KR101217860B1 - Media sharing method, mediator for media sharing, and collaboration system - Google Patents

Abstract

A method of coordinating, by the coordinating apparatus to share the at least one media source generated in at least one of the plurality of cooperative participation apparatuses, so that the plurality of cooperative participation apparatuses are shared. Inserting a transcoder into at least one or moving the placed transcoder to create a delivery path for each media source, wherein the resources of the collaborator participating in the media source in the delivery path of each media source If it is not enough to raise the receiving quality of the media source without raising the receiving quality, and in the plurality of collaborative participants, the receiving quality is increased and the transcoder is relocated until the receiving quality corresponding to each media source is fixed. It includes the step of changing.

Description

MEDIA SHARING METHOD, MEDIATOR FOR MEDIA SHARING, AND COLLABORATION SYSTEM}

The present invention relates to a media sharing method, a media sharing control device, and a collaboration system for a multilateral collaboration environment.

The multi-party collaboration environment enables remote participants to collaborate in a realistic way while exchanging various forms of shared media using high-performance computing and networking infrastructure. However, because the computing and networking capabilities of the collaborative sites participating in the collaborative environment are different, the media formats that each collaborative site can accommodate are different. As a result, remote participants want to coordinate their collaborative environments to deliver better quality video sharing within the capabilities provided by their environment.

Until now, the collaborative system has defined the desired quality of the supply device for supplying the media and the receiving device receiving the media, and the transcoder for quality conversion is also predetermined and shares the media. Thus far, resources have not been optimally used when sharing various types of media sources that are created frequently. In addition, until now, the collaboration system uses a limited media sharing method in which one device produces the media and the other remote device receives the media. Can't share

The problem to be solved by the present invention is a media sharing method of adjusting the overall quality of the collaboration environment to maximize the maximum by repeating the procedure of determining the media quality of the collaboration device and the transcoder arrangement based on the resources of the collaboration device in the collaboration environment. , Media sharing controls, and collaboration systems.

A media sharing coordinator according to an embodiment of the present invention is a method for coordinating the plurality of cooperative participation device to share at least one media source generated in at least one of a plurality of cooperative participation device, the plurality of cooperative participation device Inserting a transcoder into at least one of the plurality of collaborative participation devices or moving the arranged transcoder to create a delivery path of each media source based on the resources of the plurality of collaborative participation devices, receiving the media source from the delivery path of each media source If the resources of the cooperative participation device is insufficient to raise the reception quality of the media source, fixing without raising the reception quality of the media source, and the reception quality corresponding to each of the media sources in the plurality of collaboration participating devices Increase the reception quality until it is fixed and reposition the transcoder Stand and a step of changing the transmission path.

The transcoder may transcode at a lower quality than the quality of the received media source.

In the step of creating a delivery path of each media source, the transcoder may be arranged in a cooperative participation device having the largest amount of free resources among the plurality of cooperative participation devices.

The step of creating a delivery path of each media source may be based on the computing resources and the networking resources related to the bandwidth required to process the media source in each collaboration participant to place a transcoder in any collaboration participant device or to any one collaboration participant device. The deployed transcoder can be moved to another collaborator.

The changing of the delivery path may include raising the reception quality of the collaboration participant device having resources, connecting the collaboration participant providing the media source of the received reception quality with the collaboration participant device having the resources. And increasing the reception quality and changing a transcoder arrangement until the reception quality of the collaborative participation device having the resource can be fixed.

A media sharing coordinator according to another embodiment of the present invention is a method for coordinating a cooperative environment to share a media source encoded and supplied by a certain cooperative participation device in a cooperative environment. Raising the reception quality of the reception device receiving the media source toward the encoding quality, and determining whether the media source of the reception quality uploaded by the reception device can be processed, and the resource of the reception device processes the upload reception quality If it is not sufficient, fixing the reception quality of the receiving device to the reception quality before raising, if the resources of the receiving device can afford to process the raised reception quality, the collaboration to deliver the media source of the received reception quality Connecting a participant device and the receiving device, and Increasing the reception quality to the raised reception quality; and if the reception quality is not fixed, gradually raising the reception quality until the resources of the reception apparatus are insufficient, and placing a transcoder in the plurality of collaboration participants. Fixing the reception quality.

The method further includes fixing the reception quality of the reception device to the encoded quality if the reception quality desired by the reception device is equal to the encoded quality.

The fixing of the reception quality to the reception quality before raising may be fixed to the reception quality before raising the reception quality when the computing device lacks the computing resource to decode the media source of the reception quality.

The step of increasing the reception quality to the uploaded reception quality may include searching for a transcoder providing the uploaded reception quality, and if there is a searched transcoder, the searched transcoder is arranged based on networking resources of the reception device. Connecting the received collaboration device and the receiving device; and if there is no searched transcoder, a transformer for providing the received reception quality to a collaborative participation device having free resources based on the resources of the plurality of collaboration participating devices. And inserting a coder to connect with the receiving device.

