소
Childers, Sloan K.
Elderton, John
Primm, Michael
출원인 / 주소
Schneider Electric IT Corporation
대리인 / 주소
Lando & Anastasi, LLP
인용정보
피인용 횟수 :
0인용 특허 :
209
초록▼
The invention is directed to a system for remote monitoring of a space and equipment. The space and equipment may, for example, be a server room and associated network equipment. The system has network appliances, a server, and a client machine. The server receives data from a network appliance. The
The invention is directed to a system for remote monitoring of a space and equipment. The space and equipment may, for example, be a server room and associated network equipment. The system has network appliances, a server, and a client machine. The server receives data from a network appliance. The server may then deliver an application and data to the client machine for viewing and manipulating the data. The client machine may display the data as a mapping, displaying icons associated with the network appliances. The client machine may also graph the data. Further, the client machine may manipulate the organization of the data, the configuration settings of the network appliances, and store map and graph configurations.
대표청구항▼
1. A system comprising: a server communicatively coupled to an interconnected network, the server comprising: a memory configured to store sensor data gathered from plurality of network appliances; anda processor configured to receive, manipulate, and output sensor data; anda plurality of network-en
1. A system comprising: a server communicatively coupled to an interconnected network, the server comprising: a memory configured to store sensor data gathered from plurality of network appliances; anda processor configured to receive, manipulate, and output sensor data; anda plurality of network-enabled devices, each of the plurality of network-enabled devices communicatively coupled to at least one other of the plurality of network-enabled devices and at least one of the plurality of network-enabled devices communicatively coupled to the interconnected network, each of the plurality of network-enabled devices comprising: a sensor configured to detect a physical environmental parameter associated with a space and different from a physical environmental parameter detected by another of the plurality of network-enabled devices, the sensor configured to generate a sensor signal associated with the physical environmental parameter; anda processor configured to: receive the sensor signal;process the sensor signal;provide the sensor signal to the at least one other of the plurality of network-enabled devices; andtransmit a request directly to the at least one other of the plurality of network-enabled devices, the request including instructions for the at least one other of the plurality of network-enabled devices to execute an action. 2. The system of claim 1, wherein the plurality of network-enabled devices comprises a first and a second network-enabled device, and the sensor of the first network-enabled device comprises at least one of: a humidity sensor, a temperature sensor, and an air flow sensor. 3. The system of claim 2, wherein the first network-enabled device further comprises a binary input to activate the sensor to detect the physical environmental parameter of the space. 4. The system of claim 3, wherein the sensor signal of the second network-enabled device provides the binary input to activate the sensor of the first network-enabled device. 5. The system of claim 3, wherein the server provides the binary input to activate the sensor of the first network-enabled device. 6. The system of claim 2, wherein the second network-enabled device comprises a video camera. 7. The system of claim 6, wherein the second network-enabled device further comprises a binary input to activate the video camera to capture an image of the space. 8. The system of claim 7, wherein the sensor signal of the first network-enabled device provides the binary input to activate the video camera of the second network-enabled device. 9. The system of claim 1, wherein the server includes a web server application configured to generate a webpage including the sensor data. 10. The system of claim 1, wherein the server is further configured to generate and send an email status report. 11. The system of claim 1, wherein the server is further configured to generate an alarm if a detected physical environmental parameter meets a threshold value. 12. The system of claim 1, wherein the at least one other plurality of network-enabled devices and the another of the other plurality of network-enabled devices is the same network-enabled device. 13. A method of monitoring a plurality of network-enabled appliances located in a space, the plurality of network-enabled appliances being connected to an interconnected network, the method comprising: detecting, with a sensor on each of the plurality of network-enabled devices, a physical parameter associated with the space, the physical parameter being different from at least one other physical parameter detected by at least one other of the plurality of network-enabled devices;generating a sensor signal associated with the physical environmental parameter;receiving, on a processor of the network-enabled device, the sensor signal;processing the sensor signal;providing the sensor signal to at least another of the plurality of network-enabled devices; andtransmitting a request, by the one of the plurality of network-enabled devices, to the at least, another of the plurality of network-enabled devices, the request including instructions for the at least another of the plurality of network-enabled devices to execute an action. 14. The method claim 13, wherein the plurality of network-enabled devices comprises a first and a second network-enabled device, and detecting the physical parameter comprises detecting at least one of a humidity, a temperature, and an air flow of the physical space. 15. The method of claim 14, further comprising receiving, on the network-enabled device, a binary input to activate the sensor to detect the physical environmental parameter of the space. 16. The method of claim 15, further comprising providing, by the sensor signal of the second network-enabled device, the binary input to activate the sensor of the first network-enabled device. 17. The method of claim 15, further comprising providing, by a server, the binary input to activate the sensor of the first network-enabled device. 18. The method of claim 14, further comprising capturing, by a video camera on the second network-enabled device, images of the physical space. 19. The method of claim 18, further comprising receiving, on the second network-enabled device, a binary input to activate the video camera to capture an image of the space. 20. The method of claim 19, further comprising providing, by the sensor signal of the first network-enabled device, the binary input to activate the video camera of the second network-enabled device. 21. The method of claim 17, further comprising generating, by a web server application on the server, a webpage including the sensor data. 22. The method of claim 17, further comprising generating and sending, by the server, an email status report. 23. The method of claim 17, further comprising generating, the server, an alarm if a detected physical environmental parameter meets a threshold value. 24. The method of claim 13, wherein the at least one other of the plurality of network-enabled devices and the another of the plurality of network-enabled devices is the same network-enabled device.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (209)
Steven M. Hoffberg ; Linda I. Hoffberg-Borghesani, Adaptive pattern recognition based control system and method.
