WO2017209693A1 - System and method for communicating across multiple network types - Google Patents

System and method for communicating across multiple network types Download PDF

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Publication number
WO2017209693A1
WO2017209693A1 PCT/SG2017/050276 SG2017050276W WO2017209693A1 WO 2017209693 A1 WO2017209693 A1 WO 2017209693A1 SG 2017050276 W SG2017050276 W SG 2017050276W WO 2017209693 A1 WO2017209693 A1 WO 2017209693A1
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WO
WIPO (PCT)
Prior art keywords
network
communication
identifier
server
multiple networks
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/SG2017/050276
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English (en)
French (fr)
Inventor
Rodolfo Alberto Asuncion VILLARICA
Alex Dy IBASCO
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Voyager Innovations Holdings Pte Ltd
Original Assignee
eInnovations Holdings Pte Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by eInnovations Holdings Pte Ltd filed Critical eInnovations Holdings Pte Ltd
Priority to JP2018563620A priority Critical patent/JP7065789B2/ja
Priority to US16/305,814 priority patent/US11343863B2/en
Priority to CN201780045027.4A priority patent/CN109845392A/zh
Priority to EP17807122.1A priority patent/EP3466188A4/en
Publication of WO2017209693A1 publication Critical patent/WO2017209693A1/en
Anticipated expiration legal-status Critical
Priority to PH12018502541A priority patent/PH12018502541A1/en
Ceased legal-status Critical Current

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W8/00Network data management
    • H04W8/26Network addressing or numbering for mobility support
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • H04W4/12Messaging; Mailboxes; Announcements
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • H04W4/60Subscription-based services using application servers or record carriers, e.g. SIM application toolkits
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W40/00Communication routing or communication path finding
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W40/00Communication routing or communication path finding
    • H04W40/02Communication route or path selection, e.g. power-based or shortest path routing
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W48/00Access restriction; Network selection; Access point selection
    • H04W48/18Selecting a network or a communication service
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W76/00Connection management
    • H04W76/10Connection setup
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W76/00Connection management
    • H04W76/10Connection setup
    • H04W76/11Allocation or use of connection identifiers
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W76/00Connection management
    • H04W76/10Connection setup
    • H04W76/12Setup of transport tunnels
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W88/00Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
    • H04W88/02Terminal devices
    • H04W88/06Terminal devices adapted for operation in multiple networks or having at least two operational modes, e.g. multi-mode terminals

Definitions

  • the present invention relates to a system and method for communicating across multiple network types.
  • the system and method are particularly relevant, but not limited to facilitate the multiple networks communication.
  • One of the existing applications provides its subscriber a virtual phone number that exists within a telecommunication company's numbering space. This allows the subscriber of the application to call and message with other subscribers in the legacy network using that virtual phone number.
  • the application allows its subscriber to own a virtual phone number of the telecommunications company A (hereafter referred to as Telco A) so that the subscriber's family and friends using Telco A are able to call and message the subscriber using the subscriber's virtual phone number at local rates even though the subscriber had an original phone number assigned from another telecommunications company (e.g. Telco B).
  • the virtual phone number may be sub-optimal because the on-net subscriber already has the original phone number assigned from the current/original telecommunications company (e.g. Telco A) and may be strongly associated with the original phone number. As the on-net subscriber is assigned the new virtual phone number, other subscribers such as his/her friends or family would need to remember and recognize the on-net subscriber's new virtual phone number, in addition to the original phone number.
  • Telco A the virtual phone number assigned from the current/original telecommunications company
  • other subscribers such as his/her friends or family would need to remember and recognize the on-net subscriber's new virtual phone number, in addition to the original phone number.
  • the off-net subscriber may require the virtual phone number assigned from the telecommunications company related to those applications (hereafter referred to as current telecommunications company) in order to communicate with other subscribers in the current communication network at a possibly lower rate.
  • current telecommunications company the virtual phone number assigned from the telecommunications company related to those applications
  • other subscribers such as his/her friends or family would need to remember and recognize the off-net subscriber's new virtual phone number.
  • one of the existing VoIP servers allows the subscriber chooses whether his/her call/message service would be delivered over the IP network or the CS network, but not both. Once the choice is made, the service is only delivered in chosen type of transport network even though the quality of the chosen type is not good enough or non-existent. Therefore, the result provides poor user experience such as lost or dropped calls, bad voice quality, and delayed messaging, etc.
  • the word "include” or variations such as “includes” or “including”, will be understood to imply the inclusion of a stated integer or group of integers but not the exclusion of any other integer or group of integers.
  • the present invention seeks to provide a service in that when sender requests a call/message, the recipient would only see a single phone number of the sender, even though the sender may in reality represent different phone numbers regarding each of circuit switched network and internet protocol network.
  • the present invention further seeks to provide a technical solution to select a suitable transport network for delivering calls/messages based on a set of rules.
  • a system for communicating across multiple networks comprising: an application provider operable to assign an identifier to a first device, wherein the first device is associated with a first identifier and is assigned a second identifier from the application provider; the first device operable to initiate a communication and select at least one first communication network among a plurality of first communication networks for establishing connection between the first device and a server so that the first device sends the communication to the server via the selected first communication network using the second identifier as a sender identifier; the server operable to replace the second identifier with the first identifier after receiving the communication from the first device, select at least one second communication network among a plurality of second communication networks connected between a second device and the server, and send the communication to the second device via the selected second communication network using the first identifier as the sender identifier; and the second device operable to receive the communication with the first identifier as the sender identifier from the server.
