Ulllted States Patent [19]
`Clark
`
`US005960074A
`[11] Patent Number:
`[45] Date of Patent:
`
`5,960,074
`Sep. 28, 1999
`
`[54] MOBILE TELE-COMPUTER NETWORK
`FOR MOTION PICTURE, TELEVISION AND
`TV ADVERTISING PRODUCTION
`
`Inventor: Curtis Clark,
`
`Pleather
`
`[56]
`
`References Cited
`Us PATENT DOCUMENTS
`
`5,095,480
`5,327,486
`
`3/1992 Fenner ................................. .. 370/94.1
`7/1994 Wolff Ct 8.1.
`...... .. 379/96
`
`Beverl Hills Calif 90210
`y
`>
`~
`
`5,410,737
`4/1995 Jones . . . . . . . . . . . . .
`. . . .. 455/56.1
`5,570,354 10/1996 Simon ..................................... .. 370/26
`
`[73] Assignee: Curtis Clark, Beverly Hills, Calif.
`
`[21] Appl. No.: 08/718,748
`
`[22] Filed:
`
`Sep. 23, 1996
`
`[51] Int. Cl.6 ......................... .. H04M 7/10; H04M 11/00,
`H04Q 11/04; H04] 1/00; H04] 3/02
`
`_
`
`_
`
`_
`
`[52] US'
`
`370/
`
`f
`
`f
`
`f
`
`f
`
`f
`
`’
`'
`_’
`'
`’
`_
`’
`_
`379/93'05’ 379/93'09’ 379/100'15’ 379/100'16
`_
`[58] Fleld of Search ................................... .. 370/310, 352,
`370/353, 380, 389, 392, 396, 401, 404,
`427, 435, 450, 465, 485; 379/9001, 93.01,
`93.05, 93.09, 100.15, 100.16
`
`Microwave
`1 01 C
`
`Microwave
`1 01 D
`
`Wireless
`Tx/Rx/Router
`
`Primary Exami?er—Wenington Chin
`Asststant Examiner—Allan Hoosaln
`Attorney, Agent, or Firm—Blakely, Sokoloff, Taylor &
`Zafman LLP
`
`[57]
`
`ABSTRACT
`
`A telecompmer network is described The network com
`prises a iedundant dggital hrnilcrowceilve colrnmlllniclation
`system, at east one mo 1 e ve 1c e, an a ere ess oca area
`network
`In one embodiment, the microwave com
`munication system transfers information using ethernet
`packet switching. In one embodiment, the wireless LAN
`transfers information using the TCP/IP protocol. The mobile
`vehicle is con?gured to transfer information as a single
`nomadic transmission/reception point between the micro
`wave communication system and the wireless LAN.
`
`40 Claims, 1 Drawing Sheet
`
`1 02A
`
`V
`
`Microwave
`1 020
`
`Microwave
`1 02D
`
`Wireless
`Tx/Rx/Fiouter
`'
`Hub 1112
`I
`Out of Band
`1 06
`Management I
`
`1038 _-|—:
`
`'
`
`Hub 1%
`l
`Out of Band % 105 9W
`Management
`103A
`
`1‘
`
`103 w
`
`O
`C)
`
`C)
`
`Q
`
`Petitioners' Ex. 1001 - Page 1
`
`

`
`U.S. Patent
`
`Sep.28, 1999
`
`5,960,074
`
`FIG. 1
`
`101A
`\/0
`
`102A
`V
`
`Microwave Microwave
`1010
`101 D
`
`Microwave Microwave
`1026
`102D
`
`Wireless
`Tx/Rx/Router “~101 B
`[
`Hub 1_0_1_
`l
`Out of Band
`Management “A 105
`
`103 w
`
`Hub
`0
`sewer
`1 03A
`
`\Mreless
`1028 v“ Tx/Rx/Router
`1038 :E
`'
`Hub 192
`I
`Out of Band I106
`Management
`
`‘
`
`I:
`
`0
`Remote Vt?reless Lan 1_0_§
`
`Petitioners' Ex. 1001 - Page 2
`
`

`
`5,960,074
`
`1
`MOBILE TELE-COMPUTER NETWORK
`FOR MOTION PICTURE, TELEVISION AND
`TV ADVERTISING PRODUCTION
`
`FIELD OF THE INVENTION
`
`The present invention relates to the ?eld of communica
`tions systems; more particularly, the present invention
`relates to mobile communications designed for advanta
`geous use with motion picture, television and TV advertising
`production.
