KR20200099294A - System and Method for Low Latency Event Delivery through Network - Google Patents

Abstract

The present invention relates to a low-latency event delivery method through a network. According to the present invention, the low-latency event delivery method through a network comprises the processes of: classifying input packets into event packets and data packets; queuing the classified event packets to a high priority event delivery queue and the classified data packets to a low priority data delivery queue; and transmitting and processing the event packets and data packets according to the queued priority.

Description

Low Latency Event Delivery through Network {System and Method for Low Latency Event Delivery through Network}

The present invention relates to an event delivery method and system for providing low latency event delivery through a network. Specifically, in order to deliver low-latency events, especially when delivering and processing event delivery packets and information delivery packets at the same time in a hyperconnected information network, the event delivery packet is queued to a queue with a high priority to ensure low latency. It relates to an event delivery method and system that enables delivery processing.

Recently, various new services such as IOT service, telemedicine service, high-quality video service, AR/VR through hyper-connected information network are emerging, and each of these services has different service requirements (e.g., For example, it has bandwidth guarantee, low latency guarantee).

In connection, the hyper-connection information network includes, for example, an information centric network (ICN), and as the information centric network, a recent content centric network (CCN) and a named data network (NDN) : Named Data Network), various types of network methods are being developed. Hereinafter, for convenience of description, in the present invention, an information-centric network (ICN) is used as an example as a hyper-connection information network, but the present invention is not limited thereto.

In relation to this, the information-oriented network (ICN) has a stronger requirement of delivering events occurring in real time to places where the events are processed or delivered in event-oriented services (real-time IOT services, etc.). Will be required.

However, in the case of configuring a hyperconnected network using the existing information-oriented network (ICN) technology, information-oriented network traffic in which event delivery traffic and general information delivery traffic are mixed is processed. In this case, since delivery processing in the best-effort delivery method is generally provided, it is impossible to provide low-latency delivery processing for event delivery traffic. Here, the best-effort delivery refers to the best effort provided by the network, although data delivery is not guaranteed (quarantee) or service quality is not guaranteed (quarantee). It refers to a way to implement data delivery through.

Accordingly, in an information centric network (ICN) system in which an event delivery packet and an information delivery packet are simultaneously delivered and processed, there is a need for a method of ensuring that event delivery packets are delivered with low latency.

Accordingly, an object of the present invention is to provide an event delivery method and system in which, in order to solve the problems of the prior art described above, in data transmission through a network, in particular, event delivery packets are guaranteed to be delivered through a high priority. .

In particular, the present invention solves the above-described problems of the prior art, and in an information-centric network (ICN) system in which an event delivery packet and an information delivery packet are simultaneously delivered and processed, an event delivery method for ensuring that event delivery packets are delivered and processed with low latency. And a system.

Other objects and advantages of the present invention can be understood by the following description, and will be more clearly understood by examples of the present invention. In addition, it will be easily understood that the objects and advantages of the present invention can be realized by the means shown in the claims and combinations thereof.

In order to achieve the above object, the method of delivering a low-delay event through a network of the present invention is a process of classifying an input packet into an event packet and a data packet, and the classified event packet is placed in a high-priority event delivery queue, The data packet includes a process of queuing each of a data delivery queue having a lower priority, and a process of delivering an event packet and a data packet according to the queued priority.

In addition, in order to achieve the above object, the low-latency event delivery system module through the network of the present invention includes a packet classification unit 121 for classifying an input packet into an event packet and a data packet, and a high priority for the classified event packet. An event delivery queue 1221 for queuing in priority, a data delivery queue 1222 for queuing the classified data packets with a low priority, and event packets according to the queued priority. And a transfer unit 123 for transferring and processing data packets.

According to an embodiment of the present invention, when an event delivery packet and an information delivery packet are simultaneously transmitted and processed in an information-centric network by solving the above-described problems of the prior art, the event delivery packet and the information delivery packet are used for low-latency event delivery. It identifies and processes, but ensures that event delivery packets are queued to queues with high priority to ensure low-latency delivery, and information delivery packets are queued to queues with low priority to provide a method for best-effort processing. do.