  • the first device checks first communication network state among the plurality of first communication networks connected between the first device and the server
  • the server checks second communication network state among the plurality of second communication networks connected between the second device and the server.
  • the plurality of first and second communication networks include circuit switched (CS) network and internet protocol (IP) network.
  • CS circuit switched
  • IP internet protocol
  • the first device checks IP network quality as the first communication network state and selects at least one of the IP network and the CS network depending on the checked IP network quality; and the server checks IP network quality as the second communication network state and selects at least one of the IP network and the CS network depending on the checked IP network quality.
  • the server determines whether using the second identifier as the sender identifier depending on the selected first communication network.
  • the first device sends the communication to the server via the IP network, and if the selected first communication network is the CS network, the first device sends the communication to the server via the CS network using the second identifier as the sender identifier.
  • the first device requests to send a rich message, if the selected first communication network is the IP network, the first device sends the rich message to the server via the IP network, and if the selected first communication network is the CS network, the first device sends a simplified message corresponding to the rich message to the server via the CS network.
  • the server sends the rich message to the second device via the IP network
  • the server sends the simplified message corresponding to the rich message to the second device via the CS network.
  • the server rechecks the second communication network state, and if reselected second communication network is the IP network, the server synchronizes to the second device to replace the simplified message with the rich message in the second device.
  • the second device displays the first identifier as the sender identifier on a display.
  • the second device when the second device requests another communication, the second device selects the at least one second communication network among the plurality of second communication networks connected between the second device and the server, and the second device sends the another communication to the server via the selected second communication network using the first identifier as a recipient identifier.
  • the server selects the at least one first communication network among the plurality of first communication networks connected between the first device and the server, and sends the another communication to the first device via the selected first communication network using the second identifier as the recipient identifier.
  • the server determines whether using the second identifier as the recipient identifier depending on the selected first communication network.
  • the server sends the another communication to the first device via the IP network, and if the selected first communication network is the CS network, the server sends the another communication to the first device via the CS network using the second identifier as the recipient identifier.
  • the second device requests to send a rich message, if the selected second communication network is the IP network, the second device sends the rich message to the server via the IP network, and if the selected second communication network is the CS network, the second device sends a simplified message corresponding to the rich message to the server via the CS network.
  • the server sends the rich message to the first device via the IP network, and if the selected first communication network is the CS network, the server sends the simplified message corresponding to the rich message to the first device via the CS network.
  • the server rechecks the first communication network state, and if reselected first communication network is the IP network, the server synchronizes to the first device to replace the simplified message with the rich message in the first device.
  • the first identifier is stored in connection with an international mobile subscriber identity (IMSI) of the first device in a home location register (HLR), and when the first device signs up to an application, the application provider assigns the second identifier and update the HLR so that the second identifier is stored in connection with the IMSI.
  • the first identifier is a public number of the first device and the second identifier is a private number of the first device.
  • the communication includes at least one of call and message.
  • a method for communicating across multiple networks comprising: initiating, by a first device, a communication, wherein the first device is associated with a first identifier and is assigned a second identifier from an application provider; selecting, by the first device, at least one first communication network among a plurality of first communication networks connected between the first device and a server; sending the communication from the first device to the server via the selected first communication network using the second identifier as a sender identifier; replacing, by the server, the second identifier with the first identifier; selecting, by the server, at least one second communication network among a plurality of second communication networks connected between a second device and the server; sending the communication from the server to the second device via the selected second communication network using the first identifier as the sender identifier; and receiving, by the second device, the communication with the first identifier as the sender identifier from the server.
  • the first device checks first communication network state among the plurality of first communication networks connected between the first device and the server
  • the server checks second communication network state among the plurality of second communication networks connected between the second device and the server.
  • the plurality of first and second communication networks include circuit switched (CS) network and internet protocol (IP) network.
  • the first device checks IP network quality as the first communication network state, and selects at least one of the IP network and the CS network depending on the checked IP network quality; and the server checks IP network quality as the second communication network state and selects at least one of the IP network and the CS network depending on the checked IP network quality.
  • the server determines whether using the second identifier as the sender identifier depending on the selected first communication network.
  • the first device sends the communication to the server via the IP network, and if the selected first communication network is the CS network, the first device sends the communication to the server via the CS network using the second identifier as the sender identifier.
  • the first device requests to send a rich message, if the selected first communication network is the IP network, the first device sends the rich message to the server via the IP network, and if the selected first communication network is the CS network, the first device sends a simplified message corresponding to the rich message to the server via the CS network.
  • the server sends the rich message to the second device via the IP network
  • the server sends the simplified message corresponding to the rich message to the second device via the CS network.
  • the server rechecks the second communication network state, and if reselected second communication network is the IP network, the server synchronizes to the second device to replace the simplified message with the rich message in the second device.
  • the second device displays the first identifier as the sender identifier on a display.
  • the second device when the second device requests another communication, the second device selects the at least one second communication network among the plurality of second communication networks connected between the second device and the server, and the second device sends the another communication to the server via the selected second communication network using the first identifier as a recipient identifier.
