Borehole independent neutron porosity measurement

We claim: 1. A method for estimating formation porosity from a neutron logging measurement, the method comprising: (a) acquiring a neutron logging data point including a near detector count rate in a formation and a far detector count rate in the formation, wherein the neutron logging data point comprises average near detector count rates and average far detector count rates, the average near count rates and the average far detector count rates obtained by averaging near and far detector counts over a time period greater than or equal to a rotational period of a logging tool in a borehole; (b) acquiring input data, the input data relating near count rate, far count rate, and formation porosity in a region of interest, wherein the region of interest comprises a predetermined range of borehole diameter and a predetermined range of sensor standoff; and (c) causing a processor to process the data point acquired in (a) and the input data acquired in (b) to obtain a borehole independent formation porosity measurement, wherein the porosity measurement is substantially independent of borehole diameter, borehole shape and sensor standoff; and (d) continuing hydrocarbon exploration and/or hydrocarbon production based on the porosity measurement. 2. The method of claim 1 , wherein the input data acquired in (b) comprises a plurality of curves, the curves indicating the dependence of the near detector count rate and the far detector count rate on the borehole diameter and the sensor standoff in the region of interest, each curve corresponding to a unique formation porosity. 3. The method of claim 2 , wherein the curves are lines. 4. The method of claim 1 , wherein the input data comprises a plurality of coefficients, the coefficients indicating the dependence of the near count rate and the far count rate on the borehole diameter and sensor standoff in the region of interest as a function of formation porosity. 5. The method of claim 1 , wherein the input data comprises a contour map, the contour map indicating the dependence of the near count rate and the far count rate on the borehole diameter and sensor standoff in the region of interest as a function of formation porosity. 6. A neutron logging tool comprising: a logging tool body; a neutron source deployed in the tool body; first and second, near and far neutron detectors deployed in the tool body and longitudinally spaced apart from one another and from the neutron source; a controller configured to (i) acquire a neutron logging data point including first near and far detector count rates in a formation from the near and far neutron detectors, (ii) acquire input data, the input data relating near count rate, far count rate, and formation porosity in a region of interest, the region of interest including a predetermined range of borehole diameter and a predetermined range of sensor standoff, and (iii) processing the acquired data point and the acquired input data to obtain a borehole independent porosity, wherein the controller is configured to obtain the first near and far detector count rates by averaging near and far detector counts over a time period greater than or equal to a rotational period of the tool in a borehole, and substantially independent of borehole diameter, borehole shape and sensor standoff. 7. The neutron logging tool of claim 6 being a logging while drilling tool. 8. The neutron logging tool of claim 6 , wherein the input data comprises a plurality of coefficients, the coefficients indicating the dependence of the near count rate and the far count rate on the borehole diameter and sensor standoff in the region of interest as a function of formation porosity.