US2016269998A1PendingUtilityA1

Dynamic voip location system

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Assignee: SHOO 533 LTDPriority: Apr 4, 2011Filed: May 18, 2016Published: Sep 15, 2016
Est. expiryApr 4, 2031(~4.7 yrs left)· nominal 20-yr term from priority
H04W 88/02H04L 67/26H04W 52/0264H04M 1/2535H04M 7/006H04W 68/00H04L 65/1006H04L 61/4535H04L 67/55H04L 65/1104H04W 4/02H04M 3/42348Y02D30/70
44
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Claims

Abstract

A system for determining dynamically any given registered wireless device VoIP location, whereby the dynamic method reports the VoIP address return path as being the VoIP Location into a database. Applications of the system can access the database to contact each individual, specific, fixed or wireless device by VoIP for any data exchange.

Claims

exact text as granted — not AI-modified
1 . A system for reducing the power consumption of any given “VoIP (internet) enabled wireless device” registered to a “notification service”, the system including a server, an internet enabled wireless device registered to the notification service server and a “software module” downloadable from the server to the internet enabled wireless device or embedded into the internet enabled wireless device, in which: (a) the system is adapted to receive VoIP (internet) communications from and to multiple internet enabled devices with a built-in software module; (b) the software module inside the internet enabled wireless device, part of the system, is adapted to detect if any other software applications other than the software module is active in the internet enabled wireless device; (c) wherein
 the software module adapted to instruct the internet enabled wireless device to force close any such other applications different from the software module that requires VoIP (internet) connection; 
 or the software module adapted to directly force close any such other applications, running on the internet enabled wireless device, different from the software module that requires VoIP (internet) connection. 
 
     
     
         2 . A system for reducing the power consumption of any given “VoIP (internet) enabled wireless device” registered to a “notification service”, the system including a server, an internet enabled wireless device registered to the notification service server and a “software module” downloadable from the server to the internet enabled wireless device or embedded into the internet enabled wireless device, in which: (a) the system is adapted to receive VoIP (internet) communications from and to multiple internet enabled devices with a built-in software module; (b) the software module inside the internet enabled wireless device, part of the system, is adapted to detect if any other software applications other than the software module is active in the internet enabled wireless device even if the internet enabled wireless device is in standby mode or power safe mode; (c) wherein
 the software module is adapted to instruct the internet enabled wireless device to force close any such other applications different from the software module that requires VoIP (internet) connection when the internet enabled wireless device enters standby mode or power safe mode; 
 the software module is adapted to directly force close any such other applications, running on the internet enabled wireless device, different from the software module that requires VoIP (internet) connection when the internet enabled wireless device enters standby mode or power safe mode. 
 
     
     
         3 . A system for reducing the power consumption of any given “VoIP (internet) enabled wireless device” registered to a “notification service”, the system including a server, an internet enabled wireless device registered to the notification service server and a “software module” downloadable from the server to the internet enabled wireless device or embedded into the internet enabled wireless device, in which: (a) the system is adapted to receive VoIP (internet) communications from and to multiple internet enabled devices with a built-in software module; (b) the software module inside the internet enabled wireless device, part of the system, is adapted to detect if any other software applications other than the software module is active in the internet enabled wireless device even if the internet enabled wireless device is in standby mode or power safe mode; (c) wherein
 the software module is adapted to instruct the internet enabled wireless device to execute instructions received from the notification service through an incoming notification, such instructions being one of this list, show incoming notification on the screen of the internet enabled wireless device, wake a specific application of the internet enabled wireless device, open a specific application in the instructed specific application mode for incoming message content or incoming call, download a specific content in the instructed application accessible local memory of the internet enabled wireless device, even when the internet enabled wireless device is in standby mode or power safe mode; 
 the software module is adapted to directly execute in the internet enabled wireless device instructions received from the notification service through an incoming notification, such instructions being one of this list, show incoming notification on the screen of the internet enabled wireless device, wake a specific application of the internet enabled wireless device, open a specific application in the instructed specific application mode for incoming message content or incoming call, download a specific content in the instructed application accessible local memory of the internet enabled wireless device, even when the internet enabled wireless device is in standby mode or power safe mode. 
 
     
     
         4 . The system of  claim 1 , wherein the software module is a push notification service. 
     
     
         5 . The system according to  claim 1 , wherein the system server stores the software module which can be downloaded by any internet enabled wireless device registered to the system. 
     
     
         6 . The system according to  claim 1 , wherein the internet enabled wireless device registered to the system is a mobile phone, mobile smart phone, wireless pc card, wireless module, wireless tablet, or a wireless pc. 
     
