JP2001522568A - Digital multimedia editing and data management system - Google Patents

Abstract

(57) Summary The machine control subsystem is used in new news generation systems to provide centralized control during broadcasts. The director workstation is connected to a server, which is connected to any number of external devices used during the broadcast to broadcast and display video and audio images. The director workstation uses a graphical user interface to display a list of events to occur during generation. Events include all events to be broadcast by any connected device. At the workstation, the director can control the generation of all types of events from a centralized control station. To select one or more events for news generation, the director may simply select one event from the event list and a director who knows the characteristics of the device to display the event. You can broadcast the event without it. The director workstation is connected to the server. The server includes device management software for interfacing and controlling the operation of externally connected devices. By providing a centralized communication path between the director workstation and the device, the server can send status information about the device to the director workstation, thereby reassigning resources by the director. To facilitate.

Description

DETAILED DESCRIPTION OF THE INVENTION Digital multimedia editing and data management system TECHNICAL FIELD OF THE INVENTION The present invention relates to audio / video management and editing systems, and more particularly, to a method and system for editing and managing multimedia data in a multimedia production environment. Background of the Invention The process for generating a broadcast news program has changed several times over several decades. With the change in available technology, news broadcasts, as well as the intensified competition introduced by the expansion of cable broadcasters and other news sources, make resources more effective while distinguishing their own programs. It is required to be used. In general news production work, four major processes are performed during the production of a news program. The four processes are video generation, graphics generation, text generation, and on-air (broadcast) operations. What is produced by these processes is seldom effectively combined until the news program is actually broadcast. The video generation process involves creating and editing video on a tape for broadcast (tape-based), a videotape retrieved from a videotape repository for this video creation and editing, or It uses videotape obtained from one or more sources (ie, a camera recorded in a studio or outdoors). The text generation process involves scripting and editing text collected from several sources, including text repositories. Like the tape generation process and the text generation process, the graphics generation process involves the generation and editing of graphics collected from several sources. Integrate the products from the video, graphics, and text generation processes into final products during on-air operation to produce the final news for broadcast There is a need. Known news broadcast systems have the ability to integrate the video generation process, the graphics generation process, and on-air operation, which allows editing, distribution, and audio of news programs from what is obtained through on-air. It has complete control over elements and video elements. The process for integration performed in such a system includes a disk-based (disk-based) video generation process combined with a media generation process and on-air operation. The use of disc-based digital audio / video storage systems, digital networks, and digital non-linear editing systems ensures that video generation, graphics generation, and on-air operation can be integrated. Various products for providing such an integrated system are available from Avid Technology, Inc. (Tewksbury, Mass.). One of the digital multimedia newsroom generation systems available from Avid Technologies is configured to allow system users to generate, browse, and catalog multimedia assertions. . A journalist workstation is provided that allows a user of the workstation to create a storyboard of multimedia products for broadcast. Storyboards include low-resolution video from several different sources, text from several sources such as newswire copies, archival text, and storyboards, graphics, audio, Includes user generated text when generating still pictures (still images) and other multimedia data. The generated story board contains a list of events such as film clips, text, graphics, audio, and still pictures, which are displayed at various times during the broadcast. Conventionally, each event is sent to a device that can display the event. That is, a video clip is sent to a video playback as a list of events, text is sent to a text display device, a still picture is sent to a still picture device, and so on. These devices are individually controlled by broadcast staff. During the broadcast, the selected event is integrated with the live image. The integration of events is usually managed by a director, and the director manages and controls each broadcaster of each display device. Therefore, the problem of such a generation system is that the manpower required for controlling a series of events increases, the close progress management by the director is required, and the chance of error occurrence increases. Summary of the Invention In a news generation system, a machine control subsystem is used to provide centralized control during a broadcast. A director workstation is connected to a server, which is connected to any number of external devices. These external devices are devices used to broadcast and