Range and depth detection system
First Claim
1. The method of determining from a monitoring point the range to and the depth of a submerged object from which pulses of acoustic energy may be received wherein mathematical formulations interrelating angle of arrival, range and depth are solved to obtain said quantities of range and depth, said method comprising the steps of:
- (a) detecting the vertical angle versus time sequence associated with the multipaths of a particular pulse of acoustic energy emanating from said submerged object;
(b) examining the time sequence with respect to said multipath pulses so as to determine those multipath pulses that do not overlap as to their time of arrival at said monitoring point;
(c) determining said angles of arrival associated with said nonoverlapping multipath pulses; and
(d) solving said mathematical formulations for the said quantities of range and depth by substitution therein of said angles of arrival associated with said nonoverlapping multipath pulses.
0 Assignments
0 Petitions
Accused Products
Abstract
The method and apparatus for computing the range to and depth of a submerged object that either emits or reflects pulses of acoustic energy, wherein a detecting array and related data handling apparatus measure as a function of time the apparent angles of arrival of the acoustic energy associated with each such pulse. This data is then translated into actual multipath arrival angles and multipath travel time differences which are utilized to solve mathematical equations, the solutions of which result in the calculation of the range to and depth of the submerged source of acoustic energy.
56 Citations
7 Claims
-
1. The method of determining from a monitoring point the range to and the depth of a submerged object from which pulses of acoustic energy may be received wherein mathematical formulations interrelating angle of arrival, range and depth are solved to obtain said quantities of range and depth, said method comprising the steps of:
-
(a) detecting the vertical angle versus time sequence associated with the multipaths of a particular pulse of acoustic energy emanating from said submerged object; (b) examining the time sequence with respect to said multipath pulses so as to determine those multipath pulses that do not overlap as to their time of arrival at said monitoring point; (c) determining said angles of arrival associated with said nonoverlapping multipath pulses; and (d) solving said mathematical formulations for the said quantities of range and depth by substitution therein of said angles of arrival associated with said nonoverlapping multipath pulses. - View Dependent Claims (2)
-
-
3. The method of determining from a monitoring point the range to and the depth of a submerged object from which pulses of acoustic energy may be received wherein mathematical formulations interrelating the doublet travel time interval between doublet multipaths, range and depth are solved to obtain said quantities of range and depth, said method comprising the steps of:
-
(a) detecting the vertical angle versus time sequence associated with the multipaths of a particular pulse of acoustic energy emanating from said submerged object; (b) determining the doublet travel time interval that exists between two pairs of multipath doublets representative of a pulse of acoustic energy emanating from said submerged object; and (c) solving said mathematical formulations for the said quantities of range and depth by substitution therein of said doublet travel time intervals associated with said pairs of multipath doublets. - View Dependent Claims (4)
-
-
5. The method of determining from a monitoring point the range to and the depth of a submerged object from which pulses of acoustic energy may be received wherein mathematical formulations interrelating angle of arrival, doublet travel time interval between doublet multipaths, range and depth are solved to obtain said quantities of range and depth, said method comprising the steps of:
-
(a) detecting the vertical angle versus time sequence associated with the multipaths of a particular pulse of acoustic energy emanating from said submerged object; (b) comparing the time sequence with respect to said multipath pulses so as to determine those multipath pulses that do not overlap as to their time of arrival at said monitoring point; (c) determining one of said angles of arrival associated with said nonoverlapping multipath pulses; (d) determining the doublet travel time interval that is associated with a multipath doublet representative of said particular pulse of acoustic energy emanating from said submerged object; and (e) solving said methematical formulations for the said quantities of range and depth by substitution therein of said one of said angles of arrival associated with a nonoverlapping multipath and said doublet travel time interval associated with said multipath doublet representative of said particular pulse of acoustic energy. - View Dependent Claims (6)
-
-
7. A measuring system for measuring the range to and the depth of a submerged object from which pulses of acoustic energy may be received, said system comprising:
-
(a) a detection means, capable of detecting multipath signals of acoustical energy and providing output signals indicative of the angles of arrival of said multipath signals; (b) an analog-to-digital converter, coupled to the output of said detection means and capable of converting the output from said detection means into a digital output; (c) a delay line memory coupled to the output of said analog-to-digital converter, for temporarily storing the digital output from said analog-to-digital converter; (d) clock means coupled to the input of said delay line memory capable of feeding time reference data into said delay line memory in combination with the signal inputs from said analog-to-digital converter so as to provide time references indicative of the initiation of an output signal from said analog-to-digital converter; (e) computing means coupled to the output of said delay line memory, said computing means being capable of solving mathematical formulations for the range to and depth of said source of transient pulses of acoustic energy based upon the data supplied from said delay line memory; (f) gating means coupled between the output of said delay line memory and the input of said computing means, said gating means being capable of regulating the input to said computing means; and (g) logic means coupled between the output from said sonar array and said gating means for regulating the conductive state of said gating means, said logic means causing said gating means to be rendered conductive whenever said sonar array output is above a predetermined magnitude so that data from said delay line memory is selectively fed to said computing means.
-
Specification