US20170164025A1 - Using Bitrate Data To Output An Alert Indicating A Functional State Of A Back-Up Media-Broadcast System - Google Patents
Using Bitrate Data To Output An Alert Indicating A Functional State Of A Back-Up Media-Broadcast System Download PDFInfo
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Definitions
- each usage of “a” or “an” means at least one, and each usage of “the” means the at least one.
- a media-broadcast system may be configured to generate and broadcast a media stream to a set of receivers (e.g., set-top boxes) for viewing and/or listening by end-users.
- two different media-broadcast systems (a primary and a back-up) may be configured to generate the same (or substantially the same) media streams at the same (or substantially the same) time.
- the primary and back-up systems may generate primary and back-up streams, respectively.
- the primary system may broadcast the primary stream to the set of receivers unless and until the primary system becomes inoperative, in which case the back-up system may take over and broadcast the back-up stream to the set of receivers instead.
- an example method for outputting an alert indicating a functional state of a back-up media-broadcast system involves: a computing device determining first bitrate-data associated with a first compressed media-stream; the computing device determining second bitrate-data associated with a second compressed media-stream; the computing device making a determination that the determined first bitrate-data and the determined second bitrate-data lack a threshold extent of similarity; and responsive to the determination that the determined first bitrate-data and the determined second bitrate-data lack the threshold extent of similarity, the computing device outputting an alert.
- a non-transitory computer-readable medium has stored thereon program instructions that when executed cause a computing device to perform of a set of acts for outputting an alert indicating a functional state of a back-up media-broadcast system, the set of acts involving: determining first bitrate-data associated with a first compressed media-stream; determining second bitrate-data associated with a second compressed media-stream; making a determination that the determined first bitrate-data and the determined second bitrate-data lack a threshold extent of similarity; and responsive to the determination that the determined first bitrate-data and the determined second bitrate-data lack the threshold extent of similarity, outputting an alert.
- a computing device includes a processor and a non-transitory computer-readable medium having stored thereon program instructions that when executed by the processor cause the computing device to perform of a set of acts for outputting an alert indicating a functional state of a back-up media-broadcast system, the set of acts involving: determining first bitrate-data associated with a first compressed media-stream; determining second bitrate-data associated with a second compressed media-stream; making a determination that the determined first bitrate-data and the determined second bitrate-data lack a threshold extent of similarity; and responsive to the determination that the determined first bitrate-data and the determined second bitrate-data lack the threshold extent of similarity, outputting an alert.
- FIG. 1 is a simplified block diagram illustrating an example system according to the present disclosure.
- FIG. 2 is a simplified block diagram illustrating another example system according to the present disclosure.
- FIG. 3 is a simplified block diagram illustrating an example computing device according to the present disclosure.
- FIG. 4 is a flow chart illustrating an example method according to the present disclosure.
- primary and back-up systems may generate primary and back-up media streams, respectively, and in the event that the primary system becomes inoperable, the back-up system may broadcast the back-up stream to take the place of the primary stream.
- the back-up system may be desirable to determine a functional state of the back-up system. In particular, it may be desirable to determine whether the back-up system is in fact generating a back-up stream, thus allowing the back-up system to take over if necessary.
- the back-up system is not generating a back-up stream, it may be desired to output an alert so that the issue with the back-up system can be addressed.
- One approach for determining a functional state of the back-up system involves a computing device conducting a bit-by-bit comparison of a primary stream and a corresponding purported back-up stream to determine whether the streams are exact copies of each other. After making this comparison, if the device determines that there is a discrepancy between the two streams, the device may output an alert (i.e., to indicate that the back-up system is not functioning properly).
- this approach may not provide useful results. This may be the case where the two streams are not identical, but where they represent respective portions of media content that are perceptually indistinguishable from each other (from the perspective of a typical end-user). Such streams may not be identical for a variety of reasons, such as due to a digital signal processing artifact that is present in one stream, but not in the other. Given this scenario, despite the fact that the back-up system is generating a back-up stream that should be considered to be an acceptable back-up of the primary stream, due to the nature of the bit-by-bit comparison, the device may nonetheless output an alert.
- the present disclosure provides an alternative and improved approach for determining a functional state of a back-up system, and for outputting an alert indicating the functional state, and is based, at least in part, on a consideration of bitrate data associated with a compressed media-stream.
- a bitrate of a media stream refers to the number of bits of the media stream that are conveyed or processed per unit of time.
- HD-SDI high definition serial digital interface
- An encoder or other compression device may compress an uncompressed media-stream to reduce its average bitrate.
- an encoder may compress an uncompressed media-stream in accordance with the MPEG-2 compression standard set forth in SMTPE ISO/IEC 13818-1.
- the encoder may generate a compressed media-stream that includes multiple portions, each of which corresponds to respective portion of the uncompressed media-stream.
- Each portion of the compressed media-stream may have a bitrate that is the same, or in most cases, less than the uniform bitrate of the uncompressed media-stream.