`
`BACKGROUND OF THE INVENTION
`
`2
`SUMMARY OF THE INVENTION
`
`A telecomputer network is described. The network of the
`present invention includes a wireless wide area network
`(WAN) comprised of a redundant digital microwave com
`munication system. The network also comprises at least one
`mobile communication hub and a wireless local area net
`work
`In one embodiment, the microwave commu
`nication system and the wireless LAN transfers information
`using an ethernet packet switching protocol, such as an
`Internet protocol (e. g., the TCP/IP protocol). The mobile hub
`may be in the form of a mobile vehicle (e.g., van) con?gured
`to transfer information as a single nomadic transmission/
`reception point between the microwave communication sys
`tem (i.e., the wireless WAN) and the wireless LAN.
`
`BRIEF DESCRIPTION OF THE DRAWINGS
`
`The present invention will be understood more fully from
`the detailed description given below and from the accom
`panying drawings of various embodiments of the invention,
`which, however, should not be taken to limit the invention
`to the speci?c embodiments, but are for explanation and
`understanding only.
`FIG. 1 is a block diagram of one embodiment of the
`system of the present invention.
`
`DETAILED DESCRIPTION OF THE PRESENT
`INVENTION
`
`A mobile network for use is described. In the following
`description, numerous details are set forth, such as bit rates,
`distances, etc. It will be apparent, however, to one skilled in
`the art, that the present invention may be practiced without
`these speci?c details. In other instances, well-known struc
`tures and devices are shown in block diagram form, rather
`than in detail, in order to avoid obscuring the present
`invention.
`
`Overview of the Present Invention
`
`A tele-computing network architecture is described. The
`network comprises a wireless local area network (LAN), at
`least one mobile hub, and a wireless wide area network
`(WAN) that includes a redundant digital microwave com
`munication system. The mobile hub is in the form of a
`mobile vehicle (e.g., a van) and is con?gured to transfer
`information as a single nomadic transmission/reception
`point between the microwave communication system and
`the wireless LAN.
`In one embodiment, the microwave communication sys
`tem transfers information using multiple relay stations via an
`ethernet packet switching protocol such as the IEEE 802.10
`protocol or the TCP/IP protocol used on the World Wide
`Web. By using the ethernet packet communication, multiple
`applications may access the microwave links at any one
`time. The wireless LAN also utilizes the ethernet protocol to
`transfer information.
`In one embodiment, the wireless WAN of the present
`invention operates as a private Intranet using the TCP/IP
`protocols of the Internet. Its user operation may be based on
`the platform independent, Graphical User Interface (GUI) of
`the World Wide Web (e.g., Netscape Navigator). By using
`Web browser software (HTML, VRML, Java language, and
`numerous audiovisual “plug-ins” developed for Netscape),
`the present invention may create an effective, ef?cient, and
`easy to use Web based graphical multimedia environment
`for the dissemination of information and data on a private
`intranet, such as one used by media production industries.
`
`Most area of corporate enterprise are rapidly advancing
`their productivity via the use of computer networking.
`Computer networking is the connecting of multiple com
`puters into a common communication system so that infor
`mation may be exchanged between them. Computer network
`technology is rede?ning the way corporate America works.
`Computers and networking are being converged, spawning
`a synergistic fusion between the two that is reshaping current
`understanding of computer functionality. The advent of
`mobile computing employing high powered full-featured
`laptop and notebook computers as replacements for conven
`tional desktop computer systems has enabled the “virtual
`of?ce” to become the fastest growing area of business “real
`estate”.
