SCIENTIFIC ABSTRACT ALEKSEYEV, A. S. - ALEKSEYEV, A.V.

EMMEM-P- DR.; . ~?7r , " R.3 21.0"em-, d , -, ~ , - ~', - , - - f I   iiaSE-YEV, A.-S.I.-GELCHIISKIY, B. YA.------ -- - "Successive Approximations in the Ray Theory and its Applicstion in Propzigation Problems Involving Boundaries." "Ray Theory of Intensity and Shape of Leading Waves in an Elastic Medium." paperSpresented at the 4th All- Union Acoustics Conf., 26 May - It June 1958.  ,4 k- _F V j 49-1-2/16 AUTBDRS:Babich, r.M~. and Alekseyev, A.S'0 __ TITLE: On the Ray Method of Calculating the Intensity of Wa-ve- fronts (0 luchevom metode vychisleniya intensivnosti volnovykh frontov) PERIODICAL: Izvestiya Akademii NaWc SSSR, Seriya Geofizicheskaya, 1958t Nr 19 pp'..17-31 (USSR) ABSTRACT: The growth of dynamic seismology leads to the necessity of calculating the intensity of longitudinal and trans- verse waves in inhomogeneous media at the reflection of the waves from curvilinear boundaries. Such calculations can be carried out by considering the relations obtaining on the characteristic manifolds of the equations describ- ing the wave processes. Analogous considerations lie at the basis of the methods of Hadamard (Ref'.1) and Sobolev (Ref-.2) for the solution of the Cauchy problem for hyper- bolic equations. The method described in this paper has previously been applied to Maxwell's equations (Ilefs".3-5) and to the wave equation (Refs'.6-9). Levinand Rytov (Ref'.10), and Zvolinskiy and Skuridin (Refs.11 and 12) have applied ray considerations to the equations of the Card 1/9  49-1-2/16 On the Ray Method of Calculating the Intensity of Wavefronts. theory of elasticityp but in none of these,papers are to be found the equations 4'.2l 4".3, 4".5 and 4.7, which are at the basis of the method described. The method of des- cribing the function f(cx , a ) for a concentrated source, which is an important pari of2the method, is also new. Let t = 't (x, y, a) be the equation of the wavefront at time t . Let the wave process under consideration be described by the scalar or vector function U(xj yp z, t) where it is assumed that U(XVYVZI,t) ~ UO(XOYPZ)fO(t - 'V) + Ul(xtytz)fi(t +0 (f 2(t in which f I (t) = fl (t) f 1 (t) = fo (t) 2 It is assumed that in some sense the function f 2(t) can be neglected in comparison with its derivative. If Eq~*(Jrl) is substituted into 1 U + U U 0 Card 2/9 xx yy C2(x, Y) tt  49-1-2/16 On the Ray Method of Calculating the Intensity of Wavefronts. and the coefficient of fol equated to zeror there results 2 grad V grad U0 + U0AV = 0 which is studied in some detail. Equations analogous to Eq' (2' .4) for the case of an inhomogeneous elastic medium derived by substituting the expression for the vector U(x# yj t) from Eq!.(f.1) into the two-dimensional differ- 7;ntial.equations of motion of an inhomogeneous elastic medium'. Thus we have )9rad J1U (grad *r)2 + 0 - (X + p) (grad tU U = 0 (Bq'. 2.6) -0 /-0 1-0 (7, + )a) (grad tU:L)grad -C pUl (grad t)2 + PUl = 0 (Eq.2'.7) where Card 3/9  49-1-2/16-- On the Ray Method of Calculating the Intensity of Wavefronts. g(U0, %) = (7, + A) ~(div Uo)grad '[ + grad (gograd -Q] + + U NJ AT + 2 (grad J/O:,grad T)'i + 2 (grad Uoy grad T) + 0 , i1 + grad X (Uo grad Z) + (gradul2o)grad 'C + (gradu grad t)]go (Eq.2.8) and U , U i, j are unit vectors in the Uo = t ox oyl directions of x and y respectively. Eq.(2.6.) is a system of two homogeneous equations in the two unknowns U ox and Uoy 1 and it can be shown that the determinant of this system only vanishes in two cases. These are: (a) when 1grad -r - 1 -P (longitudinal wave) in f a7 - x + 2)11 which case we shall write 'ta for 'U ; and (b) 1grad 'tl2 P b we shall write Tb for Card 4/9 shown that: (transverse wave) in which case T. In the first case it can be  W-7.0 Wo 49-1-2/16 On the Ray Method of Calculating the Intensity of Wavefronts. U = Yograd Za (Eq.3'.1) ..o where (Po is a scalar function of position'. Eq.