Method and device for knock recognition of an internal combustion engine

What is claimed is: 1. A method for knock recognition of an internal combustion engine, the method comprising: receiving a signal of a knock sensor, the signal of the knock sensor being Fourier-transformed, weighted in frequency-dependent fashion, and summed, in order to produce a first knock signal; determining, based on a multiplicity of first knock signals considered together, a concentration point of the multiplicity of the first knock signals; subtracting a first offset value from the first knock signal to form a second knock signal, the first offset value being ascertained from the concentration point of the multiplicity of the first knock signals, wherein when the second knock signal has a value that is below zero, the second knock signal is set to a value of zero; and evaluating the second knock signal as knocking or non-knocking; wherein each one of the multiplicity of the first knock signals is produced based on a different signal of the knock sensor, the different signal being Fourier-transformed, weighted in frequency dependent fashion, and summed to produce the one of the multiplicity of the first knock signals, and wherein the concentration point is determined using a best-fit line through measurement points. 2. The method as recited in claim 1 , wherein the first offset value has a pre-control value and an adaptation value, the pre-control value being ascertained during an application of the internal combustion engine, and the adaptation value being ascertained during running operation of the internal combustion engine. 3. The method as recited in claim 1 , wherein for the formation of the second knock signal from the first knock signal, before the subtraction of the first offset value there additionally takes place a multiplication of the first knock signal by a further factor, the further factor being a function of a rotational speed of the internal combustion engine, a load of the internal combustion engine, and a respective cylinder of the internal combustion engine. 4. The method as recited in claim 1 , wherein the measurement points represent peak pressures occurring in the engine versus the multiplicity of the first knock signals. 5. A method for knock recognition of an internal combustion engine, the method comprising: receiving a signal of a knock sensor, the signal of the knock sensor being Fourier-transformed, weighted in frequency-dependent fashion, and summed, in order to produce a first knock signal; determining, from a multiplicity of first knock signals, a concentration point of the multiplicity of the first knock signals; subtracting a first offset value subtracted from the first knock signal to form a second knock signal, the first offset value being ascertained from the concentration point of the multiplicity of the first knock signals, wherein when the second knock signal has a value that is below zero, the second knock signal is set to a value of zero; and evaluating the second knock signal as knocking or non-knocking; wherein the second knock signal is multiplied by a factor to form a third knock signal, and a second offset value is added to the third knock signal to form a fourth knock signal, wherein one of: (i) the second offset value being ascertained from the concentration point of the multiplicity of first knock signals, or (ii) a concentration point of the multiplicity of the third knock signals is determined from a multiplicity of third knock signals, and the second offset value is ascertained from the concentration point of the multiplicity of the third knock signals, and wherein the fourth knock signal is evaluated as knocking or non-knocking, wherein the factor is a value that is selected as a function of load and rotational speed of the engine. 6. The method as recited in claim 5 , wherein the fourth knock signal is compared to a floating mean value of fourth knock signals to evaluate the fourth knock signal as knocking or non-knocking. 7. The method as recited in claim 5 , wherein the fourth knock signal is compared to a comparison value in order to evaluate the fourth knock signal as knocking or non-knocking. 8. The method as recited in claim 5 , wherein the second offset value has a pre-control value and an adaptation value, the pre-control value being ascertained during an application of the internal combustion engine, and the adaptation value being ascertained during running operation of the internal combustion engine. 9. The method as recited in claim 5 , wherein at least one of the first offset value and the second offset value is a function of the rotational speed of the internal combustion engine, a load of the internal combustion engine, and a respective cylinder of the internal combustion engine. 10. A processor configured for knock recognition of an internal combustion engine, the processor configured to: Fourier transform, weight in frequency-dependent fashion, and sum a signal of a knock sensor to produce a first knock signal; and determine, based on a multiplicity of first knock signals considered together, a concentration point of the multiplicity of the first knock signals, and subtract a first offset value from the first knock signal to form a second knock signal, the first offset value being ascertained from the concentration point of the multiplicity of the first knock signals, wherein when the second knock signal has a value below zero, the second knock signal is set to a value of zero, and the device is configured to evaluate the second knock signal as knocking or non-knocking; wherein each one of the multiplicity of the first knock signals is produced based on a different signal of the knock sensor, the different signal being Fourier-transformed, weighted in frequency dependent fashion, and summed to produce the one of the multiplicity of the first knock signals, and wherein the concentration point is determined using a best-fit line through measurement points. 11. The processor as recited in claim 10 , wherein the measurement points represent peak pressures occurring in the engine versus the multiplicity of the first knock signals. 12. A knock detection device for monitoring an internal combustion engine, the device comprising: a knock sensor configured to send a measurement signal of engine noise to a series of processing units configured to: Fourier transform, weight in frequency-dependent fashion, and sum the measurement signal to produce a first knock signal; and determine, based on a multiplicity of first knock signals considered together, a concentration point of the multiplicity of the first knock signals, and subtracts a first offset value from the first knock signal to form a second knock signal, the first offset value being ascertained from the concentration point of the multiplicity of the first knock signals, wherein when the second knock signal has a value below zero, the second knock signal is set to a value of zero, and the device is configured to evaluate the second knock signal as knocking or non-knocking; wherein each one of the multiplicity of the first knock signals is produced based on a different signal of the knock sensor, the different signal being Fourier-transformed, weighted in frequency dependent fashion, and summed to produce the one of the multiplicity of the first knock signals, and wherein the concentration point is determined using a best-fit line through measurement points. 13. The knock detection device as recited in claim 12 , wherein the measurement points represent peak pressures occurring in the engine versus the multiplicity of the first knock signals.