`Intranets have recently begun to replace traditional client
`server private networks as the chosen preference for
`network-centric (group) tele-computing. An Intranet is a
`private computer network using public Internet TCP/IP
`protocols and designed to be the most efficient and easy to
`use network for sharing information and data, including text,
`image and audio. Intranets are relatively cheap, they can
`exploit Internet features including the ability to establish
`Web sites to disseminate information, and they use available
`browsers (e.g., Netscape) to search for information.
`The creative and commercial success of Motion Picture,
`Television and TV Advertising ?lm production is dependent
`on the ability of the parties to communicate with their
`audiences. Likewise, the professionals engaged in the mak
`ing of these ?lms and TV shows would greatly enhance their
`ef?ciency and thereby reduce their production costs com
`puter network technology into their work environment. Such
`technology may also improve prospects for more effective
`creative collaboration. However, there is currently no inte
`grated and coherent mobile network computing technology
`that satis?es the needs of motion picture, television, and TV
`advertising production.
`Although historically slow in embracing new electronic
`techniques, ?lm and TV production personnel have recently
`been awakening to the incredible bene?ts that accrue from
`incorporating networked computing into their work and
`lifestyles. Fueled by the escalating need for ever greater
`ef?ciency to reduce production costs, what is needed is to
`incorporate telecomputing into ?lm and TV production.
`Furthermore, the realities of Motion Picture, Television,
`and Advertising ?lm production demand a fail-safe reliabil
`ity to any of the service areas that it depends on. Therefore,
`any solution that reduces production cost and increase
`ef?ciency cannot be implemented at the expense of reliabil
`ity.
`The present invention provides a telecomputer network
`that satis?es the needs of the Motion Picture, Television and
`TV Advertising industry. The network may be used to
`increase ef?ciency, reduce production costs and enhance
`creative collaboration, while maintaining reliability.
`
`10
`
`15
`
`20
`
`25
`
`45
`
`50
`
`55
`
`65
`
`Petitioners' Ex. 1001 - Page 3
`
`

`
`5,960,074
`
`3
`Although the present invention is described with use of
`the TCP/IP Internet protocol, other protocols may be used.
`For instance, other protocols which may be employed by the
`present invention include asynchronous transfer mode
`(ATM), Internet Packet Exchange (IPX) protocol, Lotus
`Notes, SMNP, NNP, Multiple Internet Mail Exchange
`(MIME), IP (Internet protocol)—ATM, Web Network File
`System (WNFS), File Transfer Protocol (FTP), Fiber Dis
`tributed Data Interface (FDDI), Reliable Multi-cast Transfer
`Protocol (RMTP), and Multiprotocol OVER ATM (MPOA).
`The wireless WAN is preferably a secure network. In such
`a case, software programs provide a secure “?re wall” to bar
`unauthorized entry from the public Internet. The present
`invention uses access codes and passwords to control access
`to data available through the network. In one embodiment,
`encryption is used on all data traffic between designated
`locations and our secured intranet servers and the high speed
`wireless digital network. Such security in the form of
`software is well-known in the art.
`In one embodiment, the existing Internet backbone may
`be employed, where necessary, for relaying data between the
`servers of system users and intranet servers that provide the
`gateway to the wireless network of the present invention.
`The integration wireless LAN ethernet technology with
`digital microwave relay stations provides broadband, high
`speed wireless connections between locations and ?xed
`sites, which supports, for example, industries such as the
`Motion Picture, Television, and TV Advertising industries.
`The high bandwidth and fast data rate wireless mobility also
`enable a custom designed, fully integrated mobile computer
`network system.
`The present invention provides a unique telecommunica
`tion system that is a comprehensive full-featured mobile
`Web-based intranet information management and commu
`nication system supported by a broadband microwave net
`work infrastructure.