- the particular bitrate of each portion of the compressed media-stream may depend on the media content represented by the corresponding portion of the uncompressed media-stream. For instance, where the uncompressed media-stream is a video stream, and a first portion thereof represents video content having little to no motion, the bitrate of the corresponding compressed video-stream may be relatively low. But where a second portion thereof represents video content having a significant amount of motion, the bitrate of the corresponding compressed video-stream may be relatively high.
- a method that involves a computing device (i) determining first bitrate-data associated with a first compressed media-stream, and (ii) determining second bitrate-data associated with a second compressed media-stream.
- One of the first and second media-streams is a primary stream, and the other is a corresponding purported back-up stream.
- the method further involves the device making a determination that the determined first bitrate-data and the determined second bitrate-data lack a threshold extent of similarity, and, responsive to the determination, the device outputting an alert.
- the device may more accurately determine whether or not a purported back-up stream is in fact a back-up stream. Indeed, in the case where the first and second streams are not identical, but where they represent respective portions of media content that are perceptually indistinguishable from each other, the portions are likely to have the same (or similar) bitrate data, and therefore, in accordance with the disclosed technique, the device may appropriately forgo outputting an alert. On the other hand, in the case where the respective portions of media content are perceptually distinguishable from each other, in accordance with the disclosed technique, the device may appropriately output an alert (i.e., to indicate that the back-up system is not functioning properly).
- FIG. 1 is a simplified block diagram illustrating an example system 100 .
- the system 100 may include at least two media-broadcast systems, including a first system 102 a and a second system 102 b.
- One of the first and second systems 102 a, 102 b may serve as a primary system, and other may serve as a back-up system.
- the system 100 may further include a receiver 104 , and a computing device 106 .
- the first system 102 a may include a generation system 108 a and a distribution system 110 a.
- the generation system 108 a may be configured for generating a first compressed media-stream 112 a, and may include various components, including for example a media source, a router, a switcher, an encoder (or other compression device), and/or a broadcast automation system.
- the generation system 108 a may be connected to the distribution system 110 a, which in turn may be connected to the receiver 104 .
- the generation system 108 a may further be configured for generating first bitrate-data 114 a associated with the first stream 112 a .
- an encoder in the generation system 108 a may generate the first bitrate-data 114 a and embed such data in the first stream 112 a.
- the distribution system 110 a may be configured for distributing the first stream 112 a to the receiver 104 .
- the distribution system 110 a may include various components such as a terrestrial antenna or a satellite, and may be configured for distributing the first stream 112 a to the receiver 104 in a variety of ways (e.g., over the air transmission).
- the receiver 104 may take a variety of forms, including for example, a television, a television set-top box, or a radio.
- the second system 102 b may be configured in a same or similar manner to that of the first system 102 a.
- the second system 102 b may include a generation system 108 b and a distribution system 110 b.
- the generation system 108 b may be configured for generating a second compressed media-stream 112 b, and may include various components, including for example a media source, a router, a switcher, an encoder (or other compression device), and/or a broadcast automation system.
- the generation system 108 b may further be configured for generating second bitrate-data 114 b associated with the second stream 112 b.
- an encoder in the generation system 108 b may generate the second bitrate-data 114 b and embed such data in the second stream 112 b.
- first bitrate-data 114 a and the second bitrate-data 114 b it may be desired to have both generation systems 108 a, 108 b configured in the same or similar ways.
- the generation system 108 b may be connected to the distribution system 110 b, which in turn may be connected to the receiver 104 .
- the distribution system 110 b may be configured for distributing the second stream 112 b to the receiver 104 .
- the distribution system 110 b may include various components such as a terrestrial antenna or a satellite, and may be configured for distributing the second stream 112 b to the receiver 104 in a variety of ways.
- the system 100 may be configured such that only one of the distribution systems 110 a, 110 b distributes its respective generated stream to the receiver 104 at a given time.
- the distribution system 110 a may distribute the first stream 112 a to the receiver 104 , unless and until the first system 102 b becomes inoperative, in which case the second system 102 b may take over and the distribution system 110 b may distribute the second stream 112 b to the receiver 104 instead.
- the first system 102 a may be considered the primary system and the second system 102 b may be considered the back-up system.
- the first stream 112 a may be considered the primary stream, and the second stream 112 b may be considered the back-up stream.
- the second system 102 b may be desirable to determine a functional state of the second system 102 b. In particular, it may be desirable to determine whether the second system 102 b is in fact generating a back-up stream, thus allowing the second system 102 b to take over if necessary. In the event that the second up system 102 b is not generating a back-up stream, it may be desired to generate alert so that the issue with the second system 102 b can be addressed (e.g., by an operator or automatically by another system).
- the device 106 may be configured to generate such an alert.
- the device 106 may be connected to both generation systems 108 b, 108 b. With this arrangement, the device 106 may receive the first bitrate-data 114 a and the second bitrate-data 114 b (by receiving the first stream 112 a and the second stream 112 b, respectively). Notably, in some instances, at least one of the first bitrate-data 114 a and the second bitrate-data 114 b may not be embedded in a respective media stream, and thus the device 106 may separately receive at least one of the first bitrate-data 114 a or the second bitrate-data 114 b.
