Difference between revisions of "AT&T Intellectual Property I, L.P. patent applications published on November 30th, 2023"
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| + | '''Summary of the patent applications from AT&T Intellectual Property I, L.P. on November 30th, 2023''' | ||
| + | |||
| + | AT&T Intellectual Property I, L.P. has recently filed several patent applications related to technologies in 5G and next-generation networks. These patents aim to improve network efficiency, signal propagation, user equipment response, and coverage during network outages. | ||
| + | |||
| + | Summary: | ||
| + | AT&T Intellectual Property I, L.P. has filed multiple patent applications for technologies in 5G and next-generation networks. These patents focus on improving network efficiency, signal propagation, user equipment response, and coverage during network outages. Notable applications include technologies for predicting and facilitating the transition of idle user equipment to active mode, generating propagation models for carrier signal sources, determining user equipment response to base station signals, prioritizing the selection of primary secondary cells, disabling mobile device communications near aircraft, operating as a remote user equipment through a relay, traffic steering in non-public networks and PLMN clouds, mapping signal propagation using idle mode user equipment, authenticating user identity in virtual environments, and providing internetwork coverage during network outages. | ||
| + | |||
| + | Notable Applications: | ||
| + | * Predicting and facilitating transition of idle user equipment to active mode in 5G networks. | ||
| + | * Generating propagation models for carrier signal sources in 5G networks. | ||
| + | * Determining user equipment response to base station signals in 5G networks. | ||
| + | * Prioritizing selection of primary secondary cells in non-standalone scenarios. | ||
| + | * Disabling mobile device communications near aircraft to prevent interference. | ||
| + | * Operating as a remote user equipment through a relay in wireless networks. | ||
| + | * Traffic steering in non-public networks and PLMN clouds. | ||
| + | * Mapping signal propagation using idle mode user equipment in 5G networks. | ||
| + | * Authenticating user identity in virtual environments. | ||
| + | * Providing internetwork coverage during network outages in 5G networks. | ||
| + | |||
| + | |||
| + | |||
| + | |||
==Patent applications for AT&T Intellectual Property I, L.P. on November 30th, 2023== | ==Patent applications for AT&T Intellectual Property I, L.P. on November 30th, 2023== | ||
| − | ===AUTOMATED GENERATION OF NETWORK DATA VISUALIZATION DASHBOARDS ([[US Patent Application 17664683. AUTOMATED GENERATION OF NETWORK DATA VISUALIZATION DASHBOARDS simplified abstract|17664683]])=== | + | ===AUTOMATED GENERATION OF NETWORK DATA VISUALIZATION DASHBOARDS ([[US Patent Application 17664683. AUTOMATED GENERATION OF NETWORK DATA VISUALIZATION DASHBOARDS simplified abstract (AT&T Intellectual Property I, L.P.)|17664683]])=== |
| Line 9: | Line 31: | ||
