A metering system meters usage of on-line and off-line services by way of interactive service devices. Interactive service devices may include personal computers and non-personal-computers. Non-personal-computers may include network computers, gaming devices, Internet televisions, Internet telephon
A metering system meters usage of on-line and off-line services by way of interactive service devices. Interactive service devices may include personal computers and non-personal-computers. Non-personal-computers may include network computers, gaming devices, Internet televisions, Internet telephones, and the like. The on-line service usage may include Internet usage such as which home pages, advertisements, and other Internet resources are accessed by a user. The off-line service usage may include application program usage such as which application programs are executed by a user.
대표청구항▼
What is claimed is: 1. A metering system comprising: passive data acquiring means for acquiring usage data from an interactive service device without intercepting communications of the interactive service device, wherein said passive data acquiring means is configured to: distinguish between an on-
What is claimed is: 1. A metering system comprising: passive data acquiring means for acquiring usage data from an interactive service device without intercepting communications of the interactive service device, wherein said passive data acquiring means is configured to: distinguish between an on-line communication protocol and an off-line communication protocol; identify which of the on-line communication protocol or the off-line communication protocol is employed by the interactive service device; designate a first usage data extraction technique based on identifying the on-line communication protocol or a second usage data extraction technique based on identifying the off-line communication protocol; and extract the usage data using the designated first or second data extraction technique; and data communicating means for communicating the usage data to a remote facility. 2. The metering system of claim 1 wherein the passive data acquiring means acquires the usage data from a personal computer. 3. The metering system of claim 1 wherein the passive data acquiring means comprises software resident on a storage device of the passive data acquiring means. 4. The metering system of claim 3 wherein the software comprises means for monitoring scrolling of a display and for including data related to the monitored scrolling in the usage data. 5. The metering system of claim 1 wherein the data communicating means communicates the usage data to the remote facility through an on-line service communication. 6. The metering system of claim 1 wherein the data communicating means communicates the usage data to the remote facility in real time. 7. The metering system of claim 1 wherein the passive data acquiring means acquires the usage data from a personal computer which is arranged to share a monitor with a television. 8. The metering system of claim 1 wherein the passive data acquiring means acquires the usage data from a non-personal-computer. 9. The metering system of claim 1 wherein the passive data acquiring means is coupled to a communication input to the interactive service device by way of a tapping device. 10. The metering system of claim 1 wherein the passive data acquiring means is coupled to a television/internet input to the interactive service device. 11. The metering system of claim 1 wherein the passive data acquiring means includes means for grabbing video frames. 12. The metering system of claim 1 wherein the passive data acquiring means acquires the usage data from a vertical blanking interval of a video signal. 13. The metering system of claim 1 wherein the passive data acquiring means acquires off-line usage data. 14. The metering system of claim 13 wherein the passive data acquiring means acquires on-line usage data. 15. The metering system of claim 1 wherein the passive data acquiring means acquires on-line usage data. 16. The metering system of claim 1 further comprising user identifying means for identifying a user independently of a password and/or a logon identification. 17. The metering system of claim 16 wherein the user identifying means implements biometrics recognition. 18. The metering system of claim 16 wherein the user identifying means is a personal characteristic detector. 19. The metering system of claim 1 wherein the data communicating means communicates the usage data to the remote facility though an on-line service communication. 20. The metering system of claim 1 wherein the data communicating means communicates the usage data to the remote facility by way of a phone call. 21. The metering system of claim 1 wherein the data communicating means communicates the usage data to the remote facility by way of cable. 22. The metering system of claim 1 wherein the passive data acquiring means is at a first statistically selected facility, wherein the data communicating means is at the first statistically selected facility, and wherein the metering system further comprises: a plurality of other passive data acquiring means for acquiring usage data from a plurality of other interactive service devices, wherein each of the other passive data acquiring means and a corresponding other interactive service device are located in a corresponding one of a plurality of other statistically selected facilities; and a plurality of other data communicating means for communicating the usage data acquired by the other data acquiring means to the remote facility, wherein each of the other data communicating means is located in a corresponding one of the plurality of other statistically selected facilities. 