1 is a simplified example of an internal configuration of a general computer system or network node to which the present invention is applicable.
2 is an example of an event delivery system module according to an embodiment of the present invention.
3 is a flowchart illustrating an event delivery method according to an embodiment of the present invention.
4 to 6 illustrate detailed operations of an event delivery system module according to an embodiment of the present invention as an example.
7 to 8 illustrate detailed flowcharts of an event delivery method according to an exemplary embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art may easily implement the present invention. However, the present invention may be implemented in various different forms, and is not limited to the embodiments described herein.

In describing an embodiment of the present invention, if it is determined that a detailed description of a known configuration or function may obscure the subject matter of the present invention, a detailed description thereof will be omitted. In the drawings, parts not related to the description of the present invention are omitted, and similar reference numerals are attached to similar parts.

In the present invention, components that are distinguished from each other are intended to clearly describe each characteristic, and do not necessarily mean that the components are separated. That is, a plurality of components may be integrated to be formed in one hardware or software unit, or one component may be distributed in a plurality of hardware or software units. Therefore, even if not stated otherwise, such integrated or distributed embodiments are also included in the scope of the present invention.

In the present invention, the components described in various embodiments do not necessarily mean essential components, and some may be optional components. Accordingly, an embodiment comprising a subset of components described in the embodiment is also included in the scope of the present invention. In addition, embodiments including other components in addition to the components described in the various embodiments are included in the scope of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a schematic diagram of an example of an internal configuration of a general computer system or network node to which the event delivery system of the present invention is applicable. Referring to FIG. 1, a computer system or network node to which the event delivery system according to the present invention is applicable includes an event delivery system module 120 and a processor 110 as a central processing unit.

2 is an example of a detailed configuration of the event delivery system module 120 according to an embodiment of the present invention.

That is, the event delivery system module 120 includes a packet classification unit 121 for classifying an input packet into an event delivery packet and a data delivery packet, and a delivery queue 122 for processing the classified packets. . The delivery queue 122 may be divided into an event delivery queue 1221 and a data delivery queue 1222. In addition, the event delivery system module 120 of the present invention includes a delivery unit 123 that performs delivery processing according to the priority of the queue 122.

3 is a flowchart illustrating an event delivery method in the event delivery system module 120 according to an embodiment of the present invention. The event delivery method of the present invention includes a process 310 of classifying an input packet into an event packet and a data packet by the packet classifier 121 of the event delivery system module 120. In addition, the event delivery method of the present invention utilizes the delivery queue 122 to queue event packets to the event delivery queue 1221 with a higher priority, and queue data packets to the data delivery queue 1222 with a lower priority ( queuing) process 320. In addition, the event delivery method according to the present invention includes a process 330 of delivering and processing event packets and data packets according to the queued priority by the delivery unit 123.

In connection, a process 310 of classifying the input packet into an event packet and a data packet will be described in detail.

In the present invention, input information-oriented network packets may be classified into an event delivery packet and a general information delivery packet according to a property of corresponding packet data. In the present invention, the method of classifying the information-oriented network packet according to the packet data attribute is, when analyzing the TLV (Type Length Value) value of the input information-oriented network packet, the TLV type is the field corresponding to the name. When a routerable name has a specific identifier value indicating event delivery traffic, the corresponding packet may be classified as an event delivery packet.

In addition, the method of classifying the information-oriented network packet according to the attribute of the packet data in the present invention is, when analyzing the TLV value of the input information-oriented network packet, the TLV type is assigned to a specific prefix value in the name. If it has a specific identifier value indicating event delivery traffic, the packet may be classified as an event delivery packet.

In addition, the method of classifying the information-oriented network packet according to the attribute of the packet data in the present invention is, when analyzing the TLV value of the input information-oriented network packet, the event delivery TLV type representing the event delivery traffic exists among the TLV types. In this case, the packet may be classified as an event delivery packet.

In the method of classifying the information-oriented network packet according to the attribute of the packet data in the present invention, all remaining packets that are not classified as an event delivery packet may be classified as a general information delivery packet.

