DE102006022200A1 - Audio, video or control signals distribution device controlling method for television studio, involves connecting selected coupling points to produce signal path, and automatically interlocking coupling points in connecting condition - Google Patents

Abstract

The method involves selecting coupling points, which are necessary for a signal path between an input and output of a coupling field of a device for distribution of audio, video or control signals. The selected points are connected to produce a signal path. The coupling points are automatically interlocked in a connecting condition. Successive points are interlocked in a signal flow direction based on a camera (1), microphone (2) and external video line (3), where all camera , microphone, external video line and/or mixing device (7) and recoder (8), are integrated in the signal path. An independent claim is also included for a storage medium, on which a program code is stored.

Description

The The invention relates to a method for controlling a device for distribution of audio, video, data and control signals. In particular, it concerns the invention a device according to claim 1.

In TV studios have many audio, video, data and control signal sources. and sinks available. These various types of signal sources include recording devices, such as Example tape recorders (MAZ), video servers, cameras and satellite or cable connections. To the different types of signal sinks belong turn recording devices, Video server, production mixer. For example, in production a newscast frequently different image and sound signal sources to contribute to each other connected. Typically leads a speaker in the studio by the broadcast, with one or more Cameras is recorded. The speaker conducts previously recorded posts or live broadcasts one. These come from a source, video, audio and data the above Control signals is controlled.

With Coupling fields and mixers become different signal sources switched to their destination. This switching matrix, a so-called crossbar, is a matrix that has a fixed number of inputs and has a fixed number of outputs. Every entrance can connected to a particular output, this means in In particular, one input may be connected to multiple outputs, however An output can be connected to only one input. A production mixer or send-run mixer has the same properties as a switching matrix, However, it is capable of multiple signal sources to a transmission signal to combine. A mix of different video signals, as well as a mixture of different audio signals among each other is sought in terms of design aspects. For the more advanced Signal distribution is a broadcast sequence mixer in addition to audio and video Combine video signals into a data stream. mixers signal over Control lines through which input signals and thus are relevant to the broadcast. Recording devices signal a current one Recording. This signaling is under the terms "on-air", "red light" or tally signaling known.

The Selection of which signals are provided at which outputs takes an operator ("operator") in the studio or Control room before. Connections are usually over several Coupling fields and mixing devices switched and stretch so-called Paths up. The automatism-assisted search for paths is commonly called "PathFinding". The task of the operator is further complicated by the fact that under a Production, paths for different types of signals are switched simultaneously and thus one logical unit, a so-called signal bundle form. To the fault of a signal transmission To prevent, breaking the signal paths and bundles is essential to prevent. The automatism-driven blocking of a path is usually called "PathLocking" by automatisms supported Blocking multiple paths called "BundleLocking".

From the DE 10 2004 009 265.6 a method is known with which the operator can lock or unlock signal paths or signal bursts in the forward or reverse direction by means of a corresponding command. In this way, for example, prevents a transmitter-relevant signal path is broken by mistake. Since locked resources are usually assigned to a user, the attempt to unlock a foreign resource fails.

In summary It should be noted that the activity of the operator in addition to the creative aspect, television images from different Mixing and designing signal sources, including technical aspects. For one thing are for the input side to select the correct signal sources and to the right outputs forward. Already that is at more than two hundred entrances and two hundred exits quite difficult per switching network. The other is at the same time the blocking or unlocking of the input to output connections to take into account because several operators work in a studio or control room. For these reasons is the work of operators in terms of usage in common or shared resources is very challenging.

It There is therefore a need to create a procedure that the operator in his activity as far as possible Relieved from the technical aspects mentioned, so that he himself focus on the creative aspect of his work.

These The object is achieved by a method according to claim 1.

• (a) Auswählen von Koppelpunkten, die für einen Signalpfad zwischen einem Eingang und einem Ausgang erforderlich sind;
• (b) Schalten der in Schritt (a) ausgewählten Koppelpunkte, um den Signalpfad herzustellen; und
• (c) automatisches Sperren der Koppelpunkte in dem in Schritt (b) geschalteten Zustand.

The inventive method is used to control a device for distribution of audio, video, data and control signals. The device (switching network) has a number of inputs and outputs. Connections in these switching networks, so-called crosspoints, can be blocked. The method according to the invention comprises the following steps:

• (a) Select crosspoints that are for a Signal path between an input and an output are required;
• (b) switching the crosspoints selected in step (a) to establish the signal path; and
• (C) automatic locking of the crosspoints in the switched in step (b) state.

The Invention facilitates operator control of a device for distribution of audio, video, data and control signals in relative to crosspoint, path and bundle blocking as well as unlocking, because the machine-level procedure many functions automatically performs. For the Function for automatic blocking after a circuit should the Term "TakeLock", for the function For signalized path blocking the term "TallyLock" should be introduced. For tally signaling will be in the following also briefly "signaling" used.

at an embodiment the invention are based on a signal source, the crosspoints blocked one after the other in signal flow direction. All signal sources and / or signal sinking in the signal path established in step b) are indicated by optical means.