23. A metering system comprising: communication line tapping means for tapping into a communication line coupled to an interactive service device, wherein said communication line tapping means is a probe coupled to a signal being processed by the interactive service device; and passive data acquiring means for acquiring usage data from communications on the communication line without intercepting communications of the interactive service device, wherein the passive data acquiring means is configured to: distinguish between at least two communication protocols; identify which of the at least two communication protocols is employed by the interactive service device; designate a first usage data extraction technique based on identifying a first communication protocol or a second usage data extraction technique based on identifying a second communication protocol different than the first communication protocol; and extract the usage data using the designated first or second data extraction technique. 24. The metering system of claim 23 wherein the communication line tapping means taps into a phone line coupled to the interactive service device. 25. The metering system of claim 23 wherein the communication line tapping means taps into a local area network coupled to the interactive service device. 26. The metering system of claim 23 wherein the communication line tapping means taps into a video feed to the interactive service device. 27. The metering system of claim 23 wherein the passive data acquiring means acquires the usage data from a vertical blanking interval of the video signal. 28. The metering system of claim 23 wherein the passive data acquiring means is arranged to acquire on-line usage data from communications on the communication line, wherein the passive data acquiring means includes software resident on the interactive service device, and wherein the software is arranged to acquire off-line usage data from the interactive service device. 29. The metering system of claim 28 wherein the software is arranged to monitor scrolling of video displayed with respect to the interactive service device. 30. The metering system of claim 28 wherein the passive data acquiring means includes means for grabbing video frames. 31. The metering system of claim 23 wherein the passive data acquiring means acquires the usage data from a personal computer. 32. The metering system of claim 23 wherein the passive data acquiring means acquires the usage data from a non-personal-computer. 33. The metering system of claim 23 wherein the passive data acquiring means acquires off-line usage data. 34. The metering system of claim 23 wherein the passive data acquiring means acquires on-line usage data. 35. The metering system of claim 23 further comprising user identifying means for identifying a user independently of a password and/or a logon identification. 36. The metering system of claim 35 wherein the user identifying means implements biometrics recognition. 37. The metering system of claim 35 wherein the user identifying means is a personal characteristic detector. 38. The metering system of claim 23 further comprising data communicating means for communicating the usage data to a remote facility through an on-line service communication. 39. The metering system of claim 23 further comprising data communicating means for communicating the usage data to a remote facility in real time. 40. The metering system of claim 23 wherein the communication line tapping means is at a first statistically selected facility, wherein the passive data acquiring means is at the first statistically selected facility, and wherein the metering system further comprises: a plurality of other communication line tapping means for tapping into a plurality of communication lines, wherein each of the other communication line tapping means is coupled to a corresponding one of the communication lines which is coupled to a corresponding one of a plurality of other interactive service devices, and wherein each of the other communication line tapping means and a corresponding other interactive service device are located in a corresponding one of the plurality of other statistically selected facilities; and, a plurality of other passive data acquiring means for acquiring usage data from communications on the plurality of communication lines, wherein each of the other passive data acquiring means and a corresponding other interactive service device are located in a corresponding one of the plurality of other statistically selected facilities. 41. A metering system comprising: data acquiring means for acquiring usage data from an interactive service device, wherein the data acquiring means includes code detecting means for detecting an identification code in content being processed by the interactive service device, wherein the data acquiring means acquires usage data from the interactive service device without intercepting communications of the interactive service device, and wherein the data acquiring means is configured to: distinguish between at least two communication protocols; identify which of the at least two communication protocols is employed by the interactive service device; designate a first usage data extraction technique based on identifying a first communication protocol or a second usage data extraction technique based on identifying a second communication protocol different than the first communication protocol; and extract the usage data using the designated first or second data extraction technique; and data storing means for storing the usage data and the identification. 