The information-oriented network packets input in the present invention can be classified into event delivery traffic belonging to a high priority requiring low-delay delivery guarantee and general delivery data traffic belonging to a low priority that does not require low-delay delivery guarantee.

In the present invention, for the information-oriented network event delivery packet corresponding to a high priority, in order to ensure low-latency delivery processing, the information-oriented network event delivery traffic is assigned to a dedicated event delivery queue 1221 for dedicated processing, The queue 1221 may be processed by an event delivery function that is dedicated to processing. Through this, the event delivery function provides low-latency delivery processing for the information-oriented network event delivery packet.

Hereinafter, the processes 320 and 330 of prioritizing the event packets classified by the packet classifying unit 121 will be described in detail with reference to FIGS. 4 to 6. 4 to 6 illustrate detailed operations of the event delivery system module according to an embodiment of the present invention as an example.

Specifically, the event delivery function of the present invention according to FIG. 4 processes packets queued in the event delivery queue 1221 on a packet-by-packet basis when low-latency delivery of a corresponding information-oriented network event delivery packet is performed (Packet by Packet Processing) to process the event delivery packet with low latency. That is, an event delivery unit 1231 and an information delivery unit 1232 are provided, respectively, wherein the event delivery unit 1231 prioritizes and delivers the event packets queued in the event delivery queue 1221, and transfers the information. The unit 1232 processes and transfers the data packets queued in the data delivery queue 1222 by processing Best-Effort delivery.

In addition, the event delivery function of the present invention according to FIG. 5 processes a plurality of packets at once in units of packets queued in the event delivery queue 1221 when low-latency processing for the corresponding information-oriented network event delivery packet (122a). : Burst Packet Processing), the event delivery packet can be processed with low latency. That is, the event delivery unit 1231 of FIG. 5 bundles the event packets queued in the event delivery queue 1221 and prioritizes and delivers them as a burst packet, and the information delivery unit 1232 of FIG. 5 Data packets queued in the data delivery queue 1222 are processed and delivered by Best-Effort delivery.

Specifically, in the event delivery function according to the embodiment of FIGS. 4 and 5, for an information-oriented network information delivery packet corresponding to a low priority, a dedicated data delivery queue 1222 that exclusively processes the information delivery traffic By allocating, the dedicated queue can be processed by an information transfer function that is dedicated to processing. This information delivery function provides best-effort delivery processing for the information-oriented network information delivery packet.

In addition, according to the embodiment of the present invention of FIGS. 4 and 5, when allocating information-oriented network event delivery packets corresponding to high priority to the event delivery queues 1221, for example, publishing Event packets may be allocated to the highest priority event delivery traffic queue, and Subscribe event packets may be allocated to the next priority event delivery traffic queue.

In addition, according to the embodiment of the present invention of Figs. 4 and 5, the information-oriented network event delivery function is the most of all event delivery packets in the highest priority event packet queue in which publish event packets are queued. After processing first, the packets in the next priority event packet queue in which the Subscribe event packets are queued are processed, thereby providing low-latency processing for the corresponding information-oriented network event delivery packet.

The event delivery function of the present invention according to FIG. 6 provides another embodiment. That is, the event delivery function and the corresponding information delivery function are integrated into one, so that one integrated delivery function provides low-latency processing for information-oriented network event delivery packets corresponding to a high priority, and For information-oriented network information delivery packets, best-effort delivery processing is provided. Accordingly, the embodiment of FIG. 6 includes an event/information delivery unit 1233 in which an event and information delivery function are integrated.

In addition, in the event delivery function of the present invention shown in FIG. 6, when the event delivery function and the information delivery function are integrated into one, the event delivery function is used to perform low-latency processing of the information-oriented network event delivery packet. Packets queued in the delivery queue 1221 may be processed in packet units, so that a corresponding event delivery packet may be processed with low latency.

In addition, in the event delivery function of the present invention according to FIG. 6, when the event delivery function and the information delivery function are integrated into one, the event delivery function is when the information-oriented network event delivery packet is processed with low latency. A plurality of packets queued in the queue 1221 may be processed at once as a unit (Burst Packet Processing) to perform low-latency processing of the corresponding event delivery packet.

