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            <td width="20%" colspan="1" rowspan="2" align="left" valign="top"><a href="https://ppubs.uspto.gov/pubwebapp/external.html?q=12477538.pn.&amp;db=USPAT" target="popup"><input type="button" class="button" value="   Full Text   "></a></td>
            <td class="table_data"><b>US 12,477,538 B2</b></td>
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            <td colspan="1" class="table_data" style="text-transform: uppercase"><b>Techniques for timing relationships for physical downlink control channel repetition</b></td>
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            <td colspan="3" class="table_data"><b> Mostafa Khoshnevisan,  San Diego, CA (US);  Jing Sun,  San Diego, CA (US);  Xiaoxia Zhang,  San Diego, CA (US); and  Tao Luo,  San Diego, CA (US)</b></td>
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            <td colspan="3" class="table_data"><b>Assigned to  QUALCOMM Incorporated,  San Diego, CA (US)</b></td>
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            <td colspan="3" class="table_data"><b>Filed by  QUALCOMM Incorporated,  San Diego, CA (US)</b></td>
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            <td colspan="3" class="table_data"><b>Filed on Jan.  11, 2022, as Appl. No. 17/573,288.</b></td>
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            <td colspan="3" class="table_data" align="center"><b>Claims priority of provisional application 63/136,636, filed on Jan.  12, 2021.</b></td>
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            <td colspan="3" class="table_data"><b>Prior Publication US 2022/0225368 A1, Jul.  14, 2022</b></td>
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            <td colspan="3" class="table_data"><b>Int. Cl. </b><i><b>H04W 72/1273</b></i> (2023.01); <i><b>H04L 5/00</b></i> (2006.01); <i><b>H04W 16/28</b></i> (2009.01); <i><b>H04W 24/08</b></i> (2009.01); <i><b>H04W 72/0446</b></i> (2023.01); <i><b>H04W 72/23</b></i> (2023.01)</td>
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            <td class="table_data" align="left"><b>CPC </b><i><b>H04W 72/1273</b></i> (2013.01)&#xa0;[<i><b>H04L 5/0051</b></i> (2013.01); <i><b>H04W 16/28</b></i> (2013.01); <i><b>H04W 24/08</b></i> (2013.01); <i><b>H04W 72/0446</b></i> (2013.01); <i><b>H04W 72/23</b></i> (2023.01)]</td>
            <td class="table_data" align="right"><b>25 Claims</b></td>
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        <center><img src="US12477538-20251118-D00000.gif" alt="OG exemplary drawing"></center>
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            <td class="table_data" align="center">&#xa0;</td>
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              <div class="claim_text_root"><b>1</b>. A method for wireless communication at a user equipment (UE), comprising:<div class="claim_text">monitoring a plurality of downlink control channel candidates that are associated with each other, the plurality of downlink control channel candidates comprising at least a first downlink control channel candidate in a first transmission time interval and a last downlink control channel candidate in a second transmission time interval that is after the first transmission time interval;</div>
                <div class="claim_text">receiving, from a network entity and based at least in part on the monitoring, at least one repetition of downlink control information within one of the first downlink control channel candidate or the last downlink control channel candidate, the downlink control information scheduling a transmission between the network entity and the UE;</div>
                <div class="claim_text">applying a scheduling offset associated with the transmission, wherein the scheduling offset is between a last symbol of the last downlink control channel candidate and a first symbol of the transmission;</div>
                <div class="claim_text">determining a quasi co-location configuration for communicating the transmission based at least in part on a comparison of the scheduling offset and a beam switching threshold of the UE; and</div>
                <div class="claim_text">communicating with the network entity via the transmission based at least in part on the scheduling offset and in accordance with the quasi co-location configuration.</div>
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