42. The metering system of claim 41 wherein the content being processed by the interactive service device is an application program being executed by the interactive service device. 43. The metering system of claim 41 wherein the content being processed by the interactive service device is an on-line service communication received by the interactive service device. 44. The metering system of claim 41 wherein the identification code is in video content being processed by the interactive service device. 45. The metering system of claim 41 wherein the identification code is in audio content being processed by the interactive service device. 46. The metering system of claim 41 wherein the identification code is in graphics being processed by the interactive service device. 47. The metering system of claim 41 wherein the data acquiring means comprises communication line tapping means for tapping into a communication line coupled to an interactive service device, and wherein the code detecting means detects the identification code from the communications on the communication line. 48. The metering system of claim 41 wherein the data acquiring means is coupled to receive a video output of the interactive service device, and wherein the code detecting means detects the identification code from the video output. 49. The metering system of claim 41 wherein the data acquiring means is coupled to receive an audio output of the interactive service device, and wherein the code detecting means detects the identification code from the audio output. 50. The metering system of claim 41 wherein the data acquiring means comprises software resident on a storage device of the interactive service device. 51. The metering system of claim 50 wherein the software is arranged to monitor scrolling of video displayed with respect to the interactive service device. 52. The metering system of claim 41 further comprising user identifying means for identifying a user independently of a password and/or a logon identification. 53. The metering system of claim 52 wherein the user identifying means implements biometrics recognition. 54. The metering system of claim 52 wherein the user identifying means is a personal characteristic detector. 55. The metering system of claim 41 further comprising data communicating means for communicating the usage data to a remote facility through an on-line service communication. 56. The metering system of claim 41 further comprising data communicating means for communicating the usage data to a remote facility in real time. 57. The metering system of claim 41 wherein the data acquiring means is at a first statistically selected facility, wherein the data storing means is at the first statistically selected facility, and wherein the metering system further comprises: a plurality of other data acquiring means for acquiring usage data from a plurality of other interactive service devices, wherein each of the other data acquiring means includes a corresponding code detecting means for detecting an identification code in content being processed by a corresponding one of the other interactive service device, and wherein each of the other data acquiring means and a corresponding other interactive service device are located in a corresponding one of a plurality of other statistically selected facilities; and a plurality of other data storing means for storing the usage data acquired by the other data acquiring means, wherein each of the other data storing means is located in a corresponding one of the plurality of other statistically selected facilities. 58. A metering system comprising: usage data acquiring means for acquiring usage data from an interactive service device without intercepting communications of the interactive service device, wherein the usage data acquiring means is configured to; distinguish between at least two communication protocols; identify which of the at least two communication protocols is employed by the interactive service device; designate a first usage data extraction technique based on identifying a first communication protocol or a second usage data extraction technique based on identifying a second communication protocol different than the first communication protocol; and extract the usage data using the designated first or second data extraction technique; television ratings data acquiring means for acquiring ratings data relating to the tuning of television signals by a television; data communicating means for communicating the usage data and the ratings data to a remote facility; and wherein the usage data acquiring means acquires data relating to on-line usage by way of the television. 59. The metering system of claim 58 wherein the usage data acquiring means comprises a frame grabber. 60. The metering system of claim 59 wherein the usage data acquiring means comprises means for detecting an identification code in frames grabbed by the frame grabber. 61. The metering system of claim 59 wherein the usage data acquiring means comprises means for employing pattern recognition in order to recognize content in frames grabbed by the frame grabber. 62. The metering system of claim 59 wherein the usage data acquiring means acquires on-line usage data from frames grabbed by the frame grabber. 63. The metering system of claim 58 wherein the usage data acquiring means comprises means for detecting an identification code in content being processed by the television. 64. The metering system of claim 58 further comprising user identifying means for identifying a user of the television independently of a password and/or a logon identification. 