  • the server selects the at least one first communication network among the plurality of first communication networks connected between the first device and the server, and sends the another communication to the first device via the selected first communication network using the second identifier as the recipient identifier.
  • the server determines whether using the second identifier as the recipient identifier depending on the selected first communication network.
  • the server sends the another communication to the first device via the IP network, and if the selected first communication network is the CS network, the server sends the another communication to the first device via the CS network using the second identifier as the recipient identifier.
  • the second device requests to send a rich message, if the selected second communication network is the IP network, the second device sends the rich message to the server via the IP network, and if the selected second communication network is the CS network, the second device sends a simplified message corresponding to the rich message to the server via the CS network.
  • the server sends the rich message to the first device via the IP network, and if the selected first communication network is the CS network, the server sends the simplified message corresponding to the rich message to the first device via the CS network.
  • the server rechecks the first communication network state, and if reselected first communication network is the IP network, the server synchronizes to the first device to replace the simplified message with the rich message in the first device.
  • the first identifier is stored in connection with an IMSI of the first device in a HLR, and when the first device signs up to an application, the application provider assigns the second identifier and update the HLR so that the second identifier is stored in connection with the IMSI.
  • the first identifier is a public number of the first device and the second identifier is a private number of the first device.
  • the communication includes at least one of call and message.
  • a communication facilitator for facilitating communication between parties across multiple networks, comprising: receiving a communication from a first device associated with a first identifier via a selected first communication network using a second identifier as a sender identifier, wherein the first device is assigned the second identifier from an application provider, and the selected first communication network is selected among a plurality of first communication networks connected between the first device and the communication facilitator by the first device; replacing the second identifier with the first identifier; selecting at least one second communication network among a plurality of second communication networks connected between a second device and the communication facilitator; and sending the communication to the second device via the selected second communication network using the first identifier as the sender identifier.
  • the first device checks first communication network state among the plurality of first communication networks connected between the first device and the communication facilitator
  • the communication facilitator checks second communication network state among the plurality of second communication networks connected between the second device and the communication facilitator.
  • the plurality of first and second communication networks include CS network and IP network.
  • the first device checks IP network quality as the first communication network state and determines at least one of the IP network and the CS network depending on the checked IP network quality; and the communication facilitator checks IP network quality as the second communication network state and determines at least one of the IP network and the CS network depending on the checked IP network quality.
  • the communication facilitator determines whether using the second identifier as the sender identifier depending on the selected first communication network.
  • the communication facilitator receives the communication from the first device via the IP network, and if the selected first communication network is the CS network, the communication facilitator receives the communication from the first device via the CS network using the second identifier as the sender identifier.
  • the communication facilitator receives a request for sending a rich message, if the selected first communication network is the IP network, the communication facilitator receives the rich message from the first device via the IP network, and if the selected first communication network is the CS network, the communication facilitator receives a simplified message corresponding to the rich message from the first device via the CS network.
  • the communication facilitator sends the rich message to the second device via the IP network, and if the selected second communication network is the CS network, the communication facilitator sends the simplified message corresponding to the rich message to the second device via the CS network.
  • the communication facilitator rechecks the second communication network state, and if reselected second communication network is the IP network, the communication facilitator synchronizes to the second device to replace the simplified message with the rich message in the second device.
  • the second device selects the at least one second communication network among the plurality of the second communication networks connected between the second device and the communication facilitator, and the communication facilitator receives the another communication from the second device via the selected second communication network using the first identifier as a recipient identifier.
  • the communication facilitator selects the at least one first communication network among the plurality of the first communication networks connected between the first device and the communication facilitator, and sends the another communication to the first device via the selected first communication network using the second identifier as the recipient identifier.
  • the communication facilitator determines whether using the second identifier as the recipient identifier depending on the selected first communication network.
  • the communication facilitator sends the another communication to the first device via the IP network, and if the selected first communication network is the CS network, the communication facilitator sends the another communication to the first device via the CS network using the second identifier as the recipient identifier.
  • the communication facilitator receives a request for sending a rich message from the second device, if the selected second communication network is the IP network, the communication facilitator receives the rich message from the second device via the IP network, and if the selected second communication network is the CS network, the communication facilitator receives a simplified message corresponding to the rich message from the second device via the CS network.
  • the communication facilitator sends the rich message to the first device via the IP network, and if the selected first communication network is the CS network, the communication facilitator sends the simplified message corresponding to the rich message to the first device via the CS network.
  • the communication facilitator rechecks the first communication network state, and if reselected first communication network is the IP network, the communication facilitator synchronizes to the first device to replace the simplified message with the rich message in the first device.
  • the first identifier is stored in connection with an IMSI of the first device in a HLR, and when the first device signs up to an application, the application provider assigns the second identifier and update the HLR so that the second identifier is stored in connection with the IMSI.
  • the first identifier is a public number of the first device and the second identifier is a private number of the first device.
  • the communication includes at least one of call and message.
  • a non-transitory computer readable medium containing executable software instructions thereon wherein when installed and executed on a mobile device of a user for facilitating communication between parties in multi-network, performs a method comprising the steps of: initiating a communication, wherein the mobile device is associated with a first identifier and is assigned a second identifier from an application provider; selecting at least one first communication network among a plurality of first communication networks connected between the mobile device and a server; sending the communication from the mobile device to the server via the selected first communication network using the second identifier as a sender identifier; sending an instruction to the server to replace the second identifier with the first identifier; sending an instruction to the server to select at least one second communication network among a plurality of second communication networks connected between a second device and the server; and sending an instruction to the server to send the communication from the server to the second device via the selected second communication network using the first
  • Fig. 1 illustrates a simplified flow diagram of communicating across multiple networks when a sender is a subscriber of an application in accordance with an embodiment of the invention.
