Ñîäåðæàíèå
Ýêñòðåìàëüíûå çàäà÷è äëÿ íåëèíåéíûõ äèôôåðåíöèàëüíî-îïåðàòîðíûõ
ñèñòåì è âêëþ÷åíèé
Ìîäåáàäçå Ò.À., Ñîõàäçå Ã.À. 5
Îá îäíîì ïðèìåíåíèè íå÷åòêèõ ëèíãâèñòè÷åñêèõ ïåðåìåííûõ
ïðè âûáîðå îïòèìàëüíûõ ïðîåêòîâ
Áèäþê Ï.È., Êîðäçàäçå Ò.Ç., Ñîõàäçå Ã.À. 8
TWO-DIMENSIONAL BOUNDARY PROBLEMS OF THERMODIFFUSION
WITH MIXED BOUNDARY CONDITIONS
Bezhuashvili Y.A. and Buadze T.G. 19
APPROXIMATE SOLUTIONS OF PLANE MIXED BOUNDARY PROBLEMS
OF THE CONJUGATE THEORY OF THERMODIFFUSION
Bezhuashvili Y.A. and Buadze T.G. 30
Ìàòåìàòèê Ñîñî Êàëàíäàðèøâèëè
Ñîõàäçå Ã.À. 36
Î ÏÎÒÅÍÖÈÀËÜÍÎÉ ÂÎÇÌÎÆÍÎÑÒÈ ×ÅËÎÂÅÊÀ ÑÒÀÒÜ “ÑÂÅÒÎÅÄÎÌ”
Õâåäåëèäçå Ì.À. 41
Low-Field Response of the Third Harmonic of Josephson Junctions
in High-Temperature Polycrystalline Superconductors
Metskhvarishvili I.R., Gamkrelidze K.P., Tsiskarishvili N.Sh. and Nadoeva I.A. 45
Microstructure and Thermoelectrical Properties
of Complex-doped Si0,85Ge0,15 Alloys
Dispersion strengthening of Austenitic Manganese Alloy by
using the Aluminum Oxide Nano Powder and Vanadium
Oakley A.L., Ratishvili M.A., Margiev B.G., Chipashvili D.D., Bakuradze A.I., Ebanoidze D.D.,
Gachechiladze A.A. and Gabunia V.M. 52
Rigorous calculation of the waveguide tee with cylindrical
inhomogeneity in the resonant part
Garuchava G.T., Kekelia G.V., Khosroshvili N.O. and Sichinava O.V. 56
WAVE STRUCTURE FUNCTIONS OF ELECROMAGNETIC WAVES MULTIPLY SCATTERED
BY the ANISOTROPIC LAYER OF COLLISIONAL MAGNETIZED TURBULENT PLASMA
Jandieri G.V., Gomidze N.Kh., Diasamidze M.R., Jabnidze I.N., Davitadze M.I. and Takidze I.G. 66
Kinetics of defect formation in the n-Si crystals irradiated with protons
Pagava T.A., Maisuradze N.I., Khasia N.I., Kharshiladze N.Sh. and Chubinidze Ts.A. 77