display video images or audio during broadcasting. The director workstation uses a graphics user interface to display a list of events that occur during news production. These events include all events broadcast by any connected device. This allows the director of the workstation to control the generation of all types of events from a centralized control station. To select an event or a series of events for generation, the director may simply select the event from the event list without having to know the characteristics of the device displaying the event, etc. , Can broadcast the event. The director workstation is connected to the server. The server includes device management software to interface and control the operation of all connected external devices. The server sends status information about the external device to the director workstation to provide a centralized communication path between the director workstation and the external device, making it easier for the director to redirect resources again. To In one aspect of the invention, a news generation system includes a workstation connected to a network for receiving a list of events to be broadcast during a news broadcast. At least one server is connected to the workstation to control a plurality of different types of devices. The server also receives from the workstation a command to identify at least one event to broadcast on one of the different types of devices. BRIEF DESCRIPTION OF THE FIGURES FIG. 1 is a block diagram of a news generation system incorporated in the present invention. FIG. 2 is an explanatory diagram of a graphical user interface for providing centralized control during broadcasting in the news generation system of FIG. Disclosure of the invention FIG. 1 illustrates one embodiment of a digital multimedia newsroom generation system 10, which includes a video generation system 12, a client / server / core newsroom system 14, and an operation system 16. And three main subsystems. Components and other components of the core newsroom system are interconnected by a digital network 20. The digital network 20 is constituted by an Ethernet network having an operation speed of 100 Mb / s or more. The network 20 connects three functional elements 12, 14, 16 via bridges 22, 24. The operation of the subsystems 12, 14, 16 in the present system will be described in detail below. Video generation subsystem The video generation system 12 performs audio / video search, editing of media data, and management and control of high-quality multimedia data suitable for broadcasting. Multimedia data defines any form of information. A typical example of the information form is a digital form. The video generation system includes a capture manager 24 connected to control a news cutter / media recorder 234. One example of a media recorder is Avid Media Recorder®, available from Avid Technology of Massachusetts. The capture manager controls the conversion of the NTSC or PAL video signal to digital form and sends the converted data to the encoding station 26. At the encoding station 26, the video data is compressed into either JPEG or MPEG form and the compressed audio / video signal is transmitted via the bridge 22 and the network 20 to a number of news and Sent to servers 42a-42c. An asset manager 27 controls the indexing and storage of the compressed video data. Storage array 30 is provided for storing stored audio / video data. Access to images stored in the RAID array 30 is controlled by the browser server 32. Digital playback system 31 is coupled to the components of the video subsystem via switch 38. The digital playback system 31 is a disc-based digital playback system that controls the broadcasting of multimedia data generated and stored in the video generation system. The digital reproduction system reproduces a signal stored in the storage device 30 or one of the media servers 42a to 42c. In the preferred embodiment of the present invention, the digital playback system can be implemented using the AVID AIRPLAY broadcast system available from Avi Technology. A number of graphics workstations, such as graphics workstation 28, are provided that generate and edit broadcast graphics signals and store the signals in a video generation system. In the preferred embodiment, workstation 28 is implemented using a MATADOR workstation available from Avid Technologies. More detailed operation and features of the video subsystem 12 are described in A Multimedia System with Improved Data Management System, filed on the same date as the present application by Jason Loveman et al. In the application entitled, Server subsystem The server subsystem 14 includes a number of journalist workstations, such as a video editing workstation 40, connected to the network 20 via a 10-based T hub 37, and to the news servers 42a-42c. It is connected. The number of journalist workstations provided in the server subsystem depends on several factors, including the amount of network activity generated by each user of the workstation and the amount of delay allowed when a user accesses the system. Determined based on factors. In the preferred embodiment of the present invention, each journalist workstation 40 is implemented using an MPC III compliant workstation. Journalist workstations provide access to multimedia data from a number of sources and provide the necessary tools (ie, software) to generate multimedia story boards for news stories for broadcast. ). The multimedia data available to journalists includes low-resolution MPEG video data obtained by media recorder 23. Each journalist workstation preferably includes a video port (not shown) for receiving a video signal from, for example, a video tape recorder or the like. Each journalist workstation also has a serial port (not shown) for controlling a video tape recorder. Each news server 42a-42c manages and stores multimedia data in a newsroom environment. The news server is configured as multiple distributed processors with a mirrored database to provide maximum reliability and performance. Other centralized functions, such as communication functions, are managed by news servers 42a-42c. The news server is realized using, for example, an Avid NewsServer workstation available from Avid Technology. The news server provides access to the news wire service and a plurality of external connections for providing remote access to the news server from users outside the core newsroom system. 