Low-power satellite-timed seismic data acquisition system
First Claim
1. A recorder (10) for digitizing and recording geophone seismic signals comprising:
- a processor (50) coupled to at least one seismic sensor (18) so as to collect data;
a memory (40) coupled to said processor so as to store said data;
an acquisition clock circuit (52) coupled to said processor so as to pace collection of said data;
a satellite navigation system receiver (44) which receives signals from GPS satellites and determines a satellite time standard signal;
means for periodically actively synchronizing a time signal of said acquisition clock circuit (52) with said satellite time standard signal, so that said clock circuit includes an enabled synchronizing state when synchronizing is occurring and an idle state when no synchronizing of the two signals is occurring; and
means for turning said satellite navigation system receiver (44) off during idle periods of time when said time signal of said acquisition clock circuit is not being synchronized,whereby power consumption of said GPS receiver is conserved and said acquisition clock circuit remain in synchronization with said satellite time standard signal within a predetermined tolerance.
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Accused Products
Abstract
A recording system and method for conducting seismic surveys including cordless battery-operated digital recorders, each employing an integral global positioning system receiver that is only periodically enabled for the purpose of establishing synchronized acquisition clock signals among all the recorders. The satellite receiver adjustment cycle is varied depending on past acquisition clock accuracy and temperature changes. A time stamp is recorded with the digitized seismic data in non-volatile memory. The memory is sized to allow extended periods of operation. Each recorder preferably includes a low-power system timer that may be used as a timer to remotely turn on and off the recorders according to a pre-programmed schedule to conserve power when the system is not in use. Electronic components are idled or de-energized when not needed.
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Citations
5 Claims
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1. A recorder (10) for digitizing and recording geophone seismic signals comprising:
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a processor (50) coupled to at least one seismic sensor (18) so as to collect data; a memory (40) coupled to said processor so as to store said data; an acquisition clock circuit (52) coupled to said processor so as to pace collection of said data; a satellite navigation system receiver (44) which receives signals from GPS satellites and determines a satellite time standard signal; means for periodically actively synchronizing a time signal of said acquisition clock circuit (52) with said satellite time standard signal, so that said clock circuit includes an enabled synchronizing state when synchronizing is occurring and an idle state when no synchronizing of the two signals is occurring; and means for turning said satellite navigation system receiver (44) off during idle periods of time when said time signal of said acquisition clock circuit is not being synchronized, whereby power consumption of said GPS receiver is conserved and said acquisition clock circuit remain in synchronization with said satellite time standard signal within a predetermined tolerance. - View Dependent Claims (2, 3, 4, 5)
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Specification
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- Resources
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Current AssigneeGeospace Technologies, LP (Geospace Technologies Corporation)
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Original AssigneeGeospace Technologies, LP (Geospace Technologies Corporation)
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InventorsAdams, Robbin B., Vajapeyam, Bhasker, Prado, Jesus Eduardo, Carroll, Paul E., Hallaman, James Michael
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Primary Examiner(s)Assouad, Patrick
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Assistant Examiner(s)Zhang, Haidong
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Application NumberUS12/284,192Publication NumberTime in Patent Office2,258 DaysField of Search702/14US Class Current702/14CPC Class CodesG01V 1/003 Seismic data acquisition in...G01V 1/162 DetailsG01V 1/22 Transmitting seismic signal...G01V 11/002 Details, e.g. power supply ...G01V 2200/12 Clock synchronization-relat...