65. The metering system of claim 64 wherein the user identifying means implements biometrics recognition. 66. The metering system of claim 64 wherein the user identifying means is a personal characteristic detector. 67. The metering system of claim 58 wherein the data communicating means electronically communicates the usage data and the ratings data to the remote facility. 68. The metering system of claim 58 wherein the television ratings data acquiring means comprises identification code reading means for reading program identification codes from television signals tuned by a television. 69. The metering system of claim 58 wherein the usage data acquiring means acquires off-line usage data from the interactive service device. 70. The metering system of claim 58 wherein the usage data acquiring means is at a first statistically selected facility, wherein the television ratings data acquiring means is at the first statistically selected facility, wherein the data communicating means is at the first statistically selected facility, and wherein the metering system further comprises: a plurality of other usage data acquiring means for acquiring usage data from a plurality of other interactive service devices, wherein each of the other usage data acquiring means and a corresponding other interactive service device are located in a corresponding one of a plurality of other statistically selected facilities; a plurality of other television ratings data acquiring means for acquiring ratings data relating to the tuning of television signals by a plurality of other televisions, wherein each of the other television ratings data acquiring means and a corresponding other television are located in a corresponding one of the plurality of other statistically selected facilities; a plurality of other data communicating means for communicating the usage data and ratings data acquired by the other usage data acquiring means and the other television ratings data acquiring means to the remote facility, wherein each of the other data communicating means is located in a corresponding one of the plurality of other statistically selected facilities. 71. The metering system of claim 58 wherein the television from which the television ratings data is acquired is a conventional television. 72. The metering system of claim 58 wherein the television from which the television ratings data is acquired is an Internet television. 73. The metering system of claim 58 wherein the television from which the television ratings data is acquired is a computer having a television tuner. 74. A metering system comprising: usage data acquiring means for acquiring usage data from an interactive service device without intercepting communications of the interactive service device, wherein the usage data acquiring means is configured to: distinguish between at least two communication protocols; identify which of the at least two communication protocols is employed by the interactive service device; designate a first usage data extraction technique based on identifying a first communication protocol or a second usage data extraction technique based on identifying a second communication protocol different than the first communication protocol; and extract the usage data using the designated first or second data extraction technique; television ratings data acquiring means for acquiring ratings data relating to the tuning of television signals by a television; data communicating means for communicating the usage data and the ratings data to a remote facility; and wherein the television ratings data acquiring means comprises signature extracting means for extracting signatures from television signals tuned by the television. 75. A metering system for use with an interactive service device, the metering system comprising: a memory; and a passive communication listener coupled to the memory and the interactive service device, the passive communication listener being configured to: distinguish between an on-line and an off-line communication protocol; identify which of the on-line communication protocol or the off-line communication protocol is employed by the interactive service device; designate a first usage information extraction technique based on identifying the on-line communication protocol or a second usage information extraction technique based on identifying the off-line communication protocol; extract usage information from a signal associated with the interactive service device without intercepting communications of the interactive service device using the designated first or second usage information extraction technique; and store the extracted usage information in the memory. 76. A metering system as defined in claim 75, wherein the passive communication listener is configured to monitor communications between an operating system and a communication device driver. 77. A metering system as defined in claim 75, wherein the passive communication listener is in communication with at least one of an operating system, a communication device driver, an application or a log file. 78. A metering system as defined in claim 75, wherein the passive communication listener is configured to detect on-line communications and to monitor applications in response to detecting communications other than on-line communications. 79. A metering system as defined in claim 75, wherein the communication protocols include an Internet communication protocol. 80. A metering system as defined in claim 79, wherein the Internet communication protocol is a hyper-text transport protocol. 81. A metering system as defined in claim 75, wherein the usage information is associated with one of on-line information or off-line information. 