System and method for conserving battery power in a mobile station searching to select a serving cell
First Claim
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1. In a wireless communications system servicing a geographical area and including a plurality of intercommunicating cells, with each cell having a beacon signal, the communications system also including a plurality of mobile stations to send and receive user information, each mobile station selecting a serving cell by scanning a predetermined set of beacon signals, a method for conserving battery power in a mobile station when the mobile station is searching for a serving cell, wherein a First Time Interval is provided, where the First Time Interval establishes a minimum time interval, and a First Scan Rate is provided, where the First Scan Rate is the maximum scan rate, the method comprising the steps of:
- a1) measuring an elapsed time when a serving cell is to be selected, creating a Search Time Interval;
a2) changing the rate at which the scan of the set of beacon signals is repeated, such that the scan rate decreases over a period of time, the scan rate changing with respect to the Search Time Interval to create a Calculated Scan Rate, such that the Calculated Scan Rate decreases as the Search Time Interval increases;
a3) comparing the Search Time Interval measured in step a1) and the First Time Interval to select a scan rate as follows;
i) using the Calculated Scan Rate when the Search Time Interval is greater than the First Time Interval; and
ii) using the First Scan Rate when the Search Time Interval is less than the First Time Interval, whereby the scan rate is initially repeated at the maximum rate;
b) searching the set of beacon signals at the scan rate determined in step a3), whereby the scan rate decreases when the search for a serving cell is unsuccessful;
d) determining if a cell is selected as a serving cell, and if a serving cell is not found, then remeasuring the Search Time Interval in step a1), whereby the scan rate is changed, and the search to select a serving cell is repeated at the new rate;
e) storing information derived from the Beacon Data Signal concerning the quantity and signal strengths of the beacon signals of cells neighboring the selected cell, creating a neighborhood record;
f) retrieving the neighborhood record when a serving cell is to be selected; and
g) increasing the First Time Interval in response to a large number of neighboring cells having high strength beacon signals, whereby the maximum scan rate is maintained for a longer period of time when the recorded neighboring beacon signals are numerous and strong.
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Abstract
A method is providing for a mobile station to vary the interval between scans by a mobile station for the beacon signals of cells in a communications system, in order to save battery power, when the mobile station is searching to select a serving cell. The method increases the interval between scans in response to the time elapsed since the start of the search. Initially, the scans are conducted with a small interval between the scans in the hope of quickly acquiring a serving cell. If a serving cell is not selected during this initial period of time, then the interval between scans is calculated to increase in response to the increase in elapsed time since the start of the search. If a serving cell is not selected during this period of calculated intervals, then the interval is set to a maximum limit to save battery power. A system for a mobile station to save power by varying the intervals between beacon signal scans when searching for a serving cell is also provided. The system and method provide a plurality of functions to calculate the scan intervals, and timing controls to vary when the calculated scan interval is to be applied in the search. In addition, the minimum and maximum scan intervals are variable is response to the likelihood of selecting a serving cell.
140 Citations
17 Claims
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1. In a wireless communications system servicing a geographical area and including a plurality of intercommunicating cells, with each cell having a beacon signal, the communications system also including a plurality of mobile stations to send and receive user information, each mobile station selecting a serving cell by scanning a predetermined set of beacon signals, a method for conserving battery power in a mobile station when the mobile station is searching for a serving cell, wherein a First Time Interval is provided, where the First Time Interval establishes a minimum time interval, and a First Scan Rate is provided, where the First Scan Rate is the maximum scan rate, the method comprising the steps of:
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a1) measuring an elapsed time when a serving cell is to be selected, creating a Search Time Interval; a2) changing the rate at which the scan of the set of beacon signals is repeated, such that the scan rate decreases over a period of time, the scan rate changing with respect to the Search Time Interval to create a Calculated Scan Rate, such that the Calculated Scan Rate decreases as the Search Time Interval increases; a3) comparing the Search Time Interval measured in step a1) and the First Time Interval to select a scan rate as follows; i) using the Calculated Scan Rate when the Search Time Interval is greater than the First Time Interval; and ii) using the First Scan Rate when the Search Time Interval is less than the First Time Interval, whereby the scan rate is initially repeated at the maximum rate; b) searching the