122 is provided. Server subsystem 14 also includes an interface (such as interface 45) for providing a connection to network 20 for a user terminal (such as user terminal 46). The user terminal may be any of a variety of terminals used in conventional devices primarily for text processing and communication functions. In addition, a number of device controllers (not shown) are connected to the digital network 20 to control a multimedia device such as a teleprompter from a journalist workstation. Journalist workstation 40 performs a number of functions in the newsroom. For example, workstation 40 obtains, stores, and catalogs news wire text. The workstation is used to generate, store and catalog news story text. The workstation is also used for acquiring, editing, playing, storing and cataloging high resolution video signals, and for editing and browsing low resolution video signals. All of these functions are used by journalists at workstation 40 to generate a rundown. A rundown is a list of events that should occur during the broadcast, and the rundown is transmitted from the server subsystem 14 to the machine control subsystem 16. Machine control subsystem The machine control subsystem 16 has three main functional elements. That is, one or more machine control servers 50, a technical director workstation 52, and a serial port connector 54. Serial port connector 54 provides a connection path between the machine control server and a number of other external devices. The serial port device used in such a system is the Avanstar Connector provided by Digi International (Eden Prairie, Minn.). . Device management software 51 running on the machine control server 50 and optionally running on a device coupled to the machine control server 50 comprises a still image store 56, a character generator 58, It controls data transmission to external devices such as the video switch 60 and the video playback device 62. The still image store is for controlling the display of the still images stored in the news servers 42a to 42c. The character generator 58 stores and displays character information received via the network as text for the teleprompter, and text (such as an identification character on a still image or a video clip) overlapping on the image. Video switch 60 controls the display of video sequences stored in news servers 42a-42c. Video playback device 62 controls audio production during production. The technical director workstation 52 and machine control server 50 are described in detail below. Technical Director Workstation The technical director workstation 52 provides intelligent, user-friendly, interactive, newsroom generation control. The workstation is, for example, an Avid Workstation that executes Windows NT. Control of components coupled to the Technical Director workstation is managed via a graphical user interface shown in FIG. Graphical user interface 70 allows a user to select an event for playback on one device, such as steel store 56 or character generator 58. The user can select one event or select a range of machine events, which are played in sequence without stopping. An event list is provided on the user interface 70 so that a portion of the rundown received from the server 14 can be displayed. Data sent from the server 14 to the machine control subsystem 16 is communicated using an appropriate protocol. The protocol is a packet type protocol. Information about each event may include, for example, a short name or "slug" 70b identifying the title of the event, the status 70c of the event, a tape ID 70d for referencing a video segment, the total time 70e of the event, the desired completion of the event A back time 70f representing the time, a device field 70g for identifying the device to which the event is to be broadcast, a device status field 70h for indicating whether the device is currently in use, and audio. Include a channel field 70i for representing the channel to be broadcast. The user selects an event, or a series of multiple events, for processing by clicking a mouse button on the event or by dragging the mouse to select an event part Can be. The functions that can be performed on the event are outlined in the machine pull-down menu 80. These functions include play, cue, stop, reload, and block play functions. The play function sends the event to the devices listed in field 70g of the event. The queue function sends an event to the listed device in the associated device field 70g and places the event behind the currently executing event. The stop function 80c stops displaying the event on the device, and the reload function 80d causes the device to reload the event. The block playback function 80e allows a large number of events to be sent to the server as "blocks". In one embodiment, the user selects an event and sends all events following the selected event and up to the breakpoint to the server for processing as a group. Thus, the block playback function allows all events up to the next break period to be played back continuously, without the need for interference from the director. Therefore, the block playback function is effective as a tool for displaying a series of video clips for a news program