82. A metering system as defined in claim 75, wherein the interactive service device is at least one of a personal computer, an Internet device, a non-personal computer, a television or a set-top box. 83. A metering system comprising: a memory; and a processor coupled to the memory and programmed to: acquire a signal associated with an interactive service device without intercepting communications of the interactive service device; distinguish between an on-line communication protocol and an off-line communication protocol; determine if the signal is conveyed using the on-line or the off-line communication protocol; designate a first usage data extraction technique based on identifying the on-line communication protocol or a second usage data extraction technique based on identifying the off-line communication protocol; and extract usage data from the acquired signal using the designated first or second usage data extraction technique. 84. A metering system as defined in claim 83, wherein the processor is programmed to monitor communications between an operating system and a communication device driver. 85. A metering system as defined in claim 83, wherein the interactive service device is at least one of a personal computer, an Internet device, a non-personal computer, a television or a set-top box. 86. A metering system as defined in claim 83, wherein one of the communication protocols includes an Internet communication protocol. 87. A metering system as defined in claim 83, wherein the Internet communication protocol is a hyper-text transport protocol. 88. A metering system as defined in claim 83, wherein the usage data includes one of on-line information or off-line information. 89. A metering system as defined in claim 83, wherein the usage data includes information associated with an application program. 90. A method of metering usage data comprising: acquiring a signal associated with an interactive service device without intercepting communications of the interactive service device; distinguishing between an on-line communication protocol and an off-line communication protocol; determining if the acquired signal is conveyed using the on-line or the off-line communication protocol; designating a first usage data extraction technique based on identifying the on-line communication protocol or a second usage data extraction technique based on identifying the off-line communication protocol; and extracting the usage data from the acquired signal using the designated first or second usage data extraction technique. 91. A method of metering usage data as defined in claim 90, further comprising monitoring communications between an operating system and a communication device driver. 92. A method as defined in claim 90, wherein the interactive service device is at least one of a personal computer, an Internet device, a non-personal computer, a television or a set-top box. 93. A method as defined in claim 90, wherein the communication protocols include an Internet communication protocol. 94. A method as defined in claim 90, wherein the Internet communication protocol is a hyper-text transport protocol. 95. A method as defined in claim 90, wherein the usage data includes one of on-line information or off-line information. 96. A method as defined in claim 90, wherein the usage data includes information associated with an application program. 97. A machine readable medium having instructions stored thereon that, when executed, cause a machine to: acquire a signal associated with an interactive service device without intercepting communications of the interactive service device; distinguish between an on-line communication protocol and an off-line communication protocol; determine if the signal is conveyed using the non-line or the off-line communication protocol; designate a first usage data extraction technique based on identifying the on-line communication protocol or a second usage data extraction technique based on identifying the off-line communication protocol; and extract usage data from the acquired signal using the designated first or second usage data extraction technique. 98. A machine readable medium as defined in claim 97 having instructions stored thereon that, when executed, cause the machine to monitor communications between an operating system and a communication device driver. 99. A machine readable medium as defined in claim 97, wherein the interactive service device is at least one of a personal computer, an Internet device, a non-personal computer, a television or a set-top box. 100. A machine readable medium as defined in claim 97, wherein the communication protocols include an Internet communication protocol. 101. A machine readable medium as defined in claim 97, wherein the Internet communication protocol is a hyper-text transport protocol. 102. A machine readable medium as defined in claim 97, wherein the usage data includes one of on-line information or off-line information. 103. A machine readable medium as defined in claim 97, wherein the usage data includes information associated with an application program.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (126)
Keithley Ronald D. (Charlottesville VA) Keithley Kevin L. (Earlysville VA), Apparatus and method for interactive communication for tracking and viewing data.
Branstad Mark W. (Rochester MN) Byrn Jonathan W. (Rochester MN) Delp Gary S. (Rochester MN) Leichty Philip L. (Rochester MN) Lynch Jeffrey J. (Apex NC) Plotz Kevin G. (Byron MN) Sendelbach Lee A. (Ro, Apparatus and method for segmentation and time synchronization of the transmission of multimedia data.
