Embodiments herein disclose formats for mcdata messages and notifications, and methods for coding (encoding and decoding) mcdata messages and notifications in a mcdata communication system. The method includes generating, by a first UE, an encoded mcdata message or notification comprising of signaling payload and data payload content related to one or more mcdata user payloads. Further the method includes deriving, by a second UE, the actual mcdata messages or notifications by decoding the received encoded mcdata messages or notifications. The formats for mcdata messages and mcdata notifications optimize control headers and allow maximum user data size that can be carried in a single message over signalling, which aids in sending multiple user payloads in a single message.
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1. A method for transmitting a mission critical data (mcdata) message by a user equipment (UE) in a communication system, comprising:
generating an mcdata message including signalling content related to an mcdata payload; and
transmitting the mcdata message to one or more UEs,
wherein the signalling content includes a signalling payload message identity information element to identify a type of the mcdata message, a date and time information element, a conversation identifier (id) information element to identify a conversation, and a message id information element to identify the mcdata a message within the conversation,
wherein the signalling payload message identity information is information with element has a length of 1 octet, the date and time information is information with element has a length of 5 octets, the conversation id information is information with element has a length of 16 octets, and the message id information is information with element has a length of 16 octets, and
wherein each of the signalling payload message identity information element, the date and time information element, the conversation id information element, and the message id information has element is associated with a type-length-value (TLV) format including related to a value part without a type part and a length part only.
5. A user equipment (UE) in a communication system, comprising:
a transceiver; and
at least one processor configured to:
generate a mission critical data (mcdata) message including signalling content related to an mcdata payload, and
control the transceiver to transmit the mcdata message to one or more UEs,
wherein the signalling content includes a signalling payload message identity information element to identify a type of the mcdata message, a date and time information element, a conversation identifier (id) information element to identify a conversation, and a message id information element to identify the mcdata a message within the conversation,
wherein the signalling payload message identity information is information with element has a length of 1 octet, the date and time information is information with element has a length of 5 octets, the conversation id information is information with element has a length of 16 octets, and the message id information is information with element has a length of 16 octets, and
wherein each of the signalling payload message identity information element, the date and time information element, the conversation id information element, and the message id information has element is associated with a type-length-value (TLV) format including related to a value part without a type part and a length part only.
0. 13. A method for sending a mission critical data (mcdata) message by a user equipment (UE) in a communication system, the method comprising:
identifying at least one of a short message data service (sds) for sharing data with one or more UEs or a file distribution (fd) service for sharing a file with the one or more UEs for an mcdata service;
setting a first message type information element to identify a message type as an sds signaling payload message in a first field of the mcdata message in case that the mcdata service is the sds, and setting a second message type information element to identify a message type as an fd signaling payload message in the first field of the mcdata message in case that the mcdata service is the fd service, wherein the message type information element and the second message type information element are associated with a first format with a length of 1 octet;
setting a first date and time information element to indicate a time associated with a transmission of a message in a second field of the mcdata message in case that the mcdata service is the sds, and setting a second date and time information element to indicate a time associated with a transmission of a file in the second field of the mcdata message in case that the mcdata service is the fd service, wherein the first date and time information element and the second date and time information element are associated with the first format with a length of 5 octet:
setting a conversation identifier (id) information element to identify a conversation in a third field of the mcdata message, wherein the conversation id information element is associated with the first format with a length of 16 octet;
setting a message id information element to identify a message within the conversation in a fourth field of the mcdata message, wherein the message id information element is associated with the first format with a length of 16 octet; and
sending, to the one or more UEs, the mcdata message including the first field, the second field, the third field, and the fourth field,
wherein the first format is a type-length-value (TLV) format related to a value only.
0. 18. A user equipment (UE) in a communication system, the UE comprising:
a transceiver; and
at least one processor configured to:
identify at least one of a short message data service (sds) for sharing data with one or more UEs or a file distribution (fd) service for sharing a file with the one or more UEs for a mission critical data (mcdata) service,
set a first message type information element to identify a message type as an sds signaling payload message in a first field of the mcdata message in case that the mcdata service is the sds, and set a second message type information element to identify a message type as an fd signaling payload message in the first field of the mcdata message in case that the mcdata service is the fd service, wherein the first message type information element and the second message type information element are associated with a first format with a length of 1 octet,
set a first date and time information element to indicate a time associated with a transmission of a message in a second field of the mcdata message in case that the mcdata service is the sds, and set a second date and time information element to indicate a time associated with a transmission of a file in the second field of the mcdata message in case that the mcdata service is the fd service, wherein the first date and time information element and the second date and time information element are associated with the first format with a length of 5 octet,
set a conversation identifier (id) information element to identify a conversation in a third field of the mcdata message, wherein the conversation id information element is associated with the first format with a length of 16 octet,
set a message id information element to identify a message within the conversation in a fourth field of the mcdata message, wherein the message id information element is associated with the first format with a length of 16 octet, and
control the transceiver to send, to the one or more UEs, the mcdata message including the first field, the second field, the third field, and the fourth field,
wherein the first format is a type-length-value (TLV) format related to a value only.
2. The method
an In-Reply-to message id information used element to associate the mcdata message within the conversation that is a reply to an existing mcdata message in the conversation,
an application id information element to identify an application for which the sds data payload is intended, and
an sds disposition request type information element to identify a type of an sds disposition notification requested.
3. The method
an In-Reply-to message id information used element to associate the mcdata message within the conversation that is a reply to an existing mcdata message in the conversation,
an application id information element to identify an application for which the fd data payload is intended,
an fd disposition request type information element to indicate identify a type of an fd disposition notification requested,
a mandatory download information element to indicate inform that it is mandatory to download a file,
a payload information element containing a URL pointing to the file payload intended for a recipient user or application, and
a metadata information element containing data used to describe the file.
4. A method for transmitting a mission critical data (mcdata) message by a user equipment (UE) in a communication system, the method comprising:
generating an mcdata message including signalling content related to an mcdata payload; and
transmitting the mcdata message to one or more UEs,
wherein the signalling content includes signalling payload message identity information to identify a type of the mcdata message, date and time information, conversation identifier (id) information to identify a conversation, and message id information to identify the mcdata message,
wherein the mcdata payload is a file distribution (fd) data payload, the mcdata message is an fd signalling payload message, and the signalling content further includes at least one of:
In-Reply-to message id information used to associate the mcdata message within the conversation that is a reply to an existing mcdata message in the conversation,
application id information to identify an application for which the fd data payload is intended,
fd disposition request type information to indicate a type of an fd disposition notification requested,
mandatory download information to indicate that it is mandatory to download a file,
payload information containing a URL pointing to the file, and
metadata information containing data used to describe the file,The method of claim 3,
wherein the fd disposition request type information is information with element has a length of 1 octet, the application id information is information with element has a length of 2 octets, the In-Reply-to message id information is information with element has a length of 17 octets, the mandatory download information is information with element has a length of 1 octet,
wherein each of the In-Reply-to message id information element, the application id information element, the fd disposition request type information element, and the mandatory download information has element is associated with a (TLV) format including related to a type part and a value part without a length part, and
wherein each of the metadata information element and the payload information has a element is associated with the TLV format including the related to a type part, the a length part, and the a value part.
6. The UE
an In-Reply-to message id information used element to associate the mcdata message within the conversation that is a reply to an existing mcdata message in the conversation,
an application id information element to identify an application for which the sds data payload is intended, and
an sds disposition request type information element to identify a type of an sds disposition notification requested.
