Íàöèîíàëüíûé
àýðîêîñìè÷åñêèé óíèâåðñèòåò èì. Í. Å. Æóêîâñêîãî “Õàðüêîâñêèé àâèàöèîííûé
èíñòèòóò”
ISSN 1727-7337. À²ÀÖ²ÉÍÎ-ÊÎÑ̲×ÍÀ ÒÅÕͲÊÀ ² ÒÅÕÍÎËÎòß.
– 2018. – ¹ 4(148). – 118 ñ.
ISSN 1727-7337.
ÀÂÈÀÖÈÎÍÍÎ-ÊÎÑÌÈ×ÅÑÊÀß ÒÅÕÍÈÊÀ È ÒÅÕÍÎËÎÃÈß. – 2018. – ¹ 4(148). – 118 ñ.
ISSN 1727-7337. AEROSPACE TECHNIC AND TECHNOLOGY. – 2018. – ¹ 4(148). – 118 p.
ÑÒÀÒÜè (articleS)
Àâòîðû |
Íàçâàíèå ñòàòüè
(article title) |
Ñòðàíèöû (pages) |
||
English |
Óêðà¿íñüêà ìîâà |
Ðóññêèé ÿçûê |
||
Àýðîäèíàìèêà, äèíàìèêà,
áàëëèñòèêà è óïðàâëåíèå ïîë¸òîì ëåòàòåëüíûõ àïïàðàòîâ |
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Ëàâðèíåíêî À. Þ., |
SYSTEM
OF PROTECTED VOICE CONTROL AN UNMANNED AERIAL VEHICLE |
ÑÈÑÒÅÌÀ ÇÀÕÈÙÅÍÎÃÎ ÃÎËÎÑÎÂÎÃÎ ÓÏÐÀÂ˲ÍÍß ÁÅÇϲËÎÒÍÈÌ Ë²ÒÀËÜÍÈÌ ÀÏÀÐÀÒÎÌ |
ÑÈÑÒÅÌÀ
ÇÀÙÈÙ¨ÍÍÎÃÎ ÃÎËÎÑÎÂÎÃÎ ÓÏÐÀÂËÅÍÈß ÁÅÑÏÈËÎÒÍÛÌ ËÅÒÀÒÅËÜÍÛÌ ÀÏÏÀÐÀÒÎÌ |
4–11 |
Ïàñè÷íèê Ñ. Í., |
SOLUTION
OF THE PROBLEM OF THE AIR TEMPERATURE STABILIZATION IN THE CABIN OF THE
VEHICLE |
ÂÈвØÅÍÍß ÇÀÄÀײ ÑÒÀÁ²Ë²ÇÀÖ²¯ ÒÅÌÏÅÐÀÒÓÐÈ ÏβÒÐß Â
ÊÀÁ²Í² ÒÐÀÍÑÏÎÐÒÍÎÃÎ ÇÀÑÎÁÓ |
ÐÅØÅÍÈÅ
ÇÀÄÀ×È ÑÒÀÁÈËÈÇÀÖÈÈ ÒÅÌÏÅÐÀÒÓÐÛ ÂÎÇÄÓÕÀ  ÊÀÁÈÍÅ ÒÐÀÍÑÏÎÐÒÍÎÃÎ ÑÐÅÄÑÒÂÀ |
12–19 |
Ëàïõàíîâ Ý. À., |
THE
CURRENT TASKS CONCERNING WITH CREATION AND DEORBITING OF
THE FORMATION FLYING GROUPS FROM NANO- AND PICO- SATELLITES |
ÑÓ×ÀÑͲ ÇÀÂÄÀÍÍß ÑÒÂÎÐÅÍÍß ²
²ÄÂÅÄÅÍÍß
Ç ÎÐÁ²ÒÈ ÓÃÐÓÏÎÂÀÍÜ ÊÎÑ̲×ÍÈÕ ÀÏÀÐÀҲ ÊËÀÑÓ ÍÀÍÎ ²
ÏÈÊÎ |
ÑÎÂÐÅÌÅÍÍÛÅ
ÇÀÄÀ×È ÑÎÇÄÀÍÈß È ÓÂÎÄÀ Ñ ÎÐÁÈÒÛ ÃÐÓÏÏÈÐÎÂÎÊ ÊÎÑÌÈ×ÅÑÊÈÕ ÀÏÏÀÐÀÒΠÊËÀÑÑÀ
ÍÀÍÎ È ÏÈÊÎ |
20–35 |
Äâèãàòåëè è ýíåðãîóñòàíîâêè
àýðîêîñìè÷åñêèõ ëåòàòåëüíûõ àïïàðàòîâ |
||||
Ãàáð³íåöü Â. Î., |