  • Fig. 2 illustrates a detailed flow diagram of calling across multiple networks when a sender is a subscriber of an application in accordance with an embodiment of the invention.
  • Fig. 3 illustrates a detailed flow diagram of messaging across multiple networks when a sender is a subscriber of an application in accordance with an embodiment of the invention.
  • Fig. 4 illustrates a simplified flow diagram of communicating across multiple networks when a recipient is a subscriber of an application in accordance with another embodiment of the invention.
  • Fig. 5 illustrates a detailed flow diagram of calling across multiple networks when a recipient is a subscriber of an application in accordance with another embodiment of the invention.
  • Fig. 6 illustrates a detailed flow diagram of messaging across multiple networks when a recipient is a subscriber of an application in accordance with another embodiment of the invention.
  • Fig. 7 illustrates an example of updating a HLR record.
  • Fig. 8 illustrates an example of routing a call through specialized SIP server.
  • Fig. 9 illustrates a flow diagram of location update by the specialized SIP server. Description of Embodiments of the Invention
  • Fig. 1 illustrates a simplified flow diagram of communicating across multiple networks when a sender is a subscriber of an application in accordance with an embodiment of the invention. More detailed flow diagrams regarding the fig. 1 are described in fig. 2 and fig. 3.
  • the system 100 includes the first device 110, the second device 120, the server 130, and an application provider (not shown).
  • the application provider provides an application or a service related to the present invention.
  • the application is installable on at least one of the first device 10 and the second device 120.
  • the application provider may include at least one application server and application database.
  • the application provider may be located remotely or independent from the server 130. However, in some embodiments, the application provider may be the server 130.
  • the first device 1 10 and the second device 120 communicate with each other via the server 130. It may be appreciated that the first device 1 0 and the second device 120 may refer to, but not limited to the following devices: mobile phone, tablet, laptop and computer.
  • the term 'communicating' includes at least one of calling and messaging.
  • the first device 110 and the server 130 are connected (either remotely or wired, hereinafter referred to as 'data communication') via at least one communication network (hereafter referred to as first communication network).
  • the second device 120 and the server 130 are in data communication via at least one communication network (hereafter referred to as second communication network).
  • the first communication network and the second communication network include circuit switched (CS) network, internet protocol (IP) network or both CS and IP networks.
  • the first device 1 10 is already associated with a first identifier via for example, a prior registration process.
  • the first identifier may include at least one of an identification (hereafter referred to as a public ID) and an original phone number (hereafter referred to as a public number).
  • the public ID and the public number are known to the public such as friends and family.
  • the first device 1 10 may be a subscriber of current telecommunications company A. In this case, the public number is related to a telecommunications company A.
  • the first device 1 10 may be a subscriber of different telecommunications company, e.g. a telecommunications company B.
  • the public number is related to the different telecommunications company B.
  • the public number is the original phone number assigned from the original telecommunications company.
  • a home location register (HLR) is a central database maintained by a network operator, such as a telecommunications company, that contains details of each mobile phone subscriber.
  • the HLR stores an international mobile subscriber identity (IMSI) of a SIM card that is installed on the subscriber's mobile phone and a mobile identification number (MIN) that is derived from a subscriber's phone number, and they are associated with each other.
  • IMSI international mobile subscriber identity
  • MIN mobile identification number
  • the HLR has stored the public number of the first device 1 10 associated with an IMSI of the first device 1 10, more specifically, the IMSI of a SIM card that is installed on the first device 1 10.
  • the user (hereafter referred to as a first user) is able to subscribe or sign up to the application or the service of the present invention.
  • the first device 1 10 signs up to the application by the first user's input (S110).
  • the first user may input the public number of the first device 1 10.
  • the application provider e.g. a server of the application or a database of the application, assigns a second identifier to the first device 1 10 (S120).
  • the second identifier may include at least one form of identification (hereafter referred to as a private ID) and a virtual number (hereafter referred to as a private number).
  • the private ID and the private number are not revealed to public.
  • the private number may be related to the current telecommunications company. In this case, the private number may follow number series or numbering rule of the current telecommunications company.
  • the current telecommunications company may be related to the service/application provider company or an associate company.
  • the first device 1 10 may be a subscriber of another telecommunications company B and obtain the private number related to the current telecommunications company A.
  • the private number may be related to the current location of the first device 10. In this case, the private number may follow number series or numbering rule of the country/state including the current location.
  • the first user may select a country/state or a telecommunications company and the first device 1 10 may get the private number based on the first user's selection.
  • the HLR record is updated by the application provider.
  • the first device's old HLR record is updated such that it now has the private number. Therefore, the HLR stores the private number associated with the IMS! of the first device 1 10, more specifically, the IMSI of a SIM card that is installed on the first device 10.
  • a new HLR record is created for the public number.
  • the new HLR record includes the public number associated with a new IMSI.
  • the new IMSI is not necessarily associated with a real SIM card. Therefore, the first device 1 10 has two HLR records.
