ABSTRACTS OK TKCIIN'ICAL ARTICLES 265 



ciuently, a I'ocently (lcvel()])0(l teleijhotogi'apli level conipensator, consisting 

 of a pilot channel arrangement tlesigned lor insertion in the tele])li()tograi)h 

 connecting circuits, is utilized. 



KlSTLER, R. E.'^ 



Radio Links U.S. and Canada, 'rolophoiiy, 145, pp. 1()-17, 33, Sept. 

 5, 1953. 



Klie, Pv. H., see C. H. Elmendorf. 



KoHMAX, G. T., see D. Edelson. 



Kruse, p. F., Jr." and W. B. Wallace^ 



Identification of Polymeric Materials, Anal. Chem., 25, p. 1156, 



Aug., 1953. 



KuH, E. S.i 



Potential Analog-Network Synthesis for Arbitrary Loss Functions, 

 J. App. Phys., 24, pp. 897-902, July 1953. 



A general method is developed for designing networks with arbitrary loss 

 functions based on the potential analogy. An appropriate potential prob- 

 lem is formed on the basis of the given loss function by introducing con- 

 tinuous charge distribution on the complex freciuency plane. After the po- 

 tential problem is solved, the technique of quantization of charge is used 

 to find the natural modes of the network function. 



Laxge, R. W.i 



40- to 4,000-Microwatt Power Meter, A.I.E.E. Trans., Commun. c^- 

 Electronics, 8, pp. 492 494, Sept., 1953. 



Lewis W. D.^ 



Electronic Computers and Telephone Switching, TR.E., Proc, 41, 

 pp. 1242-1244, Oct., 1953. 



Automatic telephone switching and digital computation have much in 

 common. Both rely upon discrete rather than continuous devices. Develop- 

 ment of recent switching systems with a close functional reseml^lance to 

 large digital computers has increased this overla]). The next big step in 



1 Bell Telephone Laboratories. 



^Pacific Telephone and Telegraph Company. 



' Sandia Corporation. 