     
         7 . The system according to  claim 1 , wherein a wireless internet enabled wireless device can download over the air the software module. 
     
     
         8 . The system according to  claim 1 , wherein a “VoIP (internet) enabled wireless device” registered to the system is a wired line internet enabled device. 
     
     
         9 . The system according to  claim 1 , wherein “VoIP” (internet) uses any data communications protocol selected from the following: GSM/GPRS, WAP, 3G, UMTS, 4G, WiFi, Wimax, CDMA, WCDMA, WSCDMA, SCDMA, TDSCDMA, CWTS, CWPAN, PDS, PHS, Bluetooth, WRP, WNP, WAN, LAN, ATM, ISDN, DSL, ADSL, VDSL, ISDM, HTML, TCP/IP, HTTP, HTTPS, UDP. 
     
     
         10 . The system according to  claim 1 , wherein “VoIP (internet) enabled wireless device” is adapted to incorporate a SIP (session initiation protocol) application, and wherein, when internet enabled wireless device user WD_y 1  opens the SIP application then the “software application” instructs the internet enabled wireless device to the exit standby state, and wherein if the WD_y 1  user initiates a SIP call to WD_x 1  who is in standby mode through a VoIP (internet) connections then system server informs WD_x 1  of a call request originated by WD_y 1  and destined for WD_x 1  through the VoIP location server (notification srvce) and send data with instructions for WD_x 1  software module to activate the corresponding SIP application to receive the incoming signalling, or to notify the user of WD_x 1  with a notification of an incoming call such that the user can accept or reject it. In the event of acceptance of the incoming notification the corresponding action will be automatically performed by the software module, such action being of this list: to instruct the corresponding SIP application to accept the incoming call request originated by WD_y 1 , accept the incoming message content originated by WD_y 1 , download a specific incoming content in the SIP application accessible local memory of the internet enabled wireless device, also when the internet enabled wireless device is in standby mode or power safe mode. 
     
     
         11 . The system of  claim 2 , wherein the software module is a push notification service. 
     
     
         12 . The system according to  claim 2 , wherein the system server stores the software module which can be downloaded by any internet enabled wireless device registered to the system. 
     
     
         13 . The system according to  claim 2 , wherein the internet enabled wireless device registered to the system is a mobile phone, mobile smart phone, wireless pc card, wireless module, wireless tablet, or a wireless pc. 
     
     
         14 . The system according to  claim 2 , wherein a wireless internet enabled wireless device can download over the air the software module. 
     
     
         15 . The system according to  claim 2 , wherein a “VoIP (internet) enabled wireless device” registered to the system is a wired line internet enabled device. 
     
     
         16 . The system according to  claim 2 , wherein “VoIP” (internet) uses any data communications protocol selected from the following: GSM/GPRS, WAP, 3G, UMTS, 4G, WiFi, Wimax, CDMA, WCDMA, WSCDMA, SCDMA, TDSCDMA, CWTS, CWPAN, PDS, PHS, Bluetooth, WRP, WNP, WAN, LAN, ATM, ISDN, DSL, ADSL, VDSL, ISDM, HTML, TCP/IP, HTTP, HTTPS, UDP. 
     
     
         17 . The system according to  claim 2 , wherein “VoIP (internet) enabled wireless device” is adapted to incorporate a SIP (session initiation protocol) application, and wherein, when internet enabled wireless device user WD_y 1  opens the SIP application then the “software application” instructs the internet enabled wireless device to the exit standby state, and wherein if the WD_yl user initiates a SIP call to WD_x 1  who is in standby mode through a VoIP (internet) connections then system server informs WD_x 1  of a call request originated by WD_yl and destined for WD_x 1  through the VoIP location server (notification srvce) and send data with instructions for WD_x 1  software module to activate the corresponding SIP application to receive the incoming signalling, or to notify the user of WD_x 1  with a notification of an incoming call such that the user can accept or reject it. In the event of acceptance of the incoming notification the corresponding action will be automatically performed by the software module, such action being of this list: to instruct the corresponding SIP application to accept the incoming call request originated by WD_y 1 , accept the incoming message content originated by WD_y 1 , download a specific incoming content in the SIP application accessible local memory of the internet enabled wireless device, also when the internet enabled wireless device is in standby mode or power safe mode. 
     
     
         18 . The system of  claim 3 , wherein the software module is a push notification service. 
     
     
         19 . The system according to  claim 3 , wherein the system server stores the software module which can be downloaded by any internet enabled wireless device registered to the system. 
     
