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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=12405135.pn.&amp;db=USPAT" target="popup"><input type="button" class="button" value="   Full Text   "></a></td>
            <td class="table_data"><b>US 12,405,135 B2</b></td>
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            <td colspan="1" class="table_data" style="text-transform: uppercase"><b>Telecom cable tension screening technique based on wave propagation and distributed acoustic sensing</b></td>
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            <td colspan="3" class="table_data"><b> Yangmin Ding,  East Brunswick, NJ (US);  Yue Tian,  Pennington, NJ (US);  Sarper Ozharar,  Pennington, NJ (US); and  Ting Wang,  West Windsor, NJ (US)</b></td>
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            <td colspan="3" class="table_data"><b>Assigned to  NEC Corporation,  Tokyo (JP)</b></td>
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            <td colspan="3" class="table_data"><b>Filed by  NEC Laboratories America, Inc.,  Princeton, NJ (US)</b></td>
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            <td colspan="3" class="table_data"><b>Filed on May   17, 2023, as Appl. No. 18/319,466.</b></td>
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            <td colspan="3" class="table_data" align="center"><b>Claims priority of provisional application 63/343,623, filed on May   19, 2022.</b></td>
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            <td colspan="3" class="table_data"><b>Prior Publication US 2023/0375375 A1, Nov.  23, 2023</b></td>
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            <td colspan="3" class="table_data"><b>Int. Cl. </b><i><b>G01L 1/24</b></i> (2006.01); <i><b>G01D 5/353</b></i> (2006.01); <i><b>G01H 9/00</b></i> (2006.01); <i><b>G06T 7/13</b></i> (2017.01); <i><b>G06T 7/70</b></i> (2017.01)</td>
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            <td class="table_data" align="left"><b>CPC </b><i><b>G01D 5/35358</b></i> (2013.01)&#xa0;[<i><b>G01H 9/004</b></i> (2013.01); <i><b>G01L 1/242</b></i> (2013.01); <i><b>G06T 7/13</b></i> (2017.01); <i><b>G06T 7/70</b></i> (2017.01); <i>G06T 2207/10024</i> (2013.01)]</td>
            <td class="table_data" align="right"><b>5 Claims</b></td>
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        <center><img src="US12405135-20250902-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">1. A telecommunications cable tension screening method using wave propagation and distributed fiber optic sensing/distributed acoustic sensing (DFOS/DAS), the method comprising:<div class="claim_text">providing a distributed fiber optic sensing/distributed acoustic sensing (DFOS/DAS) system including<div class="claim_text">a length of optical sensor fiber, at least a portion of which is suspended from a plurality of utility poles;</div>
                  <div class="claim_text">an optical interrogator in optical communication with the length of optical sensor fiber, the optical interrogator configured to generate optical pulses, introduce the generated optical pulses into the length of optical sensor fiber and receive backscattered signals from the optical sensor fiber;</div>
                  <div class="claim_text">an analyzer configured to collect and analyze the backscattered signals, generate waterfall images to determine utility pole localization, and determine vibration wave speed of vibrations propagating in the optical sensor fiber and determine a tension force of the optical sensor fiber;</div>
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                <div class="claim_text">operating the DFOS/DAS while providing mechanical impacts to a plurality of the utility poles;</div>
                <div class="claim_text">generating color waterfall images from backscattered signals resulting from the mechanical impacts;</div>
                <div class="claim_text">determining a location along the length of the optical sensor fiber at which a utility pole receiving mechanical impacts is located;</div>
                <div class="claim_text">determining a wave speed of vibrations propagating in the optical sensor fiber resulting from the mechanical impacts; and</div>
                <div class="claim_text">determining a tension force of the optical sensor fiber.</div>
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