Web server and method for hosting a web page for presenting location based user quality data related to a communication network
First Claim
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1. A method to form a predictive composite score,comprising:
- retrieving geographically based wireless networking performance data from a first computing device, the geographically based wireless networking performance data derived from at least one mobile device;
temporally averaging at least some of the geographically based wireless networking performance data;
spatially averaging at least some of the geographically based wireless networking performance data, the spatial averaging including applying a full weighting factor to a first portion of the geographically based wireless networking performance data associated with a first geographic region, applying a partial weighting factor to a second portion of the geographically based wireless networking performance data associated with at least one second geographic region adjacent to the first geographic region, and applying a light weighting factor to a third portion of the geographically based wireless networking performance data associated with at least one third geographic region not adjacent to the first geographic region, wherein the partial weighting factor is lower than the full weighting factor, and wherein the light weighting factor is lower than the partial weighting factor; and
geostatistically combining the temporally and spatially averaged geographically based wireless networking performance data to form the predictive composite score, the predictive composite score being a forecast of expected performance quality of a wireless communication network in the first geographic region.
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Abstract
A computing device forms a predictive composite score by retrieving geographically based wireless networking performance data derived from at least one mobile device. At least some of the geographically based wireless networking performance data is temporally averaged and geostatistically combined to form the predictive composite score. The predictive composite score is a forecast of expected performance quality of a wireless communication network in a particular geographic region.
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Citations
20 Claims
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1. A method to form a predictive composite score,
comprising: -
retrieving geographically based wireless networking performance data from a first computing device, the geographically based wireless networking performance data derived from at least one mobile device; temporally averaging at least some of the geographically based wireless networking performance data; spatially averaging at least some of the geographically based wireless networking performance data, the spatial averaging including applying a full weighting factor to a first portion of the geographically based wireless networking performance data associated with a first geographic region, applying a partial weighting factor to a second portion of the geographically based wireless networking performance data associated with at least one second geographic region adjacent to the first geographic region, and applying a light weighting factor to a third portion of the geographically based wireless networking performance data associated with at least one third geographic region not adjacent to the first geographic region, wherein the partial weighting factor is lower than the full weighting factor, and wherein the light weighting factor is lower than the partial weighting factor; and geostatistically combining the temporally and spatially averaged geographically based wireless networking performance data to form the predictive composite score, the predictive composite score being a forecast of expected performance quality of a wireless communication network in the first geographic region. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A non-transitory computer readable medium comprising content that configures a computing device to perform acts comprising:
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retrieving a set of geographically based wireless networking performance data derived from at least one mobile computing device; parsing the set of geographically based wireless networking performance data according to a set of key performance indicators; spatially averaging at least some of the geographically based wireless networking performance data, the spatial averaging including applying a full weighting factor to a first portion of the geographically based wireless networking performance data associated with a first geographic region, applying a partial weighting factor to a second portion of the geographically based wireless networking performance data associated with at least one second geographic region adjacent to the first geographic region, and applying a light weighting factor to a third portion of the geographically based wireless networking performance data associated with at least one third geographic region not adjacent to the first geographic region, wherein the partial weighting factor is lower than the full weighting factor, and wherein the light weighting factor is lower than the partial weighting factor; and generating a predictive composite score that represents an estimation of wireless network performance quality of a wireless network in the first geographic region from at least some of the key performance indicators, the predictive composite score formulated by mathematically combining the spatially averaged geographically based wireless networking performance data. - View Dependent Claims (11, 12, 13, 14)
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15. A method to predict a performance quality of a wireless communication network, comprising:
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assigning boundaries to a plurality of geographic areas; retrieving a set of wireless networking performance data associated with the plurality of geographic areas, the set of wireless networking performance data derived from at least one mobile device; spatially aggregating the set of wireless networking performance data, the spatial aggregating including applying a full weighting factor to a first portion of the geographically based wireless networking performance data associated with a first geographic area of the plurality of geographic areas, applying a partial weighting factor to a second portion of the geographically based wireless networking performance data associated with at least one second geographic area adjacent to the first geographic area, and applying a light weighting factor to a third portion of the geographically based wireless networking performance data associated with at least one third geographic area not adjacent to the first geographic area, wherein the partial weighting factor is lower than the full weighting factor, and wherein the light weighting factor is lower than the partial weighting factor; and
; andgeostatistically calculating a predictive composite score from the spatially aggregated data, the predictive composite score representative of predicted wireless networking performance quality in the first geographic area of the plurality of geographic areas. - View Dependent Claims (16, 17, 18, 19, 20)
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Specification