  • the public number and the private number are related to each other (one-to-one), but the relationship is not necessarily stored in the HLR.
  • the relationship may be stored in a separate database or across a plurality of databases.
  • the first device 1 10 selects at least one the first communication network connected between the first device 1 10 and the server 130 (S130).
  • the plurality of first communication networks may include the CS network and the IP network.
  • the first device 1 0 checks the IP network quality.
  • the checking step may include checking whether the IP network quality is existent and/or good enough for a predetermined time.
  • the first device 110 selects the IP network. On the other hand, if the IP network quality is found to be in non-existence or not good enough to deliver the communication via the IP network, the first device 110 selects the CS network.
  • the first device 1 10 is able to initiate a quick test.
  • the quick test may include at least one of latency, bandwidth, jitter, price, and packet loss test.
  • the first device 110 is able to access/refer to a database of prior communications that had a relative indicator for quality. For example, if there are certain areas where data quality is known to be poor, that could be added to the database and used to select the CS network or the IP network.
  • the first device 1 10 may select both of the CS network and the IP network to deliver the communication. In this case, the first device 1 10 would send the communication to the server 130 via both of the CS network and the IP network.
  • the server 130 may select at least one first communication network connected between the first device 10 and the server 130.
  • the first device 1 10 may request a communication to the server 130 to communicate with the second device 120. Thereafter, the server 130 may check first communication network state among a plurality of first communication networks and select the at least one first communication network.
  • the first device 110 sends the communication to the server 130 using the private number as a sender number (S140).
  • S140 sender number
  • the first device 1 10 sends the communication to the server 130 via the CS network using the private number, which is enabled. Meanwhile, the server 130 may determine whether using the private number as the sender number depending on the selected first communication network.
  • the first device 110 sends the communication to the server 130 via the IP network.
  • the first device 1 10 may not use the private number, but use the public number as the sender number.
  • the first device 110 selects the CS network
  • the first device 1 10 sends the communication to the server 130 via the CS network. In this case, the first device 1 10 uses the private number as the sender number.
  • the server 130 receives the communication from the first device 1 10, and then, replaces the private number with the public number (S150). Therefore, the private number would be masked.
  • the server 130 selects at least one second communication network connected between the second device 120 and the server 130 (S160). Specifically, the server 130 checks the second communication network state among a plurality of second communication networks including the CS network and the IP network. Similarly, the server 130 checks whether the IP network quality is existent/good enough to deliver the communication via the IP network. The server 130 selects at least one of the CS network and the IP network depending on the checked IP network quality.
  • the server 130 is able to initiate a quick test to select at least one of the CS network and the IP network. It is possible to select both of the CS network and the IP network to deliver the communication. In this case, the server 130 would send the communication to the second device 120 via both of the CS network and the IP network.
  • the server 130 sends the communication to the second device 120 using the public number as the sender number (S170).
  • the second device 120 receives the communication with the public number as the sender number from the server 130.
  • the second device 120 is able to recognize that the sender of the communication is the first device 1 10 having the public number.
  • the second device 120 displays the public number as the sender number on a display of the second device 120 (S180).
  • an incoming call screen with the public number as the caller's number is displayed on the call screen. Further, at least one of the first user's name, nickname, photo and any other information stored associated with the public number is displayed with/on the incoming call screen.
  • the private number is not shown in the second device 120. The user of the second device 120 (hereafter referred to as a second user) is unable to see the private number of the first device 110.
  • the present invention's sender is able to deliver his/her calls/messages using a suitable transport network. Further, the present invention is able to deliver his/her calls/messages even when the CS signal is weak or nonexistent, or when outside of the original telecommunications company's country without incurring roaming costs. Therefore, the present invention is able to save time and cost.
  • the present invention's recipient is able to only see a single number of the sender whether the sender is IP-reachable or not, and whether the sender uses a native dial/application of the mobile device or the application of the present invention. Therefore, the present invention is able to make the user experience as seamless as possible.
  • Fig. 2 illustrates a detailed flow diagram of calling across multiple networks when a sender is a subscriber of an application in accordance with an embodiment of the invention.
  • the specialized SIP server SSS
  • the selected first communication network connected between the first device 110 and the server 130 is the CS network.
  • a mobile switching centre (MSC) 140 is the primary service delivery node for global system for mobile communications (GSM) and code division multiple access (CDMA), responsible for routing voice calls and messages.
  • GSM global system for mobile communications
  • CDMA code division multiple access
  • a session initial protocol gateway (SIP gateway, SIP G/W) 150 is used to interface a SIP network to other networks.
  • the private number is used as the sender number.
  • the MSC 140 and/or signal transfer points (STP) analyse the private number (S220), and route to specialized SIP server 130 via the SIP gateway 150 (S230). That is, the outgoing call is forced through the SIP gateway 150 (SIP trunk) and sent to the specialized SIP server 130 using SIP signalling.
  • the specialized SIP server 130 which may comprise at least one database (not shown)
  • internal database logic running in the specialized SIP server 130 locates the public number of the first device 110 and replaces the private number with the public number. After that, the special SIP server 130 sends the call to the second device 120 via the IP network using the public number. Otherwise, the special SIP server 130 sends the call back into the CS network via the SIP trunk using the public number (S240).
  • the system 100 used the private number.