Woods David D. (Murrysville PA) Elm William C. (Monroeville PA) Lipner Melvin H. (Monroeville PA) Butterworth ; III George E. (Monroeville PA) Easter James R. (Pittsburgh PA), Alarm management system.
Dow James C. ; Dalton Dan L. ; Rudd Michael L. ; Ruffatto Karin C. ; Hansen Barry K. ; Formosa Daniel ; DeVries Michael J. ; Shepard Nancy, Appliance and method for menu navigation.
Erickson Charles H. (Woodridge IL) Erio Peter A. (Morris IL) Kase James E. (Tinley Park IL), Auto freeze frame display for intrusion monitoring system.
Engel Gary L. (Wyoming MN) Georgeson Paul J. (Minneapolis MN) Mueller Douglas R. (Shoreview MN) Quernemoen John M. (New Brighton MN) Todd Bruce C. (Blaine MN), Automatic power control system which automatically activates and deactivates power to selected peripheral devices based.
Blumer Thomas P. ; Amstein Peter R. ; Drellishak Scott F. ; Forgaard Randy J. ; Schulert Andrew J., Computer system and computer-implemented process for remote editing of computer files.
Ward Ronald G. (Houston TX) Farrand Scott C. (Tomball TX) Hernandez Thomas J. (Houston TX) Neyland Ronald A. (Spring TX) Stupek Richard A. (Houston TX) Barron James E. (Spring TX) Chen Cheryl X. (Tom, Computer system manager for monitoring events and operating parameters and generating alerts.
Goska Walter J. (Portland OR) Muller Joseph Y. (Kirkland WA) Gaibler Dennis W. (Gresham OR) Thompson David (Portland OR) Lawe Donald A. (Carnation WA) Van Schoiack Michael M. (Issaquah WA), Computerized monitoring management system for load carrying vehicle.
Srini Krishnamurthy ; Sunil Sharad Mehta ; Cary Bailey O'Brien, DEVICE MANAGEMENT SYSTEM FOR MANAGING STANDARDS-COMPLIANT AND NON-COMPLIANT NETWORK ELEMENTS USING STANDARD MANAGEMENT PROTOCOLS AND A UNIVERSAL SITE SERVER WHICH IS CONFIGURABLE FROM REMOTE LOCATION.
Cromer Daryl Carvis ; Ellison Brandon Jon ; Johnson Robert Duane ; Kern Eric Richard ; Locker Howard ; Springfield Randall Scott, Data processing system and method for permitting a server computer system to remotely modify operation of a client system's network hardware.
David Sandelman ; Daniel Shprecher ; Joseph Rey, Electronic message delivery system utilizable in the monitoring of remote equipment and method of same.
Donaldson Robert E. ; Jensen Jeffrey J. ; McDowall Steven J., Electronic monitoring system and method for externally monitoring processes in a computer system.
Collins, Daniel J.; Zingsheim, Jeffrey S.; Coursin, Scott E.; Gasper, Thomas P.; Basin, Ilya; Conigliaro, James P., Energy information and control system.
French Jonathan C. (Rockford IL) Rounds David R. (Beloit WI) Herdeman James R. (Rockford IL) Bernardi Brent S. (Loves Park IL), Event driven remote graphical reporting of building automation system parameters.