7. The UE
an In-Reply-to message id information used element to associate the mcdata message within the conversation that is a reply to an existing mcdata message in the conversation,
an application id information element to identify an application for which the fd data payload is intended,
an fd disposition request type information element to indicate identify a type of an fd disposition notification requested,
a mandatory download information element to indicate inform that it is mandatory to download a file,
a payload information element containing a URL pointing to the file payload intended for a recipient user or application, and
a metadata information element containing data used to describe the file.
8. A user equipment (UE) in a communication system, comprising:
a transceiver; and
at least one processor configured to:
generate a mission critical data (mcdata) message including signalling content related to an mcdata payload, and
control the transceiver to transmit the mcdata message to one or more UEs,
wherein the signalling content includes signalling payload message identity information to identify a type of the mcdata message, date and time information, conversation identifier (id) information to identify a conversation, and message id information to identify the mcdata message,
wherein the mcdata payload is a file distribution (fd) data payload, the mcdata message is an fd signalling payload message for providing signalling content related to an fd data payload, and the signalling content further includes at least one of:
In-Reply-to message id information used to associate the mcdata message within the conversation that is a reply to an existing mcdata message in the conversation,
application id information to identify an application for which the fd data payload is intended,
fd disposition request type information to indicate a type of an fd disposition notification requested,
mandatory download information to indicate that it is mandatory to download a file,
payload information containing a URL pointing to the file, and
metadata information containing data used to describe the file, The UE of claim 5,
wherein the fd disposition request type information is information with element has a length of 1 octet, the application id information is information with element has a length of 2 octets, the In-Reply-to message id information is information with element has a length of 17 octets, and the mandatory download information is information with element has a length of 1 octet,
wherein each of the In-Reply-to message id information element, the application id information element, the fd disposition request type information element, and the mandatory download information has element is associated with a (TLV) format including related to a type part and a value part without a length part, and
wherein each of the metadata information element and the payload information has a element is associated with the TLV format including the a type part, the a length part, and the a value part.
0. 9. A user equipment (UE) in a communication system, comprising:
a transceiver; and
at least one processor configured to:
generate a mission critical data (mcdata) message including signalling content related to an mcdata payload, and
control the transceiver to transmit the mcdata message to one or more UEs,
wherein the signalling content includes signalling payload message identity information to identify a type of the mcdata message, date and time information, conversation identifier (id) information to identify a conversation, and message id information to identify the mcdata message,
wherein the mcdata payload is a short data service (sds) data payload, the mcdata message is an sds signalling payload message for providing signalling content related to an sds data payload, and the signaling content further includes at least one of:
In-Reply-to message id information used to associate the mcdata message within the conversation that is a reply to an existing mcdata message in the conversation,
application id information to identify an application for which the sds data payload is intended, and
sds disposition request type information to identify a type of an sds disposition notification requested,
wherein the In-Reply-to message id information is information with a length of 17 octets, the application id information is information with a length of 2 octets, and the sds disposition request type information is information with a length of 1 octet, and
wherein each of the In-Reply-to message id information, the application id information, and the sds disposition request type information has a format including a type part and a value part without a length part.
0. 10. The UE of
wherein the data payload message includes data payload message identity information to identify a type of the data payload message, number of payloads information to identify a number of payloads included in the data payload message, and payload information including payload data.
0. 11. A method for transmitting a mission critical data (mcdata) message by a user equipment (UE) in a communication system, the method comprising:
generating an mcdata message including signalling content related to an mcdata payload; and
transmitting the mcdata message to one or more UEs,
wherein the signalling content includes signalling payload message identity information to identify a type of the mcdata message, date and time information, conversation identifier (id) information to identify a conversation, and message id information to identify the mcdata message,
wherein the mcdata payload is a short data service (sds) data payload, the mcdata message is an sds signalling payload message, and the signalling content further includes at least one of:
In-Reply-to message id information used to associate the mcdata message within the conversation that is a reply to an existing mcdata message in the conversation,
application id information to identity an application for which the sds data payload is intended, and
sds disposition request type information to identify a type of an sds disposition notification requested,
wherein the In-Reply-to message id information is information with a length of 17 octets, the application id information is information with a length of 2 octets, and the sds disposition request type information is information with a length of 1 octet, and
wherein each of the In-Reply-to message id information, the application id information and the sds disposition request type information has a type-length-value (TLV) format including a type part and a value part without a length part.
0. 12. The method of
wherein the data payload message includes data payload message identity information to identify a type of the data payload message, number of payloads information to identify a number of payloads included in the data payload message, and payload information including payload data.
0. 14. The method of claim 13, further comprising:
in case that the mcdata service is the sds, setting at least one of an In-Reply-to message id information element, an application id information element, or an sds disposition request type information element,
wherein the In-Reply-to message id information element is set in a fifth field of the mcdata message, the In-Reply-to message id information element is used to associate a message within the conversation that is a reply to an existing message in the conversation, and the In-Reply-to message id information element is associated with a second format with a length of 17 octet,
wherein the application id information element is set in a sixth field of the mcdata message, the application id information element is used to identify an application for which a payload is intended, and the application id information element is associated with the second format with a length of 2 octet,
wherein the sds disposition request type information element is set in a seventh field of the mcdata message, the sds disposition request type information element is used to identify a type of an sds disposition notification that a sender requires from a receiver, and the sds disposition request type information element is associated with the second format with a length of 1 octet, and
wherein the sent mcdata message further includes at least one of the fifth field, the sixth field, or the seventh field.
0. 15. The method of claim 14, wherein the second format is a TLV format related to a type and a value.
0. 16. The method of claim 13, further comprising:
in case that the mcdata service is the fd service, setting at least one of an In-Reply-to message id information element, an application id information element, an fd disposition request type information element, a mandatory download information element, a payload information element, or a metadata information element,
wherein the In-Reply-to message id information element is set in a fifth field of the mcdata message, the In-Reply-to message id information element is used to associate a message within the conversation that is a reply to an existing message in the conversation, and the In-Reply-to message id information element is associated with a second format with a length of 17 octet,
wherein the application id information element is set in a sixth field of the mcdata message, the application id information element is used to identify an application for which a payload is intended, and the application id information element is associated with the second format with a length of 2 octet,
wherein the fd disposition request type information element is set in a seventh field of the mcdata message, the fd disposition request type information element is used to identify a type of an fd disposition notification that a sender requires from a receiver, and the fd disposition request type information element has the second format with a length of 1 octet,
wherein the mandatory download information element is set in an eighth field of the mcdata message, the mandatory download information element is for an originating client to inform an terminating client that the file must be downloaded immediately, and the mandatory download information element is associated with the second format with a length of 1 octet,
wherein the payload information element is set in a ninth field of the mcdata message, the payload information element contains a payload intended for a recipient user or application, and the payload information element is associated with a third format,
wherein the metadata information element is set in a tenth field of the mcdata message, the metadata information element is used to describe the file, and the metadata information element is associated with the third format, and
wherein the sent mcdata message further includes at least one of the fifth field, the sixth field, the seventh field, the eighth field, the ninth field, or the tenth field.
0. 17. The method of claim 16, wherein the second format is a TLV format related to a type, and the third format is a TLV format related to the type, the value, and a length.
