Abstract: Even when a system is made to have a configuration in which a plurality of transmission paths are connected to each other, a transmission-impossible time in each transmission path caused by changing a clock source to a device of a different transmission path can be shortened. In an audio signal processing system including first and second networks connected to each other through a bridge device, the bridge device operates as a slave in the first network and as a master in the second network. When the second network is reset, the bridge device starts to operate as a slave in the second network. Then, when continuous reception of an audio transmission frame that another device operating as a master in the second network has transmitted is started, the bridge device resets the first network and starts to operate as a master in the first network.

Abstract: In the case where an audio network system that performs transport of audio signals between a plurality of processors is constructed such that the plurality of processors each including two sets of transmission I/Fs and reception I/Fs are connected in series, and a TL frame generated by a master node is circulated along a ring transmission route formed among the processors in each fixed period, the TL frame including a plurality of storage regions for audio signals, when one of the processors is required to be the master node, the one processor resets in sequence processors which are connected on both sides thereof and processors behind the processors connected on both sides to once remove each of those processors from a ring transmission route if it belong to any ring transmission route, then incorporates the processors into a ring transmission route in which the one processor belongs to.

Abstract: User operates a selection switch to instruct temporary activation of an application. For the application of which the temporary activation has been instructed, a CPU of a console allocates resources necessary for signal processing by a DSP of an engine and for a parameter editing function of the console. In the DSP, a bypass parameter is set to ON. Thus, there is provided a state capable of accepting various parameter setting operation related to the application, but the signal processing based on the application program is prevented from being started in a substantive manner. In response to a full activation instruction of an application via a full activation instruction switch, the bypass parameter is set to OFF, so that audio signal processing based on the application can be started. In this way, preparatory work for setting parameters related to the application can be performed efficiently.

Abstract: A connecting node in a first sub-network system reserves a transmission channel in a connecting network, reads waveform data having a designated signal name from a TL frame in the first sub-network system, and writes the read waveform data into the reserved transmission channel in a TL frame in the connecting network, and a connecting node in a second sub-network system reserves a transmission channel in the second sub-network system, reads the waveform data having the designated signal name from the TL frame in the connecting network, and writes the read waveform data into the reserved transmission channel in a TL frame in the second sub-network system.

Abstract: An IO3 that is a connecting node reads waveform data from respective regions, in a TL frame circulated in a first sub-network system, corresponding to transmission channels allocated to any node belonging to the first sub-network system and writes the read waveform data into the regions, in a TL frame circulated in a second sub-network system, corresponding to the same transmission channels, and reads waveform data from regions, in the TL frame circulated in the second sub-network system, corresponding to the transmission channels allocated to any node constituting the second sub-network system and writes the read waveform data into the regions, in the TL frame circulated in the first sub-network system, corresponding to the same transmission channels.

Abstract: An audio signal processing device includes multiple input reception units to which analog audio signals, on which watermark information indicating identification information is superimposed, are input, an extraction unit that is adapted to extract the identification information from each of the analog audio signals input to the multiple input reception units, and a display unit for performing display depending on the identification information extracted by the extraction unit in correspondence with the input reception unit to which the analog audio signal, from which the identification information is extracted, is input, or signal processing unit for performing signal processing depending on the identification information extracted by the extraction unit for the analog audio signal, from which the relevant identification information is extracted, and outputting the processed analog audio signal.

Abstract: Region having a same size in a audio signal region of a transmission frame is allocated to each of an active engine and passive engine. The active engine reads out input signals written into regions of the frame, performs signal processing on the read-out signals, and writes resultant signals into the region allocated to the active engine. The passive engine reads out the input signals written into the regions, performs the same signal processing as the active engine on the read-out signals, and writes resultant output signals into the region allocated to the passive engine. When a flag of the active engine is indicative of a normal state, an output device reads out the output signals from the region allocated to the active engine, but, when the flag is indicative of an abnormal state, the output device reads out the output signals from the region allocated to the passive engine.

Abstract: In the case where an audio network system that performs transport of audio signals between a plurality of processors is constructed such that the plurality of processors each including two sets of transmission I/Fs and reception I/Fs are connected in series, and a TL frame generated by a master node is circulated along a ring transmission route formed among the processors in each fixed period, the TL frame including a plurality of storage regions for audio signals, when one of the processors is required to be the master node, the one processor resets in sequence processors which are connected on both sides thereof and processors behind the processors connected on both sides to once remove each of those processors from a ring transmission route if it belong to any ring transmission route, then incorporates the processors into a ring transmission route in which the one processor belongs to.

Abstract: In the case where an audio network system that performs transport of audio signals between a plurality of processors is constructed such that the plurality of processors each including two sets of transmission I/Fs and reception I/Fs are connected in series, and a TL frame generated by a master node is circulated along a ring transmission route formed among the processors in each fixed period, the TL frame including a plurality of storage regions for audio signals, when one of the processors is required to be the master node, the one processor resets in sequence processors which are connected on both sides thereof and processors behind the processors connected on both sides to once remove each of those processors from a ring transmission route if it belong to any ring transmission route, then incorporates the processors into a ring transmission route in which the one processor belongs to.

Abstract: An audio network system that performs transport of audio signals among nodes by cascading a plurality of nodes each including two sets of transmission I/Fs and reception I/Fs, and circulating among the nodes in each fixed period an audio transport frame generated by a master node, the audio transport frame including a plurality of storage regions for audio signals, is configured such that the master node measures time periods Dfw and Dbw after the audio transport frame is transmitted until the audio transport frame returns to the master node after passing through the transmission route and writes them into the audio transport frame, and each of the other nodes generates a signal processing wordclock based on those time periods, two reception times Tr1 and Tr2 while the audio transport frame circulates once through the transmission route, and a predetermined target time Tt.