| − | ===SYSTEM AND METHOD FOR AUTOMATED CATALOGING AND BUILDING MACHINE LEARNING MODELS ([[US Patent Application 17752203. SYSTEM AND METHOD FOR AUTOMATED CATALOGING AND BUILDING MACHINE LEARNING MODELS simplified abstract|17752203]])=== | + | ===LEVERAGING VISUAL DATA TO ENHANCE AUDIO RECEPTION ([[US Patent Application 17804722. LEVERAGING VISUAL DATA TO ENHANCE AUDIO RECEPTION simplified abstract (AT&T Intellectual Property I, L.P.)|17804722]])=== |
| + | |||
| + | |||
| + | '''Main Inventor''' | ||
| + | |||
| + | Zachary Cleigh Meredith | ||
| + | |||
| + | |||
| + | ===SYSTEM AND METHOD FOR AUTOMATED CATALOGING AND BUILDING MACHINE LEARNING MODELS ([[US Patent Application 17752203. SYSTEM AND METHOD FOR AUTOMATED CATALOGING AND BUILDING MACHINE LEARNING MODELS simplified abstract (AT&T Intellectual Property I, L.P.)|17752203]])=== | ||
| Line 17: | Line 47: | ||
| − | ===FACILITATING TRANSITION TO ACTIVE MODE BY AN IDLE DEVICE BASED ON AN ACTIVATION REQUEST ([[US Patent Application 17829188. FACILITATING TRANSITION TO ACTIVE MODE BY AN IDLE DEVICE BASED ON AN ACTIVATION REQUEST simplified abstract|17829188]])=== | + | ===FACILITATING TRANSITION TO ACTIVE MODE BY AN IDLE DEVICE BASED ON AN ACTIVATION REQUEST ([[US Patent Application 17829188. FACILITATING TRANSITION TO ACTIVE MODE BY AN IDLE DEVICE BASED ON AN ACTIVATION REQUEST simplified abstract (AT&T Intellectual Property I, L.P.)|17829188]])=== |
| Line 25: | Line 55: | ||
| − | ===ALLOCATING ANTENNA RESOURCES TO PREPARE FOR IDLE EQUIPMENT TO TRANSITION TO ACTIVE MODE ([[US Patent Application 17829192. ALLOCATING ANTENNA RESOURCES TO PREPARE FOR IDLE EQUIPMENT TO TRANSITION TO ACTIVE MODE simplified abstract|17829192]])=== | + | ===ALLOCATING ANTENNA RESOURCES TO PREPARE FOR IDLE EQUIPMENT TO TRANSITION TO ACTIVE MODE ([[US Patent Application 17829192. ALLOCATING ANTENNA RESOURCES TO PREPARE FOR IDLE EQUIPMENT TO TRANSITION TO ACTIVE MODE simplified abstract (AT&T Intellectual Property I, L.P.)|17829192]])=== |
| Line 33: | Line 63: | ||
| − | ===METHOD AND APPARATUS FOR ADAPTIVE BIT STREAMING USING CONSUMPTION CONTEXT ([[US Patent Application 18064163. METHOD AND APPARATUS FOR ADAPTIVE BIT STREAMING USING CONSUMPTION CONTEXT simplified abstract|18064163]])=== | + | ===METHOD AND APPARATUS FOR ADAPTIVE BIT STREAMING USING CONSUMPTION CONTEXT ([[US Patent Application 18064163. METHOD AND APPARATUS FOR ADAPTIVE BIT STREAMING USING CONSUMPTION CONTEXT simplified abstract (AT&T Intellectual Property I, L.P.)|18064163]])=== |
| Line 41: | Line 71: | ||
| − | ===Autonomous Vehicle Pairing Management ([[US Patent Application 17826269. Autonomous Vehicle Pairing Management simplified abstract|17826269]])=== | + | ===Autonomous Vehicle Pairing Management ([[US Patent Application 17826269. Autonomous Vehicle Pairing Management simplified abstract (AT&T Intellectual Property I, L.P.)|17826269]])=== |
| Line 49: | Line 79: | ||