0. 19. The UE of claim 18, wherein the at least one processor is further configured to:
in case that the mcdata service is the sds, set at least one of an In-Reply-to message id information element, an application id information element, or an sds disposition request type information element,
wherein the In-Reply-to message id information element is set in a fifth field of the mcdata message, the In-Reply-to message id information element is used to associate a message within the conversation that is a reply to an existing message in the conversation, and the In-Reply-to message id information element is associated with a second format with a length of 17 octet,
wherein the application id information element is set in a sixth field of the mcdata message, the application id information element is used to identify an application for which a payload is intended, and the application id information element is associated with the second format with a length of 2 octet,
wherein the sds disposition request type information element is set in a seventh field of the mcdata message, the sds disposition request type information element is used to identify a type of an sds disposition notification that a sender requires from a receiver, and the sds disposition request type information element is associated with the second format with a length of 1 octet, and
wherein the sent mcdata message further includes at least one of the fifth field, the sixth field, or the seventh field.
0. 20. The UE of claim 19, wherein the second format is a TLV format related to a type and a value.
0. 21. The UE of claim 18, wherein the at least one processor is further configured to:
in case that the mcdata service is the fd service, set at least one of an In-Reply-to message id information element, an application id information element, an fd disposition request type information element, a mandatory download information element, a payload information element, or a metadata information element,
wherein the In-Reply-to message id information element is set in a fifth field of the mcdata message, the In-Reply-to message id information element is used to associate a message within the conversation that is a reply to an existing message in the conversation, and the In-Reply-to message id information element is associated with a second format with a length of 17 octet,
wherein the application id information element is set in a sixth field of the mcdata message, the application id information element is used to identify an application for which a payload is intended, and the application id information element is associated with the second format with a length of 2 octet,
wherein the fd disposition request type information element is set in a seventh field of the mcdata message, the fd disposition request type information element is used to identify a type of an fd disposition notification that a sender requires from a receiver, and the fd disposition request type information element is associated with the second format with a length of 1 octet,
wherein the mandatory download information element is set in an eighth field of the mcdata message, the mandatory download information element is for an originating client to inform an terminating client that the file must be downloaded immediately, and the mandatory download information element is associated with the second format with a length of 1 octet,
wherein the payload information element is set in a ninth field of the mcdata message, the payload information element contains a payload intended for a recipient user or application, and the payload information element is associated with a third format,
wherein the metadata information element is set in a tenth field of the mcdata message, the metadata information element is used to describe the file, and the metadata information element is associated with the third format, and
wherein the sent mcdata message further includes at least one of the fifth field, the sixth field, the seventh field, the eighth field, the ninth field, or the tenth field.
0. 22. The UE of claim 21, wherein the second format is a TLV format related to a type and a value, and the third format is a TLV format related to a type, a value, and a length.
0. 23. The method claim 2, wherein the In-Reply-to message id information element has a length of 17 octets, the application id information element has a length of 2 octets, and the sds disposition request type information element has a length of 1 octet, and
wherein each of the In-Reply-to message id information element, the application id information element, and the sds disposition request type information element is associated with a TLV format related to a type and a value.
0. 24. The UE claim 5, wherein the In-Reply-to message id information element has a length of 17 octets, the application id information element has a length of 2 octets, and the sds disposition request type information element has a length of 1 octet, and
wherein each of the In-Reply-to message id information element, the application id information element, and the sds disposition request type information element is associated with a TLV format related to a value only.
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This application is a National Phase Entry of PCT International Application No. PCT/KR2017/011073, which was filed on Sep. 29, 2017 and claims priority to Indian Patent Application No. 201641033941 (CS), which was filed in the Indian Intellectual Property Office on Sep. 28, 2017, and Indian Patent Application No. 201641033941 (PS), which was filed in the Indian Intellectual Property Office on Oct. 4, 2016 the entire disclosure of each of these applications is incorporated herein by reference.
The present disclosure relates to a mission critical data (MCData) service, and more particularly to a method and an apparatus for transmitting a MCData message in a communication system.
Mission critical services, in particular (MCData) communication, provide a set of services and procedures to mission critical users to allow reliable, predictable, secure and flexible data communications. The MCData communication makes frequent use of a set of capabilities and enablers that allows for many end user services to be built on a common foundation. A short data service (SDS) feature of a MCData service could be considered as a basic protocol carrying a limited size, but variable content and a payload message. The payload message could be a text message or could be marked for extensible purposes including short binary messages for an application communication. Messaging in the MCData service could be one-to-one messaging or could be group messaging using groups as specified in a MCCoRe. Below are some key requirements from a MCData message capability which needs to be considered while defining solution.
a) Policy assertion capabilities,
b) Identifying applications,
c) Different notifications—like read receipt, reject and delivery,
d) Delivery history interrogation,
e) Multiple message capability in single payload, and
f) Conversation management.
There are existing methods available which can handle some of the above requirements, but they have limitations with respect to a type of notifications and also with respect to handling of multiple payloads in a single message. Also, the existing methods use more data with a header name and a value pair, which in turn restricts actual user data size carried in the single message. Further, the existing methods do not support multiple types of payload in the single message.
Thus, it is desired to address the above mentioned disadvantages or other shortcomings or at least provide a useful alternative. An aspect of the embodiments herein is to provide a method for encoding and decoding MCData messages in a MCData communication system.
Another aspect of the embodiments herein is to generate a MCData message including a signalling content related to multiple MCData payloads.
Another aspect of the embodiments herein is to generate a MCData notification message including a signalling content related to multiple MCData payloads.
Another aspect of the embodiments herein is to carry multiple user messages of heterogeneous content types in a single payload message.
Another aspect of the embodiments herein is to eliminate a protocol header overhead and a key-value pair overhead, while encoding and decoding the MCData messages and the MCData notification messages in the MCData communication system.
Another aspect of the embodiments herein is to carry maximum data in an optimum space, while encoding and decoding the MCData messages and the MCData notification messages in the MCData communication system.
Accordingly embodiments herein disclose a method for coding MCData messages in a MCData communication system. The method includes generating, by a first user equipment (UE), a MCData message comprising a signalling content related to at least one MCData payload. Further, the method includes communicating the MCData message to a second UE.
In an embodiment, the signaling content includes a signalling payload message identity information element, a date and time information element, a conversation identifier information element, a message identifier information element, an optional In-Reply-to message identifier information element, an optional application identifier information element, an optional disposition request type information element, an optional mandatory download indication, an optional payloads information element, and an optional metadata information element.
In an embodiment, the signalling payload message identity information element is one of a SDS signalling payload message identity information element, a file distribution (FD) signalling payload message identity information element, and an off-network message identity information element.
In an embodiment, the disposition type information element is one of a SDS disposition type information element and a FD disposition type information element.
In an embodiment, the MCData message is generated by composing the MCData message. The MCData message is composed by adding a SDS signalling payload message identity information element to identify the type of the MCData message, adding a date and time information element to indicate a time when the MCData message is generated, adding a conversation identifier information element to uniquely identify a conversation, adding a message identifier information element to uniquely identify the MCData message, adding an optional In-Reply-to message identifier information element to associate a current MCData message to be sent with an existing MCData message within the conversation, adding an optional application identifier information element to uniquely identify an application for which the MCData payloads is intended, and adding an optional SDS disposition request type information element indicating the type of disposition notification requested.
In an embodiment, the message type information element is a type 3 information element with a length of 1 octet, the disposition type information element is a type 3 information element with a length of 1 octets, the application identifier information element is a type 3 information element with a length of 1 octets, the date and time information element is a type 3 information element with a length of 5 octets, the conversation ID information element is a type 3 information element with a length of 16 octets, the message ID information element is a type 3 information element with a length of 16 octets, the In-Reply-to message ID information element is a type 3 information element with a length of 17 octets, the payload information element is a type 6 information element.