ASSESSMENT
OF THE RELIABILITY OF A ROCKET ENGINE AS A COMPLEX TECHNICAL SYSTEM WITH
INSUFFICIENT STATISTICAL INFORMATION |
ÎÖÅÍÊÀ ÍÀÄÅÆÍÎÑÒÈ ÐÀÊÅÒÍÎÃÎ ÄÂÈÃÀÒÅËß ÊÀÊ ÑËÎÆÍÎÉ
ÒÅÕÍÈ×ÅÑÊÎÉ ÑÈÑÒÅÌÛ ÏÐÈ ÍÅÄÎÑÒÀÒÎ×ÍÎÉ
ÑÒÀÒÈÑÒÈ×ÅÑÊÎÉ ÈÍÔÎÐÌÀÖÈÈ |
36–43 |
|
Ðàä÷åíêî
Ì. ²., |
METHOD
OF DETERMINATION OF THERMAL LOAD AIR CONDITIONING SYSTEMS BY MAXIMUM COLD
PERFORMANCE RATE (ON THE EXAMPLE OF AIR CONDITIONING FOR ENERGY PURPOSES) |
ÌÅÒÎÄ ÎÏÐÅÄÅËÅÍÈß ÒÅÏËÎÂÎÉ
ÍÀÃÐÓÇÊÈ ÑÈÑÒÅÌÛ ÊÎÍÄÈÖÈÎÍÈÐÎÂÀÍÈß ÂÎÇÄÓÕÀ ÏÎ ÌÀÊÑÈÌÀËÜÍÎÌÓ ÒÅÌÏÓ ÏÐÈÐÀÙÅÍÈß
ÕÎËÎÄÎÏÐÎÈÇÂÎÄÈÒÅËÜÍÎÑÒÈ (ÍÀ ÏÐÈÌÅÐÅ ÊÎÍÄÈÖÈÎÍÈÐÎÂÀÍÈß ÂÎÇÄÓÕÀ
ÝÍÅÐÃÅÒÈ×ÅÑÊÎÃÎ ÍÀÇÍÀ×ÅÍÈß) |
44–48 |
|
Ïîðòíîé Á. Ñ. |
CHOOSING THE HEAT LOAD OF AIR-COOLING APPARATUS
UNITS AT THE INLET OF THE GTU IN DIFFERENT CLIMATIC CONDITIONS |
ÂÈÁ²Ð
ÒÅÏËÎÂÎÃÎ ÍÀÂÀÍÒÀÆÅÍÍß ÀÏÀÐÀҲ ÎÕÎËÎÄÆÅÍÍß ÏβÒÐß ÍÀ ÂÕÎIJ ÃÒÓ Â Ð²ÇÍÈÕ Ê˲ÌÀÒÈ×ÍÈÕ
ÓÌÎÂÀÕ |
ÂÛÁÎÐ
ÒÅÏËÎÂÎÉ ÍÀÃÐÓÇÊÈ ÀÏÏÀÐÀÒÎÂ ÎÕËÀÆÄÅÍÈß ÂÎÇÄÓÕÀ ÍÀ ÂÕÎÄÅ ÃÒÓ Â ÐÀÇÍÛÕ
ÊËÈÌÀÒÈ×ÅÑÊÈÕ ÓÑËÎÂÈßÕ |
49–52 |
Ðàä÷åíêî
À. Ì. |
METHOD OF DEFINING THE
REFRIGERATION CAPACITY OF
THERMOTRANSFORMER WITH MAXIMUM RATE OF INCREASING THERMOHOUR POTENTIAL
OF COOLING AIR |
ÌÅÒÎÄ ÎÏÐÅÄÅËÅÍÈß ÕÎËÎÄÎÏÐÎÈÇÂÎÄÈÒÅËÜÍÎÑÒÈ
ÒÅÐÌÎÒÐÀÍÑÔÎÐÌÀÒÎÐÀ ÏÎ ÌÀÊÑÈÌÀËÜÍÎÌÓ
ÒÅÌÏÓ ÏÐÈÐÀÙÅÍÈß ÒÅÐÌÎ×ÀÑÎÂÎÃÎ ÏÎÒÅÍÖ²ÀËÀ ÎÕËÀÆÄÅÍÈß ÂÎÇÄÓÕÀ |
53–57 |
|
Òðóøëÿêîâ Å. È. |
METHODOLOGICAL
APPROACH TO ENERGY SAVING COLD SUPPLY OF AIR CONDITIONING SYSTEM BY MATCHING
CURRENT CLIMATIC CONDITIONS |
ÌÅÒÎÄÎËÎò×ÍÈÉ Ï²ÄÕ²Ä ÄÎ
ÅÍÅÐÃÎÇÀÎÄÙÀÄÆÓÂÀËÜÍÎÃÎ ÕÎËÎÄÎÏÎÑÒÀ×ÀÍÍß ÑÈÑÒÅÌ ÊÎÍÄÈÖ²ÞÂÀÍÍß ÏβÒÐß
ÀÄÀÏÒÀÖ²ªÞ ÄÎ ÏÎÒÎ×ÍÈÕ Ê˲ÌÀÒÈ×ÍÈÕ ÓÌΠ|
58–62 |
|