Launey Reuel O. (Arlington VA) Grendler Peter A. (Silver Spring MD) Packham Donald L. (Fort Lauderdale FL) Battaglia James M. (Kettering MD) Levine Howard E. (Adelphi MD), Expandable home automation system.
Cruse Michael (2000 Meadow Ridge Rd. Prescott AZ 86301) Hibberd Douglas G. (8560 Valley Oak Dr. Prescott AZ 86301), Facility environmental control system.
Jeffrey C. Braun ; Charles J. Jacobus ; Scott Booth ; Michael Suarez ; Derek Smith ; Jeff Hartnagle ; Glenn Leprell, General-purpose medical istrumentation.
Lea Rodger J., Home audio/video network for generating default control parameters for devices coupled to the network, and replacing updated control parameters therewith.
Chen Ding (No. 6 ; 14-122 ; N. Huanghe St. ; Huang Gu District Shenyang ; Liaoning Province 110031 CNX) Chen Zhe (No. 6 ; 14-122 ; N. Huanghe St. ; Huang Gu District Shenyang ; Liaoning Province 1100, Intelligent power consumption monitoring and control system.
Sears ; III Leslie R. (Duncan OK) Pitts Alan J. (Comanche OK) Crain Stephen F. (Duncan OK) Woodall Edward L. (Duncan OK) Green Michael L. (Duncan OK) Roberts Don M. (Duncan OK) Daunis Eugene J. (Dunc, Local area network data transfer system.
Räsänen, Eero; Kikta, Roman; Sorvari, Antti; Salmenkaita, Jukka Pekka; Huhtala, Ykä; Mannila, Heikki; Toivonen, Hannu T.; Oinonen, Kari; Murto, Juhani, Location-based novelty index value and recommendation system and method.
Lee Graham S. (760 Fairmile Rd. West Vancouver ; British Columbia CAX), Meter for measuring accumulated power consumption of an electrical appliance during operation of the appliance.
Adelman Kenneth Allen ; Kashtan David Lyon ; Palter William L. ; Piper ; II Derrell D., Method and apparatus for a TCP/IP load balancing and failover process in an internet protocol (IP) network clustering system.
Day ; II Michael D. ; Butt Alan B. ; Belisle Stephen W. ; Winterton Richard R., Method and apparatus for facilitating the management of networked devices.
DeVito Drew, Method and apparatus for measuring and analyzing physiological signals for active or passive control of physical and virtual spaces and the contents therein.
Marsden Derek R. (15 South Croft ; Grange Street Alfreton ; Derbyshire ; DE5 7PN GBX), Method and apparatus for monitoring the consumption of utilities in business premises.
Fasack Martin L. (Port Washington NY) Rutz William A. (Brookfield Center CT) Voll Robert G. (Southbury CT), Method and apparatus for monitoring the operating environment of a computer system.
Spofford Jason J., Method and apparatus for remotely managing a network hardware device having an embedded server with a client computer across a network.
Richardson David E, Method and structure for dynamically drilling down through a health monitoring map to determine the health status and cause of health problems associated with network objects of a managed network env.
Primm, Michael; Fowler, John J.; Faulkner, Gary, Method and system for a set of network appliances which can be connected to provide enhanced collaboration, scalability, and reliability.
Primm,Michael; Fowler,John J.; Faulkner,Gary, Method and system for a set of network appliances which can be connected to provide enhanced collaboration, scalability, and reliability.
Hoon Chiat Lim SG; Seng Chong Sing SG; Kian Giap Lim SG; Yong Huat Sim SG, Method and system for providing cross-platform remote control and monitoring of facility access controller.
Polk George A. (Sunnyvale CA) Ivanovic Vladimir G. (Palo Alto CA) Muller Hans E. (Saratoga CA) Kern John S. (Mountain View CA) Jervis Robert (Monte Sereno CA) DeLong Rance (Los Gatos CA), Method and system for testing graphical user interface programs.
William E. Barker ; Lisa M. Connelly ; Marvin A. Eggert ; Michael P. Foley ; Kenneth R. Macfarlane ; Philip M. Parsons ; Girish Rai ; Jerome E. Rog ; Kurt A. Vangsness, Method for computer internet remote management of a telecommunication network element.
Samuel Thomas Scott ; Timo Bruck ; Lena D. Sack ; Garth A. Lewis ; Kristen V. Holbrook Donato, Method, device and system for playing a video file in response to selecting a web page link.