  • the private number is replaced with the public number, and the public number would be used from now on. Meanwhile, rating and charging are able to be performed by the specialized SIP server 130.
  • the specialized SIP server 130 is a centre for all transactions, and the specialized SIP server 130 knows how the transactions were originated, i.e. via the CS network or the IP network. For example, it is possible to charge the first device 10 if a call is originated via the CS network and terminated via the IP network, but not charge the first device 110 if a call is originated via the IP network and terminated via the IP network.
  • Fig. 3 illustrates a detailed flow diagram of messaging across multiple networks when a sender is a subscriber of an application in accordance with an embodiment of the invention.
  • the specialized SIP server is the server 130.
  • the selected first communication network connected between the first device 1 10 and the server 130 is the CS network.
  • a short message service centre (SMSC) 160 is a network element in the mobile telephone network and its purpose is to store, forward, convert and deliver short message service (SMS) messages.
  • SMS short message service
  • the private number is used as the sender number.
  • the MSC 140 analyses the private number (S320), and route to specialized SIP server 130 via the SMSC 160 (S330). That is, the outgoing message is redirected into the SMSC 160 that is connected to the specialized SIP server 130.
  • the specialized SIP server 130 retrieves the outgoing SMS, and performs the database lookup. Moreover, the specialized SIP server 130 locates the public number of the first device 1 10, and replaces the private number that was used in the outgoing SMS with the public number of the first device 1 10 before sending the SMS to the second device 120. After that, the specialized SIP server 130 sends the SMS to the second device 120 using the public number of the first device 1 10 (S340).
  • SMPP short message peer-to-peer
  • Fig. 4 illustrates a simplified flow diagram of communicating across multiple networks when a recipient is a subscriber of an application in accordance with another embodiment of the invention. More detailed flow diagrams regarding the fig. 4 are described in fig. 5 and fig. 6.
  • the first device 1 10 is already associated with an original phone number (hereafter referred to as a public number) assigned from the original telecommunications company.
  • the public number is stored associated with information, e.g. IMSI, of the first device 1 10 in the HLR.
  • the first user is able to sign up to the application or the service of the present invention.
  • the first device 1 10 signs up to the application (S410) and the application provider assigns a private number to the first device 1 10 (S420).
  • the private number may be related to the current telecommunications company or current located country as described above.
  • the HLR record is updated as described above.
  • the second device 120 selects at least one second communication network connected between the second device 120 and the server 130 (S430). Specifically, the second device 120 checks second communication network state, e.g. IP network quality, among a plurality of second communication networks, e.g. CS network and IP network.
  • second communication network state e.g. IP network quality
  • the second device 120 selects the IP network. On the other hand, if the IP network quality is found to be in non-existence or not good enough to deliver the communication via the IP network, the second device 120 selects the CS network. Meanwhile, if both of the CS network quality and the IP network quality are good enough, the second device 120 is able to initiate a quick test as described above.
  • the second device 120 sends the communication to the server 130 via the selected second communication network using the public number as a recipient number (S440).
  • the server 130 receives the communication from the second device 120.
  • the server 130 selects at least one first communication network connected between the first device 1 10 and the server 130 (S450). Specifically, the server 130 checks first communication network state among a plurality of first communication networks including the CS network and the IP network.
  • the server 130 selects at least one of the CS network and the IP network depending on the checked IP network quality or quick test result.
  • the server 130 sends the communication to the first device 1 10 via the selected first communication network using the private number as the recipient number (S460).
  • the second device 20 receives the communication from the server 30.
  • the server 130 may determine whether using the private number as the recipient number depending on the selected first communication network. More specifically, if the server 130 selects the IP network, the server 130 sends the communication to the first device 10 via the IP network. In this case, the server 130 may not use the private number, but use the public number as the recipient number.
  • the server 130 selects the CS network
  • the server 130 sends the communication to the first device 1 0 via the CS network. In this case, the server 130 uses the private number as the recipient number.
  • Fig. 5 illustrates a detailed flow diagram of calling across multiple networks when a recipient is a subscriber of an application in accordance with another embodiment of the invention.
  • the fig. 5 illustrates that the first device (not shown) 1 10 receives an incoming call from the second device (not shown) 120.
  • the MSC (or gateway MSC, GMSC) 140 is received an incoming call destined for the public number of first device 1 10 (S510).
  • the MSC 140 sends a request to HLR 170 (S520). After that, the HLR 170 responds immediately to the MSC 140 (S530).
  • the incoming call is forced to go through the SS7/SIP gateway 150 (i.e. a SIP trunk) (S540) and then sent to the specialized SIP server 130 via SIP network (S550).
  • S540 SS7/SIP gateway 150
  • S550 SIP network
  • the specialized SIP server 130 is able to attempt to contact the client app, i.e. the application of the present invention, of the first device 1 10 via IP network. If the specialized SIP server 130 is able to reach the application and the IP network is voice capable, the call is delivered via the IP network to the application.
  • the specialized SIP server 130 is able to choose to deliver the call via the CS network to the private number of the first device 1 10.
  • the specialized SIP server 130 routes the call via a SIP trunk to the private number of the first device 1 10.
  • the specialized SIP server 130 is also able to apply many personalization rules to incoming calls: block a call, send the call to voicemail, etc. for handling the call. Accordingly, the present invention is able to direct the call through the CS network to the private number of the first device 1 10 or through the IP network to the application of the first device 1 10, or any combination thereof.