| − | ===AUTOMATION TO REDUCE LOCATION ERROR RATE IN E911 LOCATION-BASED SERVICES ([[US Patent Application 17752633. AUTOMATION TO REDUCE LOCATION ERROR RATE IN E911 LOCATION-BASED SERVICES simplified abstract|17752633]])=== | + | ===AUTOMATION TO REDUCE LOCATION ERROR RATE IN E911 LOCATION-BASED SERVICES ([[US Patent Application 17752633. AUTOMATION TO REDUCE LOCATION ERROR RATE IN E911 LOCATION-BASED SERVICES simplified abstract (AT&T Intellectual Property I, L.P.)|17752633]])=== |
| Line 57: | Line 87: | ||
| − | ===PROVIDING COVERAGE TO USER EQUIPMENT FROM ANOTHER NETWORK AFFECTED BY A NETWORK OUTAGE OF LIMITED DURATION ([[US Patent Application 17826002. PROVIDING COVERAGE TO USER EQUIPMENT FROM ANOTHER NETWORK AFFECTED BY A NETWORK OUTAGE OF LIMITED DURATION simplified abstract|17826002]])=== | + | ===PROVIDING COVERAGE TO USER EQUIPMENT FROM ANOTHER NETWORK AFFECTED BY A NETWORK OUTAGE OF LIMITED DURATION ([[US Patent Application 17826002. PROVIDING COVERAGE TO USER EQUIPMENT FROM ANOTHER NETWORK AFFECTED BY A NETWORK OUTAGE OF LIMITED DURATION simplified abstract (AT&T Intellectual Property I, L.P.)|17826002]])=== |
| Line 65: | Line 95: | ||
| − | ===SYSTEM AND METHOD FOR VERIFYING PRESENCE IN VIRTUAL ENVIRONMENTS ([[US Patent Application 17826458. SYSTEM AND METHOD FOR VERIFYING PRESENCE IN VIRTUAL ENVIRONMENTS simplified abstract|17826458]])=== | + | ===SYSTEM AND METHOD FOR VERIFYING PRESENCE IN VIRTUAL ENVIRONMENTS ([[US Patent Application 17826458. SYSTEM AND METHOD FOR VERIFYING PRESENCE IN VIRTUAL ENVIRONMENTS simplified abstract (AT&T Intellectual Property I, L.P.)|17826458]])=== |
| Line 73: | Line 103: | ||
| − | ===ESTIMATING SIGNAL PROPAGATION BASED ON SAMPLING BY USER EQUIPMENT IN IDLE MODE ([[US Patent Application 17829199. ESTIMATING SIGNAL PROPAGATION BASED ON SAMPLING BY USER EQUIPMENT IN IDLE MODE simplified abstract|17829199]])=== | + | ===ESTIMATING SIGNAL PROPAGATION BASED ON SAMPLING BY USER EQUIPMENT IN IDLE MODE ([[US Patent Application 17829199. ESTIMATING SIGNAL PROPAGATION BASED ON SAMPLING BY USER EQUIPMENT IN IDLE MODE simplified abstract (AT&T Intellectual Property I, L.P.)|17829199]])=== |
| Line 81: | Line 111: | ||
| − | ===TRAFFIC STEERING FOR NON-PUBLIC NETWORKS AND PUBLIC LAND MOBILE NETWORK CLOUDS ([[US Patent Application 17804421. TRAFFIC STEERING FOR NON-PUBLIC NETWORKS AND PUBLIC LAND MOBILE NETWORK CLOUDS simplified abstract|17804421]])=== | + | ===TRAFFIC STEERING FOR NON-PUBLIC NETWORKS AND PUBLIC LAND MOBILE NETWORK CLOUDS ([[US Patent Application 17804421. TRAFFIC STEERING FOR NON-PUBLIC NETWORKS AND PUBLIC LAND MOBILE NETWORK CLOUDS simplified abstract (AT&T Intellectual Property I, L.P.)|17804421]])=== |
| Line 89: | Line 119: | ||
| − | ===USER EQUIPMENT-TO-NETWORK RELAY CONTROL SYSTEM AND METHOD ([[US Patent Application 17827289. USER EQUIPMENT-TO-NETWORK RELAY CONTROL SYSTEM AND METHOD simplified abstract|17827289]])=== | + | ===USER EQUIPMENT-TO-NETWORK RELAY CONTROL SYSTEM AND METHOD ([[US Patent Application 17827289. USER EQUIPMENT-TO-NETWORK RELAY CONTROL SYSTEM AND METHOD simplified abstract (AT&T Intellectual Property I, L.P.)|17827289]])=== |
| Line 97: | Line 127: | ||
