Electromagnetic radiation source locating system

The invention claimed is: 1. An electromagnetic radiation source locating system comprising: a directional electromagnetic radiation sensor including an antenna configured to detect radiant energy transmissions from an electromagnetic radiation source; a controller in communication with the electromagnetic radiation sensor; a support operably coupled to the electromagnetic radiation sensor for supporting the antenna in a plurality of orientations relative to the radiant energy transmissions; a position detector in communication with the controller, the position detector configured to detect a position of the antenna relative to a reference coordinate system and provide a position signal indicative of the position of the antenna to the controller; an orientation detector in communication with the controller, the orientation detector configured to detect rotational orientation of the antenna and provide at least one orientation signal indicative of orientation of the antenna to the controller; the controller being configured to control movement of the antenna to determine a first and second directional vector to the source of the radiant energy transmissions in part in response to at least one said orientation signal, wherein the controller determines a first distance from the antenna to the source based on movement of the antenna to determine maximum signal strength of the radiant energy transmissions, the controller further determines the first distance based on a signal triangulation determination with respect to the antenna and source derived from orientations of the antenna as it measures two separate emissions from the source, wherein the measurements are made at antenna positions a known distance apart; an actuator controlled by the controller configured to move the antenna so as to orient the antenna in said plurality of orientations; and a range sensor in communication with the controller, the range sensor configured to detect a second distance to an aligned object in a path of said first or second directional vector and providing a second distance signal indicative thereof to the controller; wherein the controller determines if the range sensor is determining the second distance based on detection of the source or an obstruction to the source by comparing the first and second distance signals to determine if the first and second distances match. 2. The electromagnetic radiation source locating system of claim 1 , wherein the antenna comprises a Yagi directional antenna operably coupled to a radio frequency signal processor. 3. The electromagnetic radiation source locating system of claim 1 , wherein the range sensor comprises a laser range finder configured to transmit a laser pulse and determine the second distance to the aligned object based upon the pulse as reflected off of the aligned object. 4. The electromagnetic radiation source locating system of claim 1 , wherein the position detector comprises a global positioning system receiver. 5. The electromagnetic radiation source locating system of claim 1 , wherein the orientation sensor includes a digital compass. 6. The electromagnetic radiation source locating system of claim 1 , wherein the controller includes a spatial processor configured to calculate location of the source of the radiant energy transmission source based upon at least two different said directional vectors. 7. The electromagnetic radiation source locating system of claim 1 , further comprising: a transmitter operably coupled to the controller; an aerial vehicle in communication with the transmitter; and a marker carried by the aerial vehicle and configured to be dropped proximate the radiant energy transmission source. 8. The electromagnetic radiation source locating system of claim 1 , further comprising a visual line-of-sight device. 9. The electromagnetic radiation source locating system of claim 8 , wherein the visual line-of-sight device comprises an infrared scope configured to detect light emitted by the range sensor. 10. The electromagnetic radiation source locating system of claim 1 , further comprising a camera operably coupled to the controller. 11. A radio frequency source locating system comprising: a directional antenna configured to receive radio frequency signals from a source; a radio frequency signal processor operably coupled to the antenna; a support configured to be mounted to a vehicle and operably coupled to the antenna; an actuator configured to orient the directional antenna; a controller in communication with the radio frequency signal processor and configured to cause the actuator to orient the antenna based upon detections of a maximum detected strength of a selected one of the radio frequency signals from said source; a position detector in communication with the controller, the position detector configured to detect position of the locating system relative to a reference coordinate system and provide a first and a second position signal indicative of position of the directional antenna of the locating system thereof to the controller upon detections of a first and second maximum detected strength of the selected one of the radio frequency signals from said source at a respective spaced apart first and second detection location; an orientation detector in communication with the controller, the orientation detector is configured to detect orientation of the antenna upon said detections of the first and second respective selected one of the radio frequency signals from said source each having maximum detected strength based on movement of the directional antenna and provide at least a first and a second orientation signal to the controller; and a range sensor in communication with the controller, the range sensor is oriented in coordination with the antenna; wherein the controller is configured to determine a first directional vector to said source of the selected one of the radio frequency signals in response to the first orientation signal at said first detection location; wherein said position detector and orientation detector further includes control logic or instructions that selectively output or provide said second position signal and second orientation signal upon said second detection of maximum detected signal strength of the selected one of the radio frequency signals from said source after traversing or movement of the radio frequency source locating system to said second detection location; wherein the controller determines if the range sensor is determining the second distance based on detection of the source or an obstruction to the source by comparing the first and second distances to determine if the first and second distances match. 12. The radio frequency source locating system of claim 11 , wherein the position detector comprises a global positioning system receiver. 13. The radio frequency source locating system of claim 11 , wherein the orientation sensor includes a digital compass. 14. The radio frequency source locating system of claim 11 , wherein the controller includes a spatial processor configured to calculate the location of the source of the radiant energy transmissions based upon at least two different direction vectors to the same source in two different positions of the locating system. 15. The radio frequency source locating system of claim 11 , further comprising: a transmitter operably coupled to the controller; an aerial vehicle in communication with the transmitter; and a marker carried by the aerial vehicle and configured to be dropped proximate the radio frequency signal source.