ÀÍÀËÈÇ ÑËÅÄßÙÈÕ ÑÈÑÒÅÌ Ñ Ó×ÅÒÎÌ ÍÅËÈÍÅÉÍÎÑÒÈ ÄÂÓÕÔÀÇÍÎÃÎ
ÈÑÏÎËÍÈÒÅËÜÍÎÃÎ ÄÂÈÃÀÒÅËß
Áîäîêèÿ Ò.Ä., ×êàäóà Í.Â., Ãîíèàøâèëè Ý.Ñ. 80
ÎÑÎÁÅÍÍÎÑÒÈ ÑËÅÄßÙÈÕ ÑÈÑÒÅÌ ÍÀ ÏÎÄÂÈÆÍÛÕ ÎÑÍÎÂÀÍÈßÕ
×êàäóà Í.Â., Áîäîêèÿ Ò.Ä., Ãîíèàøâèëè Ý.Ñ. 87
ÑÈÑÒÅÌÀ ÈÍÄÓÊÒÈÂÍÎÃÎ ÂÛÂÎÄÀ ÄËß ÌÎÄÅËÈÐÎÂÀÍÈß ÈÍÒÅËËÅÊÒÓÀËÜÍÛÕ ÏÐÎÖÅÄÓÐ
Ëåæàâà Ã.Ã., Êàìêàìèäçå È.Ø., Áåðèêèøâèëè Ç.È. 92
Èññëåäîâàíèå ñâîéñòâ äâóõêîìïîíåíòíûõ ñèìïëåêñ-ðåøåò÷àòûõ
ïëàíîâ ïðè ó÷åòå ïîãðåøíîñòåé ñðåäñòâ èçìåðåíèÿ
Çåäãèíèäçå È.Ã., Áåðàÿ Í.Î., Äàðáàèñåëè Ì.Ñ. 97
Èññëåäîâàíèå íåêîòîðûõ ñâîéñòâ ïëàíîâ ïåðâîãî è âòîðîãî ïîðÿäêà äëÿ äâóõ ïåðåìåííûõ â óñëîâèÿõ îøèáîê ýêñïåðèìåíòà
Áåðàÿ Í.Î., Çåäãèíèäçå È.Ã., Áàéðàìîâà À.Ò. 100
ÂËÈßÍÈÅ Ôîðìû ÂÅÊÒÎÐÀ ÑÊÎÐÎÑÒÅÉ ÍÀÁÅÃÀÞÙÅÃÎ ÏÎÒÎÊÀ ÍÀ ÐÅÆÈÌ ÎÁÒÅÊÀÍÈ
Äàâèòàøâèëè È. À. 103
Ìîäåëü Âëèÿíèÿ Äèñïåðñíîãî Âçàèìîäåéñòâèÿ íà Òåìïåðàòóðíóþ Çàâèñèìîñòü Ïîäâèæíîñòè ýëåêòðîíîâ
Äæàíåëèäçå Î.Ì. 106
ÎÁÐÀÒÍÀß ÂÅÒÂÜ âîëüò-àìïåðíîé õàðàêòåðèñòèêè ÏÐÈ ÍÈÇÊÎÒÅÌÏÅÐÀÒÓÐÍÎÌ ÝËÅÊÒÐÈ×ÅÑÊÎÌ ÏÐÎÁÎÅ GaAs
Äæàíåëèäçå Î.Ì. 109
ÎÁ óñòîé÷èâîñòè ãèäðîäèíàìè÷åñêîãî òàíãåíöèàëüíîãî ðàçðûâà ñ ó÷åòîì ñèëû ïîâåðõíîñòíîãî òÿæåíèÿ
Êèðöõàëèÿ Â.Ã., Òîëîðàÿ Í.Ä. 112
ÎÁ îñíîâíûõ Ôóíêöèÿõ è àðõèòåêòóðå ñèñòåì óïðàâëåíèÿ êîìïüþòåðíûìè ñåòÿìè
Ëîáæàíèäçå Ë.Ò., Òåâäîðàäçå Ì.Ò. 116
Îöåíêà ýíåðãåòè÷åñêîé ñõåìû ýôôåêòèâíîãî èñïîëüçîâàíèÿ
âûñîêîïîòåíöèàëüíîé òåïëîâîé ýíåðãèè
Êåâõèøâèëè Í.À., Íàöâëèøâèëè Ò.Ø. 120
Îñíîâû ïåðåäà÷è â òåëåêîììóíèêàöèîííûõ ñèñòåìàõ íà áàçå NGN
Ìóðäæèêíåëè Ã.Ã., Âåêóà Ò.À., ×èòèàøâèëè Ë.Í., Îäèëàâàäçå Ø.Ç. 124
Ðåøåíèå çàäà÷è íàðàùèâàíèÿ ìîùíîñòåé ýíåðãîñèñòåìû ñ ïîìîùüþ ñèñòåìû ìîäåëèðîâàíèÿ Matlab
Ìøâèäîáàäçå Ò.ß.129
ÎÑÎÁÅÍÍÎÑÒÈ ÐÀÑ×ÅÒÀ ÈÍÄÓÊÒÎÐÀ ÌÀÃÍÈÒÍÎÃÎ ÄÀÒ×ÈÊÀ ÍÅÏÎÑÐÅÄÑÒÂÅÍÍÎÃÎ
ÊÎÍÒÐÎËß ÏÅÐÅÌÅÙÅÍÈß ÂÀÃÎÍÎÂ ÌÀßÒÍÈÊÎÂÛÕ ÏÎÄÂÅÑÍÛÕ ÊÀÍÀÒÍÛÕ ÄÎÐÎÃ