In an embodiment, the MCData message is generated by composing the MCData message. The MCData message is composed by adding a FD signalling payload message identity information element to identify the type of the MCData message, adding a date and time information element to indicate a time when the MCData message was generated, adding a Conversation identifier information element to uniquely identify a MCData conversation, adding a Message identifier information element that uniquely identifies the MCData message, adding an optional In-Reply-to message identifier information element to associate the MCData message being generated with an existing MCData message within the MCData conversation, adding an optional Application identifier information element to uniquely identify an application for which the MCData payloads is intended, adding an optional FD disposition request type information element indicating the type of disposition notification requested, adding an optional Mandatory download information element indicating that it is mandatory to download the file being shared, adding an optional Payload information element containing a URL pointing to the file being shared, and adding an optional Metadata information element containing the metadata of the file being shared.
In an embodiment, the message type information element is a type 3 information element with a length of 1 octet, the disposition request type information element is a type 1 information element with a length of 1 octets, the application identifier information element is a type 3 information element with a length of 2 octets, the date and time information element is a type 3 information element with a length of 5 octets, the conversation ID information element is a type 3 information element with a length of 16 octets, the message ID information element is a type 3 information element with a length of 16 octets, the In-Reply-to message ID information element is a type 3 information element with a length of 17 octets, the mandatory download information element is a type information element with a length of 1 octet, the metadata information element is a type 6 information element, and the payload information element is a type 6 information element.
In an embodiment, the MCData message is at least one of a SDS signalling payload message, a FD signalling payload message, and a data payload message.
In an embodiment, the MCData payloads are one of SDS signalling payloads and FD signalling payloads.
Accordingly embodiments herein disclose a method for coding MCData messages in a MCData communication system. The method includes generating, by a first UE, a MCData notification message including a signalling content related to multiple MCData payloads. Further, the method includes communicating the MCData notification message to a second UE.
In an embodiment, the signalling content comprises of a notification message identity information element, a disposition notification type information element, a date and time information element, a conversation identifier information element, a message identifier information element, and an optional application identifier information element.
In an embodiment, the notification message identity information element is one of a SDS notification message identity information element, a file distribution (FD) notification message identity information element, and an off-network notification message identity information element.
In an embodiment, the disposition notification information element is one of a SDS disposition notification type information element and a FD disposition notification type information element.
In an embodiment, the MCData notification message is generating by composing the MCData notification message. The MCData notification message is composed by adding a notification message identity information element to identify the type of the MCData notification message, adding a disposition notification type information element, adding a date and time information element to indicate a time when the MCData notification message is generated, adding a conversation identifier information element to uniquely identify a conversation, adding a message identifier information element to uniquely point to a MCData message, and, adding an optional application identifier information element to uniquely identify an application for which the MCData notification message is intended.
In an embodiment, the notification message type information element is a type 3 information element with a length of 1 octet, the disposition notification type information element is a type 3 information element with a length of 1 octets, the Date and time information element is a type 3 information element with a length of 5 octets, the conversation ID information element is a type 3 information element with a length of 16 octets, the message ID information element is a type 3 information element with a length of 16 octets, the Application identifier information element is a type 3 information element with a length of 2 octets.
In an embodiment, the MCData notification message is at least one of a SDS notification signalling payload message, a SDS OFF-network notification signalling payload message, and a FD notification signalling payload message.
Accordingly embodiments herein disclose a method for coding mission critical data (MCData) messages in a MCData communication system. The method includes generating by a first user equipment (UE) a MCData data payload message comprising of data payload. Further, the method includes communicating the MCData notification message to a second UE.
In an embodiment, the data payload message comprises of a data payload message identity information element, a number of payloads information element, and an optional payload information element.
In an embodiment, generating the MCData data payload message comprises of composing the MCData data payload message by adding a data payload message identity information element to identify the data payload message, adding a number of payloads information element indicating the number of payloads in the data payload message, and adding zero or more payload information elements containing the data payloads.
In an embodiment, the data payload message identity information element is a type 3 information element with a length of 1 octet, the number of payloads information element is a type 3 information element with a length of 1 octets, and the payload information elements is a type 6 information element.
Accordingly embodiments herein disclose a UE for encoding and decoding MCData messages in a MCData communication system. The UE includes a MCData message generator operably coupled to a memory and a processor. The MCData message generator is configured to generate at least one MCData payload message, and communicate the MCData message to another UE.
Accordingly embodiments herein disclose a UE for encoding and decoding MCData messages in a MCData communication system. The UE includes a MCData notification message generator operably coupled to a memory and a processor. The MCData notification message generator is configured to generate a MCData notification message including a signalling content related to multiple MCData payloads and communicate the MCData notification message to another UE.
Accordingly embodiments herein disclose a UE for encoding and decoding MCData messages in a MCData communication system. The UE includes a MCData notification message generator operably coupled to a memory and a processor. The MCData notification message generator is configured to generate a MCData data payload message comprising of data payload, and communicate the MCData notification message to another UE.
These and other aspects of the embodiments herein will be better appreciated and understood when considered in conjunction with the following description and the accompanying drawings. It should be understood, however, that the following descriptions, while indicating preferred embodiments and numerous specific details thereof, are given by way of illustration and not of limitation. Many changes and modifications may be made within the scope of the embodiments herein without departing from the spirit thereof, and the embodiments herein include all such modifications.
This method is illustrated in the accompanying drawings, throughout which like reference letters indicate corresponding parts in the various figures. The embodiments herein will be better understood from the following description with reference to the drawings, in which:
The embodiments herein and the various features and advantageous details thereof are explained more fully with reference to the non-limiting embodiments that are illustrated in the accompanying drawings and detailed in the following description. Descriptions of well-known components and processing techniques are omitted so as to not unnecessarily obscure the embodiments herein. Also, the various embodiments described herein are not necessarily mutually exclusive, as some embodiments can be combined with one or more other embodiments to form new embodiments. The term “or” as used herein, refers to a non-exclusive or, unless otherwise indicated. The examples used herein are intended merely to facilitate an understanding of ways in which the embodiments herein can be practiced and to further enable those skilled in the art to practice the embodiments herein. Accordingly, the examples should not be construed as limiting the scope of the embodiments herein.
As is traditional in the field, embodiments may be described and illustrated in terms of blocks which carry out a described function or functions. These blocks, which may be referred to herein as managers, units, modules, hardware components or the like, are physically implemented by analog and/or digital circuits such as logic gates, integrated circuits, microprocessors, microcontrollers, memory circuits, passive electronic components, active electronic components, optical components, hardwired circuits and the like, and may optionally be driven by firmware and software. The circuits may, for example, be embodied in one or more semiconductor chips, or on substrate supports such as printed circuit boards and the like. The circuits constituting a block may be implemented by dedicated hardware, or by a processor (e.g., one or more programmed microprocessors and associated circuitry), or by a combination of dedicated hardware to perform some functions of the block and a processor to perform other functions of the block. Each block of the embodiments may be physically separated into two or more interacting and discrete blocks without departing from the scope of the disclosure. Likewise, the blocks of the embodiments may be physically combined into more complex blocks without departing from the scope of the disclosure.
Accordingly embodiments herein disclose a method for encoding and decoding MCData messages in a MCData communication system. The method includes generating, by a first UE, a MCData message including a signalling content related to multiple MCData payloads. Further, the method includes communicating the MCData message to a second UE.
The proposed method can be used to generate a message format (i.e., MCData message format and MCData notification format) that represents an actual user message that is carried as payload, in the SDS service and the FD Service in the MCData communication system. The proposed method can be used to encode a user data shared as part of the MCData SDS service and the FD service in an effective manner. The method can used to send multiple messages (e.g., text, location, binary or the like) in the single MCData message.