| − | ===MANAGEMENT OF MOBILE COMMUNICATIONS DEVICES PROXIMATE AIRCRAFT ([[US Patent Application 17804103. MANAGEMENT OF MOBILE COMMUNICATIONS DEVICES PROXIMATE AIRCRAFT simplified abstract|17804103]])=== | + | ===MANAGEMENT OF MOBILE COMMUNICATIONS DEVICES PROXIMATE AIRCRAFT ([[US Patent Application 17804103. MANAGEMENT OF MOBILE COMMUNICATIONS DEVICES PROXIMATE AIRCRAFT simplified abstract (AT&T Intellectual Property I, L.P.)|17804103]])=== |
| Line 105: | Line 135: | ||
| − | ===NON-STANDALONE PRIMARY SECONDARY CELL SELECTION BASED ON HIGHER PRIORITY BAND ([[US Patent Application 17664686. NON-STANDALONE PRIMARY SECONDARY CELL SELECTION BASED ON HIGHER PRIORITY BAND simplified abstract|17664686]])=== | + | ===NON-STANDALONE PRIMARY SECONDARY CELL SELECTION BASED ON HIGHER PRIORITY BAND ([[US Patent Application 17664686. NON-STANDALONE PRIMARY SECONDARY CELL SELECTION BASED ON HIGHER PRIORITY BAND simplified abstract (AT&T Intellectual Property I, L.P.)|17664686]])=== |
| Line 113: | Line 143: | ||
| − | ===DETERMINING A RESPONSE BY USER EQUIPMENT TO A BASE STATION SIGNAL BASED ON TRANSMISSION SIGNAL STRENGTH RELAYED WITH THE SIGNAL ([[US Patent Application 17824883. DETERMINING A RESPONSE BY USER EQUIPMENT TO A BASE STATION SIGNAL BASED ON TRANSMISSION SIGNAL STRENGTH RELAYED WITH THE SIGNAL simplified abstract|17824883]])=== | + | ===DETERMINING A RESPONSE BY USER EQUIPMENT TO A BASE STATION SIGNAL BASED ON TRANSMISSION SIGNAL STRENGTH RELAYED WITH THE SIGNAL ([[US Patent Application 17824883. DETERMINING A RESPONSE BY USER EQUIPMENT TO A BASE STATION SIGNAL BASED ON TRANSMISSION SIGNAL STRENGTH RELAYED WITH THE SIGNAL simplified abstract (AT&T Intellectual Property I, L.P.)|17824883]])=== |
| Line 121: | Line 151: | ||
| − | ===GENERATING A PROPAGATION MODEL BASED ON SAMPLING BY USER EQUIPMENT IN IDLE MODE ([[US Patent Application 17829064. GENERATING A PROPAGATION MODEL BASED ON SAMPLING BY USER EQUIPMENT IN IDLE MODE simplified abstract|17829064]])=== | + | ===GENERATING A PROPAGATION MODEL BASED ON SAMPLING BY USER EQUIPMENT IN IDLE MODE ([[US Patent Application 17829064. GENERATING A PROPAGATION MODEL BASED ON SAMPLING BY USER EQUIPMENT IN IDLE MODE simplified abstract (AT&T Intellectual Property I, L.P.)|17829064]])=== |
| Line 129: | Line 159: | ||
| − | ===ALLOCATING RADIO RESOURCES TO IDLE USER EQUIPMENT THAT WAS PREDICTED TO TRANSITION TO ACTIVE MODE ([[US Patent Application 17829051. ALLOCATING RADIO RESOURCES TO IDLE USER EQUIPMENT THAT WAS PREDICTED TO TRANSITION TO ACTIVE MODE simplified abstract|17829051]])=== | + | ===ALLOCATING RADIO RESOURCES TO IDLE USER EQUIPMENT THAT WAS PREDICTED TO TRANSITION TO ACTIVE MODE ([[US Patent Application 17829051. ALLOCATING RADIO RESOURCES TO IDLE USER EQUIPMENT THAT WAS PREDICTED TO TRANSITION TO ACTIVE MODE simplified abstract (AT&T Intellectual Property I, L.P.)|17829051]])=== |
Latest revision as of 06:38, 7 December 2023
Summary of the patent applications from AT&T Intellectual Property I, L.P. on November 30th, 2023
AT&T Intellectual Property I, L.P. has recently filed several patent applications related to technologies in 5G and next-generation networks. These patents aim to improve network efficiency, signal propagation, user equipment response, and coverage during network outages.
