Motion-based kinetic fingerprint radio selection
First Claim
1. A system comprising:
- a memory that stores instructions; and
a processor that executes the instructions to perform operations comprising;
receiving user equipment power information based on power generated from a movement of a kinetic generator of a user equipment,determining a power fluctuation pattern based on the user equipment power information,receiving data representing a kinetic pattern comprising a predetermined power fluctuation characteristic corresponding to a kinetic generator movement of a kinetic generator engaged in a defined user equipment transit mode,determining a level of probability based on a correlation determined between the kinetic pattern and the power fluctuation pattern, wherein the level of probability is indicative of a probability that the user equipment is engaged in the defined user equipment transit mode of the kinetic pattern, anddetermining radio selection information, based on the level of probability, to facilitate selection of a performance property of a radio of the user equipment.
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Abstract
Motion adaptive wireless user equipment (UE) in a wireless network are provided. Kinetic information is leveraged to select a preferred radio (or radio technology) or adapt a reselection scanning interval. This can serve to improve the performance of a UE by reducing the amount of power expended in maintaining an adequate level of connectedness to the wireless network components in the face of UE movement. In a further aspect, kinetic power generators can be employed as a source of UE transit data. Kinetic fingerprints can be compared to UE transit data, e.g., that acquired from a kinetic generator of the UE, to facilitate selection of preferred radios and reselection intervals. In this aspect, radio selection schema and reselection scanning schema can effectively be selected with little to no drain on a UE power source.
100 Citations
20 Claims
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1. A system comprising:
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a memory that stores instructions; and a processor that executes the instructions to perform operations comprising; receiving user equipment power information based on power generated from a movement of a kinetic generator of a user equipment, determining a power fluctuation pattern based on the user equipment power information, receiving data representing a kinetic pattern comprising a predetermined power fluctuation characteristic corresponding to a kinetic generator movement of a kinetic generator engaged in a defined user equipment transit mode, determining a level of probability based on a correlation determined between the kinetic pattern and the power fluctuation pattern, wherein the level of probability is indicative of a probability that the user equipment is engaged in the defined user equipment transit mode of the kinetic pattern, and determining radio selection information, based on the level of probability, to facilitate selection of a performance property of a radio of the user equipment. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A non-transitory computer-readable storage medium comprising computer-readable instructions that, when executed by a processor of a system, cause the system to perform operations comprising:
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receiving user equipment power information based on power generated from a movement of a kinetic generator of a user equipment; determining a power fluctuation pattern based on the user equipment power information; receiving data representing a kinetic pattern comprising a predetermined power fluctuation characteristic corresponding to a kinetic generator movement of a kinetic generator engaged in a defined user equipment transit mode; determining a level of probability based on a correlation determined between the kinetic pattern and the power fluctuation pattern, wherein the level of probability is indicative of a probability that the user equipment is engaged in the defined user equipment transit mode of the kinetic pattern; and determining radio selection information, based on the level of probability, to facilitate selection of a performance property of a radio of the user equipment. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
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17. A method comprising:
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receiving, by a system comprising a processor, user equipment power information based on power generated from a movement of a kinetic generator of a user equipment; determining, by the system, a power fluctuation pattern based on the user equipment power information; receiving, by the system, data representing a kinetic pattern comprising a predetermined power fluctuation characteristic corresponding to a kinetic generator movement of a kinetic generator engaged in a defined user equipment transit mode; determining, by the system, a level of probability based on a correlation determined between the kinetic pattern and the power fluctuation pattern, wherein the level of probability is indicative of a probability that the user equipment is engaged in the defined user equipment transit mode of the kinetic pattern; and determining, by the system, radio selection information, based on the level of probability, to facilitate selection of a performance property of a radio of the user equipment. - View Dependent Claims (18, 19, 20)
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Specification