2018
DOI: 10.1017/s0373463318000206
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GNSS Spoofing Detection Technique Using Fraction Parts of Double-difference Carrier Phases

Abstract: With electronic warfare increasingly complicated and military confrontations increasingly intense, the potential security threat to satellite navigation has become a difficult issue to deal with. Traditional satellite navigation anti-interference technology generally refers to jamming, but less consideration has been given to spoofing. It should be noted that the potential risk induced by spoofing interference is worse than that caused by jamming as the loss of positioning integrity may not be immediately obvi… Show more

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Cited by 11 publications
(9 citation statements)
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“…При помощи незаконного применения специальных средств можно организовать так называемые инновационные спуфинг-атаки, которые искусственно вызывают искажения реальных данных Global Navigation Satellite System (GNNS) [23], [24]. Спуфинг-технология основана на модуляции псевдослучайного кода на частотах GNNS с переориентированием судового приемоиндикатора от слабого спутникового сигнала на фальсифицированный сильный сигнал [25], [26]. Так, инициативная группа научных исследователей провела уникальный научный эксперимент в Ионическом море в 2013 г. по оценке воздействия спуфинг-атаки на кибернетическую безопасность морского объекта.…”
Section: обсуждение (Discussion)unclassified
“…При помощи незаконного применения специальных средств можно организовать так называемые инновационные спуфинг-атаки, которые искусственно вызывают искажения реальных данных Global Navigation Satellite System (GNNS) [23], [24]. Спуфинг-технология основана на модуляции псевдослучайного кода на частотах GNNS с переориентированием судового приемоиндикатора от слабого спутникового сигнала на фальсифицированный сильный сигнал [25], [26]. Так, инициативная группа научных исследователей провела уникальный научный эксперимент в Ионическом море в 2013 г. по оценке воздействия спуфинг-атаки на кибернетическую безопасность морского объекта.…”
Section: обсуждение (Discussion)unclassified
“…A large variety of means have been used to detect GNSS spoofing attacks. Approaches use either PHY-layer information ( [53], [58]- [61], [64], [65], [67]- [70], [73], [74], [76]- [79], [82], [84]), or additional communication technologies ( [26], [56], [57], [62], [63], [66]), or techniques based on Machine Learning (ML) over heterogeneous data ( [75]- [79], [83], [84]). All these techniques share the basic consideration that the bitstrings in GNSS signals cannot be modified to be more secure before being transmitted.…”
Section: B Anti-spoofing Schemesmentioning
confidence: 99%
“…Comparing the correlation of the received signals using more than one antenna at the receiver side will result in a significant difference in signal characteristics, such as the carrier phase and amplitude. This is just an example of a technique employing multiple receiving antennas to detect GNSS spoofing, and other examples include the contributions by the authors in [53], [59], [61], [62], [64], [65], [70]. Although being relatively cheap to deploy, such solutions usually require the deployment of multiple antennas and their connection to a single system, i.e., the hardware modification of the receiving device.…”
Section: B Anti-spoofing Schemesmentioning
confidence: 99%
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“…The GPS receiver uses a pseudo-range for positioning in ordinary conditions; the horizontal position error is about 10 m, the vertical position error is about 15 m, and the velocity error is about 0.2 m/s [9]. With the requirement for increased navigation accuracy, carrier phase measurements h been generally accepted in the microelectromechanical system [10]. Lee presented an effective carrier-smoothed-code filter for kinematic differential positioning [11].…”
Section: Introductionmentioning
confidence: 99%