In quite correspondingly, it may be provided that starting from a signal sink the crosspoints against the signal flow direction be locked and all signal sources and / or signal sinking, the are incorporated in the signal path established in step b) optical means are displayed.

In In one embodiment of the invention, a method is described, which describes a crosspoint lock functions that the condition the crosspoint change or the condition of signaling is subject.

at In a further development of the invention, this method is based on the signaled blocking of path bundles extended.

These Features give the invention the advantage that incorrect operations by a competing operator are virtually excluded, thereby the work of the acting operator remains assured.

In The drawings are the essential aspects of the method according to the invention illustrated. Show it:

1 : a schematic block diagram of a production with signal paths and the formation of a path bundle from all production-related signal paths, as well as the tally signaling and tally displays;

2 : the detailed representation of a crosspoint circuit with immediate blocking in a switching network;

3 : the detailed representation of a splitting signal path through several coupling fields as well as points of tally signaling and tally display;

In 1 a schematic block diagram of a production of correspondent live transmission and external playback is shown. The components shown form an example of a device for distributing audio, video, data and control signals to which the method according to the invention can be applied. On the left side of 1 different signal sources are illustrated. These include each a video and audio source from the correspondent from a studio in the form of a camera 1 and a microphone 2 and an external video line 3 , These sources are via coupling fields 4 directed. Coupling fields are connected in series via firmly defined connections, so-called tie lines, and connected to mixing devices via permanently defined connecting lines. There are more patches in the direction 6 , a mixing device 7 and a recording device 8th that act as a signal sink. Furthermore there are monitors 9 provided, which form as further signal sinks and which the output signal of the mixing device 7 is supplied. All signal sinks have a tally indicator 11 which is also called red light display. The camera 1 as signal source also has a tally indicator 11 , In the 1 represented signal sources and signal sinks are via separate control lines 12 with a higher level control device 13 connected to perform the tally signaling.

The block diagram of the production is described only cursorily because the individual components of the production equipment are known in the art. The schematically represented functional blocks are commercially available, for example, from Thomson. Couplers or crossbars are sold by Thomson under the product designation "Trinix" and "Apex". Tape machines or video servers are offered in Thomson's "DCR" or "Profile" product line. The numerous coupling fields of the entire device are via command lines with the parent control unit 13 linked in the middle of 1 is shown. The control unit is equipped with display devices, so-called UMDs 14 ("Under Monitor Displays"), on which the current status of the device, in particular the switched source name is displayed. Furthermore, the control unit has control devices, so-called control panels 16 (CPs) with which the Kop pelfeldstatus regarding the crosspoints ("takes") and their blocking ("locks") can be changed.

Furthermore, the operating device is used 16 as an indicator for completed circuits and disabled states to assist the operator in configuration changes of the entire production facility by displaying individual process steps of the control method according to the invention. Some essential process steps are described below with reference to 2 to 3 explained in more detail.

According to the method of the invention, crosspoints and signal paths are blocked or unlocked. In 2 For example, an exemplary crosspoint connection is shown in bold in which the following method (a) is explained. A signal is first fed to the coupling field A at the input A3 and connected by switching the coupling point a ₃₁ to the output A1. It is assumed that the crosspoint a _{31 is} not locked, or was previously explicitly unlocked. Subsequently, in the "TakeLock" mode, the crosspoint a _{31 is} disconnected and the crosspoint a _{11 is} switched. The special feature of the method is that in a successful circuit, ie the change in the switching state of a crosspoint within a switching matrix, automatically and without intervention of an operator, a blocking of this newly set crosspoint occurs. The successful "TakeLock" for crosspoint a ₁₁ switches and blocks the crosspoint a ₁₁ .

The connection of the signal path between an input and an output within a switching matrix is effected by actuating the connection function of a switching matrix. The blocking of a connection in the switching network is done by pressing the crosspoint blocking function of the switching matrix. The connection of a complete signal path or signal path through a plurality of switching networks takes place by actuating the Path-Link function "PathFinding" of a higher-level instance. In the present exemplary embodiment, the higher-level instance is the control unit 13 , The blocking of a complete signal path (path) by several switching networks is done by actuating the path blocking function "PathLocking" of a higher-level instance.

The Amount of crosspoints, for this automatism is applied, is a subset of all Crosspoints of the switching network. This subset is by configuration of automatism definable.

In 3 an example crosspoint connection is shown in bold, at which the following method (b) will be explained. A signal is first supplied to the coupling field A at the input A3 and supplied by switching the crosspoint a _3m via output Am the switching matrix B via input B2. In coupling field B, the signal is by switching a crosspoint b ₂₁ the output B1 and thus the mixing device 7 fed. In addition, the signal at the input B2 by switching the crosspoint b ₂₃ via the output B3 the recording device 8th fed. The mixing device 7 or the recording device 8th signal the relevant output in the case of the transmitter relevance, ie in the case of the use of the signal ("backward tally"). When signaling is enabled, all tally indicators will be displayed 11 (UMDs, camera red light) from sources used for the output signal. The tally signaling is against the signal flow direction and is in 3 by dashed arrows 14 indicated.