Unlike conventional methods and the systems, the MCData message format and the MCData notification message format are designed in the form of TLV to eliminate a protocol header overhead and a key-value pair overhead, since in the MCData service there is stringent restriction of message size to be at least 1000 bytes or characters. The proposed method can be used to reduce the bandwidth consumption. The proposed method can be used to support for a variable content type.
The MCData message format and the MCData notification message format allow multiple user messages of heterogeneous content types in a single payload. The MCData message format and the MCData notification message format ensure that an encoding procedure does not add much overhead in terms of additional data, which allows a message size up to 1000 bytes to be sent on a signalling plane. This ensures shorter turn-around-time as time is not wasted while establishing a media plane. The MCData message format and the MCData notification message format are designed in the form TLV so that it does not need any explicit parser/composer, unlike XML or CPIM which require pre-processing, so that the proposed method can be used to reduce a signal processing time.
The proposed method can be used to provide a data-efficient payload format that allows easy encoding and decoding, essentially used by the MCData SDS and the MCData FD service. The data-efficient payload format enables carrying maximum data in an optimum space, delivered in-time (i.e., stringent KPI requirements) for mission critical services. The data-efficient payload format assures inter-working and inter-operability, crucial for mission critical networks which constitute of various heterogeneous systems working coherently. The method can used to send multiple messages (e.g., text, location, binary or the like) in the single MCData notification message.
The proposed method is associated with the 3GPP TS 24.282 v14.0.1 that is related to a MCData signalling control specification. The proposed method is also associated with the 3GPP TS 24.582 v14.0.0 that is related to a MCData media plane control specification.
Referring now to the drawings, and more particularly to
In an embodiment, UE 200a is configured to generate a MCData message including a signalling content related to multiple MCData payloads. After generating the MCData message including the signalling content, the UE 200a is configured communicate to the MCData message to another UEs 200b-200n.
In an embodiment, the signaling content includes a signalling payload message identity information element, a date and time information element, a conversation identifier information element, a message identifier information element, an In-Reply-to message identifier information element, an application identifier information element, a disposition type information element, and a number of payloads information element.
In an embodiment, the signalling payload message identity information element is a SDS signalling payload message identity information element. In an embodiment, the signalling payload message identity information element is a FD signalling payload message identity information element. In an embodiment, the signalling payload message identity information element is an off-network signalling payload message identity information element.
In an embodiment, the disposition type information element is a SDS disposition type information element. In an embodiment, the disposition type information element is a FD disposition type information element.
In an embodiment, the MCData message is generated by composing the MCData message. The MCData message is composed by adding a signalling payload message identity information element to identify the type of the MCData message, adding a date and time information element to indicate a time when the MCData message is sent, adding a conversation identifier information element to uniquely identify a conversation, adding a message identifier information element to uniquely identify the MCData message, adding an In-Reply-to message identifier information element to associate a current MCData message to be sent with an existing MCData message within the conversation, adding an application identifier information element to uniquely identify an application for which the MCData payloads is intended, adding a disposition type information element, and adding a number of payloads information element to identify number of payloads contained in the MCData message.
In an embodiment, the message type information element is a type 3 information element with a length of 1 octet, the disposition type information element is a type 3 information element with a length of 1 octets, the application identifier information element is a type 3 information element with a length of 1 octets, the date and time information element is a type 3 information element with a length of 5 octets, the conversation ID information element is a type 3 information element with a length of 16 octets, the message ID information element is a type 3 information element with a length of 16 octets, the In-Reply-to message ID information element is a type 3 information element with a length of 17 octets, the payload information element is a type 6 information element.
In an embodiment, the MCData message is a SDS signalling payload message. In an embodiment, the MCData message is a FD signalling payload message. In an embodiment, the MCData message is a data payload message.
In an embodiment, the MCData payloads are SDS signalling payloads. In an embodiment, the MCData payloads are FD signalling payloads.
In an embodiment, the UE 200a is configured to generate a MCData notification message comprising a signalling content related to multiple MCData payloads. After generating the MCData notification message comprising the signalling content, the UE 200a is configured to communicate the MCData notification message to another UEs 200b-200n.
In an embodiment, the MCData notification message is generated by composing the MCData notification message. The MCData notification message is composed by adding a signalling payload message identity information element to identify the type of the MCData notification message, adding a date and time information element to indicate the time when the MCData notification message is sent, adding a conversation identifier information element to uniquely identify a conversation, adding a message identifier information element to uniquely identify the MCData notification message, adding an In-Reply-to message identifier information element to associate a current MCData notification message to be sent with an existing MCData notification message within the conversation, adding an application identifier information element to uniquely identify an application for which the MCData payloads is intended, adding a disposition type information element, and adding a number of payloads information element to identify number of payloads contained in the MCData notification message.
In an embodiment, the MCData notification message is a SDS notification signalling payload message. In an embodiment, the MCData notification message is a SDS OFF-network notification signalling payload message. In an embodiment, the MCData notification message is a FD notification signalling payload message.
Consider an example, the user of the UE 200a shares the location details on a map along with a text message to a rescue team (e.g., fire responder, police or the like) associated with another UEs 200b-200n for faster reach out to initiate rescue as soon as possible. In this scenario, the location information along with the text message is shared using short message data service over a Session Initiation Protocol (SIP)/Message Session Relay Protocol (MSRP), is encoded in the MCData SDS payload format which can assist the rescue team to reach the destination more accurately.
Consider another example, the user of the UE 200a shares the location details in the form of video on the map with the rescue team (e.g., fire responder, police or the like) associated with another UEs 200b-200n for faster reach out to initiate rescue as soon as possible. In that case, the location details in the form of the video with the text message is shared using a file distribution service over a HTTP, is encoded in the MCData FD payload format which can assist the rescue team to reach the destination more accurately.
Consider an example, if the user of the UE 200a wishes to send the text message along with the location Information then, the below is example format of the message information.
MESSAGE sip:psi@example.com SIP/2.0
To: <sip:psi@example.com>
From: <tel:+8290244755002>;tag=f22e9118
Call-ID: 6NKJGXdYmpAkDHbwTKoJyQ.
CSeq: 1 MESSAGE
Content-Type: multipart/mixed;boundary=mcptt2
Content-Length: 574
--mcptt2
Content-Type: application/vnd.3gpp.mcptt-info+xml
<?xml version=“1.0”?>
<mcpttinfo xrnlns=“urn:3gpp:ns:mcpttInfo:1.0”>
<...snip...>
</mcpttinfo>
--mcptt2
Content-Type: sds/sig
17DDDDDf9e2500f42d00f7905ae83a0b487e5aef9e2500f4
2d00f53X
--mcptt2--
Content-Type: sds/data
2ILTmessage
with
call
in
backgroundILThttps://XYZcloud.example.com/ftget/667/dis
aster/20151105_112604.jpg
--mcptt2--
For the above example, the proposed MCData SDS format utilizes the 206 bytes, so as to improve the resource utilization.
SDS signalling payload message: The SDS signalling payload message is sent by the UE 200a to other UEs 200b-220n when sending an SDS data payload. The SDS signalling payload message provides the signalling content related to a SDS data payload. The signalling content of the message are shown in the Table 1.