using a program that has been taped in advance. Playback function 80a is also used to support mixed events. A mixed event is a continuous series of machine control events that are linked at the journalist workstation 40 and appear as a single event that includes all linked events. Mixed events are different from block playback. This is because in block playback there are many steal events that are combined for continuous playback. The introduction of mixed events allows multiple events, such as video and character generation fonts to be broadcast together, to be linked as one event. Each event in the mixed event includes an optional offset from the starting point, so that not all events start at the same time. For example, a video clip contains sound bits from Alan Green and Bob While. The mixed event for the clip is as follows. Play the clip. Display "Alan Green" for 10 seconds 13 seconds after the start. Display "Bob White" for 10 seconds 32 seconds after the start. Display the stored still image when the video clip ends. Graphical The "Play Block" menu item in the user interface is for joining events together. However, a mixed event is one that is explicitly received from server 14 as part of a rundown. The mixed event is explicitly described as in the above example, or is described using an event template, a time offset, and a source type. Thus, a mixed event can support operations such as placing a title on a video clip as soon as the video clip starts playing. Mixed events allow multiple events to be represented as a single macro event in a rundown list. In addition to displaying the rundown list, the graphical user interface 70 has a device status window 82 for displaying the status of the connected device. By displaying the status of the device, the user can immediately determine whether the device is ready for use and thus change the event / device assignment based on the displayed status of the system. can do. FIG. 2 shows a portion of one rundown list. Although only one rundown is displayed at a time, multiple rundowns may be stored on the Technical Director workstation. Upon completion of the first rundown, the director selects the next rundown from the list of rundowns or, alternatively, the rundowns are provided to the graphics user interface 70 sequentially. By providing control signals to all devices using a graphical user interface, control over all production is centralized on a single workstation, thus requiring only one operator to intervene Thus, ambiguity caused by a plurality of operators controlling a plurality of external devices can be eliminated. Further, by controlling using a graphical user interface, control of the device is automated, and the operating operator does not need to know the details of control of each external device. Another effect of providing the status of all events and the status of the devices coupled to the system in one graphical user interface is based on the status of the devices observed in the interface, the director Can override device assignment and channel assignment. For example, if two audio clips back to back (consecutive) are assigned to different channels, the director can override the channel assignments so that continuity is maintained. In addition, if one of the devices becomes unavailable, the rundown can be easily modified to change the device assignment for subsequent events. An example of a graphical user interface and its functions have been described and illustrated in FIG. 2, but the user interface is intended to provide other types of functions that can easily create a broadcast product. Can be increased. Thus, the graphical user interface is provided by way of example only and not limitation, but rather proposes a centralized product control concept. Machine control server Machine control server 50 is the central connection point for all components in machine control subsystem 16. Machine control server 50 also maintains a mixed list of events defined by the rundown. When one or more events are selected by the technical director workstation, event data including device, event ID, or slug, and channel information is sent to machine control server 50. The machine control server sends the event received in the command format to the corresponding device using the device management software 51 based on the format of the received event data and device data. Device management software is typically provided for the device in question and includes protocols and data management routines for controlling communication with the external device. The device management software is used by the MC server, but the software must be configured to communicate with the server 14 according to a protocol. As a result, device status information is readily available during broadcasts so that device and channel reallocation can be more easily performed by the user. The machine control server thus provides a centralized communication path for exchanging data between the server 14, the technical director workstation 52, and each of the coupled devices 56-62. Although an embodiment has been shown where the number of devices coupled to the machine control server 50 is eight, the server 50 can support 32 devices simultaneously. As technology advances, embodiments with the ability to support more than 32 devices will be realized in the future. As shown in FIG. 1, in an embodiment, the machine control subsystem includes two servers 50a, 50b to provide redundant support. Therefore, in the event of a failure of one of the servers 50a and 50b, control is switched to another server. This process is called a "warm start". A warm start allows processing to be continued by a redundant server within two seconds, but occurs in response to a combination of commands sent to the technical director workstation 