- the device 106 may determine the first bitrate-data 114 a by receiving the first bitrate-data 114 a from the generation system 108 a. In some cases, the device 106 may receive other bitrate-data from the generation system 108 a, and may use the other bitrate-data to determine the first bitrate-data 114 a (i.e., the device 106 may derive one set of bitrate data from another set of bitrate data).
- the device 106 may determine the second bitrate-data 114 b by receiving the second bitrate-data 114 b from the generation system 108 b. In some cases, the device 106 may receive other bitrate-data from the generation system 108 b, and may use the other bitrate-data to determine the second bitrate-data 114 b.
- the device 106 may make a determination that the first bitrate-data 114 a and the second bitrate-data 114 b lack a threshold extent of similarity, and in response to the determination, the device 106 may output an alert.
- a media-broadcast system may take the form of an audio-broadcast system, a video-broadcast system, or a combination thereof.
- a media stream may take the form of an audio stream, a video stream, or a combination thereof.
- FIG. 2 is a simplified block diagram illustrating an example system 200 .
- the system 200 may be the same as or similar to the system 100 , except that the system 200 includes another computing device 114 , and a communication network 116 connecting the device 106 and the device 114 , and through which the device 106 and the device 114 may communicate.
- the device 114 is also connected to the generation system 108 b.
- the communication network 116 may take a variety of forms.
- the communication network 116 may be a packet-switched network such as the Internet.
- the device 106 may receive the first stream 112 a and the first bitrate-data 114 a. Further, the device 114 may receive the second stream 112 b and the second bitrate-data 114 b. The device 114 may transmit the second bitrate-data 114 a to the device 106 , and the device 106 may receive the same. The device 106 may then make a determination that the first bitrate-data 114 a and the second bitrate-data 114 b lack a threshold extent of similarity, and in response to the determination, the device 106 may output an alert.
- FIG. 3 is a simplified block diagram illustrating an example computing device 300 .
- the device 300 may represent the device 106 or the device 114 , for instance.
- the device 300 may be configured for performing a variety of functions or acts, such as those described in this disclosure (including the accompanying drawings).
- the device 300 may include various components, including for example, a processor 302 , a communication interface 304 , a user interface 306 , and a data storage 308 .
- the components of the device 300 may be communicatively connected to each other (or other devices or systems) via a system bus, network, or other connection mechanism 310 .
- the processor 302 may include a general purpose processor (e.g., a microprocessor) and/or a special purpose processor (e.g., a digital signal processor (DSP)).
- a general purpose processor e.g., a microprocessor
- DSP digital signal processor
- the communication interface 304 may be configured to allow the device 300 to communicate with one or more devices (or systems) according to one or more protocols.
- the communication interface 304 may be a wired interface, such as an Ethernet interface or a HD-SDI.
- the communication interface 304 may be a wireless interface, such as a cellular or WI-FI interface.
- the user interface 306 may facilitate interaction with a user of the device, if applicable.
- the user interface 306 may include input components such as a keyboard, a keypad, a mouse, a touch-sensitive panel, a microphone, and a camera, and output components such as a display screen (which, for example, may be combined with a touch-sensitive panel), a sound speaker, and a haptic feedback system.
- the data storage 308 may include one or more volatile, non-volatile, removable, and/or non-removable storage components, such as magnetic, optical, or flash storage, and may be integrated in whole or in part with the processor 302 . Further, the data storage 308 may take the form of a non-transitory computer-readable storage medium, having stored thereon program instructions (e.g., compiled or non-compiled program logic and/or machine code) that, when executed by the processor 302 , cause the device 300 to perform one or more functions or acts, such as those described in this disclosure. Such program instructions may define or be part of a discrete software application that can be executed in response to certain inputs received from the user interface 306 , for instance. The data storage 308 may also store other types of information or data, such as those types described throughout this disclosure.
- program instructions e.g., compiled or non-compiled program logic and/or machine code
- FIG. 4 is a flow chart illustrating an example method 400 .
- the method may involve a computing device determining first bitrate-data associated with a first compressed media-stream. For instance, this may involve the device 106 receiving the first bitrate-data 114 a from the generation system 108 a.
- the first bitrate-data 114 a may take a variety of forms and may include or indicate any data related to the bitrate of at least a portion of the first stream 114 a.
- the first bitrate-data 114 a may indicate a first average bitrate-change over a first temporal-portion of the first stream 112 a.
- the first temporal-portion of the first stream 112 a may be 0.5 seconds of the first stream 112 a.
- the device 106 may determine the first average bitrate-change by determining a set of instantaneous bitrates of the first stream 112 a over the first temporal-portion, plotting the determined set of bitrates, and then determining a slope of the plotted set of bitrates. The determined slope represents the average bitrate change over the first temporal-period.
- the first temporal-period may correspond to a time period.