If there is the searched transcoder, connecting the receiving device may include determining whether there is a networking resource for delivering a media source to the receiving device in the cooperative participation device in which the searched transcoder is arranged, the networking resource. Connecting the searched transcoder and the receiving device if there is a margin; and if the networking resource does not have a margin, the searched transcoder with a collaborative participation device having sufficient computing resources and networking resources with the receiving device. It may include the step of moving.

The moving of the searched transcoder may fix the reception quality before raising the reception quality of the reception device when there is no collaboration participant with sufficient computing resources and networking resources with the reception device.

If there is no searched transcoder, the step of connecting with the receiving device determines whether there is a resource for transcoding the encoded quality to the raised reception quality in the cooperative participant supplying the media source. If there is a resource, inserting a transcoder into the cooperative participant supplying the media source to connect with the receiving device; and, if there is no resource to be transcoded, inserting a transcoder into the cooperative participant having spare resources. The method may include connecting with the receiving device.

A media sharing coordinating apparatus according to another embodiment of the present invention is a method for coordinating media sharing in a collaborative environment consisting of a plurality of cooperative participation devices, the method comprising: receiving a collaborative leave message from a leaving device that leaves the collaborative environment; Determining whether the transcoder is arranged in the withdrawal device, and if the transcoder is arranged, moving the transcoder to a cooperative participant having spare resources to move the transcoder.

The moving of the transcoder may include searching for a cooperative participant having free resources to accommodate the transcoder, and if there is a collaborative participant having the free resources, the transcoder to a cooperative participant having the free resources. Moving the transcoder arranged between the collaborative participation devices other than the withdrawal device, and moving the transcoder of the withdrawal device to the collaborative participation device having the free resources. It may include moving.

The method may further include changing a transcoder arrangement by raising the reception quality step by step until the reception quality of receiving a media source is fixed in the collaboration participation apparatus except for the withdrawal apparatus, when there is no cooperative participation apparatus having the spare resource. It may further include.

A collaboration system for providing a collaboration environment according to an embodiment of the present invention, generating a media source for collaboration and supplying it to the collaboration environment, receiving and playing the generated media source for collaboration, and receiving the received media source. A device for monitoring the resources of the plurality of collaboration participating devices and the plurality of collaboration participating devices to be transmitted to the neighboring devices, and transcoding of the plurality of collaboration participating devices based on the resources of the plurality of collaboration participating devices Selects a transcoder and selects a media sharing control device that determines the reception quality of the collaboration participant receiving the media source for each media source by increasing the reception quality of the received media source until the resources of each collaboration participant run out. Include.

The plurality of cooperative participation devices may transcode based on the control of the media sharing control device to deliver a media source having a lower quality than the received media source to a device lacking resources.

The media sharing coordinator may monitor network resources related to computing resources and bandwidth of each cooperative participation device.

The media sharing coordinator may control to arrange a transcoder in a cooperative participation device or to move a transcoder arranged in a cooperative participation device based on the monitored resource.

The media sharing coordinating apparatus may determine the reception quality by repeating the process of disposing a transcoder in a collaboration participant to increase the reception quality and deliver a media source of the received reception quality until resources of the respective cooperative participation devices are insufficient.

An apparatus for coordinating media sharing, wherein the plurality of cooperative participation apparatuses share at least one media source generated by at least one of a plurality of cooperative participation apparatuses, according to an embodiment of the present invention. When the resource monitoring unit for monitoring any one of the plurality of the cooperative participation device to generate a media source, the reception while raising the reception quality of the receiving device for receiving the media source toward the encoded quality step by step A resource determination unit that determines whether the resource of the device can process the received quality, a quality management unit that fixes or increases the reception quality of the reception device based on a determination result of the resource determination unit, and resources of the plurality of collaboration participant devices The media source of the reception quality determined by the quality control unit based on the And a transcoder placement unit for placing the transcoder to be delivered to the receiving device.

The resource monitoring unit may monitor networking resources between the computing resources of each of the cooperative participation device and the cooperative participation device.

The quality control unit may raise the reception quality if it is able to process the reception quality uploaded as a spare resource of the reception device, and may fix the reception quality if there is not enough resource to process the upload reception quality.

The transcoder arranging unit may arrange a transcoder transcoding with a quality lower than the quality of the received media source in any cooperative participant.

The transcoder arranging unit is configured to place a transcoder on a collaborative participant device or transcoder placed on a collaborative participant based on network resources related to computing resources and bandwidth required for processing a media source in each collaborative participant. You can move to the participating device.

According to an exemplary embodiment of the present invention, media is shared by adjusting media quality and transcoder arrangement of the cooperative participation device, thereby improving media quality of the entire collaboration environment based on limited resources. According to an embodiment of the present invention, even if a plurality of media sources generated by a collaboration participant are distributed to a collaboration system, the quality of the entire collaboration system associated with each media source can be improved. In addition, the media sharing coordinator induces a high performance collaboration participant to provide a transcoder for a low performance collaboration participant, thereby satisfying the quality required by each of the low performance and high performance collaboration participant. have. As a result, according to the embodiment of the present invention, the multi-function collaboration participant device constituting the multi-party collaboration environment can share the media of the quality suitable for the performance to increase the efficiency and satisfaction of the collaboration system.