Òåõíîëîãèÿ ïðîèçâîäñòâà
ëåòàòåëüíûõ àïïàðàòîâ |
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Ïëàíêîâñêèé È., |
ALGORITHM OF REGIME SETTINGS FOR THERMAL PULSE
TREATMENT TAKING INTO ACCOUNT STRENGTH CONSTRAINTS |
ÀËÃÎÐÈÒÌ
ÏÐÈÇÍÀ×ÅÍÍß ÐÅÆÈ̲ ÒÅÐÌβÌÏÓËÜÑÍÎÉ ÎÁÐÎÁÊÈ Ç ÓÐÀÕÓÂÀÍÍßÌ Ì²ÖͲÑÍÈÕ ÎÁÌÅÆÅÍÜ |
ÀËÃÎÐÈÒÌ
ÍÀÇÍÀ×ÅÍÈß ÐÅÆÈÌΠÒÅÐÌÎÈÌÏÓËÜÑÍÎÉ ÎÁÐÀÁÎÒÊÈ Ñ ÓרÒÎÌ ÏÐÎ×ÍÎÑÒÍÛÕ ÎÃÐÀÍÈ×ÅÍÈÉ |
63–71 |
Ðàäèîòåõíè÷åñêèå ñèñòåìû è
ñðåäñòâà ëåòàòåëüíûõ àïïàðàòîâ |
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Àâ人íêî Ã. Ë., |
TERAHERTZ
TECHNOLOGIES IN TELECOMMUNICATION SYSTEMS. PART 1. JUSTIFICATION OF THE
FREQUENCY RANGE, DESIGN OF FUNCTIONAL NODES OF TERAHERTZ RANGE
TELECOMMUNICATION SYSTEMS |
ÒÅÐÀÃÅÐÖÎÂÛÅ ÒÅÕÍÎËÎÃÈÈ Â ÒÅËÅÊÎÌÌÓÍÈÊÀÖÈÎÍÍÛÕ
ÑÈÑÒÅÌÀÕ. ×ÀÑÒÜ 1. ÎÁÎÑÍÎÂÀÍÈÅ ×ÀÑÒÎÒÍÎÃÎ ÄÈÀÏÀÇÎÍÀ, ÏÐÎÅÊÒÈÐÎÂÀÍÈÅ
ÔÓÍÊÖÈÎÍÀËÜÍÛÕ ÓÇËÎÂ ÒÅËÅÊÎÌÌÓÍÈÊÀÖÈÎÍÍÛÕ ÑÈÑÒÅÌ ÒÅÐÀÃÅÐÖÎÂÎÃÎ ÄÈÀÏÀÇÎÍÀ |
72–91 |
|
Âîëîñþê Â. Ê., |
MATHEMATICAL
DESCRIPTION OF THE PROCEDURES FOR COHERENT IMAGING OF NATURAL ENVIRONMENTS IN
THE FRAUNHOFER REGION BY MULTICHANNEL RADIO-ENGINEERING SYSTEMS |
ÌÀÒÅÌÀÒÈ×ÍÈÉ ÎÏÈÑ
ÏÐÎÖÅÄÓÐ ÏÎÁÓÄÎÂÈ ÊÎÃÅÐÅÍÒÍÈÕ ÇÎÁÐÀÆÅÍÜ ÏÐÈÐÎÄÍÈÕ ÑÅÐÅÄÎÂÈÙ Â ÇÎͲ
ÔÐÀÓÍÃÎÔÅÐÀ ÁÀÃÀÒÎÊÀÍÀËÜÍÈÌÈ ÐÀIJÎÒÅÕͲ×ÍÈÌÈ ÑÈÑÒÅÌÀÌÈ |
92–97 |
|
Èíôîðìàöèîííûå òåõíîëîãèè â
óïðàâëåíèè ïðåäïðèÿòèÿìè, ïðîãðàììàìè è ïðîåêòàìè |
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Èëü÷åíêî Ì. Å., |
APPLICATION OF THE IEEE
802.16 BROADBAND ACCESS STANDARD FOR DETERMINATION OF THE RELATIVE POSITION
OF CUBESATS IN LEGA-SAT |
ÇÀÑÒÎÑÓÂÀÍÍß ÑÒÀÍÄÀÐÒÓ ØÈÐÎÊÎÑÌÓÃÎÂÎÃÎ