James M. Jensen ; Wendell D. Lynch ; Michael M. Perelshteyn ; Robert B. Graybill ; Sayed Hassan ; Wayne Sabin, Apparatus and methods for including codes in audio signals.
Dunham Michael D. (Shorewood WI) Dykstra Thomas M. (Mequon WI) Vahlsing Donald W. (Grafton WI) Ehlers Paul L. (Menasha WI), Apparatus for controlling the use of computer software.
Gastouniotis Constantine S. (Santa Barbara CA) Bandeira Nuno (Santa Barbara CA) Wilson Kitchener C. (Santa Barbara CA), Automated remote water meter readout system.
Lert ; Jr. John G. (9549 La Jolla Shores Dr. La Jolla CA 92037) Lert Peter W. (9549 La Jolla Shores Dr. La Jolla CA 92037) Cornelius John F. (1828 Dora Dr. Cardiff by the Sea CA 92007), Broadcast program identification method and system.
Watson ; Jr. John C. ; Vemis Arthur W. ; Olinsky Mark H. ; Sparks William D., Cable television control apparatus and method with channel access controller at node of network including channel filte.
Montgomery Peter (Owen Sound CAX) Becker Don (Tara CAX) Robins Cathy (Owen Sound CAX) Slack Mike (Owen Sound CAX) Lee Tim (Owen Sound CAX) Oliver Bill (Tara CAX), Computer system for monitoring events and which is capable of automatically configuring itself responsive to changes in.
Waechter Jerome R. (Clearwater FL) Patten James T. (St. Petersburg FL) Kempter Paul C. (Palm Harbor FL), Data collection and transmission system with real time clock.
Grube Gary W. (157 Cedarwood Ct. Palatine IL 60067) Markison Timothy W. (555 Northview La. Hoffman Estates IL 60194), Detection of unauthorized use of software applications in processing devices.
Feigenbaum Barry A. (Deerfield Beach FL) Gibbs Dennis D. (Lighthouse Point FL) Sachsenmaier Robert (Boca Raton FL), Distributed control of alias name usage in networks.
Hecht Matthew S. (Potomac MD) Johri Abhai (Gaithersburg MD) Wei Tsung T. (Gaithersburg MD) Steves Douglas H. (Austin TX), Distributed security auditing subsystem for an operating system.
Record Stephen E. (Ridgefield CT) Shepherd Ann M. (Endwell NY) Shultz Steven S. (Endicott NY), Dynamically established event monitors in event management services of a computer system.
Hidary Jack D. ; Ullman Craig ; Spivack Nova T., Enhanced video programming system and method for incorporating and displaying retrieved integrated internet information.
Stirling Ronald C. (Lilburn GA) Schutte Mark E. (Sugar Hill GA) Robertson Neil C. (Norcross GA), Interdiction method and apparatus with mode control for variable frequency elements.
Levin Arthur L. (Pleasant Valley NY) Rain Don W. (Poughkeepsie NY) Thomas David J. (Poughkeepsie NY), Internal performance monitoring by event sampling.
Bland M. Alan ; Nepustil Vladimir, Management-data-gathering system for gathering on clients and servers data regarding interactions between the servers,.
Williams Christopher D. ; Goldschmidt Iki Jean M. ; Shah-Nazaroff Anthony A. ; Watts Earl Michael ; Hackson David N. ; Moore Kenneth Alan, Method and apparatus for automatically determining and dynamically updating user preferences in an entertainment system.
Zurlinden Everett V. (Dunedin FL), Method and apparatus for determining audience viewing habits by jamming a control signal and identifying the viewers com.
Bowman Philip B. (Bradford VT) Cohen Richard L. (Norwich VT) Robichaud Brett J. (Lebanon NH) Muntz Charles A. (Hanover NH), Method and apparatus for digital data processor file configuration detection.
Aras Caglan M. ; Griffin Luther B. ; Lai Fuyung ; Stagg Arthur James ; Sy Kian-Bon Kho, Method and apparatus for monitoring audio-visual materials presented to a subscriber.