Childers, Sloan K.; Elderton, John; Primm, Michael, Methods for displaying physical network topology and environmental status by location, organization, or responsible party.
Hackett Kenneth R. ; Van Horn Kenneth G. ; Wikman ; Jr. William H., Mobile, ground-based platform security system which transmits images that were taken prior to the generation of an input.
Peterson Fred M. (401 Varsity Estates Bay N.W. Calgary CAX T3B 2W7 ) Yee James A. (76 Silver Springs Drive ; N.W. Calgary CAX T3B 3G4 ), Motion detection and image acquisition apparatus and method of detecting the motion of and acquiring an image of an obje.
Kershaw Natalie L. (Glebe AUX) Naylor ; Jr. William C. (Mount Kuring-gai AUX) Pulver Mark (Enmore AUX) Brown David R. (East Roseville AUX), Motion detection method and apparatus.
Takashima Masatoshi,JPX ; Ogura Eiji,JPX, Motion vector detection apparatus and predictive coding system for compensating for movement with the apparatus.
Rakavy Yuval,ILX ; Anderson Ian,GBX ; Garsten Andrew ; Roche James,GBX ; Burton Michael Peter R.,GBX, Network enhanced BIOS enabling remote management of a computer without a functioning operating system.
Rakavy Yuval,ILX ; Anderson Ian,GBX ; Garsten Andrew ; Roche James,GBX ; Burton Michael Peter R.,GBX, Network enhanced bios enabling remote management of a computer without a functioning operating system.
Leplingard Bruno (Orsay FRX) Laasri Hassan (Arpajon FRX), Network with surveillance sensors and diagnostic system, and method of establishing diagnostics for the network.
Wilson Dennis A. (McHenry IL) Williamsen Mark S. (Crystal Lake IL), Peripheral data acquisition, monitor, and adaptive control system via personal computer.
Wilson Dennis A. (Wauconda Township ; Lake County IL) Williamsen Mark S. (Harwood Heights IL), Peripheral data acquisition, monitor, and control device for a personal computer.
James R. Kline ; Matthew L. Costick, Process and apparatus for individual adjustment of the temperature set points of a plurality of VAV devices through a network server.
Humpleman Richard James ; Harms G. Kevin ; Deacon Michael S. ; Chandiramani Omi, Programming tool for home networks with an HTML page for a plurality of home devices.
Heller Alan C. (San Antonio TX) Springmeyer Steven (Bellevue WA) Fox Christopher W. (Englewood CO), Sensory and control system for local area networks.
Emens, Michael Lawrence; Kraft, Reiner; Sundaresan, Neelakantan, System and method for computer-based notifications of real-world events using digital images.
Kodosky Jeffrey L. ; Andrade Hugo ; Odom Brian K. ; Butler Cary P., System and method for configuring an instrument to perform measurement functions utilizing conversion of graphical programs into hardware implementations.
Nam Young K. (513 Seongnam-Dong Seongnam City Kyunggi-Do KRX) Lee Seung J. (Bupyung Apt. 9-203 98-64 Bupyung 5-Dong ; Buk-Ku Incheon KRX), System and method for monitoring temperature.
Krawiec,Theodore J.; Gryte,Stephen M.; Riblett,John Frederick; Yu,Chris Shu Wing, System and method for providing global self-service financial transaction terminals with worldwide web content, centralized management, and local and remote administration.
Gleichauf Robert ; Shanklin Steven, System and method for real-time insertion of data into a multi-dimensional database for network intrusion detection and vulnerability assessment.
Bonnell David N. ; Tatarinov Kirill L. ; Picard Martin W., System for managing computer resources across a distributed computing environment by first reading discovery informatio.
Ewing Carrell W. ; Cleveland Andrew J., System for reading the status and for controlling the power supplies of appliances connected to computer networks.
Hoskins Josiah C. ; Brooks Ruven E. ; Hafemann Dennis R. ; Chalupa Jan,CZX, System, method and article of manufacture for building an enterprise-wide data model.
Toyoshima Keiichi (Tokyo JPX), Video monitoring system including a memory for storing and transmitting a video signal immediately following the occurre.
Sheard Nicolas C. ; Fischer Larry J. ; Matthews Richard W. ; Gurla Himabindu ; Hu Qilin ; Zheng Wendy J. ; Mow Boyle Y., Visual data integration system and method.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.