Ôàçîâûå èçìåðåíèÿ øèðîêî èñïîëüçóþòñÿ â íàâèãàöèîííîé àïïàðàòóðå ïîòðåáèòåëåé äëÿ ïîëó÷åíèÿ âûñîêîé òî÷íîñòè íàâèãàöèîííûõ îïðåäåëåíèé è îïðåäåëåíèÿ îðèåíòàöèè. Îïðåäåëåíèå îðèåíòàöèè áûñòðîäâèæóùèõñÿ îáúåêòîâ òðåáóåò ðàçðåøåíèÿ íåîäíîçíà÷íîñòè â ðåàëüíîì ìàñøòàáå âðåìåíè. Óâåëè÷åíèå äèàïàçîíà ðàçðåøåíèÿ íåîäíîçíà÷íîñòè äîñòèãàåòñÿ ïðèìåíåíèåì ìàòåìàòè÷åñêîé òåîðèè ÷èñåë è ìåòîäà íåêðàòíûõ øêàë. Äâóõ÷àñòîòíûé àëãîðèòì ðàçðåøåíèÿ íåîäíîçíà÷íîñòè äëÿ ñèñòåìû ÃËÎÍÀÑÑ ðàçðàáîòàí è çàïàòåíòîâàí. Äëÿ òðåõ íåñóùèõ ÷àñòîò ðàçðàáîòàí àëãîðèòì ñ áîëüøèì äèàïàçîíîì ðàçðåøåíèÿ íåîäíîçíà÷íîñòè. Ðàáîòîñïîñîáíîñòü ïðåäëîæåííûõ àëãîðèòìîâ ïîäòâåðæäåíà ìàòåìàòè÷åñêèì ìîäåëèðîâàíèåì.  ìîäåðíèçèðóåìîé ñèñòåìå ÃËÎÍÀÑÑ ïðåäëàãàåòñÿ èçëó÷àòü ÷àñòîòû 1602.18 ÌÃö, 1246.014 ÌÃö è 1203.048 ÌÃö. Èñïîëüçîâàíèå ïðåäëîæåííûõ ÷àñòîò ïîçâîëèò ðåàëèçîâàòü àëãîðèòìû ðàçðåøåíèÿ íåîäíîçíà÷íîñòè â äèàïàçîíàõ 6.9 ì è 48.8 ì.

Phase measurements are widely used in the customers? navigation devices for obtaining a high accuracy of navigation and orientation. Orientation of highly dynamical objects is determined properly if the ambiguity is resolved in the real time regime. The ambiguity resolution range can be enlarged if we use the mathematical theory of numbers and a method of non-aliquot scales. A double frequency ambiguity resolution algorithm for the GLONASS system has been developed and patented. An algorithm with a larger ambiguity resolution range has been developed for three carrier frequencies. Functionality of the offered algorithms is confirmed by mathematical simulations. It is offered to radiate frequencies of 1602.18 MHz, 1246.014 MHz and 1203.048 MHz in the modernized GLONASS system. It will become possible to use the offered frequencies when the ambiguity resolution algorithms are applied in the ranges of 6.9 m and 48.8 m.