Patent ID: 9565533
Date: 2017-02-07
CPC Classifications: G01P,G06F,H04L,H04W

Claim:
1. A method for determining crowd congestion, the method comprising: determining, by one or more computer processors, one or more selected locations, wherein determining includes retrieving the one or more selected locations from a database, wherein the one or more selected locations can be a default location, a pre-defined location, and a user defined location; determining, by one or more computer processors, a frequency spectrum history of one or more users, wherein determining includes determining accelerometer data for each of the one or more users, wherein determining includes retrieving the accelerometer data for each of the one or more users from a device associated with each of the one or more users, extracting a Fourier transform of the accelerometer data for each of the one or more users in a plurality of contiguous time windows, determining a frequency spectrum of the one or more users moving in an unhindered cyclical motion based, at least in part, on the Fourier transform and the accelerometer data, and incorporating the frequency spectrum of the one or more users moving in an unhindered cyclical motion into the frequency spectrum history of the one or more users; determining, by one or more computer processors, a location of the one or more users within the one or more selected locations, wherein determining includes determining whether the one or more users are performing a cyclical motion, wherein determining includes utilizing a plurality of physical activity detection classifiers, and responsive to determining the one or more users are performing a cyclical motion, locating the one or more users within the one or more selected locations utilizing one or more of a global positioning system and a location services function on a device associated with each of the one or more users; determining, by one or more computer processors, a frequency spectrum of the one or more users within the one or more selected locations, wherein determining includes extracting a Fourier transform of accelerometer data for each of the one or more users within the one or more selected locations in a plurality of contiguous time windows, wherein the Fourier transform includes a plurality of peaks and a plurality of widths associated with cyclical motions of the one or more users; determining, by one or more computer processors, a crowding measure for the one or more selected locations based, at least in part, on the frequency spectrum history and the frequency spectrum of the one or more users within the one or more selected locations, wherein determining includes determining a distribution of a plurality of deviations in one or more frequency peak widths for each of the one or more users in the one or more selected locations relative to one or more frequency peak widths stored in a frequency spectrum history for each of the one or more users, and determining an average deviation in the one or more frequency peak widths for each of the one or more selected locations, wherein the average deviation in the one or more frequency peak widths is the crowding measure; and ranking, by one or more computer processors, the one or more selected locations based, at least in part, on the crowding measure, wherein ranking includes retrieving a crowding measure for each of the one or more selected locations during a pre-determined time step, and designating, a ranking for each of the one or more selected locations based, at least in part on, an average frequency peak width deviation for each of the one or more selected locations.