In addition, the event delivery function of the present invention according to FIG. 6 is, when allocating information-oriented network event delivery packets corresponding to a high priority to the event delivery traffic queues, publish event packets to the event delivery traffic of the highest priority. Assign to a queue, and Subscribe event packets can be assigned to the next higher priority event delivery traffic queue.

In addition, in the event delivery function of the present invention according to FIG. 6, the information-oriented network event delivery function first processes all event delivery packets in the highest priority event packet queue in which publish event packets are queued. , By processing the packets of the event packet queue of the next priority in which the subscribe event packets are queued, it is possible to provide low-latency processing for a corresponding information-oriented network event delivery packet.

In addition, the present invention event delivery function of Figure 6, when allocating the information-oriented network event delivery packets corresponding to the high priority to the event delivery traffic queues, publishing (Publish) event packets of the highest priority event delivery traffic Assign to a queue, and subscribe event packets can be assigned to the next priority event delivery traffic queue.

In addition, in the event delivery function of the present invention according to FIG. 6, the information-oriented network event delivery function first processes all event delivery packets in the high priority event packet queue in which publish event packets are queued, Low-priority event packet queued packets and information delivery packets in which Subscribe event packets are queued are processed for Best-Effort delivery, so that the information-oriented network event delivery packet is processed with low latency. Can provide.

7 is an example of a detailed flowchart of an event delivery method according to an embodiment of the present invention. This will be described in detail together with the event delivery system module 120 of FIG. 2.

First, the packet classification unit 121 in the event delivery system module 120 of the present invention receives an input network packet (710). For example, it is assumed that the network packet follows the packet construction standard specification of the information-oriented network ICN.

Thereafter, the packet classifier 121 parses the received packet 720 according to the property of the information-oriented network packet, and classifies it into an event delivery packet and an information delivery packet (or data delivery packet).

For example, the packet classifier 121 analyzes the TLV (Type Length Value) value of the input information-oriented network packet, and calculates the Routable Name in a field corresponding to the TLV type name. In the case of having a specific identifier value indicating event delivery traffic (eg, “Event Type”), the corresponding packet may be classified as an event delivery packet (731).

In addition, for example, the packet classifier 121 analyzes the TLV value of the input information-oriented network packet, and a specific identifier value representing the event delivery traffic in the specific name prefix value of the TLV type (e.g. , “Event Type”), the corresponding packet may be classified as an event delivery packet (733).

In addition, for example, the packet classifier 121 analyzes the TLV value of the input information-oriented network packet, and there is an event delivery TLV type indicating event delivery traffic among the TLV type values. , The packet may be classified as an event delivery packet (735).

Thereafter, the packet classifying unit 121 determines an event delivery packet through at least one of processes 731, 733, and 735 described above (751), and packets classified as the event delivery packets are of high priority. It queues to the event delivery queue 1221. Here, when allocating the event delivery packets to the event delivery traffic queues, the packet classifier 121 checks whether the event delivery packet is a publish event packet (753), and a publish event packet Event packets identified as are assigned to the highest priority event delivery queue and forwarded (757), and non-Publish event packets (e.g., Subscribe event packets) have the next priority. Event packets may be delivered by assigning them to the event delivery queue (755). For example, according to the present invention, in the event delivery, the packet queued in the event delivery queues 1221 of the highest priority is first processed in a packet unit or a plurality of packet units, and then the next higher priority Packets queued in the event delivery packet queues 1221 of may be processed for low-latency delivery in a packet unit or a plurality of packet units with a next priority.

In addition, if the packet classification unit 121 determines that the packet received through the above-described processes 731, 733, and 735 is not an event delivery packet, it determines as a general information delivery packet (741), and the information delivery packet Queues to low priority data transfer queues 1222. Information delivery packets queued in the data delivery queues 1222 may be processed in a Best-Effort delivery method (743).

Thereafter, packets for which the packet transfer process has been completed through the processes 743, 755, and 757 are output to the next destination on the network (760).

8 is an example of a detailed flowchart of an event delivery method according to another embodiment of the present invention. The event delivery method of the present invention according to the embodiment of FIG. 8 is different from that of the above-described embodiment of FIG. 7 in that data packets are integrated and processed. This is related to the embodiment described in FIG. 6 described above.