TABLE 1
Information
Pres-
IEI
Element
Type/Reference
ence
Format
Length
SDS signalling
Message type
M
V
1
payload message
FIG. 5
identity
Date and time
Date and time
M
V
5
FIG. 11
Conversation ID
Conversation ID
M
V
16
FIG. 12
Message ID
Message ID
M
V
16
FIG. 13
21
InReplyTo
InReplyTo
O
TV
17
message ID
message ID
FIG. 15
22
Application ID
Application ID
O
TV
2
FIG. 10
8-
SDS disposition
SDS disposition
O
TV
1
request type
request type
FIG. 6
FD signalling payload message: The FD signalling payload message is sent by the UE 200a to other UEs 200n while sending an FD data payload. The FD signalling payload message provides the signalling content related to the FD data payload. The signalling content of the message is shown in the Table 2.
TABLE 2
Information
Pres-
IEI
Element
Type/Reference
ence
Format
Length
FD signalling
Message type
M
V
1
payload message
FIG. 5
identity
Date and time
Date and time
M
V
5
FIG. 11
Conversation ID
Conversation ID
M
V
16
FIG. 12
Message ID
Message ID
M
V
16
FIG. 13
21
InReplyTo
InReplyTo
O
TV
17
message ID
message ID
FIG. 14
22
Application ID
Application ID
O
TV
2
FIG. 10
9-
FD disposition
FD disposition
O
TV
1
request type
request type
FIG. 7
A-
Mandatory
Mandatory
O
TV
1
download
download
FIG. 18
78
Payload
Payload
O
TLV-E
3-x
FIG. 16
79
Metadata
Metadata
O
TLV-E
3-x
FIG. 19
Data payload message: The data payload message is sent by the UE 200a to other UEs 200n while sending the SDS data payload or the FD data payload. The data payload message provides the data to be delivered to the user or application. The signalling contents of the message is shown in the Table 3.
TABLE 3
Information
Pres-
IEI
Element
Type/Reference
ence
Format
Length
Data payload
Message type
M
V
1
message identity
FIG. 5
Number of
Number of
M
V
1
payloads
payloads
FIG. 15
78
Payload
Payload
O
TLV-E
3-x
FIG. 16
SDS off-network message: The SDS off-network message is illustrated in the Table 4.
TABLE 4
Information
Pres-
IEI
Element
Type/Reference
ence
Format
Length
SDS off-network
Message Type
M
V
1
message identity
FIG. 5
Date and time
Date and time
M
V
5
FIG. 11
Number of
Number of
M
V
1
payloads
payloads
FIG. 15
Conversation ID
Conversation ID
M
V
16
FIG. 12
Message ID
Message ID
M
V
16
FIG. 13
Sender MCData
MCData user ID
M
LV-E
3-x
user ID
FIG. 20
21
InReplyTo
InReplyTo
O
TV
17
message ID
message ID
FIG. 14
22
Application ID
Application ID
O
TV
2
FIG. 10
8-
SDS disposition
SDS disposition
O
TV
1
request type
request type
FIG. 6
23
MCData group ID
MCData group
O
TLV-E
4-x
ID FIG. 21
24
Recipient MCData
MCData user ID
O
TLV-E
4-x
user ID
FIG. 20
78
Payload
Payload
O
TLV-E
4-x
FIG. 16
SDS notification message: The SDS notification message is sent by the UE 200a to another other UE 200b-200n to share the SDS disposition information. The contents of the message is shown in the Table 5.
TABLE 5
Information
Pres-
IEI
Element
Type/Reference
ence
Format
Length
SDS notification
Message type
M
V
1
message identity
FIG. 5
SDS disposition
SDS disposition
M
V
1
notification type
notification type
FIG. 8
Date and time
Date and time
M
V
5
FIG. 11
Conversation ID
Conversation ID
M
V
16
FIG. 12
Message ID
Message ID
M
V
16
FIG. 13
22
Application ID
Application ID
O
TV
2
FIG. 10
FD notification message: The FD notification message is sent by the UE 200a to another UE 200b-200n to share the FD disposition information. The contents of the message see Table 6.
TABLE 6
Information
Pres-
IEI
Element
Type/Reference
ence
Format
Length
FD notification
Message type
M
V
1
message identity
FIG. 5
FD disposition
FD disposition
M
V
1
notification type
notification type
FIG. 9
Date and time
Date and time
M
V
5
FIG. 11
Conversation ID
Conversation ID
M
V
16
FIG. 12
Message ID
Message ID
M
V
16
Fig. 13
22
Application ID
Application ID
O
TV
2
FIG. 10
SDS off-network notification message: The SDS off-network notification message is shown in the table 7.
TABLE 7
Information
IEI
Element
Type/Reference
Presence
Format
Length
SDS off-network
Message type
M
V
1
notification
FIG. 5
message
identity
SDS disposition
SDS disposition
M
V
1
notification type
notification type
FIG. 8
Date and time
Date and time
M
V
5
FIG. 11
Conversation ID
Conversation ID
M
V
16
FIG. 12
Message ID
Message ID
M
V
16
FIG. 13
Sender MCData
MCData user ID
M
LV-E
3-x
user ID
FIG. 20
22
Application ID
Application ID
O
TV
2
FIG. 10
The least significant bit of the field is represented by the lowest numbered bit of the highest numbered octet of the field. When the field extends over more than one octet, the order of bit values progressively decreases as the octet number increases.
The
The organization of the MCData message is illustrated in the
In an example, a sending entity (e.g., sending UE 200a) shall set value of a spare bit to zero. A receiving entity (e.g., receiving UE 200b) shall ignore value of a spare bit. The sending entity shall not set a value of an information element to a reserved value. The receiving entity shall discard message containing an information element set to a reserved value.
Within the protocols defined in the present disclosure, the message consists of the following parts:
a) Message type information element; and
b) other information elements, as required.
Message type: The purpose of the message type information element is to identify the type of the MCData message. The value part of the message type information element is coded as shown in Table 8. The message type information element is a type 3 information element with a length of 1 octet.
TABLE 8
Bits
8
7
6
5
4
3
2
1
0
0
0
0
0
0
0
1
SDS SIGNALLING
PAYLOAD
0
0
0
0
0
0
1
0
FD SIGNALLING
PAYLOAD
0
0
0
0
0
0
1
1
DATA PAYLOAD
0
0
0
0
0
1
0
1
SDS NOTIFICATION
0
0
0
0
0
1
1
0
FD NOTIFICATION
0
0
0
0
0
1
1
1
SDS OFF-NETWORK
MESSAGE
0
0
0
0
1
0
0
0
SDS OFF-NETWORK
NOTIFICATION
All other values are reserved.
SDS disposition request type: The purpose of the SDS disposition request type information element is to identify the type of the SDS disposition notification that the sender requires from the receiver. The value part of the SDS disposition request type information element is coded as shown in Table 9. The SDS disposition request type information element is a type 1 information element.
TABLE 9
Bits
4
3
2
1
0
0
0
1
Delivery
0
0
1
0
Read
0
0
1
1
Delivery and Read
All other values are reserved
FD disposition request type: The purpose of the FD disposition request type information element is to identify the type of the FD disposition notification that the sender requires from the receiver. The value part of the FD disposition request type information element is coded as shown in Table 10. The FD disposition request type information element is a type 1 information element.
TABLE 10
Bits
4
3
2
1
0
0
0
1
File Download Completed Update
All other values are reserved
SDS disposition notification type: The purpose of the SDS disposition notification type information element is to identify the type of the SDS disposition notification that the request receiver is notifying back to the sender. The value part of the SDS disposition notification type information element is coded as shown in Table 11. The SDS disposition notification type information element is a type 3 information element with a length of 1 octet.