(2.7) can also be regarded as an algebraic system of equations for the unknown compon- ents of the vector "g~j . Again there are two conditions for solution, the first of which can be written in the form : I, (U 0, Ta)grad Ta= 0 (1Sq .3 .3 If Eq.(3-.l) is substituted into Eq.(3-3), after some simplification 2 ~Po + [a 2A-t - (X + 2)a) rad I grad Zalgo = 0 (Eq-3.6) ~It;a a (9 P is obtained. In Fq.(3~.6) the derivative is calculated Card 5/9 along the ray of the longitudinal wave. If Un and U 1) P-P  49-1-2/16 On the Ray Method of Calculating the Intensity of Wavefronts. are the components Of the U 0 along the normal and the binormal to a ray of the transverse wave, then the condit- ion for the solubility of the system 2.7 can be written in the f orm: j 2 -16 u n+ 9 Thu + (b2gr' + gradu grad Un = 0 --D "b BTb P DU9 2AU 1 (3.8) 2 2 ThUn + (b + 7grad)a grad T u = 0 altb b, b) 'i Suppose that a point on the ray is characterized by the quantity and the ray itself by the parametex a and let x x(a, T Y = y(m, Z or, in vector'form, X X (a,T Eq.(2.4) can be written in the form N 2 3UO U, + 0 ict 0 Card 6/9 07 Tr (ILL)  On t%e Ray Method of Calculatix)g the IU,, I f (P) pb In the three-dimenBional case the two parameters a 1 and have their analogies in: 49-1-2/16 Intensity of Wavefronts. (Eq~.4~03) a ray is characterized by m 2 and Eqs.(4.9-) and (4'.3) IU01 - 1 =_ f (al ' 'T2 (Eq'. 4'*5 Vja?a and: luol f (0-1f 02) (Eq'.4".7) "fjb Pb where J The authors conclude by consider- ing three examples: (1),The reflection of waves from a curvilinear boundary; 2~ Media whose inhomogeneity de- Card 8/9 pends on 1 coordinate; 3) The diffraction of a cylindri-  49-1-2/16 On the Ray Method of Cale-alating the Intensity of WavefrontB. cal wave at a wedge There are 3 figures and 28 references, 21 of which are Slavic- ASSOCIATION: Ac'. of Sciences of the USSR9 Leningrad Branch of the Mathematical Institute imeni V.A!.Steklov (Akademiya nauk SSSR?,- L'pningradskoye otdeleniye Matematicheskogo instituta im. V.A. Steklova) SUBMITTED: July 29, 1956. AWLABLE: Library of Congress. Card 9/9  AUTHORS: Alekseyev, A. S., Gellchinskiy, B. Ya. 2o-3a8.4- 1 o/61 ----------------- -- TITLE: ----- On the Determination of Head Wave Intensity by the Method of Rays in the Theory of Elasticity (Ob opredelenii intensivnosti golovnykh voln v teorii uprugosti luchevym metodom) PERIODICAL: Doklady Akademii Vauk SSSR, 1958, Vol- 118, Nr 4, pp. 661-664 (USSR) ABSTRACT: The present paper investigates the intensity and the shape of the head waves occurring at the planar boundary of elastic media in the case of a linearly polarized wave with an arbitrarily shaped head wave striking this boundary. In rectangular coordinates x,y,z let z> 0 and z 0 containing the elastic medium, f, denoting the density. The elastic properties of the medium taking up the half-space z 0 in cylindrical coordinates rt^,% z. Lame* parameter X is an arbitrary, function of r,13; z; ~L and p depend on z only. The half-space is filled with an elastic medium at rest. At time t - 0 a surface moment (5z . 