`
`Exemplary Network System Embodiments
`FIG. 1 illustrates the network system of the present
`invention. Referring to FIG. 1, the system 100 of the present
`invention comprises a private digital microwave network
`ring having multiple relay stations (hubs), such as exem
`plary hubs 101 and 102. Hub 101 includes a wireless
`transmit/receive router 101B with its associated antenna
`101A and two transmit/receive relay components 101C and
`101B. The system also includes one or more mobile hubs,
`such as mobile hub 103, and one or more wireless local area
`network (LAN) 104. Note that in one embodiment, there is
`a mobile hub station supporting every wireless LAN.
`In one embodiment, each of the hubs are separated by 6
`to 10 miles and operate at 40—60 MHZ, which is much higher
`than ?ber optics. In an alternative embodiment, the distance
`between hubs may vary to such distances as 25 miles. In one
`embodiment, each of the segments comprises a 20 Mbps
`bandwidth segment running in an 11 GHZ frequency band.
`Three such channels of 20 Mbps each can be combined to
`provide 60 Mbps of available bandwidth. In another
`embodiment, a single channel 100 Mbps bandwidth seg
`ments (single antenna) are used. By using data rates of 60 to
`100 Mbps, the microwave ring accommodates transmission
`of high resolution video images directly from a digital post
`production house to a shooting location.
`The microwave ring employs system redundancy so that
`if one link is not functional, data may be routed in the
`opposite direction to arrive at its designated location. Using
`a spanning tree protocol, the system of the present invention
`
`4
`determines the best route to send information on the ?y to
`transfer information in the most efficient manner. This
`redundancy avoids the use of point to point parallel redun
`dancy such as used by telcos to achieve the same affect.
`Thus, by using the microwave ring, the present invention
`provides telco independence.
`In one embodiment, for locations outside the coverage
`area of the wireless WAN, transmissions are relayed via a
`satellite communications like to the WAN. Note that the
`present invention may utilize ?ber optic cable connections to
`connect signals to the nearest digital microwave relay sta
`tion. In one embodiment, relay stations of the digital micro
`wave system are connected to a ?beroptic SONET ring
`which provides additional bandwidth of up to 1 Gbps. In one
`embodiment, each of hubs 101 and 102 also includes out of
`band management 105 and 106, respectively, which coor
`dinates telco access when the microwave ring cannot sup
`port all of the transmissions because of limited bandwidth.
`Wireless LANs at individual locations are linked to the
`wireless wide area network (wireless WAN) of the present
`invention and the Internet backbone via multipoint wireless
`routers, such as routers 101B and 102B. In one embodiment,
`these routers, each capable of 10 Mbps data transmission
`operating at 2.4 GhZ with an omni-directional radius of 8/9
`miles and up to 25 miles with directional focus, will in turn
`be connected to a series of strategically placed digital
`microwave relay stations of the wireless WAN. In one
`embodiment, a 10—100 Mbts ethernet switch is located at
`each microwave site to serve as a bridge between the
`wireless downlink to the remote location and the microwave
`backbone.
`In one embodiment, the LAN 104 is a wireless ethernet
`LAN connecting multiple remote personal computers (PCs)
`as nodes. In one embodiment, the LAN 104 covers an “on
`site” radius of up to 1/2 mile at 2 Mbps from a mobile hub
`station, strategically placed at the designated location, such
`as mobile vehicle 103. For instance, the LAN 104 may be at
`the production’s location LAN to service the location tele
`computing communication needs of a ?lm or TV production
`unit, even when shooting on a stage or studio lot.
`In one embodiment the LAN is secure. The LAN may
`employ standard encryption or logging on security. In an
`alternate embodiment, the LAN includes video conferencing
`capabilities.