1 is a conceptual diagram of a collaboration environment according to an embodiment of the present invention.
2 illustrates a media sharing model according to an embodiment of the present invention.
3 is a flowchart illustrating a method of media sharing adjustment according to an embodiment of the present invention.
4 is a flowchart illustrating a media sharing adjustment method according to another embodiment of the present invention.
5 is a flowchart illustrating a media sharing adjustment method according to another embodiment of the present invention.
6 is a flowchart illustrating a method for media sharing coordination when leaving a collaboration according to an embodiment of the present invention.
7 is a block diagram of an apparatus for adjusting media sharing according to an embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise.

Now, with reference to the drawings will be described in detail a media sharing method, a media sharing control device and a collaboration system according to an embodiment of the present invention.

1 is a conceptual diagram of a collaboration environment according to an embodiment of the present invention.

Referring to FIG. 1, the cooperative participation apparatuses 100, 200, and 300 and a media sharing controller 100 are networked collaboration systems and constitute a collaboration environment. Each of the cooperative sites 10, 20, and 30 is a physical space to which the cooperative participation devices (100, 200, 300) having computing and networking resources participating in the collaboration belong, and the cooperative participation devices (100, 200, 300). It includes various devices used for collaboration such as a server, a display device, an image device, and a network device. All collaborative participation devices 100, 200, and 300 share media including a foreground and background of a space to be shared in a collaborative environment, a digital video or graphic stream of meeting documents, and the like. Coordinate media sharing.

The cooperative participation apparatuses 100, 200, and 300 produce and supply media to a collaborative environment, and receive and play media to be shared. In addition, the collaborative participation apparatuses 100, 200, and 300 may transcode and transmit the received media for a collaboration site having low computing power and networking ability.

The media sharing coordinator 500 controls to receive the best quality media in the available resources of each of the cooperative participation devices 100, 200, and 300 while monitoring the resources of the plurality of cooperative participation devices. If some collaborative sites use excessive resources of the collaborative environment excessively to improve their service quality, the remaining collaborative sites may be low in quality due to lack of resources. Therefore, the media sharing coordinator 500 allows the media to be shared fairly in consideration of resources, service requirements, constraints, and the like, so as not to cause an imbalance in a multilateral collaboration environment. In particular, the media sharing coordinator 500 increases the media reception quality of each of the cooperative participation devices 100, 200, and 300 step by step, and arranges a transcoder on a collaborative site with spare resources to participate in the lack of resources. Control to transcode the media source for the device. In addition, the media sharing coordinator 500 determines the delivery path of the media so that the reception quality of the entire collaborative environment is improved. Position the transcoder to form a fully connected network.

2 illustrates a media sharing model according to an embodiment of the present invention.

Referring to FIG. 2, the multilateral collaboration environment includes a plurality of collaboration sites each having a plurality of collaboration participation devices (not shown), and each collaboration site is represented by S _j (1 ≦ _j ≦ N _S ).

The cooperative participation device of the cooperative site (S _j ) has a computing resource (R _j ^{( comp )} ), which is an abstract representation of the individual computing power of several devices. In this case, the computing resource is a resource used for various processes including encoding, decoding, and transcoding of a media source. Collaboration sites are connected by directional network links (S _j , S _k ), which are connected by a fully coupled network topology. At this time, the one-way networking resource R _{j , k} ^{( net )} connected from the collaboration site S _j to another collaboration site S _k represents bandwidth.

A plurality of collaborative participation devices produce a media source and supply it to a collaborative environment as needed, and a collaborative participation device that supplies a media source is simply a supply device. In this case, a plurality of media sources may be supplied, and each media source is represented by v _i (1 ≦ _i ≦ N _v ).

The cooperative participant other than the supply device, that is, the receiving device, receives the media source. The receiving device may receive the media source directly from the supply device, or may receive the media source transcoded and transmitted by another receiving device. A receiving device receiving a media source directly from the supply unit receives a media source of a quality encoded by the supply unit, and a receiving unit receiving a transcoded media source is transcoded media of lower quality than the quality encoded by the supply unit. Receive the source. The cooperative participation device may be a supply device for supplying a media source and a receiving device for receiving another media source.

Quality (q _{i , j} ) is the quality of processing media source (v _i ) at collaborative site (S _j ), for example, q _{1 , 1} is the supply of collaborative site S ₁ encodes media source v ₁ Q _1,2 is the quality at which the receiving device of the cooperative site S ₂ decodes the media source v ₁ .