With activated signaling of an output of a switching matrix, a blocking of the signal path, starting from the signaled output against the signal flow direction is automatically triggered and without intervention of an operator. Only locked crosspoints are blocked. The activated signaling at the output B1 blocks the path backwards starting from the output B1 and thus the following crosspoints: b ₂₁ , a _3M . The activation of the signaling at the output B3 blocks the path backwards starting from the output B3 and thus only the following crosspoint: b ₂₃ .

With deactivated signaling of an output of a switching matrix, an unlocking of the signal path starting from the signaled output against the signal flow direction is automatically triggered and without intervention of an operator. The deactivation of the signaling at the output B1 removes blockages in the path backwards starting from the output B1. Consequently, the blockages of the crosspoints b ₂₁ and a _{3m are} canceled.

Only crosspoints are unlocked that do not override the blocking of shared, blocked paths. With existing blocking of the signal path backwards starting from the output B1, the deactivation of the signaling at the output B3 thus removes only the blocking of the coupling point b ₂₃ , because the crosspoint a _{3m is} also relevant for the active output B1.

In 3 For example, another exemplary crosspoint connection is shown in bold, at which the following method (c) will be explained. A signal is supplied to the input field A1 to the switching matrix A and connected by switching the crosspoint a ₁₁ to the output A1. Transmission facilities upstream of the input can signal the respective input ("forward tally") fourth signaling, all tally indicators (UMDs) of sinks used (eg monitor walls) are activated. Tally signaling occurs in the signal flow direction and is in 3 by a dashed arrow 16 indicated.

With activated signaling of an input of a switching matrix, a blocking of the signal path is triggered automatically and immediately starting from the signaled input in the signal flow direction. The activated signaling at the input A1 blocks the path forward starting from the input A1 and thus the crosspoint a ₁₁

Conversely, when the signaling of an input of a switching matrix is deactivated, the signal path is automatically released from the signaled input in the signal flow direction. The deactivation of the signaling at the input A1 removes its own blocking on the path forward from the input A1 and thus the blocking of the crosspoint a ₁₁ .

One particular advantage of the method according to the invention is that the operator of surveillance and control tasks on the machine level largely exempt is and can concentrate on the creative aspect of his work.

In a development of the invention, said advantage will continue supported thereby, that signaling devices that use multiple signals, can signal these at the same time. For example, signal Audio / video mixers or audio / video recording devices several paths existing audio / video signal bundle as senderelevant. there become the tally ads for all at the signal bundle activated sources activated (reverse tally) or the tally displays for everyone involved in the signal bundle Lowering activated (forward tally). A blocking of paths of a burst due to tally signaling is by successively or in parallel applying method (b) to each involved path of the bundle possible.

at Further developments of the invention are also warnings for the operator visually and / or acoustically displayed.

The inventive method Can also be used as a software program can be realized, which is executable on a production facility as described above.

Claims (11)

Method for controlling a device for distribution of audio, video, data or control signals, the device with at least one switching matrix having a number of inputs, one Number of outputs has, as well as a corresponding number of crosspoints to Production of links between the entrances and outputs, the method comprising the following steps: (a) Selecting Crosspoints for requires a signal path between an input and an output are; (b) switching the crosspoints selected in step (a), to establish the signal path; and (c) automatic locking of the crosspoints in the state switched in step (b). Method according to claim 1, characterized in that starting from a signal source ( 1 . 2 . 3 ) the crosspoints are blocked one after the other in the signal flow direction and all signal sources and / or signal sinks ( 7 . 8th ) incorporated in the signal path established in step b) by optical means ( 11 ) are displayed. Method according to claim 1, characterized in that starting from a signal sink ( 7 . 8th ) the crosspoints are blocked against the signal flow direction and all signal sources ( 1 . 2 . 3 ) and / or signal sinks, which are incorporated in the signal path produced in step b), by optical means ( 11 ) are displayed. Method according to one or more of the preceding Claims, characterized in that the crosspoints in signal flow direction be unlocked. Method according to one or more of the preceding Claims, characterized in that the crosspoints successively opposite the signal flow direction are unlocked. Method according to one or more of the preceding Claims, characterized in that a plurality of signal paths combined to form a signal bundle and be locked together. Method according to one or more of the preceding Claims, characterized in that the merging of a plurality of signal paths to a path bundle by entering inputs or outputs of the respective signal paths into a list. Method according to one or more of the preceding Claims, characterized in that the locking of the path bundle by blocking the compilation of the path bundle, as well as locking all signal paths that are combined to the path bundle. Method according to one or more of the preceding Claims, characterized in that the path bundle by deleting all Inputs and outputs dissolved from the list becomes. Method according to one or more of the preceding Claims, characterized in that locked signal paths leading to a locked path bundles are summarized, can not be unlocked. Storage medium on which a program code is stored is that in the program memory of a data processing system is storable and brings a program to execution, the process steps according to one or more of the preceding claims leads.