Summary: AT&T Intellectual Property I, L.P. has filed multiple patent applications for technologies in 5G and next-generation networks. These patents focus on improving network efficiency, signal propagation, user equipment response, and coverage during network outages. Notable applications include technologies for predicting and facilitating the transition of idle user equipment to active mode, generating propagation models for carrier signal sources, determining user equipment response to base station signals, prioritizing the selection of primary secondary cells, disabling mobile device communications near aircraft, operating as a remote user equipment through a relay, traffic steering in non-public networks and PLMN clouds, mapping signal propagation using idle mode user equipment, authenticating user identity in virtual environments, and providing internetwork coverage during network outages.
Notable Applications:
- Predicting and facilitating transition of idle user equipment to active mode in 5G networks.
- Generating propagation models for carrier signal sources in 5G networks.
- Determining user equipment response to base station signals in 5G networks.
- Prioritizing selection of primary secondary cells in non-standalone scenarios.
- Disabling mobile device communications near aircraft to prevent interference.
- Operating as a remote user equipment through a relay in wireless networks.
- Traffic steering in non-public networks and PLMN clouds.
- Mapping signal propagation using idle mode user equipment in 5G networks.
- Authenticating user identity in virtual environments.
- Providing internetwork coverage during network outages in 5G networks.
Contents
- 1 Patent applications for AT&T Intellectual Property I, L.P. on November 30th, 2023
- 1.1 AUTOMATED GENERATION OF NETWORK DATA VISUALIZATION DASHBOARDS (17664683)
- 1.2 LEVERAGING VISUAL DATA TO ENHANCE AUDIO RECEPTION (17804722)
- 1.3 SYSTEM AND METHOD FOR AUTOMATED CATALOGING AND BUILDING MACHINE LEARNING MODELS (17752203)
- 1.4 FACILITATING TRANSITION TO ACTIVE MODE BY AN IDLE DEVICE BASED ON AN ACTIVATION REQUEST (17829188)
- 1.5 ALLOCATING ANTENNA RESOURCES TO PREPARE FOR IDLE EQUIPMENT TO TRANSITION TO ACTIVE MODE (17829192)
- 1.6 METHOD AND APPARATUS FOR ADAPTIVE BIT STREAMING USING CONSUMPTION CONTEXT (18064163)
- 1.7 Autonomous Vehicle Pairing Management (17826269)
- 1.8 AUTOMATION TO REDUCE LOCATION ERROR RATE IN E911 LOCATION-BASED SERVICES (17752633)
- 1.9 PROVIDING COVERAGE TO USER EQUIPMENT FROM ANOTHER NETWORK AFFECTED BY A NETWORK OUTAGE OF LIMITED DURATION (17826002)
- 1.10 SYSTEM AND METHOD FOR VERIFYING PRESENCE IN VIRTUAL ENVIRONMENTS (17826458)
- 1.11 ESTIMATING SIGNAL PROPAGATION BASED ON SAMPLING BY USER EQUIPMENT IN IDLE MODE (17829199)
- 1.12 TRAFFIC STEERING FOR NON-PUBLIC NETWORKS AND PUBLIC LAND MOBILE NETWORK CLOUDS (17804421)