ÄÎÑÒÓÏÓ IEEE 802.16 ÄËß ÂÈÇÍÀ×ÅÍÍß ÂÇÀªÌÍÎÃÎ ÏÎËÎÆÅÍÍß ÊÓÁÑÀÒ²Â Ó ÑÊËÀIJ
LEGA-SAT |
|
98–106 |
Ôåäîðîâè÷ Î. Å., |
INVESTIGATION
OF LOGISTICS TO MANAGE HIGH-TECH TECHNOLOGY PRODUCTION OF VIRTUAL ENTERPRISE |
ÄÎÑË²ÄÆÅÍÍß ËÎòÑÒÈÊÈ
ÓÏÐÀÂ˲ÍÍß ÂÈÐÎÁÍÈÖÒÂÎÌ ÂÈÑÎÊÎÒÅÕÍÎËÎò×Íί ÏÐÎÄÓÊÖ²¯ ²ÐÒÓÀËÜÍÎÃÎ
ϲÄÏÐȪÌÑÒÂÀ |
107–115 |
|
116 |
Óâàæàåìûå ÷èòàòåëè!
Íàó÷íî-òåõíè÷åñêèé
æóðíàë «Àâèàöèîííî-êîñìè÷åñêàÿ òåõíèêà è òåõíîëîãèÿ»
- âõîäèò â óòâåðæäåííûé ÃÀÊ Ïåðå÷åíü íàó÷íûõ
ïðîôåññèîíàëüíûõ èçäàíèé Óêðàèíû, â êîòîðûõ ìîãóò ïóáëèêîâàòüñÿ ðåçóëüòàòû äèññåðòàöèîííûõ ðàáîò íà ñîèñêàíèå ó÷åíûõ ñòåïåíåé äîêòîðà è êàíäèäàòà íàóê (ñì. ïðèêàç ÌÎÍ
Óêðàèíû ¹1279 îò 6.11.2014 ã.);
– ñîõðàíÿåòñÿ
â îáùåãîñóäàðñòâåííîé ðåôåðàòèâíîé
áàçå äàííûõ «Óêðà¿í³êà
íàóêîâà» è ïóáëèêóåòñÿ â ñîîòâåòñòâóþùèõ
òåìàòè÷åñêèõ ñåðèÿõ óêðàèíñêîãî ðåôåðàòèâíîãî æóðíàëà
«Äæåðåëî» (ñâîáîäíûé îí-ëàéíîâûé
äîñòóï ê ðåñóðñàì íà Web-ñåðâåðå http://www.nbuv.gov.ua) (Óêðàèíà),
– ñîõðàíÿåòñÿ â ðåôåðàòèâíîé áàçå äàííûõ Âñåðîññèéñêîãî èíñòèòóòà íàó÷íîé è òåõíè÷åñêîé èíôîðìàöèè (ÂÈÍÈÒÈ) Ðîññèéñêîé
àêàäåìèè íàóê è ïóáëèêóåòñÿ
â ñîîòâåòñòâóþùèõ òåìàòè÷åñêèõ
ñåðèÿõ ÐÆ (ñâîáîäíûé îí-ëàéíîâûé äîñòóï ê ðåñóðñàì íà Web-ñåðâåðå
http://www.viniti.ru) (Ðîññèéñêàÿ Ôåäåðàöèÿ),
- âêëþ÷åí â ìåæäóíàðîäíûå áèáëèîìåòðè÷åñêèå
è íàóêîìåòðè÷åñêèå áàçû äàííûõ: íàó÷íîé ýëåêòðîííîé áèáëèîòåêè eLIBRARY.RU (Ðîññèéñêàÿ
Ôåäåðàöèÿ); Index Copernicus (ICV 2013: 4,83; 2014: 52,71; 2015: 63,49; 2016: 61,40) (Ïîëüøà); CiteFactor; Academic Keys; Infobase Index; WordCat; Google Scholar (áèáëèîìåòðè÷åñêèå ïîêàçàòåëè – quot.=3490 / h = 13 / i10 = 46).