- the device 106 may utilize a time synchronization service (e.g., a global positioning system (GPS) time synchronization service), to determine such a time period.
- a time synchronization service e.g., a global positioning system (GPS) time synchronization service
- GPS global positioning system
- the time period may be represented in a variety of formats, such as by specifying a number of hours, minutes, seconds, and frames (which is commonly represented in HH:MM:SS:FF format).
- the first bitrate-data 114 a may indicate of an occurrence of a first bitrate-change within the first stream 112 a.
- the first bitrate-change may occur between two portions of the first stream 112 a, where the two portions have different respective bitrates.
- the first bitrate-data 114 a may indicate a first time associated with the first bitrate-change.
- the device 106 may utilize a time synchronization service to determine such a time.
- the time may be represented in a variety of formats, such as by specifying a number of hours, minutes, seconds, and frames (which is commonly represented in HH:MM:SS:FF format).
- the first bitrate-data 114 may indicate an occurrence of a first bitrate-change of a predefined threshold amount.
- the first bitrate-data 114 a may indicate an average bitrate (or other derived value) of a give portion of the first stream 112 a (e.g., a portion representing one second).
- the method may involve the computing device determining second bitrate-data associated with a second compressed media-stream. For instance, this may involve the device 106 receiving the second bitrate-data 114 b from the generation system 108 b . As another example, this may involve the device 106 receiving the second bitrate-data 114 b from the device 114 .
- the second bitrate-data 114 b data may also take a variety of forms, including parallel versions of those forms described above in connection with the first bitrate-data 114 a.
- the method may involve the computing device making a determination that the determined first bitrate-data and the determined second bitrate-data lack a threshold extent of similarity. For instance, this may involve the device 106 making a determination that the first bitrate-data 114 a and the second bitrate-data 114 b lack a threshold extent of similarity.
- the threshold extent of similarity may be based on a variety of factors, such as ones relating to the various example forms of bitrate data discussed above.
- the act of the device 106 making the determination that the first bitrate-data 114 a and the second bitrate-data 114 b lack a threshold extent of similarity may involve the device 106 determining that the determined second bitrate-data 114 b does not indicate (i) a second average bitrate-change over a second temporal-portion of the second stream 112 b, (ii) where the second temporal-portion of the second stream 112 b corresponds to the time period, and (iii) where the second average bitrate-change is within a tolerance range of the first average bitrate-change.
- the act of the device 106 making the determination that the first bitrate-data 114 a and the second bitrate-data 114 b lack a threshold extent of similarity may involve the device 106 determining that the second bitrate-data 114 b does not indicate an occurrence of a second bitrate-change that is within the second stream 112 b and that is within a tolerance range of the first bitrate-change.
- the act of the device 106 making the determination that the first bitrate-data 114 a and the second bitrate-data 114 b lack a threshold extent of similarity may involve the device 106 determining that the second bitrate-data 114 b does not indicate a second time associated with a second bitrate-change, where the second time is within a tolerance range of the first time.
- the method may involve responsive to the determination that the determined first bitrate-data and the determined second bitrate-data lack the threshold extent of similarity, the computing device outputting an alert. For instance, this may involve responsive to the determination that the first bitrate-data 114 a and the second bitrate-data 114 b lack a threshold extent of similarity, the device 106 outputting an alert.
- the act of outputting an alert may take a variety of forms. For instance, this may involve the device 106 displaying a message. Alternatively or additionally, this may involve the device 106 transmitting an instruction to another system or device. Such an instruction may cause the system or device to initiate a diagnostic and/or repair process in connection with the second system 102 b.
- While one or more acts have been described as being performed by certain devices, systems, or entities (e.g., the computing device 106 ), the acts may be performed by any device, system, or entity, such as those described in connection with the first system 100 or the second system 200 . Furthermore, the devices and systems need not be discrete entities. Some or all of the devices or systems may be combined in a single device.
Abstract
Description
- This disclosure is a continuation of U.S. patent application Ser. No. 14/676,293 filed on Apr. 1, 2015.
- Throughout this application, with respect to all reasonable derivatives of such terms, and unless otherwise specified (and/or unless the particular context clearly dictates otherwise), each usage of “a” or “an” means at least one, and each usage of “the” means the at least one.
- Unless otherwise indicated herein, the materials described in this section are not prior art to the claims in this disclosure and are not admitted to be prior art by inclusion in this section.
- A media-broadcast system may be configured to generate and broadcast a media stream to a set of receivers (e.g., set-top boxes) for viewing and/or listening by end-users. In some instances, two different media-broadcast systems (a primary and a back-up) may be configured to generate the same (or substantially the same) media streams at the same (or substantially the same) time. As such, the primary and back-up systems may generate primary and back-up streams, respectively. With this arrangement, the primary system may broadcast the primary stream to the set of receivers unless and until the primary system becomes inoperative, in which case the back-up system may take over and broadcast the back-up stream to the set of receivers instead.