×óíàøâèëè Á.Ì., Òóðäçåëàäçå Ä.À., Òóãóøè Ì.À., Õàõèàøâèëè Ò.Ã. 134
Self-Induced torsional vibrations of the drill pipe string
MachabeliG.G., MchedlishviliN.P. andGelashviliG.O. 137
Îïðåäåëåíèå íàïðÿæåíèé ïðè êðóòèëüíûõ êîëåáàíèÿõ êîëîííû áóðèëüíûõ òðóá
Ìà÷àáåëè Ã.Ã., Ì÷åäëèøâèëè Í.Ï., Ãåëàøâèëè Ã.Î. 140
îñîáåííîñòè ìåòîäîâ êîíòðîëÿ ñðåäíåé ïëîòíîñòè íàìîòêè òåêñòèëüíûõ ïàêîâîê
Íóðèåâ Ì. Í.144
ÑÈÑÒÅÌÀ ÒÐÀÍÑÄÅÐÌÀËÜÍÎÉ ÏÎÄÀ×È ËÅÊÀÐÑÒ ÍÀ ÎÑÍÎÂÅ ÏÎËÈÑÀÕÀÐÈÄÍÎÃÎ ÃÈÄÐÎÃÅËß
Õàðàáàäçå Ì.Ã.,×è÷èíàäçå Í.Ì., Öèòëàíàäçå Ã.Â., Íàäèðàøâèëè Í.Ø., Êàöàðàâà Ð.Ä. 148
Ê ÂÎÏÐÎÑÓ ÑÒÀÁÈËÜÍÎÃÎ ÔÓÍÊÖÈÎÍÈÐÎÂÀÍÈß ÃÈÄÐÎÑÈÑÒÅÌ ÃÎÐÍÛÕ ÐÅÃÈÎÍÎÂ
Ñ Ó×ÅÒÎÌ ÎÑÎÁÅÍÍÎÑÒÅÉ ÃÅÎÝÊÎËÎÃÈ×ÅÑÊÎÉ ÎÁÑÒÀÍÎÂÊÈ
Î ïóòÿõ ñîõðàíåíèÿ âîäíûõ ðåñóðñîâ
Äîëèäçå À.Â. 160
Îá îñîáåííîñòÿõ ìåòîäîâ î÷èñòêè âîäû
Äîëèäçå À.Â., Ìàõàøâèëè Ê.À., Äîëèäçå Â.À. 162
Àëãåáðà-õèìè÷åñêîå èññëåäîâàíèå ôòîðèäîâ êðåìíèÿ â ðàìêàõ ìåòîäà êâàçè-ÏÍÑ-ìàòðèö
Êóïàòàäçå Í.Î., Îâñÿíèêîâà Í.Í., Ìàðêàðàøâèëè Å. Ã., Ãâåðäöèòåëè Ì.È., Ìåãðåëèäçå Í.Äæ. 166
Algebraic-Chemical Investigation of Methyl Halides within the Scope of
Quasi-ANB matrices Method
Lobzhanidze T.E., Kvernadze M.S. and Gverdtsiteli M.I. 168
ÂÊËÀÄ ÃÐÅ×ÅÑÊÈÕ ÐÓÄÎÏÐÎÌÛØËÅÍÍÈÊΠ ÄÅËÎ ÂÎÇÐÎÆÄÅÍÈß ÃÐÓÇÈÍÑÊÎÃÎ
ÃÎÐÍÎ-ÌÅÒÀËËÓÐÃÈ×ÅÑÊÎÃÎ ÏÐÎÈÇÂÎÄÑÒÂÀ
Áàäçîøâèëè Ò.Â., Èíàíèøâèëè Ã.Â., ×àãóíàâà Ð.Â. 170
Îá ÈÍÈÖÈÀÒÈÂå ÈÐÀÊËÈß II ÏÎ ÎÑÂÎÅÍÈÞ ÏÎËÅÇÍÛÕ ÈÑÊÎÏÀÅÌÛÕ ÃÐÓÇÈÈ
Áàäçîøâèëè Ò.Â., ×àãóíàâà Ð.Â., Èíàíèøâèëè Ã.Â. 173
ÍÅÊÎÒÎÐÛÅ ÐÅÎËÎÃÈ×ÅÑÊÈÅ ÕÀÐÀÊÒÅÐÈÑÒÈÊÈ ÌÎËÎÒÛÕ ÏÐßÍÎÑÒÅÉ
Ìèðàçàíàøâèëè Ê.À., Áåðóàøâèëè Ã.Ø. 175
Î íåîáõîäèìîñòè ðàçðàáîòêè ïîëíîòíîãî àññîðòèìåíòà îáóâè äëÿ ïîäðîñòêîâ
Ãðäçåëèäçå Ì.Ã. 178
Îñîáåííîñòè ïîñòðîåíèÿ ðàçìåðíî-ïîëíîòíîãî àññîðòèìåíòà
îáóâè äëÿ ïîäðîñòêîâ
Ãðäçåëèäçå Ì.Ã. 181