First, the packet classification unit 121 in the event delivery system module 120 of the present invention receives an input network packet (810). For example, it is assumed that the network packet follows the packet construction standard specification of the information-oriented network ICN.

Thereafter, the packet classifier 121 parses the received packet according to the attribute of the information-oriented network packet (820) and classifies it into an event delivery packet and an information delivery packet (or data delivery packet).

For example, the packet classifier 121 analyzes the TLV (Type Length Value) value of the input information-oriented network packet, and calculates the Routable Name in a field corresponding to the TLV type name. In the case of having a specific identifier value indicating event delivery traffic (eg, “Event Type”), the packet may be classified as an event delivery packet (831).

In addition, for example, the packet classifier 121 analyzes the TLV value of the input information-oriented network packet, and a specific identifier value representing the event delivery traffic (e.g., a specific name prefix value of the TLV type) , “Event Type”), the corresponding packet may be classified as an event delivery packet (833).

In addition, for example, the packet classifier 121 analyzes the TLV value of the input information-oriented network packet, and there is an event delivery TLV type indicating event delivery traffic among the TLV type values. , The packet may be classified as an event delivery packet (835).

Thereafter, the packet classifying unit 121 determines an event delivery packet through processes 831, 833, and 835 described above (851), and packets classified as the event delivery packets have a high priority event delivery queue ( 1221). Here, when allocating the event delivery packets to the event delivery traffic queues, the packet classifier 121 checks whether the event delivery packet is a publish event packet (853), and a publish event packet Event packets identified as are assigned to the highest priority event delivery queue and forwarded (865), and non-Publish event packets (e.g., Subscribe event packets) have the next priority. Event packets can be delivered by assigning them to the event delivery queue (863). In addition, the packet classifier 121 determines that the received packet is not an event delivery packet through processes 831, 833, and 835 described above, and determines it as a general information delivery packet (841), and transfers the information. Packets are queued to low priority data transfer queues 1222. Information delivery packets queued in the data delivery queues 1222 are processed in a Best-Effort delivery method (861).

Here, as the packet processing process, the 861 process, 863 process, and 865 process are integrated (860), and the highest queued in the event delivery queues 1221 through the event/information delivery unit 1223 of FIG. The priority event delivery packets and the next higher priority event delivery packets are processed for low-latency delivery, and the packets queued in the data delivery queues 1222 can be delivered by integrating Best-Effort delivery. have.

Various embodiments of the present disclosure are not listed in all possible combinations, but are intended to describe representative aspects of the present disclosure, and matters described in the various embodiments may be applied independently or may be applied in combination of two or more.

In addition, various embodiments of the present disclosure may be implemented by hardware, firmware, software, or a combination thereof. For implementation by hardware, one or more ASICs (Application Specific Integrated Circuits), DSPs (Digital Signal Processors), DSPDs (Digital Signal Processing Devices), PLDs (Programmable Logic Devices), FPGAs (Field Programmable Gate Arrays), general purpose It may be implemented by a processor (general processor), a controller, a microcontroller, a microprocessor, or the like.

The scope of the present disclosure is software or machine-executable instructions (e.g., operating systems, applications, firmware, programs, etc.) that allow an operation according to a method of various embodiments to be executed on a device or a computer, and such software or It includes a non-transitory computer-readable medium (non-transitory computer-readable medium) which stores instructions and the like and is executable on a device or a computer.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention to those of ordinary skill in the art, so the scope of the present invention is described above. It is not limited by one embodiment and the accompanying drawings.

120: event delivery system module
121: packet classification unit
1221: Event delivery queue
1222: Data delivery queue
1231: Event delivery unit
1232: Information transmission unit
1233: Event/information delivery unit

Claims (1)

The process of classifying input packets into event packets and data packets,
A process of queuing the classified event packets to an event delivery queue having a high priority, and queuing the classified data packets to a data delivery queue having a low priority, and
A method of delivering a low-latency event through a network, comprising the process of delivering and processing event packets and data packets according to the queued priority.

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