`In one embodiment, the LAN 104 transfers data to mega
`bits per second to a single point, which is the mobile hub
`station such as the mobile vehicle 103 described below. In
`one embodiment, the mobile hub station is housed in a
`custom ?tted motor home (e.g., vehicle, van) that not only
`links the location LAN 104 to the Internet backbone via the
`microwave ring (i.e., the wireless
`One or more hubs of the microwave ring are equipped
`with microwave antennas con?gured to communicate with
`one or more of the mobile hub stations. At each hub, down
`linking to sites is possible via wireless communication
`without the use of telco. In one embodiment, the speed of the
`up link and down link of information is at 10 megabits per
`second. For instance, microwave antenna 101A communi
`cates with mobile vehicle 103.
`When the mobile hub station has reached its location, its
`antenna is calibrated. In one embodiment, the calibration
`process is a line of sight process. In an alternate
`embodiment, the calibration process is not necessary where
`the mobile hub station includes an omni-directional antenna
`and is able to transfer information from a non-stationary
`position. In one embodiment, the mobile hub station only
`
`10
`
`15
`
`20
`
`25
`
`35
`
`40
`
`45
`
`50
`
`55
`
`60
`
`65
`
`Petitioners' Ex. 1001 - Page 4
`
`

`
`5,960,074
`
`5
`transfers data from a stationary position. However, even
`though the transfer of data only occurs from a stationary
`position, the mobile hub station is in fact a nomadic vehicle
`that may be driven any where and can still gain access to the
`wireless WAN of the present invention. Thus, the mobile
`vehicle receives high bandwidth at a mobile location, avoid
`ing reliance on existing cable sites.
`In one embodiment, the mobile hub station of the present
`invention includes a ?le server which accesses a proxy
`server. The server, such as server 103A, in each hub station
`is used to coordinate communication with a microwave
`antenna of a relay station, such as the microwave antenna
`101A. The server updates the server back at a home office
`(not shown) and operates in synchronization with the home
`of?ce. The ?le server also employs ?le sharing and routes
`mail. The home of?ce would have access to these records.
`In one embodiment, the mobile hub station also comprises
`a workstation viewing environment for broadband high
`resolution video location. The present invention provide a
`conduit infrastructure for internet information system man
`agement interactive relay of broadband video in real-time
`and at full workstation resolution. In one embodiment, the
`workstation includes a high resolution progressive scan
`monitor.
`Note that the home office may coordinate all communi
`cation over the telecomputing network of the present inven
`tion. The home office includes a server to control commu
`nication with the entire system. In one embodiment, the
`home of?ce comprises a single master location. However, as
`bandwidth requirements increase, additional master loca
`tions may be included in order to reduce overloading of
`segments on the microwave ring. These additional master
`locations may be interconnected by terrestrial-based high
`band width ?ber optic links to the master location.
`
`10
`
`15
`
`20
`
`25
`
`35
`
`6
`the Digital Artist in the ?lmmaking process will become as
`routine and valued as that of the Cinematographer or Pro
`duction Designer. The ability to do real time wireless relay
`of High Resolution digital ?lm images from a graphics
`workstation direct to a shooting location will, for the ?rst
`time ever, offer new dynamic possibilities for the Digital
`Artist to participate as an active crew member in location
`?lming. A skilled Digital Artist, working along side the
`Special FX Supervisor, may help shape the way Directors,
`Cinematographers, Production Designers and Producers are
`able to integrate their ideas with ever expanding possibilities
`of digital technology. Having remote mobile access during
`the shoot to digital image processing via the broadband
`wireless relay network of the present invention combine
`traditionally separated production from postproduction.
`In one embodiment, X Windows running on a PC is used
`at a shooting location to enable remote user manipulation of
`an SGI workstation. CGI work in progress, designed as
`composite components for live action images, can be
`relayed in real time to the shooting location, thereby making
`CGI truly interactive with ?lming process. Virtual Sets that
`will eventually be composited with the ?nal ?lm image can
`be integrated as reference components into camera compo
`sitions during live action shooting utilizing a high quality
`video assist.