     
         20 . The system according to  claim 3 , wherein the internet enabled wireless device registered to the system is a mobile phone, mobile smart phone, wireless pc card, wireless module, wireless tablet, or a wireless pc. 
     
     
         21 . The system according to  claim 3 , wherein a wireless internet enabled wireless device can download over the air the software module. 
     
     
         22 . The system according to  claim 3 , wherein a “VoIP (internet) enabled wireless device” registered to the system is a wired line internet enabled device. 
     
     
         23 . The system according to  claim 3 , wherein “VoIP” (internet) uses any data communications protocol selected from the following: GSM/GPRS, WAP, 3G, UMTS, 4G, WiFi, Wimax, CDMA, WCDMA, WSCDMA, SCDMA, TDSCDMA, CWTS, CWPAN, PDS, PHS, Bluetooth, WRP, WNP, WAN, LAN, ATM, ISDN, DSL, ADSL, VDSL, ISDM, HTML, TCP/IP, HTTP, HTTPS, UDP. 
     
     
         24 . The system according to  claim 3 , wherein “VoIP (internet) enabled wireless device” is adapted to incorporate a SIP (session initiation protocol) application, and wherein, when internet enabled wireless device user WD_y 1  opens the SIP application then the “software application” instructs the internet enabled wireless device to the exit standby state, and wherein if the WD_y 1  user initiates a SIP call to WD_x 1  who is in standby mode through a VoIP (internet) connections then system server informs WD_x 1  of a call request originated by WD_y 1  and destined for WD_x 1  through the VoIP location server (notification srvce) and send data with instructions for WD_x 1  software module to activate the corresponding SIP application to receive the incoming signalling, or to notify the user of WD_x 1  with a notification of an incoming call such that the user can accept or reject it. In the event of acceptance of the incoming notification the corresponding action will be automatically performed by the software module, such action being of this list: to instruct the corresponding SIP application to accept the incoming call request originated by WD_y 1 , accept the incoming message content originated by WD_y 1 , download a specific incoming content in the SIP application accessible local memory of the internet enabled wireless device, also when the internet enabled wireless device is in standby mode or power safe mode. 
     
     
         25 . A method for reducing the power consumption of any given “VoIP (internet) enabled wireless device” registered to a “notification service”, the method including the steps of a server, an internet enabled wireless device registered to the notification service server and a “software module” downloadable from the server to the internet enabled wireless device or embedded into the internet enabled wireless device communicating with each other, in which the method includes the further steps of: (a) the server is adapted to receive VoIP (internet) communications from and to multiple internet enabled devices with a built-in software module; (b) the software module inside the internet enabled wireless device, is adapted to detect if any other software applications other than the software module is active in the internet enabled wireless device; (c) wherein the further steps are performed of
 the software module instructing the internet enabled wireless device to force close any such other applications different from the software module that requires VoIP (internet) connection; 
 or the software module directly force closing any such other applications, running on the internet enabled wireless device, different from the software module that requires VoIP (internet) connection. 
 
     
     
         26 . A method for reducing the power consumption of any given “VoIP (internet) enabled wireless device” registered to a “notification service”, the method including the steps of a server, an internet enabled wireless device registered to the notification service server and a “software module” downloadable from the server to the internet enabled wireless device or embedded into the internet enabled wireless device communicating with each other, in which the method includes the further steps of: (a) the server is adapted to receive VoIP (internet) communications from and to multiple internet enabled devices with a built-in software module; (b) the software module inside the internet enabled wireless device, is adapted to detect if any other software applications other than the software module is active in the internet enabled wireless device, even if the internet enabled wireless device is in standby mode or power safe mode; (c) wherein the further steps are performed of
 the software module instructing the internet enabled wireless device to force close any such other applications different from the software module that requires VoIP (internet) connection, even when the internet enabled wireless device is in standby mode or power safe mode; 
 the software module force closing any such other applications, running on the internet enabled wireless device, different from the software module that requires VoIP (internet) connection, even when the internet enabled wireless device is in standby mode or power safe mode. 
 