Baran David (83 James Ave. Atherton CA 94025), Method and apparatus for the remote verification of the operation of electronic devices by standard transmission mediums.
Davis Owen ; Jain Vidyut, Method and apparatus for tracking client interaction with a network resource and creating client profiles and resource database.
Ludtke Harold Aaron, Method and system for collecting data over a 1394 network to support analysis of consumer behavior, marketing and customer support.
Durst ; Jr. Robert T. (212 Shelton Rd. Monroe CT 06468) Hunter Kevin D. (440 Allyndale Dr. Stratford CT 06497), Method and system for preventing unauthorized use of software.
Allard James E. ; Treadwell ; III David R. ; Ludeman John F., Method, system and apparatus for client-side usage tracking of information server systems.
Johnson Herrick J. (Marblehead MA) Olson Margaret (Nashua NH) Jones Stuart (Cambridge MA) Bodoff Stephanie (Somerville MA) Bertrand Stephen C. (Waltham MA) Levine Paul H. (Carlisle MA), Network license server.
Kiyaji Akihito (Sapporo JPX) Komatsuda Hiroshi (Kawasaki JPX) Katori Masayuki (Kawasaki JPX) Ishizaka Kenichi (Kawasaki JPX), Networking apparatus which detects a stoppage of data transfer in a processing apparatus on a data origination side and.
Malec John (Chicago IL) Moser Joseph P. (Glendale Heights IL) Thomas Scott J. (Palatine IL) Ting Eleanor (Sudbury MA), Passive data collection system for market research data.
Schneier Bruce ; Walker Jay ; Jorasch James, Remote-auditing of computer generated outcomes and authenticated biling and access control system using cryptographic an.
Quade Robert C. (Lakewood CO) Bredesen Mark S. (Incline Village NV) Hauck Raymond L. (Randolph MN) Grabinger Scott R. (Maple Grove MN) Pugaczewski John T. (St. Paul MN), Reverse automatic number identification system.
Rabne Michael W. ; Barker James A. ; Alrashid Tareq M.T. ; Christian Brian S. ; Cox Steven C. ; Slotta Elizabeth A. ; Upthegrove Luella R., Rights management system for digital media.
Bednar ; Jr. Joseph A. (Middletown NJ) Bennett Richard L. (Lincroft NJ) Dutt Charbak R. (Howell NJ) Stafford Michael K. (Red Bank NJ), Store and forward facility for use in multiprocessing environment.
Medveczky Geza (5395 Greenrich Rd. Castro Valley CA 94552) Lunsford Kelvin (36156 Bayonne Dr. Newark CA 94560) ..UC: 380/4 380/25 380/49 340/82534, System and apparatus for protecting computer software.
Johnson Charles George ; Lakshmi-Ratan Ramnath A. ; Lanning Steven G. ; Renger Bernard S L, System and method for monitoring information flow and performing data collection.
Copriviza Robert C. (Tarzana CA) Dubin Arnold M. (Calabasas CA) Ackerman Edward B. (Encino CA) Wood Jackson B. (Tarzana CA) Eakins Jeffrey S. (Claremont CA) Harmon David D. (Torrance CA), System and method for monitoring video program material.
Rosenblatt Roberta S. (East Brunswick NJ) Lai Joseph C. (Metuchen NJ), System and method for preventing fraud upon PBX through a remote maintenance or administration port.
Onoe Takutaro ; Chiang Jason Yi-Yu, System for collecting detailed internet information on the basis of the condition of activities of information viewers v.
Schmidt Jonathan ; Donzis Lewis ; Donzis Henry ; Murphy John ; Baron Peter ; Savage Herb, System for controlling users access to a distributive network in accordance with constraints present in common access.
Nishioka Hisao,JPX ; Enomoto Takaaki,JPX ; Ota Jun,JPX ; Kisanuki Chisato,JPX, Television transmitter, television transmitting method, television receiver and television receiving method.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.