set of beacon signals at the scan rate determined in step a3), whereby the scan rate decreases when the search for a serving cell is unsuccessful; d) determining if a cell is selected as a serving cell, and if a serving cell is not found, then remeasuring the Search Time Interval in step a1), whereby the scan rate is changed, and the search to select a serving cell is repeated at the new rate; e) storing information derived from the Beacon Data Signal concerning the quantity and signal strengths of the beacon signals of cells neighboring the selected cell, creating a neighborhood record; f) retrieving the neighborhood record when a serving cell is to be selected; and g) increasing the First Time Interval in response to a large number of neighboring cells having high strength beacon signals, whereby the maximum scan rate is maintained for a longer period of time when the recorded neighboring beacon signals are numerous and strong. - View Dependent Claims (2, 3, 4, 5)
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6. In a wireless communications system servicing a geographical area and including a plurality of intercommunicating cells, with each cell having a beacon signal, the communications system also including a plurality of mobile stations to send and receive user information, each mobile station selecting a serving cell by scanning a predetermined set of beacon signals, the system for conserving battery power in a mobile station when the mobile station is searching for a serving cell, the system comprising;
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a scan rate generator for changing the rate at which the scan of the set of beacon signals is repeated, such that the scan rate decreases over a period of time, said scan rate generator calculating a scan rate which decreases as the elapse of time in a search for a serving cell increases, said scan rate generator having an output to supply the Calculated Scan Rate and an input to accept a Search Time Interval, which is the elapse of time since the start of the search for a serving cell; a beacon signal receiver for searching the set of beacon signals at the scan rate determined by said scan rate generator, said beacon signal receiver having a first input operatively connected to the output of said scan rate generator to accept a Beacon Set Scan Rate, and a second input to accept beacon signals from the cells, said beacon signal receiver determining if a serving cell is selected in response to the cell'"'"'s beacon signal, said beacon signal receiver having an output to supply a Start Timer Signal to indicate the start of a search for a serving cell, whereby the scan rate decreases when the results of the search are unsuccessful; and a counter to measure the elapse of time in response to a trigger signal, said counter having a first input to accept a clock signal for measuring time intervals, a second input to accept the Start Timer Signal to trigger the start of the measurement, and an output to supply the elapse of time, which is the Search Time Interval, whereby the Calculated Scan Rate is dependent the elapsed time since the start of the search for a serving cell. - View Dependent Claims (7, 8, 9, 10, 11, 12, 13, 14)
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15. In a wireless communications system servicing a geographical area and including a plurality of intercommunicating cells, with each cell having a beacon signal, the communications system also including a plurality of mobile stations to send and receive user information, each mobile station selecting a serving cell by scanning a predetermined set of beacon signals, a method for conserving battery power in a mobile station when the mobile station is searching for a serving cell, the method comprising the steps of:
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a) measuring an elapsed time when a serving cell is to be selected, creating a Search Time Interval; b) using the Search Time Interval to calculate a Calculated Scan Rate which varies inversely with the Search Time Interval, such that the Calculated Scan Rate decreases as the Search Time Interval increases; c) searching the set of beacon signals at the scan rate calculated in step b), whereby the scan rate decreases when the search for a serving cell is unsuccessful; and d) determining if a cell is selected as a serving cell, and if a serving cell is not found, then remeasuring the Search Time Interval in step a), whereby the calculated scan rate is changed, and the search to select a serving cell is repeated at the new rate. - View Dependent Claims (16, 17)
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Specification
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Current AssigneeSharp Laboratories of America Incorporated (Hon Hai Precision Industry Co., Ltd.)
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Original AssigneeSharp Kabushiki Kaisha (Hon Hai Precision Industry Co., Ltd.), Sharp Microelectronics Technology, Inc.
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InventorsSevcik, Peter John, Vigil, Jeffrey Scott
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Primary Examiner(s)Eisenzopf, Reinhard J.
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Assistant Examiner(s)SOBUTKA, PHILIP
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Application NumberUS08/696,457Time in Patent Office727 DaysField of Search455/434, 455/432, 455/435, 455/515, 455/343, 455/38.3, 455/161.1, 455/161.2, 455/161.3US Class Current455/434CPC Class CodesH04W 48/16 Discovering, processing acc...H04W 52/0241 where no transmission is re...Y02D 30/70 in wireless communication n...