- In a first aspect, an example method for outputting an alert indicating a functional state of a back-up media-broadcast system involves: a computing device determining first bitrate-data associated with a first compressed media-stream; the computing device determining second bitrate-data associated with a second compressed media-stream; the computing device making a determination that the determined first bitrate-data and the determined second bitrate-data lack a threshold extent of similarity; and responsive to the determination that the determined first bitrate-data and the determined second bitrate-data lack the threshold extent of similarity, the computing device outputting an alert.
- In a second aspect, a non-transitory computer-readable medium has stored thereon program instructions that when executed cause a computing device to perform of a set of acts for outputting an alert indicating a functional state of a back-up media-broadcast system, the set of acts involving: determining first bitrate-data associated with a first compressed media-stream; determining second bitrate-data associated with a second compressed media-stream; making a determination that the determined first bitrate-data and the determined second bitrate-data lack a threshold extent of similarity; and responsive to the determination that the determined first bitrate-data and the determined second bitrate-data lack the threshold extent of similarity, outputting an alert.
- In a third aspect, a computing device includes a processor and a non-transitory computer-readable medium having stored thereon program instructions that when executed by the processor cause the computing device to perform of a set of acts for outputting an alert indicating a functional state of a back-up media-broadcast system, the set of acts involving: determining first bitrate-data associated with a first compressed media-stream; determining second bitrate-data associated with a second compressed media-stream; making a determination that the determined first bitrate-data and the determined second bitrate-data lack a threshold extent of similarity; and responsive to the determination that the determined first bitrate-data and the determined second bitrate-data lack the threshold extent of similarity, outputting an alert.
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FIG. 1 is a simplified block diagram illustrating an example system according to the present disclosure. -
FIG. 2 is a simplified block diagram illustrating another example system according to the present disclosure. -
FIG. 3 is a simplified block diagram illustrating an example computing device according to the present disclosure. -
FIG. 4 is a flow chart illustrating an example method according to the present disclosure. - As indicated above, in some instances, primary and back-up systems may generate primary and back-up media streams, respectively, and in the event that the primary system becomes inoperable, the back-up system may broadcast the back-up stream to take the place of the primary stream. Given this, at any given time, it may be desirable to determine a functional state of the back-up system. In particular, it may be desirable to determine whether the back-up system is in fact generating a back-up stream, thus allowing the back-up system to take over if necessary. In the event that the back-up system is not generating a back-up stream, it may be desired to output an alert so that the issue with the back-up system can be addressed.
- One approach for determining a functional state of the back-up system involves a computing device conducting a bit-by-bit comparison of a primary stream and a corresponding purported back-up stream to determine whether the streams are exact copies of each other. After making this comparison, if the device determines that there is a discrepancy between the two streams, the device may output an alert (i.e., to indicate that the back-up system is not functioning properly).
- However, in some cases, this approach may not provide useful results. This may be the case where the two streams are not identical, but where they represent respective portions of media content that are perceptually indistinguishable from each other (from the perspective of a typical end-user). Such streams may not be identical for a variety of reasons, such as due to a digital signal processing artifact that is present in one stream, but not in the other. Given this scenario, despite the fact that the back-up system is generating a back-up stream that should be considered to be an acceptable back-up of the primary stream, due to the nature of the bit-by-bit comparison, the device may nonetheless output an alert.
- The present disclosure provides an alternative and improved approach for determining a functional state of a back-up system, and for outputting an alert indicating the functional state, and is based, at least in part, on a consideration of bitrate data associated with a compressed media-stream.
- A bitrate of a media stream refers to the number of bits of the media stream that are conveyed or processed per unit of time. For example, an uncompressed high definition serial digital interface (HD-SDI) media stream standardized according to SMPTE 292M has uniform a bitrate of 1.485 Gbps.
- An encoder or other compression device may compress an uncompressed media-stream to reduce its average bitrate. For example, an encoder may compress an uncompressed media-stream in accordance with the MPEG-2 compression standard set forth in SMTPE ISO/IEC 13818-1.
- As part of the compression process, the encoder may generate a compressed media-stream that includes multiple portions, each of which corresponds to respective portion of the uncompressed media-stream. Each portion of the compressed media-stream may have a bitrate that is the same, or in most cases, less than the uniform bitrate of the uncompressed media-stream. The particular bitrate of each portion of the compressed media-stream may depend on the media content represented by the corresponding portion of the uncompressed media-stream. For instance, where the uncompressed media-stream is a video stream, and a first portion thereof represents video content having little to no motion, the bitrate of the corresponding compressed video-stream may be relatively low. But where a second portion thereof represents video content having a significant amount of motion, the bitrate of the corresponding compressed video-stream may be relatively high.
- In one aspect, disclosed is a method that involves a computing device (i) determining first bitrate-data associated with a first compressed media-stream, and (ii) determining second bitrate-data associated with a second compressed media-stream. One of the first and second media-streams is a primary stream, and the other is a corresponding purported back-up stream.