`Digital animated multimedia storyboards that are capable
`of incorporating 3D spatial renderings can become valuable
`interactive tolls both for conceptual ?ne tuning and shot
`planning. Input from a variety of image sources, including
`photographic, graphic and CGI, both still and/or full motion,
`can be incorporated to generate a fertile environment facili
`tating the creative process. These animated multimedia
`storyboards will be able function as evolving organic “docu
`ments” during the entire production process helping to ?ne
`tune ideas and concepts between the director and his/her key
`collaborators.
`Any information or data relevant to production
`administration, e.g., story boards, scripts or script changes,
`production schedules, budgets, maps and directions, location
`photos, call sheets, casting information, payroll information,
`accounting reports, bulletins, personnel directories, vendor
`catalogues, etc., incorporating text, audio, image, video can
`be uploaded to the production company’s private intranet
`Web server resident at a central of?ce(s) and accessed on
`demand by any authorized personnel regardless of their
`location. Even if a production member is outside the wire
`less LAN/WAN Service Area, access to the private intranet
`may be made via any conventional public Internet connec
`tion from anywhere in the world via a modem or ISDN
`terminal adapter.
`In one embodiment, the present invention allows a camera
`generated time code to link to the Web and network appli
`cation servers of the present invention. This allows for
`productions to cross-reference and access to all relevant data
`(e.g., script supervisor notes and camera data) to speci?c
`scenes and takes via this frame accurate time code.
`Whereas many alterations and modi?cations of the
`present invention will no doubt become apparent to a person
`of ordinary skill in the art after having read the foregoing
`description, it is to be understood that the particular embodi
`ment shown and described by way of illustration is in no
`way intended to be considered limiting. Therefore, refer
`ences to details of the various embodiment are not intended
`to limit the scope of the claims.
`Thus, a mobile tele-computer network has been described.
`
`Software
`The present invention uses Web-based software applica
`tions designed to facilitate information/data base organiza
`tion and communication for the various areas of production
`specialization: directors; producers; cinematographers; edi
`tors; script supervisors; art directors; assistant directors;
`production managers; location managers; casting directors,
`etc.
`In one embodiment, incorporated within its Web-based
`software applications, the service provides e-mail, down
`loading or uploading ?les from the FTP sites and Internet
`Relay Chat (IRC), as well as video conferencing. The system
`of the present invention may also offer the latest develop
`ments in “Web phone” voice communications and switch
`telephony from with the LAN to any phone using microcells
`in the LAN. This replaces conventional cellular phone
`connections and is seemlessly integrated with the Intranet’s
`multi-media environment.
`Acting as a “gateway” onto the full range of public
`Internet services, clients access any part of the Internet from
`their remote location nodes connected through one of a
`wireless LANs of the present invention, as well as from any
`conventional or cellular phone connection.
`In one embodiment, the Intranet database management
`may be implemented using an inter/intranet standard such as
`IIOP (Internet Inter Operable-ORB) based on COBRA
`(Common Object Request Broker Architecture) and DCOM
`(Distributed Common Object Model) using active X frame
`work.
`As the digital processing of ?lm images becomes increas
`ingly germane to ?lm production, creative collaboration by
`
`65
`
`45
`
`50
`
`55
`
`Petitioners' Ex. 1001 - Page 5
`
`

`
`7
`
`5,960,074
`
`We claim:
`1. A telecomputer network system comprising:
`a redundant digital microwave communication system;
`a wireless local area network (LAN); and
`a mobile hub station con?gured to transfer information as
`a single nomadic transmission/reception point between
`the microwave communication system and the wireless
`LAN using an ethernet packet switching protocol.
`2. The network de?ned claim 1 wherein the microwave
`communication system operates as a secured private intra
`net.
`3. The network de?ned claim 1 wherein the information
`is transferred using the TCP/IP protocol.
`4. The network de?ned claim 1 wherein the wireless LAN
`comprises a plurality of nodes with at least one personal
`computer at each of the plurality of nodes.
`5. The network de?ned claim 1 wherein the microwave
`communication system comprises a plurality of hubs,
`wherein each hub comprises a wireless router and a relay
`station to relay information between hubs.