32. Things. Serial lines to individual devices are switched to redundant servers using AB switches 65. The switching operation can be initiated manually or automatically by a command from the technical director workstation. The machine control server additionally supports the concept of a virtual device, as seen by journalists. When writing a story, journalists can identify machine control events for named devices that actually represent some combination of devices. For example, two AirPlays and switches appear to journalists as one dual channel airplay. Although the machine control subsystem has been described above in relation to the Avid News broadcast system, it will be apparent that it can be adapted to support other types of news broadcast systems. For example, the machine control subsystem 16 can also be used with a News View, a news product for a Novell® computer system. The computer processing can monitor the news view database and communicate switching to the machine control server 50 using the Avid Machine control protocol over the network 20. A method and apparatus for providing centralized control and communication during the process of generating a news broadcast has been described above. The graphical user interface allows the director to control multiple types of events that occur on multiple types of devices on a single workstation. Providing centralized control at the workstation allows the director to track resource availability and update the selection of devices needed during live production. In addition, the graphical user interface allows a series of events to be selected to simplify the generation of a large number of pre-generated video clips. The above-described embodiments are merely illustrative and not intended to be limiting, but are provided by way of example only. Numerous variations and other embodiments are within the ordinary skill in the art and are intended to be within the scope of the invention as defined by the appended claims and equivalents thereof.

────────────────────────────────────────────────── ─── [Continuation of summary] ing. The server checks the operation of externally connected devices. Device management software for interface and control Includes software. Director Workstation Provides a centralized communication path between devices and devices By doing so, the server can Information to the director workstation Yes, this allows the director to reassign resources To facilitate.

Claims (1)

[Claims] 1. In the news generation system,   Connected to the network and received a list of events to broadcast during the newscast Workstation to remove,   At least connected to workstations to control different types of devices Is also one server, at least broadcasting on one of the different types of devices A service that receives a command from a workstation to identify one event. And A news generation system comprising: 2. In the news generation system,   Provide a play list that indicates a series of events to be displayed during the broadcast Journalist workstation,   Connected to the journalist workstation and the journalist workstation On the director workstation receiving a series of events from the station So that the user can select one of the events in the playlist to be broadcast. Director workstation with an interface Connect to director workstations and multiple broadcast devices of different types Events received from the director workstation A server that controls to broadcast on one of the transmission devices; A news generation system comprising: 3. 3. The news generation system according to claim 2, wherein the interface comprises:   Means for displaying a list of events to the user;   The user can select one event from the list of events on the display Means to remove   Means for sending the selected event to the server; A news generation system comprising: 4. 3. The news generation system according to claim 2, wherein the interface is a graph. A physical user interface that includes event information and device status. Status information, and by selecting one event, And at least one command related to the event is sent to the server. News generation system characterized by the following. 5. 5. The news generation system according to claim 4, wherein the graphical user interface The interface is a command for selecting a command to send an event to the server. A news generation system comprising a mand menu. 6. 5. The news generation system according to claim 4, wherein the command menu includes a service menu. Block play command to cause multiple selected events to be sent to the server A news generation system characterized by including a word. 7. 5. The news generation system according to claim 4, wherein the event includes a plurality of events. This is a mixed event that includes the event. A news generation system wherein a number of events are sent together. 8. 5. The news generation system according to claim 4, wherein the selected device is a news device. News generation by sending events from the workstation to the server system. 9. 10. The news generation system according to claim 9, wherein the selected device is a different device. Virtual device, which is one or more devices of a plurality of devices of the type By selecting a virtual device, the server can News generation system for sending an event to at least one device . 10. In the news generation system,   Multiple events to be broadcast on one or more existing devices, Graphical user interface that lists multiple events separated by User interface,   Block playback command in the graphical user interface The number of consecutive events between the event selected from the list and the next break point. A block playback command to send the event to one or more broadcast devices. A news generation system comprising: