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Global Navigation Satellite Systems (GNSS) System on Chip (SoC) is a type of integrated circuit (IC) that combines multiple functions onto a single piece of silicon and is used in a variety of applications, such as GPS receivers, vehicle navigation systems, and unmanned aerial vehicles (UAVs), among others.
GNSS SoC solutions enable the integration of GNSS location and timing capabilities into other electronic systems, allowing for the development of more advanced, cost-effective, and efficient products.
GNSS SoC solutions typically include a radio frequency (RF) front-end, baseband processor, ASICs, memory, and peripheral control logic, all of which are integrated onto a single chip. The integrated RF front-end enables the GNSS SoC to receive signals from multiple GNSS satellites.
The baseband processor is responsible for signal acquisition, tracking, and navigation, while the ASICs are responsible for signal processing, signal management, and data conversion. The memory and peripheral control logic are responsible for data storage and communication with other components.
The advantages of GNSS SoC solutions are numerous. They are more cost-effective than conventional GNSS solutions, as they reduce the number of components required. They are also more power-efficient, as they allow for more efficient signal processing and data transmission.
Additionally, GNSS SoCs are more reliable, as they are designed to be more immune to interference and can operate in extreme weather conditions.
GNSS SoC solutions have revolutionized the way GNSS systems are designed and deployed. They enable the development of more advanced, efficient, and cost-effective products, and can be used in a variety of different applications.
The Global GNSS System on Chips (SoC) Market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
The i89, a small IMU-RTK GNSS receiver with visual surveying and 3D modeling capabilities, has been released by CHC Navigation (CHCNAV). Apart from GNSS surveying, the i89 provides augmented reality surveying to obtain precise 3D coordinates in areas with signal obstructions or restricted access.
For complete constellation tracking, the i89 integrates a 1408-channel GNSS system-on-a-chip (SoC) module with CHCNAV’s iStar2.0 software. The company claims that its sophisticated algorithms provide RTK accuracy and reliability even in low-latitude areas with high ionospheric interference, improving data quality by 20%.
The i89 dynamically extracts precise 3D coordinates from real-world video using video photogrammetry. It is intended to increase the accuracy and efficiency of photogrammetry when combined with its IMU. Correcting common distortions from UAV-mounted cameras enhances UAV surveys.
The i89 weighs just 750g, has an IP68 rating that allows it to survive a 2-meter pole drop and has a battery life of 16.5 hours. With regard to a variety of routine surveying tasks, its visual navigation and staking capabilities are designed to streamline field operations and guarantee maximum productivity for surveyors.
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