- The method further involves the device making a determination that the determined first bitrate-data and the determined second bitrate-data lack a threshold extent of similarity, and, responsive to the determination, the device outputting an alert. As compared to the bit-by-bit comparison approach described above, by comparing bitrate data, the device may more accurately determine whether or not a purported back-up stream is in fact a back-up stream. Indeed, in the case where the first and second streams are not identical, but where they represent respective portions of media content that are perceptually indistinguishable from each other, the portions are likely to have the same (or similar) bitrate data, and therefore, in accordance with the disclosed technique, the device may appropriately forgo outputting an alert. On the other hand, in the case where the respective portions of media content are perceptually distinguishable from each other, in accordance with the disclosed technique, the device may appropriately output an alert (i.e., to indicate that the back-up system is not functioning properly).
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FIG. 1 is a simplified block diagram illustrating anexample system 100. Thesystem 100 may include at least two media-broadcast systems, including afirst system 102 a and asecond system 102 b. One of the first andsecond systems system 100 may further include areceiver 104, and acomputing device 106. - The
first system 102 a may include ageneration system 108 a and adistribution system 110 a. Thegeneration system 108 a may be configured for generating a first compressed media-stream 112 a, and may include various components, including for example a media source, a router, a switcher, an encoder (or other compression device), and/or a broadcast automation system. Thegeneration system 108 a may be connected to thedistribution system 110 a, which in turn may be connected to thereceiver 104. Thegeneration system 108 a may further be configured for generating first bitrate-data 114 a associated with thefirst stream 112 a. In one example, an encoder in thegeneration system 108 a may generate the first bitrate-data 114 a and embed such data in thefirst stream 112 a. - The
distribution system 110 a may be configured for distributing thefirst stream 112 a to thereceiver 104. Thedistribution system 110 a may include various components such as a terrestrial antenna or a satellite, and may be configured for distributing thefirst stream 112 a to thereceiver 104 in a variety of ways (e.g., over the air transmission). Thereceiver 104 may take a variety of forms, including for example, a television, a television set-top box, or a radio. - The
second system 102 b may be configured in a same or similar manner to that of thefirst system 102 a. As such, thesecond system 102 b may include ageneration system 108 b and adistribution system 110 b. Thegeneration system 108 b may be configured for generating a second compressed media-stream 112 b, and may include various components, including for example a media source, a router, a switcher, an encoder (or other compression device), and/or a broadcast automation system. Thegeneration system 108 b may further be configured for generating second bitrate-data 114 b associated with thesecond stream 112 b. In one example, an encoder in thegeneration system 108 b may generate the second bitrate-data 114 b and embed such data in thesecond stream 112 b. - To allow for a useful comparison of the first bitrate-
data 114 a and the second bitrate-data 114 b, it may be desired to have bothgeneration systems generation systems - The
generation system 108 b may be connected to thedistribution system 110 b, which in turn may be connected to thereceiver 104. Thedistribution system 110 b may be configured for distributing thesecond stream 112 b to thereceiver 104. Thedistribution system 110 b may include various components such as a terrestrial antenna or a satellite, and may be configured for distributing thesecond stream 112 b to thereceiver 104 in a variety of ways. - While the generation system 108 may generate the
first stream 112 a and thegeneration system 108 b may generate thesecond stream 112 b at or about the same time, thesystem 100 may be configured such that only one of thedistribution systems receiver 104 at a given time. In practice, provided thefirst system 102 a is operational, thedistribution system 110 a may distribute thefirst stream 112 a to thereceiver 104, unless and until thefirst system 102 b becomes inoperative, in which case thesecond system 102 b may take over and thedistribution system 110 b may distribute thesecond stream 112 b to thereceiver 104 instead. In this scenario, thefirst system 102 a may be considered the primary system and thesecond system 102 b may be considered the back-up system. Likewise, thefirst stream 112 a may be considered the primary stream, and thesecond stream 112 b may be considered the back-up stream. - Given the possibility of the
second system 102 b taking over for thefirst system 102 a, at any given time, it may be desirable to determine a functional state of thesecond system 102 b. In particular, it may be desirable to determine whether thesecond system 102 b is in fact generating a back-up stream, thus allowing thesecond system 102 b to take over if necessary. In the event that the second upsystem 102 b is not generating a back-up stream, it may be desired to generate alert so that the issue with thesecond system 102 b can be addressed (e.g., by an operator or automatically by another system). - The
device 106 may be configured to generate such an alert. Thedevice 106 may be connected to bothgeneration systems device 106 may receive the first bitrate-data 114 a and the second bitrate-data 114 b (by receiving thefirst stream 112 a and thesecond stream 112 b, respectively). Notably, in some instances, at least one of the first bitrate-data 114 a and the second bitrate-data 114 b may not be embedded in a respective media stream, and thus thedevice 106 may separately receive at least one of the first bitrate-data 114 a or the second bitrate-data 114 b. - The
device 106 may determine the first bitrate-data 114 a by receiving the first bitrate-data 114 a from thegeneration system 108 a. In some cases, thedevice 106 may receive other bitrate-data from thegeneration system 108 a, and may use the other bitrate-data to determine the first bitrate-data 114 a (i.e., thedevice 106 may derive one set of bitrate data from another set of bitrate data). - Likewise, the
device 106 may determine the second bitrate-data 114 b by receiving the second bitrate-data 114 b from thegeneration system 108 b. In some cases, thedevice 106 may receive other bitrate-data from thegeneration system 108 b, and may use the other bitrate-data to determine the second bitrate-data 114 b. - Further, the
device 106 may make a determination that the first bitrate-data 114 a and the second bitrate-data 114 b lack a threshold extent of similarity, and in response to the determination, thedevice 106 may output an alert. - In some examples, a media-broadcast system may take the form of an audio-broadcast system, a video-broadcast system, or a combination thereof. As such, a media stream may take the form of an audio stream, a video stream, or a combination thereof.
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FIG. 2 is a simplified block diagram illustrating anexample system 200. Thesystem 200 may be the same as or similar to thesystem 100, except that thesystem 200 includes anothercomputing device 114, and acommunication network 116 connecting thedevice 106 and thedevice 114, and through which thedevice 106 and thedevice 114 may communicate. Thedevice 114 is also connected to thegeneration system 108 b. Thecommunication network 116 may take a variety of forms. For example, thecommunication network 116 may be a packet-switched network such as the Internet. - With this arrangement, the
device 106 may receive thefirst stream 112 a and the first bitrate-data 114 a. Further, thedevice 114 may receive thesecond stream 112 b and the second bitrate-data 114 b. Thedevice 114 may transmit the second bitrate-data 114 a to thedevice 106, and thedevice 106 may receive the same. Thedevice 106 may then make a determination that the first bitrate-data 114 a and the second bitrate-data 114 b lack a threshold extent of similarity, and in response to the determination, thedevice 106 may output an alert. -
FIG. 3 is a simplified block diagram illustrating anexample computing device 300. Thedevice 300 may represent thedevice 106 or thedevice 114, for instance. Thedevice 300 may be configured for performing a variety of functions or acts, such as those described in this disclosure (including the accompanying drawings). Thedevice 300 may include various components, including for example, aprocessor 302, acommunication interface 304, auser interface 306, and adata storage 308. The components of thedevice 300 may be communicatively connected to each other (or other devices or systems) via a system bus, network, orother connection mechanism 310. - The
processor 302 may include a general purpose processor (e.g., a microprocessor) and/or a special purpose processor (e.g., a digital signal processor (DSP)). - The
communication interface 304 may be configured to allow thedevice 300 to communicate with one or more devices (or systems) according to one or more protocols. In one example, thecommunication interface 304 may be a wired interface, such as an Ethernet interface or a HD-SDI. As another example, thecommunication interface 304 may be a wireless interface, such as a cellular or WI-FI interface. - The
user interface 306 may facilitate interaction with a user of the device, if applicable. As such, theuser interface 306 may include input components such as a keyboard, a keypad, a mouse, a touch-sensitive panel, a microphone, and a camera, and output components such as a display screen (which, for example, may be combined with a touch-sensitive panel), a sound speaker, and a haptic feedback system. - The
data storage 308 may include one or more volatile, non-volatile, removable, and/or non-removable storage components, such as magnetic, optical, or flash storage, and may be integrated in whole or in part with theprocessor 302. Further, thedata storage 308 may take the form of a non-transitory computer-readable storage medium, having stored thereon program instructions (e.g., compiled or non-compiled program logic and/or machine code) that, when executed by theprocessor 302, cause thedevice 300 to perform one or more functions or acts, such as those described in this disclosure. Such program instructions may define or be part of a discrete software application that can be executed in response to certain inputs received from theuser interface 306, for instance. Thedata storage 308 may also store other types of information or data, such as those types described throughout this disclosure. -
FIG. 4 is a flow chart illustrating an example method 400. Atblock 402, the method may involve a computing device determining first bitrate-data associated with a first compressed media-stream. For instance, this may involve thedevice 106 receiving the first bitrate-data 114 a from thegeneration system 108 a. - The first bitrate-
data 114 a may take a variety of forms and may include or indicate any data related to the bitrate of at least a portion of thefirst stream 114 a. For example, the first bitrate-data 114 a may indicate a first average bitrate-change over a first temporal-portion of thefirst stream 112 a. In one example, the first temporal-portion of thefirst stream 112 a may be 0.5 seconds of thefirst stream 112 a. In one example, thedevice 106 may determine the first average bitrate-change by determining a set of instantaneous bitrates of thefirst stream 112 a over the first temporal-portion, plotting the determined set of bitrates, and then determining a slope of the plotted set of bitrates. The determined slope represents the average bitrate change over the first temporal-period. - The first temporal-period may correspond to a time period. The
device 106 may utilize a time synchronization service (e.g., a global positioning system (GPS) time synchronization service), to determine such a time period. The time period may be represented in a variety of formats, such as by specifying a number of hours, minutes, seconds, and frames (which is commonly represented in HH:MM:SS:FF format). - As another example, the first bitrate-
data 114 a may indicate of an occurrence of a first bitrate-change within thefirst stream 112 a. The first bitrate-change may occur between two portions of thefirst stream 112 a, where the two portions have different respective bitrates. In some instances, the first bitrate-data 114 a may indicate a first time associated with the first bitrate-change. Thedevice 106 may utilize a time synchronization service to determine such a time. The time may be represented in a variety of formats, such as by specifying a number of hours, minutes, seconds, and frames (which is commonly represented in HH:MM:SS:FF format). - In some instances, the first bitrate-