  • Fig. 6 illustrates a detailed flow diagram of messaging across multiple networks when a recipient is a subscriber of an application in accordance with another embodiment of the invention.
  • the fig. 6 illustrates that the first device (not shown) 1 10 receives an SMS from the second device (not shown) 120.
  • the MSC or an SMS gateway MSC, SMS-GMSC
  • the MSC 140 is received an incoming SMS destined for the public number of first device 1 10 (S610).
  • the MSC 140 needs to route the incoming SMS, the MSC 140 sends a request to HLR 170 (S620).
  • the HLR 170 responds immediately to the MSC 140 (S630).
  • the incoming SMS is forced to go to a specific SMSC 180 (S640) and will then go to via any number of protocols, e.g. short message peer-to-peer (SMPP), to the specialized SIP server 130 (S650).
  • SMSP short message peer-to-peer
  • the specialized SIP server 130 When the SMS is received by the specialized SIP server 130, any number of things can be done to the SMS. First, the specialized SIP server 130 is able to attempt to deliver the message to the application of the first device 1 10 via the IP network. If the specialized SIP server 130 is unable to reach the application via the IP network, the specialized SIP server 130 is able to choose to deliver the SMS via the CS network to the private number of the first device 1 10. The specialized SIP server 130 routes the SMS via any number of protocols, e.g. SMPP, to the private number of the first device 1 10.
  • SMPP any number of protocols
  • the specialized SIP server 130 is also able to apply many personalization rules to incoming SMS: block the SMS, send the SMS as email, etc. for handling the SMS.
  • the present invention is able to direct the SMS through the CS network to the private number of the first device 1 10 or through the IP network to the application of the first device 1 10, or any combination thereof.
  • the system 100 of the present invention handles rich communication between the first device 1 10 and the second device 120 that are running the application of the present invention.
  • the rich communication may be in the form of a rich message which includes at least one of long text message, photo message, video message, voice message and emoticon.
  • the first device 1 10 sends a rich message to the public number of the second device 120, and the rich message is delivered to the server 130.
  • the rich message is delivered to the server 130 via the IP network.
  • a simplified message of the rich message is delivered to the server 130 via the CS network (SMS).
  • SMS CS network
  • the second device 120 is IP-reachable, the rich message is delivered to the second device 120 from the server 130 via the IP network.
  • the second device 120 is not IP-reachable, the simplified message of the rich message is delivered to the second device 120 from the server 130 via the CS network.
  • the full message i.e. the rich message
  • the server 130 operates to recheck whether the first or second communication networks are IP-reachable or not. If the server 130 reselects the IP network as the second communication network connected between the second device 120 and the server 130, i.e. the second device 120 is IP-reachable, the server 130 synchronizes to the application of the second device 120 and the simplified message is replaced with or converted back to the rich message in the application. Then, the simplified message is deleted and the rich message is displayed in the display of the second device 120
  • the second device 120 would only receive the rich message as soon as the first device 100 is also IP-reachable. Since the system 100 delivers only the simplified message from the first device 1 0, the second device 120 only get the simplified message. Further, if the first device 1 10 is IP-reachable, the rich message and the simplified message corresponding to the rich message are delivered to the server 130 and the server 130 stores those messages.
  • the present invention is able to apply to any other situations regarding whether rich messaging capable or not.
  • the 'other situation' includes where the first device 110 or the second device 120 are not smart phones. In this case, if one of them is not a smart phone, the first user of the first device 1 10 and the second user of the second device 120 only communicate with simplified messages.
  • the server 130 stores any and all rich messages so that if one of the users would upgrade to a smart phone, e.g. buy the smart phone, upgrade software, the entire messages, i.e. including rich messages, will be synchronized to the one of them.
  • Fig. 7 illustrates an example of updating a HLR record.
  • the first device 1 10 is able to have two phone numbers, i.e. the public number and the private number.
  • the public number would be One number' of the first device 110.
  • the first device 110 Before the first device 1 10 signs up to the application of the present invention, the first device 110 has only one HLR record for a pair of the public number, e.g. 09209153085 and an IMSI of the SIM card in the first device 1 10, e.g. 515034200762993.
  • the application provider in the system 100 allocates the private number and update the HLR record.
  • the old HLR record will be updated such that it now includes a pair of the private number, e.g. 08120000001 and the IMSI of the SIM card installed on the first device 1 10, e.g. 515034200762993.
  • a new HLR record is created for the public number.
  • the new HLR record includes a pair of the public number, e.g. 08120000001 and a new IMSI.
  • the new IMSI does not need to be real, and is a telecommunications company resolvable IMSI that is not necessarily associated with a real SIM card. Therefore, the first device 1 10 has two HLR records.
  • the public number and the private number are related to each other (one-to-one), but the relationship is not necessarily stored on the HLR 170. The relationship may be stored in a separate database or across a plurality of databases.
  • the present invention is able to apply multi-SIM device, e.g. dual-SIM mobile phone.
  • the first device 1 10 has a first SIM card assigned a first public number and a second SIM card assigned a second public number.
  • the first public number is stored in accordance with a first IMSI, i.e. the first IMSI is related to the first SIM card in a first HLR 171 .
  • the second public number is stored with a second IMSI in a second HLR 172.
