Pipe conveyed extendable well logging tool

What is claimed is: 1. A pipe conveyed well logging assembly comprising: a downhole pipe including a garage; a logging tool disposed in the garage and extendable therefrom; a retraction system located downhole and configured to retract the logging tool into the garage while downhole, wherein the retraction system includes a tractor; and a releasable latch releasably engageable with the garage to retain the logging tool in and release the logging tool from the garage. 2. The pipe conveyed well logging assembly of claim 1 , wherein the tractor is moveably coupled between the logging tool and the garage to retract and extend the logging tool while downhole. 3. The pipe conveyed well logging assembly of claim 1 , wherein the logging tool comprises a controller coupled to the tractor. 4. The pipe conveyed well logging assembly of claim 3 , wherein the logging tool comprises a sensor coupled to the controller, and the controller controls the tractor in response to a signal from the sensor. 5. The pipe conveyed well logging assembly of claim 1 , wherein the retraction system includes a pressure differential mechanism. 6. The pipe conveyed well logging assembly of claim 5 , wherein the pressure differential mechanism includes a bi-directional valve. 7. The pipe conveyed well logging assembly of claim 5 , wherein the pressure differential mechanism includes a flow rate dependent valve. 8. The pipe conveyed well logging assembly of claim 5 , wherein the pressure differential mechanism includes a velocity valve. 9. The pipe conveyed well logging assembly of claim 5 , wherein the pressure differential mechanism includes a ball and spring valve. 10. A pipe conveyed well logging assembly comprising: a downhole pipe including a garage; a logging tool locatable in the garage and extendable therefrom to an extended position; a releasable stop configured to hold the logging tool in the extended position and selectively allow retraction of the logging tool back into the garage; and a position sensor locatable downhole to identify a position of the logging tool relative to the downhole pipe. 11. The pipe conveyed well logging assembly of claim 10 , wherein the position sensor includes an axially displaced sensor array. 12. The pipe conveyed well logging assembly of claim 10 , wherein the position sensor includes at least one of a series of point sensors, a magnet, a series of mechanical switches, and a long stroke linear sensor. 13. The pipe conveyed well logging assembly of claim 10 , wherein the position sensor is configured to provide a feedback to a controller coupled thereto. 14. The pipe conveyed well logging assembly of claim 13 , wherein the controller is configured to use the feedback to control the logging tool. 15. The pipe conveyed well logging assembly of claim 13 , wherein a memory in the logging tool is configured to collect the feedback for a depth correction of the pipe. 16. The pipe conveyed well logging assembly of claim 10 , wherein the releasable stop includes a stop collar coupled to the logging tool and a stop ring coupled to the garage. 17. The pipe conveyed well logging assembly of claim 10 , wherein the releasable stop includes a releasable latch engageable with the garage. 18. The pipe conveyed well logging assembly of claim 10 , wherein the releasable stop is configured to allow retraction of the logging tool in response to an external force. 19. A method of deploying a pipe conveyed well logging assembly comprising: disposing in a borehole a pipe including a garage housing a logging tool; lowering the logging tool below a selected well zone using the pipe; extending the logging tool from the garage; deploying logging devices from the logging tool; moving the logging tool up the borehole with the pipe while collecting logging data with the logging devices; retracting the logging tool into the garage; and detecting a retraction distance of the logging tool relative to the garage. 20. The method of claim 19 , further comprising: moving the logging tool down the borehole after retracting the logging tool; re-extending and re-deploying the logging tool and logging devices; and re-logging a well zone. 21. The method of claim 19 , further comprising removing the logging tool and pipe from the borehole. 22. The method of claim 19 , wherein the logging tool is retracted in response to an external force. 23. The method of claim 22 , wherein a retraction system is activated to fully retract the logging tool. 24. A method of deploying a pipe conveyed well logging assembly comprising: disposing in a borehole a pipe including a garage housing a logging tool; lowering the logging tool below a selected well zone using the pipe; extending the logging tool from the garage; deploying logging devices from the logging tool; moving the logging tool up the borehole with the pipe while collecting logging data with the logging devices; releasing and retracting the logging tool into the garage in response to an external force on the pipe or the logging tool; and detecting a retraction distance of the logging tool relative to the garage. 25. The method of claim 24 , further comprising correcting a depth measurement of the pipe using the retraction distance. 26. The method of claim 24 , further comprising re-extending the logging tool when the external force is removed. 27. The method of claim 24 , further comprising using a retraction system to fully retract and latch the logging tool in the garage. 28. The method of claim 24 , wherein the external force is provided when the logging tool reacts against borehole rugosity. 29. The method of claim 24 , wherein the external force is provided when the pipe is downwardly manipulated during lowering or moving the pipe.