The media sharing coordinator (500 in FIG. 1) places the transcoder on a collaborative site with sufficient resources for the collaborative site where the supply device cannot receive the media source as the resources of each collaborative site are not equal. The media sharing coordinator 500 can adjust the media feeder to directly transcode. For example, the cooperative site S ₁ encodes the media source v ₁ / v ₂ into a quality q _{1 , 1} / q _{2 , 1} and delivers it to the cooperative site S ₂ , S ₃ . In this case, when the cooperative site (S ₂ ) lacks the resources to decode the media source (v ₁ / v ₂ ) of the quality (q _{1 , 1} / q _{2 , 1} ), the media sharing coordinator 500 is a cooperative site (S ₁ ) to place the transcoder to deliver a media source of quality (q _{1 , 2} / q _{2 , 2} ) (v ₁ / v ₂ ). If the media supply lacks the resources to transcode, the media sharing coordinator 500 may adjust the receiving device, rather than the supplying device, to transcode the media source and deliver it to another receiving device. For example, a cooperative site (S ₃ ) cannot decode a media source (v ₃ ) of quality (q _{3 , 2} ) as it is, but the cooperative site (S ₂ ) can also transcode for the cooperative site (S ₃ ). If not, the media sharing coordinator 500 places the transcoder at the cooperative site (S ₁ ) to transcode the media source (v ₃ ) of quality (q _{3 , 1} ) to a low quality (q _{3 , 3} ). Can be delivered to the collaboration site (S ₃ ). In this case, the media sharing coordinator 500 sets a media source delivery path between the cooperative sites so as not to receive a plurality of the same media sources in different cooperative sites.

The media sharing regulator 500 defines a distribution graph Q _i , E _i for the media source v _i based on this media sharing model. In addition, the media sharing control apparatus 500 determines the delivery path of the media source by arranging the transcoder to increase the utility related to the quality. Where Q _i is a set of qualities related to the media source v _i , and E _i is a set of delivery paths e _ijk of the media source v _i , called 0-1 called 1 × N _s × N _s. (boolean) Matrix For example, e _ijk is 1 when the media source v _i is delivered from the collaboration site S _j to another collaboration site S _k , and 0 if not.

The media sharing coordinator 500 distributes resources fairly based on the utility of each distribution graph to improve the quality of the entire collaboration environment. Utility is defined as a value related to quality and can simply be summed up, weighted, or derived from quality that exceeds the minimum quality of each collaborator. For example, the utility may be defined as in Equation 1.

Referring to Equation 1, the utility may be defined as the sum of the reception quality q _ij receiving the media source v _i at each collaboration site. Src _ij is 1 if the cooperative site S _j supplies a media source v _i , and src _ij is 0 if it does not supply.

The media sharing control device 500 changes the connection relationship (E) between the cooperative sites so that the lowest available distribution graph is maximized by using the maximum minimum fairness as shown in Equation 2 to increase the lowest available distribution graph. .

The media sharing adjustment device 500 and to process the media source on the basis of the resource for each collaboration site (S _j), when placing the transcoder into account the resources of each collaboration site (S _j). The media sharing coordinator 500 considers each of the computing resources and the networking resources of each collaboration site S _{j as} shown in Equations 3 and 4 below. The transcoder transcodes the quality after transcoding so that the quality after transcoding cannot be better than the quality before transcoding, as shown in Equation (5).

In Equation 3, R _j ^{( comp )} is the total computing resource of the cooperative site (S _j ), and r ^{( enc )} (q _ij ) and r ^{( dec )} (q _ij ) represent the media source v _i . q _ij ) is the computing resource needed to encode or decode each. tr _ijk is a value indicating that the transcoding, if the collaboration site, the media source (v _i) for different collaboration site (S _k) in the (S _j) transcoding and tr _ijk is 1, and if not transcode 0. Referring to Equation (3), and media shared adjustment device 500 is the sum of the resources required for each collaboration site (S _j) encode the media source in, decoding, transcoding exceed the computing resources for each collaboration site (S _j) Do not.

In Equation 4, R _jk ^{( net )} is a networking resource connected from the collaboration site (S _j ) to another collaboration site (S _k ), and r ^{( bw )} (q _ik ) is another collaboration at the collaboration site (S _j ). The bandwidth, i.e., the resource, necessary to deliver quality q _ik to site S _k . And e _ijk is a value indicating whether to deliver the media source (v _i ) from the collaboration site (S _j ) to the other collaboration site (S _k ), e _ijk is 1 if delivered, 0 is not delivered.

Next, the media sharing control apparatus 500 will look at a media sharing method of improving the quality of the entire collaboration environment based on the media sharing model.

3 is a flowchart illustrating a method of media sharing adjustment according to an embodiment of the present invention.

