Continuous seismic acquisition

The invention claimed is: 1. A process for acquiring seismic data in a seismic survey comprising a large plurality of shot points and a large plurality of receiver points wherein multiple sweep-style seismic sources are arranged such that each source is positioned at a separate shot point and the sources are delivering seismic energy into the earth concurrently while receivers are arranged to record seismic signals reflected back from the earth to the surface to create a composite data record of energy from the sources and wherein the process includes the sources delivering at each shot point at least the number of sweeps of seismic energy as there are sources that are commonly delivering seismic energy into the earth used in the survey where the sweeps are delivered continuously with no listen time between each sweep, and further wherein a pseudo listen time is created in the composite data record using a frequency band pass filter based method, where a frequency band pass filter is designed to attenuate the frequencies of the next activated sources activated during the pseudo listen time and said band pass filter is applied to the pseudo listen time to attenuate the contaminating energy. 2. A process for acquiring seismic data in a seismic survey comprising a large plurality of shot points and a large plurality of receiver points wherein multiple sweep-style seismic sources are arranged such that each source is positioned at a separate shot point and the sources are delivering seismic energy into the earth concurrently while receivers are arranged to record seismic signals reflected back from the earth to the surface to create a composite data record of energy from the sources and wherein the process includes the sources delivering at each shot point at least the number of sweeps of seismic energy as there are sources that are commonly delivering seismic energy into the earth used in the survey where the sweeps are delivered continuously with no listen time between each sweep, and further wherein a pseudo listen time is created in the composite data record using a frequency band pass filter based method where a frequency band pass filter is designed to attenuate the frequencies of the next activated sources activated during the pseudo listen time taking into consideration the next activated source and receiver pair, wherein the location and start time of each next activated source is utilized with each active receiver to design a specific time varying frequency band pass filter specifically for the next activated source and receiver pair, and wherein the band pass filter is used during the pseudo listen time to attenuate the contaminating energy. 3. A process for acquiring seismic data in a seismic survey comprising a large plurality of shot points and a large plurality of receiver points wherein multiple sweep-style seismic sources are arranged such that each source is positioned at a separate shot point and the sources are delivering seismic energy into the earth concurrently while receivers are arranged to record seismic signals reflected back from the earth to the surface to create a composite data record of energy from the sources and wherein the process includes the sources delivering at each shot point at least the number of sweeps of seismic energy as there are sources that are commonly delivering seismic energy into the earth used in the survey where the sweeps are delivered continuously with no listen time between each sweep, and further wherein a pseudo listen time is created in the composite data record using a frequency band pass filter based method where a frequency band pass filter is designed to attenuate all frequencies not present in the next activated sources activated during the pseudo listen time such that the frequency band pass filter is applied to the pseudo listen time so that only next source activation contaminating energy remains wherein the resulting contaminated energy listening time record is then subtracted from the original extracted pseudo listen time to attenuate the next source activation contaminating energy. 4. A process for acquiring seismic data in a seismic survey comprising a large plurality of shot points and a large plurality of receiver points wherein multiple sweep-style seismic sources are arranged such that each source is positioned at a separate shot point and the sources are delivering seismic energy into the earth concurrently while receivers are arranged to record seismic signals reflected back from the earth to the surface to create a composite data record of energy from the sources and wherein the process includes the sources delivering at each shot point at least the number of sweeps of seismic energy as there are sources that are commonly delivering seismic energy into the earth used in the survey where the sweeps are delivered continuously with no listen time between each sweep, and further wherein a pseudo listen time is created in the composite data record using a frequency band pass filter based method where a frequency band pass filter is designed to attenuate the frequencies of the next following sweep of the sources. 5. The process according to claim 4 where the frequency band pass filter follows a time and frequency progression that allows the desired and expected frequencies and attenuates other frequencies such that the attenuated frequencies are a different wavelength depending on the lapsed time following the start of sweep.