TABLE 11
Bits
8
7
6
5
4
3
2
1
0
0
0
0
0
0
0
1
Undelivered
0
0
0
0
0
0
1
0
Delivered
0
0
0
0
0
0
1
1
Read
0
0
0
0
0
1
0
0
Delivered and Read
All other values are reserved.
FD disposition notification type: The purpose of the FD disposition notification type information element is to identify the type of the FD disposition notification that the request receiver is notifying back to the sender. The value part of the FD disposition notification type information element is coded as shown in Table 12. The FD disposition notification type information element is a type 3 information element with a length of 1 octet.
TABLE 12
Bits
8
7
6
5
4
3
2
1
0
0
0
0
0
0
0
1
File Download Request Accepted
0
0
0
0
0
0
1
0
File Download Request Rejected
0
0
0
0
0
0
1
1
File Download Completed
0
0
0
0
0
1
0
0
File Download Deferred
All other values are reserved.
Application identifier information element: The purpose of the application identifier information element is to uniquely identify the application for which the payload is intended. The application identifier information element is coded as shown in Table 13. The application identifier information element is a type 3 information element with a length of 2 octets.
TABLE 13
Application identifier value (octet 1)
The Application identifier contains a number uniquely identifying the
destination application.
In an embodiment, it is also possible to use another type of application identifier (e.g., IMS Application Reference Identifier (IARI)) instead of value defined here. Using another type of application identifier may increase length of the application Identifier IE.
Date and time information element: The date and time information element is used to indicate a Coordinated Universal Time (i.e., UTC time) when the MCData message was sent. The date and time information element is coded as shown in Table 14. The date and time information element is a type 3 information element with a length of 5 octets.
TABLE 14
Date and time value (octet 1 to 5)
The Date and time value is an unsigned integer containing UTC time of
the time when a message was sent, in seconds since midnight UTC of
January 1, 1970 (not counting leap seconds).
Conversation ID information element: The purpose of the conversation ID information element is to uniquely identify the conversation. The conversation ID information element is coded as shown in Table 15. The conversation ID information element is a type 3 information element with a length of 16 octets.
TABLE 15
ConversalionIDvalue (octet 1 to 16)
The ConversationID contains a number uniquely identifying the
conversation.
The value SHALL be a universally unique identifier, as specified in
[RFC4122].
Following the conventions in [RFC4122], Conversation ID is
case-insensitive.
Message ID information element: The purpose of the message ID information element is to uniquely identify the MCData message. The message ID information element is coded as shown in the Table 16. The message ID information element is a type 3 information element with a length of 16 octets. The message ID information element uniquely identifies the MCData message within the conversation.
TABLE 16
Message ID value (octet 1 to 16)
The Message ID contains a number uniquely identifying a message. The
value SHALL be a universally unique identifier, as specified in
[RFC4122]. Following the conventions in [RFC4122], Message ID is
case-insensitive.
InReplyTo Message ID information element: The purpose of the InReplyTo Message ID information element is used to associate current MCData message to be sent with an existing MCData message within the conversation.
In an embodiment, the InReplyTo message ID information element is used to associate the MCData message within the conversation to which the MCData message is a reply in the conversation. The InReplyTo Message ID information element is coded as shown in Table 17. The InReplyTo Message ID information element is a type 3 information element with a length of 17 octets.
TABLE 17
InReplyTo message ID value (octet 2 to 17)
The InReplyTo message ID contains a number uniquely identifying a
message.
The value is a universally unique identifier as specified in IETF RFC 4122
[14].
Number of payloads information element: indicates the number of payloads the MCData message contains. In an embodiment, the number of payloads information element is a type 3 information element with a length of 1 octet. The number of payloads information element is coded as shown in Table 18.
TABLE 18
Number of payloads value (octet 1)
The Number of payloads contains a value from 1 to 255.
Payload content type: The first octet of payload contents field indicates the type of the payload data. The payload content type octet is coded as shown in Table 19.
TABLE 19
Bits
8
7
6
5
4
3
2
1
0
0
0
0
0
0
0
1
Text
0
0
0
0
0
0
1
0
Binary
0
0
0
0
0
0
1
1
Hyperlinks
0
0
0
0
0
1
0
0
File URL
0
0
0
0
0
1
0
1
Location
All other values are reserved.
Payload data: Remaining octets of the payload contents field contains the payload data. The payload data is coded as shown in Table 20.
TABLE 20
Payload data is included in octet 5 to octet n; Max value of 65535
octets.
Payload data contains the payload destined for the user or application.
A file URL is encoded as specified in IETF RFC 1738 [rfc1738].
The length of location information payload content is 6 bytes. First 3
bytes contain the latitude information and next 3 bytes contain the
longitude information .
Mandatory download: The purpose of the mandatory download information element is to indicate that it is mandatory to download the file indicated in the request. The mandatory download information element is a type 1 information element. The mandatory download information element is coded as shown in Table 21.
TABLE 21
Bits
4
3
2
1
0
0
0
1
Mandatory Download
All other values are reserved.
Mandatory download: The purpose of the mandatory download information element is to indicate that it is mandatory to download the file indicated in the request. The mandatory download information element is a type 1 information element. The mandatory download information element is coded as shown in Table 22.
TABLE 22
Bits
4
3
2
1
0
0
0
1
Mandatory Download
All other values are reserved.
Metadata: The purpose of the metadata information element is to provide details of the file indicated in the request. The metadata information element is a type 6 information element. The metadata information element is coded as shown in Table 23.
TABLE 23
Metadata is contained in octet 4 to octet n; Max value of 65535
octets.
Metadata contains a concatenation of the following data:
- fileselector (which is a concatenation of filename, filesize,
filetype and hash)
- file-date (which is set to creation”, “modification” or “read”
with a date/time, to
indicate
date/time file was created, last modified or last read)
- file-availability (set to a date and time that the file is
available until)
The file-selector is encoded as shown in the ″file-selector-attr″
ABNF specified in IETF RFC 5547 [x].
The file-date is encoded as shown in the ″file-date-attr″ ABNF
specified in IETF RFC 5547 [x].
The file-availability is encoded as
file-availability = ″file-availability:″ date-time;
dale-time is defined in IETF RFC 5322 [34]
MCData user ID: The purpose of the MCData user ID information element is to contain the MCData user ID. The MCData user ID information element is a type 6 information element. The MCData user ID information element is coded as shown in Table 24.
TABLE 24
MCData user ID is contained in octet 4 to octet n if the IE is used as
an optional IE.
If used as a mandatory IE, MCData user ID IEI is omitted and
MCData user ID is contained in octet 3 to octet n;
Max value of 65535 octets.
MCData group ID: The purpose of the MCData group ID information element is to contain the MCData group ID. The MCData group ID information element is a type 6 information element. The MCData group ID information element is coded as shown in Table 25.
TABLE 25
MCData group ID is contained in octet 4 to octet n; Max value of
65535 octets.
The MCData message encoder and decoder 210 is operably coupled to the MCData notification message encoder and decoder 220, the memory 230 and the processor 240. The MCData message encoder and decoder 210 is configured to generate the MCData message including the signalling content related to multiple MCData payloads. After generating the MCData message including the signalling content related to multiple MCData payloads, the communicator 250 is configured to communicate the MCData message to another UE 200b-200n.
In an embodiment, the MCData notification message encoder and decoder 220 is operably coupled to the memory 230 and the processor 240. The MCData notification message encoder and decoder 220 is configured to generate the MCData notification message including the signalling content related to multiple MCData payloads. After generating the MCData notification message including the signalling content related to multiple MCData payloads, the communicator 250 is configured to communicate the MCData notification message to another UE 200b-220n.