Referring to FIG. 3, the media sharing coordinator 500 may transcoder at least one of the plurality of cooperative participation devices 100-300 based on the resources of the plurality of cooperative participation devices 100-300 constituting the cooperative environment. Insert or move the arranged transcoder to create a delivery path for each media source (S310). The media sharing coordinator 500 may arrange the transcoder in the cooperative participation device or move the arranged transcoder to another cooperative participation device based on the resource. In this case, the resource includes network resources related to computing resources and bandwidth required to process a media source in each cooperative participation device. The media sharing coordinating apparatus 500 may arrange the transcoder in the order of having more spare resources among the plurality of cooperative participation apparatuses 100-300. In particular, the transcoder transcodes to a quality lower than the quality of the received media source, and delivers the media source to a collaborative participant that lacks resources.

The media sharing coordinator 500 determines whether the receiving device that receives the media source in the delivery path of the current media source can raise the reception quality of the media source (S320). The media sharing coordinator 500 determines whether it is possible to process the reception quality raised by the spare resource of each receiving apparatus.

If any of the receiving apparatuses that receive the media source is short of resources, the media sharing coordinator 500 fixes the reception quality of the media source without further raising (S330).

The media sharing coordinator 500 changes the delivery path of each media source while raising the reception quality and rearranging the transcoder until the reception quality corresponding to each media source is fixed in the plurality of cooperative participation devices (S340). The media sharing coordinator 500 updates the connection relationship (E) by moving or inserting the transcoder until all reception quality is fixed, and increases the reception quality according to the spare resources to increase the quality (Q) of the entire collaborative environment. Repeat the process. The reception quality of each cooperative participant is fixed when it is the same as the encoding quality, and also when the quality is no longer improved due to insufficient resources of each cooperative participant. Therefore, the media sharing coordinator 500 ends the procedure of changing the quality and the connection relationship when the quality is fixed for all the media sources in all the cooperative participation devices.

4 is a flowchart illustrating a media sharing adjustment method according to another embodiment of the present invention.

Referring to FIG. 4, the media sharing coordinator 500 raises a reception quality of a device for receiving a media source from a plurality of cooperative participants constituting a cooperative environment from a low level (S410). In this case, the media sharing coordinator 500 gradually raises the reception quality of the cooperative participation device that receives the media source toward the encoding quality.

The media sharing coordinator 500 determines whether the cooperative participation apparatus can process the media source of the received reception quality (S420). When the media sharing coordinator 500 increases the reception quality, that is, display quality while consuming the resources of each cooperative participation device, it may be difficult to simultaneously increase the reception quality of all the cooperative participation devices at the same speed due to limited resources. Therefore, the media sharing coordinator 500 fixes or raises the reception quality after checking whether there is a free resource for decoding the media source of the received reception quality.

When the media sharing coordinator 500 cannot process a media source of the received quality raised due to insufficient resources of the cooperative participation device, the media sharing coordinating apparatus 500 fixes the received quality before raising the received quality of the insufficient resource. The cooperative participant having a fixed reception quality receives a media source having a reception quality before uploading through a transcoder arranged in another cooperative participant.

The media sharing coordinator 500 inserts a new transcoder or delivers a transcoder to which the media source of the received reception quality is to be delivered if the resource of the cooperative participant is sufficient to handle the media source of the received reception quality. Search and connect the transcoder and the cooperative participation device (S440). At this time, the cooperative participant receives the media source of received quality from the connected transcoder.

The media sharing coordinator 500 repeats the process of changing the transcoder arrangement and raising the reception quality step by step until it no longer raises the reception quality due to insufficient resources of the cooperative participation device (S450). If the plurality of collaboration participants share a plurality of media sources, the media sharing coordinator 500 does not change the transcoder arrangement if the reception quality of all the media sources is fixed in all the collaboration participants. In addition, if the encoding quality and the reception quality are the same, the media sharing control device 500 fixes the reception quality with the encoding quality without increasing the quality even if the resource of the cooperative participant receiving the media source is free.

5 is a flowchart illustrating a media sharing adjustment method according to another embodiment of the present invention.

Referring to FIG. 5, the media sharing control device 500 raises the reception quality of the cooperative site S _j that receives the media source v _i and raises it to a certain quality q _ij , and then raises the quality q. _ij ) determines whether the encoding quality of the media source v _i is the same (S510).

If the uploaded quality q _ij is equal to the encoding quality of the media source v _i , the media sharing control device 500 establishes a collaboration site S _i and a collaboration site S _j that supply the media source v _i . To connect (S511). In this case, the collaboration site quality before (S _j) is raising allowance if you have resources, collaborative site media sources (v _i) quality (S _j) is however fixed to the raised quality (q _ij), if there is no free resource (q _ij ^{- 1} ) is fixed.

If the uploaded quality q _ij is not equal to the encoding quality of the media source v _i , the media sharing coordinator 500 decodes the media source v _i of the uploaded quality q _ij at the cooperative site S _j . It is determined whether there is a spare resource to perform (S520). In this case, the media sharing controller 500 may determine the computing resources.

If there is no free resource to decode, the media sharing coordinator 500 fixes the quality (q _ij ⁻¹ ) before raising the quality of the media source v _i of the cooperative site S _j (S521).