0, 'Crz 7 Of T,~z w a(t)b(r) when z - 0 Card 1/4  S/049/62/000/011/002/006 Some converse problems D218/D308 is applied to the surface z - 0. This gives rise to SH waves only, and the elastic displacement vector is U (r, z, A) U (r, '&I Z.1 t) where U-CA is the component of the displacement vector in the direction of the unit vector'k, . The r and z components are Ideritically zero. The differential equation for UO. is 2 2U'd ~L, (z)C)U, U,& U P(z) 82 UA,% br2 r .'0 r r2 Z2 (z) bz 11 (z) j3 t2 (3) subject to the boundary condition a(t) b (r) (4) 6 z z 0 (0) Card 2/4  B/04 62/000/011/002/006 Some converse problems ... D218YD308 and the initial condition Uft I t < 0 0 The development of these equations is considered in greater detail in a previous paper (Doklady.AN 333R9 v. 103, no. 6, 1955)- It is assumed that a(t) a 6(t) (Dirac delta function) and CO 1 d 6 W b(r) k2jj (kr)dk . - r Tit- 177 W-r r 0 where J, is the first-order Bessel function. It is shown that the problem may be reduced to a standard Sturm-Liouville boundary value .problem and that the final solution may be written in the form CID U (r, Z, t) (x, t, k)k2il(kr)dk 0 (36) Card 3/4  -001, M! 5/049/62/000/011/002/006 Some converse problems ... D218/D308 C1 (X It I k)' CD a i n 1-5, T(xtj )d S Yk Pk 0 z X (K )) d~ 1 6 (z) -~ji (z) 0 (37) where is the Lam6 parameter.'This solution is used in the following paper (Izv. AN 83SR. S. geofiz., 1962, no. 11, 1523 1531) to formulate the converse problem. ASSOCIATIONt Matematicheskiy institut im. V.A. Steklova, Leningradakoye otdeleniye (Ma:thematical Institute im. V.A. Steklovo Leningrad Division) SUBMITTEDs April 20, 1962 Card,4/4  43344 s/o4g/62/000/011/003/006 D218/D308 AUTHORt Alekseyev, A.S. TITLE: Some converse problems in the theory of wave. propagation. II. The spatial problem for SH waves (the converse problem in an overdeter- mined formulation) J/ PERIODICAL: Akademiya nauk SSSR.'Izvestiya. Seriya geo- fizichaskaya, no. li, 1962, 1523 - 1531 TEXT: This paper is a continuation of the paper on PP- 1514-1522 of this journal..It is requIrea to determine.AL(Z) and f(z) in such a way that ' U~,(r, 0, t) 0 (r, t) (4) where G~r, t) is a function known in the range 0 < t -- T, 0 -4 r iC- R and _Uj, rp 01 t) is a special solution of the problem defined by (3) (5) of the preceding paper. The function G(r,t) is assumed to satisfy the following conditionst (1) there exists a curve Card 1/3  s/o4 62/000/011/003,/006 Some converse pro*blems ... D218YI)308 ~ r~(t) on the plane (rot) such thai UO(r, 0, t) - 0 for ~ ;r1 t); (2) the function PkW vanishes for X < 0 and does not decrease with increasing ON for any k in the range (0, co); if the condition C5 2 Vf -X where > 0 (11) k P k is satisfied, then the function OD Cos x a - (X) S dd (12) k k has continuous derivatives up to the fourth order inclusive for any k ) 0; and (4) in the range 0,~ t 4 T the function t (0.0,k) has three continuous derivatives with respect to t for any kbO and may be written in the form (0, t, k)* 00 1 Co. -4 kt d W S x Pk 0 Card 2/3  S/049/62/000/011/003/006 Some converse problems ... D218/D308 where W (k) is a function which does not decrease %!ith increasing >,. Subject to these restrictions, it is shown that there exist doubly differentiable functions p(z) and P (z) which in a certain interval CO, Z(T)l define the medium uniquely'for the above for-m of G(rit). The minimum conditions for the problem will be cone idered in a future paper. ASSOCIATION: Matematicheskiy institu t im. V.A, Steklova, Leningradskoye otdeleniye (Mathematical Institute im V.A. Steklovq Leningrad Division) SUBMITTED: Aprii 20t 1962 Card 3/3 R I AN S  s/141/62/005/002/018/025 E14o/E435. AUTHOR: Alekseyev, A.S. TITLE: The method of point transformations applied to the cyclical:. production of an arbitrary number of articles on a single equipment in the pre6cace of varying backlogs PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Radiofizika~. v.5, no.2, 1962, 370-384 TEXT: The author presents algorithms based on