`6. The network de?ned claim 1 wherein the mobile hub
`station comprises an uplink to the microwave communica
`tion system.
`7. The network de?ned claim 1 wherein the mobile hub
`station is con?gured to relay information between the wire
`less LAN and the microwave communication system, and
`comprises a server to control the relaying of information.
`8. The network de?ned claim 1 wherein the mobile hub
`station comprises a workstation viewing environment.
`9. The network de?ned claim 1 wherein the mobile hub
`station comprises an omni-directional antenna.
`10. The network de?ned in claim 1 wherein the mobile
`hub station comprises a vehicle.
`11. The system de?ned in claim 1 wherein the information
`comprises broadband information.
`12. The system de?ned in claim 11 wherein the broadband
`information comprises data.
`13. The system de?ned in claim 11 wherein the broadband
`information comprises audio and image data, such that the
`microwave communication system, wireless LAN, and
`mobile hub station transfer broadband audio and image data.
`14. A telecomputer network comprising:
`a wireless wide area network
`comprising a redun
`dant digital microwave communication system con?g
`ured to operate as a intranet;
`a wireless local area network (LAN), wherein the wireless
`LAN comprises a plurality of nodes with an individual
`personal computer at each of the plurality of nodes; and
`a mobile vehicle con?gured to transfer information as a
`single nomadic transmission/reception point between
`the microwave communication system and the wireless
`LAN using the TCP/IP protocol.
`15. The network de?ned claim 14 wherein the wireless
`WAN operates as a private intranet.
`16. The network de?ned claim 14 wherein the microwave
`communication system comprises a plurality of hubs,
`wherein each hub comprises a wireless router and a relay
`station to relay information between hubs.
`17. The network de?ned claim 14 wherein the mobile
`vehicle comprises an uplink to the microwave communica
`tion system.
`18. The network de?ned claim 14 wherein the mobile
`vehicle is con?gured to relay information between the
`wireless LAN and the microwave communication system,
`and comprises a server to control the relaying of informa
`tion.
`
`8
`19. The network de?ned claim 14 wherein the mobile
`vehicle comprises a workstation viewing environment.
`20. The network de?ned claim 14 wherein the mobile
`vehicle comprises an omni-directional antenna.
`21. The system de?ned in claim 14 wherein the informa
`tion comprises broadband information.
`22. The system de?ned in claim 21 wherein the broadband
`information comprises data.
`23. The system de?ned in claim 21 wherein the broadband
`information comprises audio and image data, such that the
`microwave communication system, wireless LAN, and
`mobile vehicle transfer broadband audio and image data.
`24. A telecomputer network comprising:
`a redundant digital microwave communication system
`con?gured to operate as a secured private intranet to
`transfer information using a ethernet packet switching
`protocol;
`con?gured to trans
`a wireless local area network
`fer information using the ethernet packet protocol,
`wherein the wireless LAN comprises a plurality of
`nodes with an individual personal computer at each of
`the plurality of nodes; and
`a plurality of mobile vehicles, wherein each mobile
`vehicle is con?gured to transfer information as a single
`nomadic transmission/reception point between the
`microwave communication system and the wireless
`LAN.
`25. The system de?ned in claim 24 wherein the informa
`tion comprises broadband information.
`26. The system de?ned in claim 25 wherein the broadband
`information comprises data.
`27. The system de?ned in claim 25 wherein the broadband
`information comprises audio and image data, such that the
`microwave communication system, wireless LAN, and a
`mobile hub vehicle transfer broadband audio and image
`data.
`28. A system comprising:
`a communication subsystem;
`a wireless local area network (LAN) that includes at least
`one computer; and
`a mobile hub con?gured to transfer broadband informa
`tion as a single nomadic transmission/reception point
`between the communication subsystem and the wire
`less LAN using an ethernet packet switching protocol.