If there is a free resource to decode, the media sharing coordinator 500 determines whether there is a transcoder t _ij that provides the uploaded quality q _ij (S530).

Without the raised quality (q _ij) transcoder (t _ij) to provide, media sharing adjustment device 500 is collaboration with the amount of free resources to insert a transcoder (t _ij) based on a resource of the plurality of collaboration engagement device It is determined whether there is a site (S540). In this case, the media sharing coordinator 500 may determine whether the computing resources and the networking resources are free.

When there is a cooperative site having a resource to insert a transcoder (t _ij ), the media sharing control device 500 inserts a transcoder (t _ij ) to the cooperative site and connects with the cooperative site (S _j ) (S541). ). The media sharing coordinator 500 may add to the cooperative site S _i supplying the media source v _i when adding the transcoder. If there is no resource for inserting the transcoder (t _ij ) in the cooperative site (S _i ), the media sharing control device (500) is a cooperative site with a lot of free resources among other cooperative sites receiving the media source (v _i ) Insert the transcoder (t _ij ). At this time, since the cooperative site S _j may receive the media source v _i of the uploaded quality q _ij and there is still a spare resource, the media sharing controller 500 may increase the reception quality q _ij . It is not fixed.

If there is no cooperative site with the resource to insert the transcoder (t _ij ), the media sharing control device 500 is the quality (q _ij ^-1 ) before raising the quality of the media source (v _i ) of the cooperative site (S _j ). It is fixed (S543).

It is determined that the network resource for connecting De quality (q _ij) transcoder (t _ij), media sharing adjustment device 500. If there is a transcoder (t _ij) with the collaboration site (S _j) to provide (S550).

If there is a networking resource, the media sharing coordinator 500 connects the transcoder _tij and the cooperative site S _j (S551). If there are no network resources, and media shared adjustment device 500. The computing resources with the collaboration site (S _j) to move the transcoder (t _ij) as network resource collaboration site with a space between the transcoder (t _ij) and collaborate The site S _j is connected (S553). If there is no cooperative site to be moved, the media sharing adjusting device 500 fixes the quality (q _ij ⁻¹ ) before raising the quality of the media source v _i of the cooperative site S _j .

As such, the media sharing coordinator 500 connects the cooperative site S _j to the cooperative site S _j if there is a cooperative site or transcoder t _ij that provides the desired quality of the media source v _i . . Media Sharing adjustment device 500 inserts a transcoder (t _ij) to find if a transcoder (t _ij), the collaboration site (S _k). At this time, the collaboration site (S _k ) should have a computing resource for transcoding and networking resources to connect to the collaboration site (S _j ). The media sharing coordinator 500 also moves the transcoder t _ij to change the connection relationship to raise the reception quality q _ij .

6 is a flowchart illustrating a method for media sharing coordination when leaving a collaboration according to an embodiment of the present invention.

Referring to FIG. 6, the media sharing coordinator 500 receives a collaboration withdrawal message from a device for leaving a collaboration environment (S610).

Media sharing control device 500 determines whether the transcoder is disposed in the withdrawal device (S620).

If the transcoder is arranged, the media sharing coordinator 500 searches for the cooperative participation device with the spare resource to move the transcoder (S630).

If there is a cooperative participant with spare resources, the media sharing coordinator 500 moves the transcoder to the cooperative participant with spare resources (S640).

If there is no cooperative participant device with a spare resource, the media sharing coordinator 500 moves the transcoder disposed in the cooperative participant except the withdrawal device (S650).

 The media sharing coordinator 500 determines whether there is a cooperative participant device having a free resource by moving the transcoder (S660).

If there is a cooperative participant device with a free resource, the media sharing coordinator 500 moves the transcoder of the withdrawal device to the cooperative participant device with the free resource (S670).

If there is no cooperative participant with spare resources, the media sharing coordinator 500 increases the reception quality step by step until the reception quality of the media source is fixed from the cooperative participant except for the withdrawal device and arranges the transcoder. The procedure is repeated (S680).

7 is a block diagram of an apparatus for adjusting media sharing according to an embodiment of the present invention.

Referring to FIG. 7, the media sharing control apparatus 500 includes a resource monitoring unit 510, a resource determination unit 530, a quality management unit 550, and a transcoder arrangement unit 570.

The resource monitoring unit 510 monitors the resources of the plurality of collaboration participating devices 100-300 constituting the collaboration system. At this time, the resource monitoring unit 510 monitors the networking resources between the computing resources of each collaboration participating device and the collaboration participating device.

When any one of the plurality of cooperative participation apparatuses 100-300 generates a media source, the resource determination unit 530 increases the reception quality of the reception apparatus that receives the media source toward the encoding quality. In addition, the resource determination unit 530 determines whether the reception quality raised by the resource of the reception apparatus can be processed.

