NAFI TR-lUll-0 



REFERENCES 



1. C. W. Helstrom, Statistical Tlieory of Signal Detection, Pergaraon 

 Press (i960). 



2. M. Schwartz, "Statistical Detection Tlieory and Detection of Signals 

 in Noise," pp. IO5-IUO of Modern Radar , edited by R. S. BerKowitz, 

 McGraw-Hill (1965). 



3. D. Middleton, "Communication and Statistical Decision Theory," 

 Electro-Technology , Nov. 196^+, pp. 65-82. 



h. D. Middleton, An Introduction to Statistical Communications Theory . 

 McGraw-Hill (1960). 



5. F. Bryn, "Optimum Signal Processing of Three -Dimensional Arrays 

 Operating on Gaussian Signals and Noise," J. Acous. Soc . Am ., Vol. 

 S^J- No. 3 (March I962), pp. 289-297. 



6. Edelblute, Fisk, ■:■. Kinnison, "Criteria for Optimum Signal-Detection 

 Theory for Arrays," J. Acous. Soc. Am. , Vol. Ul No. 1 (Jan 196?), 

 pp. 199-205. 



7. Widrow, Mantey, Griffiths, & Goode, "Adaptive Antenna Systems," 

 Proc. IEEE, Vol. 55 No. 12 (Dec. I967), pp. 21U3-2159. 



8. C.H. Knapp, Optimum Linear Filtering for Multi-Element Arrays, 

 General Dynamics/Electric Boat Rept UU17-66-O3I, Nov. 1, I966. 



9. C. W. Horton, Signal Processing of Acoustic Waves , Defense Research 

 Laboratory Rept. DRL-A-25I, Nov. I965. 



10. P. M. Woodward, Probability and Information Theory with Applications 

 t o Radar, Pergamon Press (196U). 



11. G. L. Turin, "An Introduction to Matched Filters," IRE Trans. Info. 

 Theory IT-6 (Jun. I960) pp. 3II-329. 



12. R. J. Urick, Principles of Underwater Sound for Engineers , McGraw- 

 Hill (1967). 



13. V. Mc Albers, Underwater Acoustics Handbook II , Pennsylvania State 

 University Press (1965). 



Ik. Davenport & Root, Random Signals and Noise, McGraw-Hill (1958). 

 15. Handbook of Mathematical Tables , First Edition, Chemical Rubber 

 Publishing Company (1962), p. 3l6,eqn. Ul2. 



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