`29. The system de?ned claim 28 wherein the broadband
`information comprises data.
`30. The system de?ned claim 28 wherein the broadband
`information comprises audio and image data, such that the
`subsystem, wireless LAN and mobile hub transfer broad
`band audio and image data.
`31. The system de?ned claim 28 wherein the information
`is transferred using the TCP/IP protocol.
`32. The system de?ned claim 28 wherein the wireless
`LAN comprises a plurality of nodes with at least one
`personal computer at each of the plurality of nodes.
`33. The system de?ned claim 28 wherein the mobile hub
`comprises an uplink to the communication subsystem.
`34. The system de?ned claim 28 wherein the mobile hub
`comprises a server to control the relaying of information.
`35. The system de?ned claim 28 wherein the mobile hub
`comprises a workstation viewing environment.
`36. The system de?ned claim 28 wherein the mobile hub
`comprises an omni-directional antenna.
`
`10
`
`15
`
`20
`
`25
`
`35
`
`45
`
`50
`
`55
`
`65
`
`Petitioners' Ex. 1001 - Page 6
`
`

`
`5,960,074
`
`37. The system de?ned in claim 28 wherein the mobile
`hub comprises a vehicle.
`38. A system comprising:
`a communication subsystem to operate as a secured
`private intranet to transfer broadband information using
`a ethernet packet switching protocol;
`a wireless local area network (LAN) to transfer informa
`tion using the ethernet packet protocol, wherein the
`wireless LAN comprises a plurality of nodes with an
`individual computer at each of the plurality of nodes;
`and
`
`5
`
`10
`
`10
`a mobile hub to transfer broadband information as a single
`nomadic transmission/reception point between the
`microwave communication system and the wireless
`LAN.
`39. The system de?ned claim 38 wherein the broadband
`information comprises data.
`40. The system de?ned claim 38 wherein the broadband
`information comprises audio and image data, such that the
`subsystem, wireless LAN and mobile hub transform broad
`band audio and image data.
`
`*
`
`*
`
`*
`
`*
`
`*
`
`Petitioners' Ex. 1001 - Page 7
`
`

`
`USOOS960074C1
`(12) EX PARTE REEXAMINATION CERTIFICATE (867 5th)
`United States Patent
`(10) Number:
`US 5,960,074 C1
`Clark
`(45) Certi?cate Issued:
`Nov. 22, 2011
`
`(54) MOBILE TELE-COMPUTER NETWORK FOR
`MOTION PICTURE, TELEVISION AND TV
`ADVERTISING PRODUCTION
`
`(58) Field of Classi?cation Search ...................... .. None
`See application ?le for complete search history.
`
`(75) Inventor: Curtis Clark, Beverly Hills, CA (US)
`
`(56)
`
`References Cited
`
`(73) Assignee: Advanced Media Networks, LLC, Los
`Angeles, CA (US)
`
`Reexamination Request:
`No. 90/010,992, May 11, 2010
`
`Reexamination Certi?cate for:
`Patent No.:
`5,960,074
`Issued:
`Sep. 28, 1999
`Appl. No.:
`08/718,748
`Filed:
`Sep. 23, 1996
`
`(51) Int. Cl.
`H04L 29/06
`H04L 12/28
`
`(2006.01)
`(2006.01)
`
`(52) US. Cl. ...................... .. 379/310; 370/310; 370/352;
`370/353; 370/380; 370/389; 370/392; 370/396;
`370/401; 370/404; 370/427; 370/435; 370/450;
`370/465; 370/485; 379/9001; 379/9301;
`379/9305; 379/9309; 379/100.15; 379/100.16
`
`To view the complete listing of prior art documents cited
`during the proceeding for Reexamination Control Number
`90/010,992, please refer to the USPTO’s public Patent
`Application Information Retrieval (PAIR) system under the
`Display References tab.
`
`Primary ExamineriMinh Dieu Nguyen
`
`(57)
`
`ABSTRACT
`
`A telecomputer network is described. The ne