The quality management unit 550 fixes or increases the reception quality of the reception device based on the determination result of the resource determination unit 530. The quality management unit 550 raises the reception quality if the reception quality can be processed as the spare resource of the reception apparatus, and fixes the reception quality without changing the reception quality if there is insufficient resource to process the upload reception quality.

The transcoder arranging unit 570 arranges a transcoder for delivering a media source having a reception quality determined by the quality management unit 550 to the receiving device based on the resources of the plurality of cooperative participation devices 100-300. At this time, the transcoder transcodes to a quality lower than that of the received media source. The transcoder arranging unit 570 arranges a transcoder in a collaborative participant device or a transcoder disposed in a collaborative participant device based on the network resources related to computing resources and bandwidth required for processing a media source in each cooperative participant device. Move to another collaboration participant. The transcoder placement unit 570 no longer positions the transcoder once the quality related to all the media sources is fixed in all the cooperative participation devices.

As such, the media sharing coordinating apparatus 500 shares the media by adjusting the media quality and the transcoder arrangement of the cooperative participation apparatuses 100-300 and thus can increase the media quality of the entire cooperative environment based on limited resources. And even if a plurality of media sources generated by a collaboration participant are distributed to a collaboration system, the quality of the entire collaboration system associated with each media source can be improved. In addition, the media sharing coordinator induces a high performance collaboration participant to provide a transcoder for a low performance collaboration participant, thereby satisfying the quality required by each of the low performance and high performance collaboration participant. have. Therefore, according to the embodiment of the present invention, the multi-function collaboration participant device constituting the multi-party collaboration environment can share the media of the quality suitable for the performance to increase the efficiency and satisfaction of the collaboration system.

 While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

Claims (25)

