Fiber Optic Gyroscope Market – Relative Intensity Noise Remains a Key Challenge in Use of Fiber Optic Gyroscopes

Fiber Optic Gyroscope Market – Relative Intensity Noise Remains a Key Challenge in Use of Fiber Optic Gyroscopes

Fiber optic gyroscope is a device that is used to measure angular velocity when two beams of light are propagated simultaneously, but in different directions, through the same coil of optical fiber. The principle of operation of fiber optic gyroscope is mainly based on the interference of light and it is used in a variety of end-user industries, such as robotics, aerospace & defense, mining, and transportation.

Miniaturization – An Ongoing Trend in the Fiber Optic Gyroscope Development

Miniaturized fiber optic gyroscopes offer highly effective integration in high-end industrial applications. Key industry experts apropos of fiber optic gyroscope are adopting innovative technologies to leverage the structural advantages associated with the compactness and size of fiber optic gyroscopes. Research efforts, such as those by researchers from Micro-Satellite Research Center, School of Aeronautics and Astronautics, Zhejiang University, focused toward discovering novel methods for designing miniaturized fiber optic gyroscopes with greater efficiency, to offset functionality related challenges linked with reducing size of these gyroscopes, are primary examples of such innovative developmental activities.

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Relative Intensity Noise Remains a Key Challenge in Use of Fiber Optic Gyroscopes

Higher decibels of measurement noise associated with fiber optic gyroscopes continue to remain a key confinement to their efficiency in high-end applications. Fiber optic gyroscopes, commonly used in inertial guidance systems, are associated with high relative intensity noise (RIN), and exhibit poor operational efficiency, thereby impeding their penetration into the marketplace.. As the noise level has become one of the most important performance parameter of fiber optic gyroscopes for end-users, it is forcing manufacturers to include high-cost noise reduction systems for eliminating noise from various sources in fiber optic gyroscopes. Use of fiber ring resonator (FRR) to reduce relative intensity noise is one such advancement in the fiber optic cable market.

Fiber Optic Gyroscope – Most-Trusted, Non-Mechanical Performance Booster in Modern Inertial Navigation Systems

Growth prospects of the fiber optic gyroscope market witness a significant impact of advanced operational features, such as vibration resistance, flexibility, and shock resistance, and robustness of fiber optic gyroscopes when they are employed in inertial navigation systems. As fiber optic gyroscopes minus the mechanical components of traditional gyroscopes, it enables end-users to enhance the performance characteristics of fiber optic gyroscope-based inertial navigation systems.

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Fiber optic gyroscope-based inertial navigation systems exhibit high output rate and attains high accuracy at measuring angular velocity of multiple objects in a vast range of angles. This entails the rapidly-growing adoption of inertial navigation systems in unmanned military vehicles and airborne surveillance systems, ultimately triggering demand for fiber optic gyroscopes in the aerospace & defense industry.

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