the method of point transformations (known from the theory of nonlinear automatic control systems) for planning the production cycle in a system where different articles are to be produced on a single machine or group of machines or, rather, to select'among various possibl:e such plans an optimal one, The -system is considered to be a nonlinear dynamic,system with continuous parameters, the differential equations are s~t up and stable limit cycles,sought. These limit cycles must start from some known initial conditions and arrive at carrying the procesai~-cyclically__- through certain Card 1/2  05/0 110 5 tvVe Pk,,l e rIF-0 F,~ wo and Opera Oct 11a to "Pee e lectri .0 denil I 0 C c, OV of, 3.vmear IKV% ,&,V i3w er S .0 a j~q , - UebOl :Oro the .Uh JC, 1.016 0 1: t1we and 911, vyashl I.Q09- ed 9ro e 8 t 1.962, V~trodjc V.51%no.5% Loos 0 oper at 1 V Y 1.00 Xit dc Ilk and z I- t 1-0 0f ic, IOM rool, ,,oil 00 ttve two t,,, SeV %less I 12 to ZI otIds of -res,p tjOIA Go,, c aditi-00 3. alle VaL icy a, or V dilla Of 9 '--e apparatus of a 11 0 Oces --the logical algel ioVe do -6 by in d ---ga6trix operations if Cat the inverse matrix. Card  The use of certain special S/141/62/005/005/010/016 E14o/El-35 Then in the parallel connection'of two n-poles, their acUittance matrices are added, and their impedance matrices added harmonically. The use of the new operations is illustrated by the analysis of a simple.bridge circuit. In conclusion, the.author notes that i -n general, digital computers must be used for even mildly complicated circuits. ASSOCIATiON: Nauchno-issledovateltakiy fiziko-tekhnicheskiy institut pri Gorlkovskom universitete (Scientific Research Physicotechnical institute at Gor'kiy University) SUBMITTEDt December 29, 1961 Card 3/3  VOLIVOVSKIY, I.S.; YERMILOVA, N.I.; KRAUKLIS, P.V.; RYABOY, V.Z. Physical nature of certain waves rec-orded in hodographic seismic Sounding. Part 1. IzY. AN SSSR. Ser. geofiz. no.lltl620-1630 N 163. (MIRA 16:12) 1. Kontora "Spetsgeofizika", Leningradskoye otdeleniye Matematicheskogo.instituta imeni Steklova AN SSSR.  IGOLITSMAN . Fedor Markovich; ALEKSEYEV, A.S.; nauchn. red. (Principles of the theory of interference reception of regular waves) Osnovy teorii interferentsionnogo priema reguliarnykh voln. Moskva, Nauka, 1964. 283 p. (MIRA 17:12)  ACCMION NR: AP4014023'-- AMHORS% Aleks!7!Tv.A. So; Vollvovskiyo 1. So; Termilovap No L; Kkauklist P. Vol T&bCq. V~-,'7o,_-_--_-- F TITLEt The physical nature of some waves recorded during deep seismic sounding* 2# Theoretical analysis of models of the earth's orust for regiono of 0#4#4 A*4 SOMORt AN BSSR. Izv. Seriya, geofixicheekayap no. ip i964t 3-19 TOPIC TAGSt deep seismic sounding, earth's orustq Central Asia, head wave, refleoted wavep refracted wavel kinematic characteristic, dynamic charaoteristiop Turkmeniap shot point, apparent wave velocity 0 AlbMLCTs The authors present results on theoretical comparisons of the kinemati and, dynamic characteristics of the earth's crust in southeastern Turkmenia. They have considered possible laws governing changes in apparent wave velocity with .-!distance from shot point in layered inhozogeneous media with plane-parallol inter-, faces. Three different models of the earth's crust were ueedq based on different valuesp densities# rates of change with depthp and ooabinationo of theseo-, k,-Iftsults show that in layeredp inhomogeneous media the following relat a 8, ;~Jhold for the different k4nd of waveeg for head waves dV*/dx - 0 and d V* Ov, Card 14yu?'- 77  ACCESSION NRt AP4014023 J.. 2V*/dx2>0; and for refraQted waveop if t7f, for refleotdeA waveR dV*/dx < 0 and d d2j*/dx~, > 0 or 0~*/dx2 e dV*/dx