Compressed telemetry for time series downhole data using variable scaling and grouped words
First Claim
1. A method for transmitting data from a downhole location to a location at the surface of the earth, the method comprising:
- transmitting the data values to a downhole microprocessor-controlled buffer;
querying the buffer for M-samples of the data values using an encoder that receives the M-samples;
determining a minimum value and a maximum value of the M-samples using the encoder;
determining a keycode for the M-samples that provides an indication of the maximum and minimum values of the M-samples using the encoder;
compressing with the encoder the M-samples of the data values into M-compressed data words using the maximum and minimum values;
encoding the keycode and the M-compressed data words into one encoded word by concatenating the keycode and the M-compressed data words using the encoder;
modulating a mud-pulser with a modulator to transmit the one encoded word as an acoustic signal in drilling fluid;
receiving the acoustic signal uphole from the mud-pulser using a transducer that converts the acoustic signal into an electrical signal;
demodulating the electrical signal using a demodulator into a received encoded word;
decompressing the received encoded word into the M-samples in accordance with the keycode using a decoder; and
receiving the M-samples from the decoder using a computer processing system disposed at the surface of the earth.
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Accused Products
Abstract
A method for transmitting data from a downhole location to a location at the surface of the earth includes determining a minimum value and a maximum value of M-samples of data values, determining a keycode for the M-samples of data values that provides an indication of the maximum and minimum values of the M-samples, and encoding the keycode and the data values into one or more encoded words. The one or more encoded words are then transmitted as an acoustic signal in drilling fluid by modulating a mud-pulser. The acoustic signal is received by a transducer uphole from the mud-pulser and converted into an electrical signal. The electrical signal is demodulated into a received encoded word, which is decompressed into the M-samples in accordance with the keycode. The M-samples are then received by a computer processing system disposed as the surface of the earth.
32 Citations
21 Claims
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1. A method for transmitting data from a downhole location to a location at the surface of the earth, the method comprising:
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transmitting the data values to a downhole microprocessor-controlled buffer; querying the buffer for M-samples of the data values using an encoder that receives the M-samples; determining a minimum value and a maximum value of the M-samples using the encoder; determining a keycode for the M-samples that provides an indication of the maximum and minimum values of the M-samples using the encoder; compressing with the encoder the M-samples of the data values into M-compressed data words using the maximum and minimum values; encoding the keycode and the M-compressed data words into one encoded word by concatenating the keycode and the M-compressed data words using the encoder; modulating a mud-pulser with a modulator to transmit the one encoded word as an acoustic signal in drilling fluid; receiving the acoustic signal uphole from the mud-pulser using a transducer that converts the acoustic signal into an electrical signal; demodulating the electrical signal using a demodulator into a received encoded word; decompressing the received encoded word into the M-samples in accordance with the keycode using a decoder; and receiving the M-samples from the decoder using a computer processing system disposed at the surface of the earth. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A method for transmitting data from a downhole location to a location at the surface of the earth, the method comprising:
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performing downhole measurements using a downhole sensor that provides values of the measurements as data values; transmitting the data values to a downhole microprocessor-controlled buffer; querying the buffer for first M-samples of the data values using an encoder that receives the first M-samples; determining a minimum value and a maximum value of the first M-samples using the encoder; determining a keycode for the first M-samples that provides an indication of the maximum and minimum values of the first M-samples using the encoder; compressing with the encoder the first M-samples of the data values into M-compressed data words using the maximum and minimum values; encoding the keycode and the M-compressed data words into one encoded word by concatenating the keycode and the M-compressed data words using the encoder, and wherein compressing comprises using the following equation to calculate a compressed N-bit data word, CP[?], to be encoded for each of the first M-samples of the data values;
CP[?]=INT(((VALUE[?]−
MINIMUM)/(MAXIMUM−
MINIMUM))*((2^N)−
1))where N=a number of bits in an encoded word, MINIMUM is the minimum value of the first M-samples, MAXIMUM is the maximum value of the first M-samples, and VALUE is the data value, identified by ?, for which the compressed N-bit data word is being calculated; modulating a mud-pulser with a modulator to transmit the one encoded word as an acoustic signal in drilling fluid; receiving the acoustic signal uphole from the mud-pulser using a transducer that converts the acoustic signal into an electrical signal; demodulating the electrical signal using a demodulator into a received encoded word; decompressing the received encoded word into the first M-samples in accordance with the keycode using a decoder; receiving the first M-samples from the decoder using a computer processing system disposed at the surface of the earth; assigning a time to the first M-samples at which they were received by the computer processing system; assigning a depth to the first M-samples at which the first M-samples were obtained; receiving current second M-samples that immediately follow previous first M-samples; calculating a difference between at least one of (a) a previous minimum value of the preceding first M-samples and a present minimum value of the current second M-samples and (b) a previous maximum value of the preceding first M-samples and a present maximum value of the current second M-samples; encoding the data values of the current second M-samples with no indication of the previous minimum or maximum values changing if the difference is zero; encoding the data values of the current second M-samples and the calculated difference between at least one of the minimum and maximum values if the calculated difference is a small change, wherein the small change is represented by a fewer number of bits than would be required to represent the actual minimum and maximum values of the second M-samples; and encoding the data values of the current second M-samples and the values of the current minimum value and the current maximum value if the calculated difference is a large change.
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13. An apparatus for transmitting data from a downhole location to a location at the surface of the earth, the apparatus comprising:
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a downhole microprocessor-controlled buffer configured to receive transmitted data values; an encoder configured to (a) receive M-samples of the data values upon querying the buffer for the M-samples, (b) determine a minimum value and a maximum value of the M-samples, (c) determine a keycode for the M-samples that provides an indication of the maximum and minimum values of the M-samples using the encoder, (d) compress with the encoder the M-samples of the data values into M-compressed data words using the maximum and minimum values, and (e) encode the keycode and the M-compressed data words into one encoded word by concatenating the keycode and the M-compressed data words using the encoder; a modulator coupled to a mud-pulser and configured to modulate the mud-pulser to transmit the one encoded word as an acoustic signal in drilling fluid; a transducer configured to receive the acoustic signal uphole from the mud-pulser and to convert the acoustic signal into an electrical signal; a demodulator configured to demodulate the electrical signal into an encoded word; a decoder configured to decompress the encoded word into the M-samples in accordance with the keycode; and a computer processing system disposed at the surface of the earth and configured to receive the M-samples from the decoder. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20, 21)
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Specification