A method of controlling a media sharing coordinator to share the at least one media source generated in at least one of a plurality of cooperative participants so that the plurality of cooperative participants share.
Creating a delivery path of each media source by inserting a transcoder into at least one of the plurality of cooperative participation devices or moving the arranged transcoder based on resources of the plurality of cooperative participation devices;
If the resources of the cooperative participant receiving the media source in the delivery path of each media source are insufficient to raise the reception quality of the media source, fixing the media source without raising the reception quality; and
Changing the delivery path while raising the reception quality and relocating the transcoder until the reception quality corresponding to each media source is fixed in the plurality of cooperative participation devices;
Media sharing adjustment method comprising a. In claim 1,
And the transcoder transcodes to a quality lower than the quality of the received media source. In claim 1,
Creating a delivery path of each media source
And arranging the transcoder in the cooperative participation device having the most free resources among the plurality of cooperative participation devices. In claim 1,
Creating a delivery path of each media source
Place a transcoder on one collaboration participant or move a transcoder placed on one collaborative participant to another based on the networking resources related to the computing resources and bandwidth required to process the media source in each collaboration participant. How to adjust media sharing. In claim 1,
Changing the delivery path
Raising the reception quality of the collaborative participation device with sufficient resources;
Connecting the collaboration participant providing the media source of the received reception quality with the collaboration participant having the resources;
Raising the reception quality and changing a transcoder arrangement until the reception quality of the collaborative participation device having the resource is fixed is fixed;
Media sharing adjustment method comprising a. A way for media sharing coordinators to coordinate in a collaborative environment a media source that encodes and delivers a certain quality of encoding from a collaborator.
Increasing the reception quality of the reception device receiving the media source toward the encoding quality among the plurality of collaboration participation devices constituting the collaboration environment, and determining whether to process the media source of the reception quality uploaded by the reception device;
If the resource of the receiving device is insufficient to process the raised receiving quality, fixing to the receiving quality before raising the receiving quality of the receiving device,
If the resource of the receiving device has room to process the uploaded reception quality, the cooperative participation device for delivering the media source of the received reception quality and the reception device are connected, and the reception quality of the reception device is increased. Step up to quality, and
If the reception quality is not fixed, increasing the reception quality step by step until the resources of the reception apparatus are insufficient, and fixing the reception quality while arranging transcoders in the plurality of cooperative participation apparatuses.
Media sharing adjustment method comprising a. The method of claim 6,
If the reception quality desired by the reception device is equal to the encoding quality, fixing the reception quality of the reception device to the encoding quality.
Media sharing adjustment method further comprising. The method of claim 6,
Fixing to the reception quality before raising the reception quality is
And adjusting the reception quality before raising the reception quality when the computing device lacks the computing resource for decoding the media source of the received reception quality. The method of claim 6,
Increasing the reception quality to the raised reception quality
Searching for a transcoder that provides the raised reception quality,
If there is a searched transcoder, connecting the cooperative participant in which the searched transcoder is disposed with the receiver based on networking resources of the receiver; and
If there is no searched transcoder, inserting a transcoder providing the uploaded reception quality into a cooperative participant device having spare resources based on the resources of the plurality of cooperative participant devices and connecting to the receiving device;
Media sharing adjustment method comprising a. The method of claim 9,
If there is the searched transcoder, the step of connecting the receiving device
Determining whether there is a networking resource for delivering a media source to the receiving device in the cooperative participation device in which the searched transcoder is arranged;
Connecting the searched transcoder and the receiving device if the networking resource is free; and
Moving the searched transcoder to a collaborative participant with sufficient computing resources and networking resources with the receiving device if the networking resource cannot be spared;
Media sharing adjustment method comprising a. 11. The method of claim 10,
Moving the searched transcoder
And if there is no cooperative participant with sufficient computing resources and networking resources with the receiving device, fixing to the receiving quality before raising the receiving quality of the receiving device. The method of claim 9,
If there is no searched transcoder, the step of connecting with the receiving device
Determining whether a cooperative participant supplying the media source has a resource for transcoding the encoding quality to the raised reception quality;
If there is a resource to be transcoded, inserting a transcoder into the cooperative participant supplying the media source and connecting it with the receiving device, and
If there is no resource to be transcoded, inserting a transcoder into a cooperative participant device having spare resources and connecting with the receiving device.
Media sharing adjustment method comprising a. The media sharing coordinator is a method of coordinating media sharing in a collaborative environment consisting of multiple collaborators.
Receiving a collaboration leave message from a leave device leaving the collaboration environment;
Determining whether a transcoder is arranged in the withdrawal device, and
If the transcoder is arranged, moving the transcoder to a cooperative participant having a free resource to move the transcoder.
Media sharing adjustment method comprising a. In claim 13,
Moving the transcoder
Searching for a cooperative participant having spare resources to accommodate the transcoder;
Moving the transcoder to a collaborative participant with the spare resource, if there is a collaborative participant with the spare resource, and
Moving the transcoder of the withdrawal device to a collaborative participation device having free resources by moving a transcoder disposed between the collaborative participation devices other than the withdrawal device if there is no cooperative participation device with the spare resource;
Media sharing adjustment method comprising a. In claim 13,
If there is no cooperative participant with the spare resources, changing the transcoder arrangement by raising the reception quality step by step until the reception quality for receiving the media source is fixed in the cooperative participation device except the withdrawal device;
Media sharing adjustment method further comprising. As a collaboration system that provides a collaborative environment,
A plurality of collaborative participation apparatuses for generating and supplying a media source for collaboration to the collaboration environment, receiving and playing a media source created for collaboration, and delivering the received media source to a neighboring device; and
Monitor the resources of the plurality of collaboration participation devices, select a device to perform transcoding among the plurality of collaboration participation devices based on the resources of the plurality of collaboration participation devices, and place a transcoder; Media sharing coordinator that increases the reception quality of the received media source until resources are insufficient, and determines the reception quality of the cooperative participant receiving the media source for each media source.
Collaboration system that includes. 17. The method of claim 16,
And the plurality of cooperative participant devices are transcoded based on the control of the media sharing control device to deliver a media source of lower quality than the received media source to a device lacking resources. 17. The method of claim 16,
The media sharing control device
Collaboration system that monitors network resources related to computing resources and bandwidth of each participating device. The method of claim 18,
The media sharing control device
A collaborative system for controlling a transcoder to be placed in a cooperative participation device or a transcoder placed in a cooperative participation device based on the monitored resource. 17. The method of claim 16,
The media sharing control device
The collaborative system of determining a reception quality by repeating the process of placing a transcoder in a collaboration participant to increase the reception quality until the resource of each of the collaboration participant devices is insufficient, and deliver a media source of the received reception quality. Claims [1] A media sharing controller for adjusting at least one media source generated in at least one of a plurality of cooperative participants to share the plurality of cooperative participants.
Resource monitoring unit for monitoring the resources of the plurality of collaboration participation device,
When any one of the plurality of cooperative participation apparatuses generates a media source by encoding with a certain quality encoding quality, the reception quality of the receiving device receiving the media source is gradually increased toward the encoding quality. A resource determination unit that determines whether the resource of the device can process the received reception quality,
A quality control unit for fixing or increasing the reception quality of the reception device based on a determination result of the resource determination unit; and
A transcoder arranging unit for arranging a transcoder for transmitting a media source of a reception quality determined by the quality control unit to the receiving device based on the resources of the plurality of cooperative participation devices;
Media sharing control device comprising a. 22. The method of claim 21,
The resource monitoring unit is a media sharing control device for monitoring the networking resources between the computing resources and each of the collaboration participating devices. 22. The method of claim 21,
The quality control unit
And raising the reception quality if the reception quality can be processed as a spare resource of the reception device, and fixing the reception quality if there is insufficient resource for processing the received reception quality. 22. The method of claim 21,
The transcoder placement unit
A media sharing coordinator for placing a transcoder on at least one collaborator, transcoding at a lower quality than the quality of the received media source. 22. The method of claim 21,
The transcoder placement unit
Place the transcoder on at least one collaborative device or transcoder placed on one collaborative device to another based on the network resources related to the computing resources and bandwidth required to process the media source on each collaborative device. Moving media sharing controls.

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