The communicator 250 is configured for communicating internally between internal hardware components and with external devices via one or more networks (not shown). The communicator 250 is configured for communicating with the MCData notification message encoder and decoder 220 and the MCData message encoder and decoder 210 to encode and decode the MCData messages in the MCData communication system 100.
The memory 230 stores the signalling content related to multiple MCData payloads. The memory 230 also stores instruction to manage the MCData service in the MCData communication system 100. The memory 230 also stores instructions to be executed by the processor 240. The memory 230 may include non-volatile storage elements. Examples of such non-volatile storage elements may include magnetic hard discs, optical discs, floppy discs, flash memories, or forms of electrically programmable memories (EPROM) or electrically erasable and programmable (EEPROM) memories. In addition, the memory 230 may, in some examples, be considered a non-transitory storage medium. The term “non-transitory” may indicate that the storage medium is not embodied in a carrier wave or a propagated signal. However, the term “non-transitory” should not be interpreted that the memory 230 is non-movable. In some examples, the memory 230 can be configured to store larger amounts of information than the memory. In certain examples, a non-transitory storage medium may store data that can, over time, change (e.g., in Random Access Memory (RAM) or cache).
Although the
The various actions, acts, blocks, steps, or the like in the flow diagram 2300 may be performed in the order presented, in a different order or simultaneously. Further, in some embodiments, some of the actions, acts, blocks, steps, or the like may be omitted, added, modified, skipped, or the like without departing from the scope of the present disclosure.
The various actions, acts, blocks, steps, or the like in the flow diagram 2400 may be performed in the order presented, in a different order or simultaneously. Further, in some embodiments, some of the actions, acts, blocks, steps, or the like may be omitted, added, modified, skipped, or the like without departing from the scope of the present disclosure.
At 2502, the method includes adding the signalling payload message identity information element to identify the type of the message. At 2504, the method includes adding the date and time information element to indicate the time when the message is sent. At 2506, the method includes adding the conversation identifier information element to uniquely identify the conversation to which the message has to be associated. At 2508, the method includes adding the message identifier information element to uniquely identify the MCData message. At 2510, the method includes adding the In-Reply-to message identifier information element to associate current message to be sent with an existing message within the conversation. At 2512, the method includes adding the application identifier information element to uniquely identify the application for which the MCData payloads is intended. At 2514, the method includes adding the disposition request type information element which is expects the disposition from the MCData message receiver.
The various actions, acts, blocks, steps, or the like in the flow diagram 2500 may be performed in the order presented, in a different order or simultaneously. Further, in some embodiments, some of the actions, acts, blocks, steps, or the like may be omitted, added, modified, skipped, or the like without departing from the scope of the present disclosure.
At 2602, the method includes adding the data payload message identity information element to indicate the payload is for MCData SDS Message. At 2604, the method includes adding the number of payloads information element which indicates the total payloads in this data payload message. At 2606, the method includes adding the payload information element to indicate the start of a new MCData SDS Message. At 2608, the method includes adding the length of payload information element to indicate the actual length of the payload content information element. At 2610, the method includes adding the payload content type information element to identify the length of the payload data. At 2612, the method includes adding the payload data information element that stores the actual end user message. At 2614, the method explains adding more payload information in case of multiple messages from the user.
The various actions, acts, blocks, steps, or the like in the flow diagram 2600 may be performed in the order presented, in a different order or simultaneously. Further, in some embodiments, some of the actions, acts, blocks, steps, or the like may be omitted, added, modified, skipped, or the like without departing from the scope of the present disclosure.
At 2702, the method includes adding the SDS disposition notification message identity information element to identify the type of the notification message as SDS notification message. At 2704 the method includes adding the SDS disposition notification type information element to indicate the disposition type for the received SDS Message. At 2706, the method includes adding the date and time information element to indicate the time when the SDS notification message is sent. At 2708, the method includes adding the conversation identifier information element to uniquely identify the conversation to which the SDS notification message has to be associated. At 2710, the method includes adding the message identifier information element to uniquely identify the MCData SDS message to which this disposition notification is issues. At 2712, the method includes adding an application identifier information element to uniquely identify an application for which the SDS notification message is intended.
The various actions, acts, blocks, steps, or the like in the flow diagram 2700 may be performed in the order presented, in a different order or simultaneously. Further, in some embodiments, some of the actions, acts, blocks, steps, or the like may be omitted, added, modified, skipped, or the like without departing from the scope of the present disclosure.
At 2802, the method includes adding the FD signalling payload message identity information element to identify the type of the message as file distribution. At 2804, the method includes adding the date and time information element to indicate the time when the file is sent. At 2806, the method includes adding the conversation identifier information element to uniquely identify the conversation. At 2808, the method includes adding the message identifier information element to uniquely identify the MCData message. At 2810, the method includes adding the In-Reply-to message identifier information element to associate current message to be sent with an existing message within the conversation. At 2812, the method includes adding the application identifier information element to uniquely identify the application for which the payload is intended. At 2814, the method includes adding the disposition type information element to identify the types of FD disposition notification that the sender requires from the receiver. At 2816, the method includes adding mandatory download information element for the originating client to inform the terminating client that a file must be downloaded immediately. At 2818, the method includes adding payload information element intended for the recipient user or application. At 2820, the method includes adding the metadata information element used to describe a file.
The various actions, acts, blocks, steps, or the like in the flow diagram 2800 may be performed in the order presented, in a different order or simultaneously. Further, in some embodiments, some of the actions, acts, blocks, steps, or the like may be omitted, added, modified, skipped, or the like without departing from the scope of the present disclosure.
At 2902, the method includes adding the FD notification message identity information element to identify the type of the message as file distribution notification. At 2904, the method includes adding the FD disposition notification type information element to identify the type of FD disposition notification sent from receiver to the sender. At 2906, the method includes adding the date and time information element to indicate the time when the message is sent. At 2908, the method includes adding the conversation identifier information element to uniquely identify the conversation. At 2910, the method includes adding the message identifier information element to uniquely identify the notification message within conversation. At 2912, the method includes adding an application identifier information element to uniquely identify an application for which the MCData notification is intended.
The various actions, acts, blocks, steps, or the like in the flow diagram 2900 may be performed in the order presented, in a different order or simultaneously. Further, in some embodiments, some of the actions, acts, blocks, steps, or the like may be omitted, added, modified, skipped, or the like without departing from the scope of the present disclosure.
The embodiments herein are not only limited to the formats of MCData systems and can be used by commercial applications also.
The embodiments disclosed herein can be implemented using at least one software program running on at least one hardware device and performing network management functions to control the elements.
The foregoing description of the specific embodiments will so fully reveal the general nature of the embodiments herein that others can, by applying current knowledge, readily modify and/or adapt for various applications such specific embodiments without departing from the generic concept, and, therefore, such adaptations and modifications should and are intended to be comprehended within the meaning and range of equivalents of the disclosed embodiments. It is to be understood that the phraseology or terminology employed herein is for the purpose of description and not of limitation. Therefore, while the embodiments herein have been described in terms of preferred embodiments, those skilled in the art will recognize that the embodiments herein can be practiced with modification within the spirit and scope of the embodiments as described herein.
Gupta, Nishant, Chitturi, Suresh, Pattan, Basavaraj Jayawant, Shah, Sapan Pramodkumar, Gundur, Siva Prasad, Sangameshwara, Vijay, Madishetty, Bhargav
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