- 1.13 USER EQUIPMENT-TO-NETWORK RELAY CONTROL SYSTEM AND METHOD (17827289)
- 1.14 MANAGEMENT OF MOBILE COMMUNICATIONS DEVICES PROXIMATE AIRCRAFT (17804103)
- 1.15 NON-STANDALONE PRIMARY SECONDARY CELL SELECTION BASED ON HIGHER PRIORITY BAND (17664686)
- 1.16 DETERMINING A RESPONSE BY USER EQUIPMENT TO A BASE STATION SIGNAL BASED ON TRANSMISSION SIGNAL STRENGTH RELAYED WITH THE SIGNAL (17824883)
- 1.17 GENERATING A PROPAGATION MODEL BASED ON SAMPLING BY USER EQUIPMENT IN IDLE MODE (17829064)
- 1.18 ALLOCATING RADIO RESOURCES TO IDLE USER EQUIPMENT THAT WAS PREDICTED TO TRANSITION TO ACTIVE MODE (17829051)
Patent applications for AT&T Intellectual Property I, L.P. on November 30th, 2023
AUTOMATED GENERATION OF NETWORK DATA VISUALIZATION DASHBOARDS (17664683)
Main Inventor
Jay Gabin
LEVERAGING VISUAL DATA TO ENHANCE AUDIO RECEPTION (17804722)
Main Inventor
Zachary Cleigh Meredith
SYSTEM AND METHOD FOR AUTOMATED CATALOGING AND BUILDING MACHINE LEARNING MODELS (17752203)
Main Inventor
Mukundan Sarukkai
FACILITATING TRANSITION TO ACTIVE MODE BY AN IDLE DEVICE BASED ON AN ACTIVATION REQUEST (17829188)
Main Inventor
Daniel Vivanco
ALLOCATING ANTENNA RESOURCES TO PREPARE FOR IDLE EQUIPMENT TO TRANSITION TO ACTIVE MODE (17829192)
Main Inventor
Thomas Henderson
METHOD AND APPARATUS FOR ADAPTIVE BIT STREAMING USING CONSUMPTION CONTEXT (18064163)
Main Inventor
Subhabrata Sen
Autonomous Vehicle Pairing Management (17826269)
Main Inventor
Joseph Soryal
AUTOMATION TO REDUCE LOCATION ERROR RATE IN E911 LOCATION-BASED SERVICES (17752633)
Main Inventor
Manoop Talasila
PROVIDING COVERAGE TO USER EQUIPMENT FROM ANOTHER NETWORK AFFECTED BY A NETWORK OUTAGE OF LIMITED DURATION (17826002)
Main Inventor
Daniel Vivanco
SYSTEM AND METHOD FOR VERIFYING PRESENCE IN VIRTUAL ENVIRONMENTS (17826458)
Main Inventor
Joseph Soryal
ESTIMATING SIGNAL PROPAGATION BASED ON SAMPLING BY USER EQUIPMENT IN IDLE MODE (17829199)
Main Inventor
Thomas Henderson
TRAFFIC STEERING FOR NON-PUBLIC NETWORKS AND PUBLIC LAND MOBILE NETWORK CLOUDS (17804421)
Main Inventor
Prashant Raghuvanshi
USER EQUIPMENT-TO-NETWORK RELAY CONTROL SYSTEM AND METHOD (17827289)
Main Inventor
Weidong Allen Hu
MANAGEMENT OF MOBILE COMMUNICATIONS DEVICES PROXIMATE AIRCRAFT (17804103)
Main Inventor
Yupeng Jia
NON-STANDALONE PRIMARY SECONDARY CELL SELECTION BASED ON HIGHER PRIORITY BAND (17664686)
Main Inventor
Yupeng Jia
DETERMINING A RESPONSE BY USER EQUIPMENT TO A BASE STATION SIGNAL BASED ON TRANSMISSION SIGNAL STRENGTH RELAYED WITH THE SIGNAL (17824883)
Main Inventor
Daniel Vivanco
GENERATING A PROPAGATION MODEL BASED ON SAMPLING BY USER EQUIPMENT IN IDLE MODE (17829064)
Main Inventor
Kurt Huber
ALLOCATING RADIO RESOURCES TO IDLE USER EQUIPMENT THAT WAS PREDICTED TO TRANSITION TO ACTIVE MODE (17829051)
Main Inventor
Kurt Huber