Abstract: In the case of forming an audio network system in which a plurality of processors each having two sets of transmission I/Fs and reception I/Fs are connected and a TL frame generated by a master node and including a plurality of storage regions for audio signals circulates among the processors in each constant period to transport audio signals the among processors, the system is configured such that when a transmitted TL frame does not return to the reception I/F on the forward side but returns to the reception I/F on the backward side in a single mode of transmitting the TL frame to the forward side and circulating the TL frame through one transmission route, the system shifts to a twin mode of transmitting and circulating TL frames through two transmission routes.

Abstract: A signal routing apparatus is designed for setting a signal route among a plurality of components of a signal processing system by means of graphic user interface. In the signal processing apparatus, a display part displays a plurality of components each having at least one terminal for connection. An operator part is operated to select at least one terminal of one component on the display part and to input an instruction for connection. A detection part responds to the instruction for detecting at least one terminal of another component, which can be connectable to the selected terminal. A connection part automatically connects the selected terminal of one component and the detected terminal of another component with one another so that a line is drawn on the display part between the selected terminal and the detected terminal, thereby setting the signal route among the components in the form of lines drawn between the terminals of the components on the display part.

Abstract: A plurality of partial networks can work independently from each other, and each partial network connects together several nodes including a connection node for transmission of audio signals. A connection network connects respective connection nodes of the respective partial networks so as to connect the plurality of the partial networks with each other through the connection nodes.

Abstract: In an audio network system performing real-time transport of audio signals among a series of sequentially connected devices by circulating a TL frame including a plurality of storage regions for the audio signals in a fixed period along a ring transmission route formed among the devices and writing and/or reading the audio signals from/to the TL frame in each of the devices, a mixer of an active system reflecting its processing result in the output and a mixer of a standby system for backup are prepared, so that the mixers perform the same signal processing on waveform data read from the same position of the TL frame and when a switching instruction is issued, the mixer of the standby system reflects its processing result in the output instead of the active system.

Abstract: An audio network system allows any two nodes among a plurality of nodes to transmit and receive audio data to and from each other. The plurality of the nodes are connected in loop so as to allow transmission of the audio data in loop manner through the plurality of the nodes, and the transmission of the audio data is performed in one direction from an upstream node to a downstream node. One of the plurality of the nodes is set as a master node and the other nodes are set as slave nodes. The master node periodically transmits a packet of frame data containing the audio data every sampling period, such that the packet transmitted from the master node circulates through the plurality of the nodes to return to the master node within one or more sampling period. The packet has a specific data length and includes an audio data storage region divided into a plurality of blocks corresponding to a plurality of channels, such that each of the blocks stores audio data of the corresponding channel.

Abstract: A plurality of partial networks can work independently from each other, and each partial network connects together several nodes including a connection node for transmission of audio signals. A connection network connects respective connection nodes of the respective partial networks so as to connect the plurality of the partial networks with each other through the connection nodes.

Abstract: In an audio network system connecting a plurality of nodes in a ring form, a master node transmits a packet of frame data regularly every sampling cycle, such that the packet circulates through the nodes during the sampling cycle. The packet is provided with a plurality of regions for containing audio sample data in correspondence to a plurality of channels. A first node reads audio sample data from a particular region of the packet, which corresponds to a particular channel allocated to the first node, and stores the read audio sample data in a buffer. The first node acquires positional information indicating whether a second node which has written the audio sample data into the particular region is located upstream or downstream of the first node. The first node reads and outputs a previous one of the audio sample data from the buffer if the second node is located upstream of the first node, and outputs a current one of the audio sample data if the second node is located downstream of the first node.

Abstract: A configuration method is performed for controlling an audio apparatus having a main block configurable for processing audio signals such as modifying and mixing of the audio signals, and peripheral units of various types being equipped with components of various types and being connectable to the main block for inputting the audio signals to be processed and outputting the audio signals processed by the main block. A first detection step is carried out for detecting when a new peripheral unit is connected to the main block. A second detection step is carried out for detecting a type of the new peripheral unit. An inquiry step is conducted for inquiring the new peripheral unit upon detection thereof about a type of a component equipped in the new peripheral unit and obtaining a reply indicating the type from the new peripheral unit. Thus, the main block can be configured according to the detected type of the new peripheral unit and the type of the component thereof indicated by the reply.

Abstract: In the case where an audio network system that performs transport of audio signals between a plurality of processors is constructed such that the plurality of processors each including two sets of transmission I/Fs and reception I/Fs are connected in series, and a TL frame generated by a master node is circulated along a ring transmission route formed among the processors in each fixed period, the TL frame including a plurality of storage regions for audio signals, when one of the processors is required to be the master node, the one processor resets in sequence processors which are connected on both sides thereof and processors behind the processors connected on both sides to once remove each of those processors from a ring transmission route if it belong to any ring transmission route, then incorporates the processors into a ring transmission route in which the one processor belongs to.

Abstract: A configuration method is performed for controlling an audio apparatus having a main block configurable for processing audio signals such as modifying and mixing of the audio signals, and peripheral units of various types being equipped with components of various types and being connectable to the main block for inputting the audio signals to be processed and outputting the audio signals processed by the main block. A first detection step is carried out for detecting when a new peripheral unit is connected to the main block. A second detection step is carried out for detecting a type of the new peripheral unit. An inquiry step is conducted for inquiring the new peripheral unit upon detection thereof about a type of a component equipped in the new peripheral unit and obtaining a reply indicating the type from the new peripheral unit. Thus, the main block can be configured according to the detected type of the new peripheral unit and the type of the component thereof indicated by the reply.