  • the first and the second HLRs 171 , 172 may be different, because the first telecommunications company for the first SIM card and the second telecommunications company for the second SIM card are likely to be different.
  • the first public number with the first IMSI and the second public number with the second IMSI may be stored together in the same HLR 170.
  • the application provider allocates a first private number. After that, the first device 1 10 signs up to the application using the second SIM card, the application provider may allocate same private number, i.e. the first private number. Otherwise, the application provider may allocate different private number, i.e. the second private number.
  • one HLR entry for the first public number + first IMSI and other HLR entry for the second public number + second IMSI are related to each other.
  • an identifier or indicator to present relationship between two HLR entries may be stored in the HLR 170, 171 , 172 or any other server/database. Therefore, the same private number is used for both of the first public number and the second public number.
  • the first user of the first device 1 10 prioritizes the first and the second public number. Further, the first user selects the priority numbers corresponding to situations. For example, the first user selects the first public number as the priority number for calling/messaging the second user. Meanwhile, the first device 1 10 prioritizes the first and the second public number.
  • the first device 110 i.e. a controller of the first device 1 10, select the priority numbers based on the first user's usage patterns. For example, if the first user usually calls/messages the second user using the first SIM card, the first device 1 10 may select the first public number as the priority number. For another example, if the second user is a subscriber of a specific telecommunications company, the first device 1 10 may select the first public number as the priority number, because the first SIM card is related to the specific telecommunications company.
  • the first device 1 0 sends call/message to the server 130 using the private number as the sender number via suitable network. It does not matter the first device 1 10 uses whether the first SIM card or the second SIM card to send the call/message. After that, the server 130 replaces the private number with the first public number. The server 130 sends the call/message to the second device 120 using the first public number as the sender number. Finally, the second device 120 receives the call/message and recognizes the first public number as the sender number.
  • the first device 1 10 gets two private numbers including the first private number and the second private number according to each of the first public number and the second public number. Specifically, one updated HLR entry for the first private number + first IMSI and other updated HLR entry for the second private number + second IMSI are related to each other. For example, an identifier or indicator to present relationship between two updated HLR entries may be stored in the HLR 170, 171 , 172 or any other server/database. Further, the first user and/or the first device 1 10 prioritize the first and the second public number as described above. After that, the first device 110 sends call/message to the server 130 using the first or the second private number as the sender number via suitable network.
  • the server 130 replaces the first or the second private number with the first public number.
  • the server 130 sends the call/message to the second device 120 using the first public number as the sender number.
  • the second device 120 receives the call/message and recognizes the first public number as the sender number.
  • the second device 120 is able to see only the one number, i.e. the first public number, of the first user even though the first user calls/messages using the second SIM card.
  • Fig. 8 illustrates an example of routing a call through specialized SIP server.
  • the specialized MSC 190 there are three components including the specialized MSC 190, the specialized SIP server 130, and the application, i.e. the client application of the present invention.
  • the specialized MSC 190 is able to force any calls and messages sent to the public number of the first device 110 to be sent to the specialized SIP server 130.
  • the specialized MSC 190 does this task by sending a location update to the HLR 170. Further, the specialized MSC 190 is able to notify to the MSC 140 where the first device 110 in the system 100.
  • Fig. 9 illustrates a flow diagram of location update by the specialized SIP server.
  • the specialized MSC 190 accepts messages and then sends an update location to the HLR 170.
  • the MSC 140 needs to route a call or SMS, the MSC 140 sends a request to the HLR 170.
  • the mobile station roaming number (MSRN) is provided back to the requesting MSC 140.
  • the HLR 170 stores the MSRN and responds immediately to the requesting MSC 140 with the MSRN.
  • the HLR 170 does not store the MSRN and needs to inquire from the specialized MSC 90.
  • the specialized MSC 190 needs to store the MSRN.
  • the specialized SIP server 130 provides a number masking capability for masking the private number.
  • the specialized SIP server 130 is activated when the first device 1 0 uses circuit-switched features of the mobile phone, i.e. the first device 1 10 uses the private number to make a voice call or send SMS via the CS network.
  • the specialized SIP server 130 is able to receive the outgoing call or SMS from the first device 1 10.

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Databases & Information Systems (AREA)
  • Computer Security & Cryptography (AREA)
  • Mobile Radio Communication Systems (AREA)
PCT/SG2017/050276 2016-05-31 2017-05-30 System and method for communicating across multiple network types Ceased WO2017209693A1 (en)

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JP2018563620A JP7065789B2 (ja) 2016-05-31 2017-05-30 複数のネットワークを通じて通信するためのシステム
US16/305,814 US11343863B2 (en) 2016-05-31 2017-05-30 System and method for communicating across multiple network types
CN201780045027.4A CN109845392A (zh) 2016-05-31 2017-05-30 用于跨多种网络类型进行通信的系统和方法
EP17807122.1A EP3466188A4 (en) 2016-05-31 2017-05-30 SYSTEM AND METHOD FOR COMMUNICATING VIA MULTIPLE NETWORK TYPES
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US20200252772A1 (en) 2020-08-06
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CN109845392A (zh) 2019-06-04
EP3466188A4 (en) 2019-12-04
JP2019518382A (ja) 2019-06-27
EP3466188A1 (en) 2019-04-10
US11343863B2 (en) 2022-05-24

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