     
     
         27 . A method for reducing the power consumption of any given “VoIP (internet) enabled wireless device” registered to a “notification service”, the method including the steps of a server, an internet enabled wireless device registered to the notification service server and a “software module” downloadable from the server to the internet enabled wireless device or embedded into the internet enabled wireless device communicating with each other, in which the method includes the further steps of: (a) the server is adapted to receive VoIP (internet) communications from and to multiple internet enabled devices with a built-in software module; (b) the software module inside the internet enabled wireless device, is adapted to detect if any other software applications other than the software module is active in the internet enabled wireless device, even if the internet enabled wireless device is in standby mode or power safe mode; (c) wherein the further steps are performed of
 the software module instructs the internet enabled wireless device to execute instructions received from the notification service through an incoming notification, such instructions being one of this list, show incoming notification on the screen of the internet enabled wireless device, wake a specific application of the internet enabled wireless device, open a specific application in the instructed specific application mode for incoming message content or incoming call, download a specific content in the instructed application accessible local memory of the internet enabled wireless device, even when the internet enabled wireless device is in standby mode or power safe mode; 
 the software module executes in the internet enabled wireless device instructions received from the notification service through an incoming notification, such instructions being one of this list, show incoming notification on the screen of the internet enabled wireless device, wake a specific application of the internet enabled wireless device, open a specific application in the instructed specific application mode for incoming message content or incoming call, download a specific content in the instructed application accessible local memory of the internet enabled wireless device, even when the internet enabled wireless device is in standby mode or power safe mode. 
 
     
     
         28 . The method according to  claim 25 , wherein “VoIP (internet) enabled wireless device” is adapted to incorporate a SIP (session initiation protocol) application, and wherein the following steps of, (a) when internet enabled wireless device user WD_y 1  opens the SIP application then the “software application” instructs the internet enabled wireless device to the exit standby state, and wherein the further step of, (b) when the WD_y 1  user initiates a SIP call to WD_x 1  who is in standby mode through a VoIP (internet) connections then system server informs WD_x 1  of a call request originated by WD_y 1  and destined for WD_x 1  through the VoIP location server (notification server) and sends data with instructions for WD_x 1  software module to activate the corresponding SIP application to receive the incoming signalling, or to notify the user of WD_x 1  with a notification of an incoming call such that the user can accept or reject it; in the event of acceptance of the incoming notification the corresponding action will be automatically performed by the software module, such action being of this list: to instruct the corresponding SIP application to accept the incoming call request originated by WD_y 1 , accept the incoming message content originated by WD_y 1 , download a specific incoming content in the SIP application accessible local memory of the internet enabled wireless device, also when the internet enabled wireless device is in standby mode or power safe mode. 
     
     
         29 . The method according to  claim 26 , wherein “VoIP (internet) enabled wireless device” is adapted to incorporate a SIP (session initiation protocol) application, and wherein the following steps of, (a) when internet enabled wireless device user WD_y 1  opens the SIP application then the “software application” instructs the internet enabled wireless device to the exit standby state, and wherein the further step of, (b) when the WD_y 1  user initiates a SIP call to WD_x 1  who is in standby mode through a VoIP (internet) connections then system server informs WD_x 1  of a call request originated by WD_y 1  and destined for WD_x 1  through the VoIP location server (notification server) and sends data with instructions for WD_x 1  software module to activate the corresponding SIP application to receive the incoming signalling, or to notify the user of WD_x 1  with a notification of an incoming call such that the user can accept or reject it; in the event of acceptance of the incoming notification the corresponding action will be automatically performed by the software module, such action being of this list: to instruct the corresponding SIP application to accept the incoming call request originated by WD_y 1 , accept the incoming message content originated by WD_y 1 , download a specific incoming content in the SIP application accessible local memory of the internet enabled wireless device, also when the internet enabled wireless device is in standby mode or power safe mode. 
     
     
         30 . The method according to  claim 27 , wherein “VoIP (internet) enabled wireless device” is adapted to incorporate a SIP (session initiation protocol) application, and wherein the following steps of, (a) when internet enabled wireless device user WD_y 1  opens the SIP application then the “software application” instructs the internet enabled wireless device to the exit standby state, and wherein the further step of, (b) when the WD_y 1  user initiates a SIP call to WD_x 1  who is in standby mode through a VoIP (internet) connections then system server informs WD_x 1  of a call request originated by WD_y 1  and destined for WD_x 1  through the VoIP location server (notification server) and sends data with instructions for WD_x 1  software module to activate the corresponding SIP application to receive the incoming signalling, or to notify the user of WD_x 1  with a notification of an incoming call such that the user can accept or reject it; in the event of acceptance of the incoming notification the corresponding action will be automatically performed by the software module, such action being of this list: to instruct the corresponding SIP application to accept the incoming call request originated by WD_y 1 , accept the incoming message content originated by WD_y 1 , download a specific incoming content in the SIP application accessible local memory of the internet enabled wireless device, also when the internet enabled wireless device is in standby mode or power safe mode.

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