data 114 may indicate an occurrence of a first bitrate-change of a predefined threshold amount. As another example, the first bitrate-data 114 a may indicate an average bitrate (or other derived value) of a give portion of thefirst stream 112 a (e.g., a portion representing one second). - At
block 404, the method may involve the computing device determining second bitrate-data associated with a second compressed media-stream. For instance, this may involve thedevice 106 receiving the second bitrate-data 114 b from thegeneration system 108 b. As another example, this may involve thedevice 106 receiving the second bitrate-data 114 b from thedevice 114. The second bitrate-data 114 b data may also take a variety of forms, including parallel versions of those forms described above in connection with the first bitrate-data 114 a. - At
block 406, the method may involve the computing device making a determination that the determined first bitrate-data and the determined second bitrate-data lack a threshold extent of similarity. For instance, this may involve thedevice 106 making a determination that the first bitrate-data 114 a and the second bitrate-data 114 b lack a threshold extent of similarity. - The threshold extent of similarity may be based on a variety of factors, such as ones relating to the various example forms of bitrate data discussed above. In one example, where the first bitrate-
data 114 a indicates a first average bitrate-change over a first temporal-portion of thefirst stream 112 a, the act of thedevice 106 making the determination that the first bitrate-data 114 a and the second bitrate-data 114 b lack a threshold extent of similarity may involve thedevice 106 determining that the determined second bitrate-data 114 b does not indicate (i) a second average bitrate-change over a second temporal-portion of thesecond stream 112 b, (ii) where the second temporal-portion of thesecond stream 112 b corresponds to the time period, and (iii) where the second average bitrate-change is within a tolerance range of the first average bitrate-change. - In another example, where the first bitrate-
data 114 a indicates an occurrence of a first bitrate-change within thefirst stream 112 a, the act of thedevice 106 making the determination that the first bitrate-data 114 a and the second bitrate-data 114 b lack a threshold extent of similarity may involve thedevice 106 determining that the second bitrate-data 114 b does not indicate an occurrence of a second bitrate-change that is within thesecond stream 112 b and that is within a tolerance range of the first bitrate-change. - In another example, where the first bitrate-
data 114 a indicates an occurrence of a first bitrate-change within thefirst stream 112 a and a time associated with the first bitrate-change, the act of thedevice 106 making the determination that the first bitrate-data 114 a and the second bitrate-data 114 b lack a threshold extent of similarity may involve thedevice 106 determining that the second bitrate-data 114 b does not indicate a second time associated with a second bitrate-change, where the second time is within a tolerance range of the first time. - At
block 408, the method may involve responsive to the determination that the determined first bitrate-data and the determined second bitrate-data lack the threshold extent of similarity, the computing device outputting an alert. For instance, this may involve responsive to the determination that the first bitrate-data 114 a and the second bitrate-data 114 b lack a threshold extent of similarity, thedevice 106 outputting an alert. - The act of outputting an alert may take a variety of forms. For instance, this may involve the
device 106 displaying a message. Alternatively or additionally, this may involve thedevice 106 transmitting an instruction to another system or device. Such an instruction may cause the system or device to initiate a diagnostic and/or repair process in connection with thesecond system 102 b. - While one or more acts have been described as being performed by certain devices, systems, or entities (e.g., the computing device 106), the acts may be performed by any device, system, or entity, such as those described in connection with the
first system 100 or thesecond system 200. Furthermore, the devices and systems need not be discrete entities. Some or all of the devices or systems may be combined in a single device. - In addition, the acts described herein need not be performed in the disclosed order, although in some examples and order may be preferred. Also, not all acts need to be performed to achieve the desired advantages of the disclosed systems, devices, and methods, and therefore not all acts are required. Variations discussed in connection with one example may be applied to all other examples disclosed herein.
- While select examples of the present disclosure have been described, alterations and permutations of these examples will be apparent to those of ordinary skill in the art. Other changes, substitutions, and alterations are also possible without departing from the invention on its broader aspects as set forth in the following claims.
Claims (23)
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2015
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2016
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- 2016-03-30 CA CA2979718A patent/CA2979718A1/en not_active Abandoned
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2017
- 2017-02-16 US US15/434,478 patent/US20170164025A1/en not_active Abandoned
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US9621935B2 (en) | 2017-04-11 |
CA2979718A1 (en) | 2016-10-06 |
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