By Shahabuddin Amerudin
Introduction
In the dynamic landscape of navigation and positioning technology, a remarkable breakthrough has emerged: the accessibility of high-accuracy GNSS positioning through low-cost receivers and smartphones (Marchi et al., 2022). As we delve deeper into this realm, we uncover a transformative era of precision that was once reserved for specialized equipment. This article explores the advancements, implications, and the potential for achieving centimeter-level accuracy through these affordable solutions.
Empowering Ubiquity
The narrative begins with the widespread adoption of low-cost GNSS technology. This innovation is now not only accessible but also adaptable with minimal investment. The EGSA GNSS Market Report (2019) offers compelling insights, forecasting an astonishing rise in the global installed base of GNSS devices – a leap from 6.4 billion in 2019 to a projected 9.6 billion by 2029. This growth mirrors the expanding annual GNSS receiver shipments, which are poised to escalate from 1.8 billion units in 2019 to an impressive 2.8 billion units by 2029. The surge in devices per capita from 0.8 to 1.1 globally signifies a world embracing the potential of accurate positioning.
Layers of Price Segmentation
The GNSS receiver landscape unfolds in distinct price tiers, characterized by their affordability and application scope, as delineated by EGSA (2019):
- Mass-market receivers – Priced below 5 €, these receivers dominate the market, constituting approximately 90 percent of shipments. Primarily catering to smartphones and wearables, they usher in precision for the masses.
- Rise receivers – Positioned in the price range of 5 € to 150 €, this segment showcases an impressive estimated annual growth rate of 6 percent. Their versatility spans unpowered assets, road infrastructure, and drone applications, fostering innovation in various sectors.
- High-end receivers – Anchoring the premium tier, these receivers command prices above 150 €. Despite accounting for less than 3 percent of total GNSS receiver shipments, they are the stalwarts of precision across diverse professional domains.
Elevating the GNSS Downstream Market
The burgeoning GNSS downstream market is fueled by revenues from mass-market and mid-end devices (<150 €), in tandem with augmentation services. Projections from EGSA (2019) underscore a monumental revenue surge, scaling from 150 € billion in 2019 to a staggering 325 € billion by 2029.
Redefining Smartphone and Low-Cost Receiver Performance
The heart of this transformation lies in the recalibration of performance benchmarks for low-cost GNSS solutions. High-end receivers, traditionally synonymous with dual signal frequencies (L1+L2), usher in centimeter-level accuracy and erode biases, underscoring their utility for precision-centric tasks. In contrast, the prevailing mass-market receivers, exemplified by the likes of u-blox, operate on a single signal frequency (L1), a configuration more sensitive to ionospheric perturbations. This sensitivity inherently influences performance, a challenge that modern advancements have confronted (Cina and Piras, 2015).
Eclipsing the Conventional
Smartphone Advancements: Modern smartphones have engineered a paradigm shift in the perception of attainable accuracy. The advent of u-blox and other single-frequency GNSS receivers for smartphones has shattered preconceived notions. Their capabilities, showcased vividly by Dabove et al. (2020), reverberate with astounding precision in static and kinematic positioning scenarios. The metamorphosis is anchored in an amalgamation of robust GNSS signals, infrastructural amplifications dedicated to GNSS positioning (spanning CORS, network, NRTK, and more), and an escalating interest from user communities and industry giants invested in top-tier positioning solutions (Dabove et al., 2020).
Expanding Horizons
Enhanced Positioning Strategies: The confluence of mass-market receivers with the offerings of GNSS permanent station networks yields a fertile ground for innovation. Cina and Piras (2015) exemplify this synergy with their groundbreaking work on precise and cost-effective landslide monitoring. This fusion elevates accuracy and affordability, driving progress across diverse applications.
The Unveiling of Precision
Comparative Performance Insights: Drawing a comparative lens between modern smartphones and u-blox GNSS receivers in real-time and post-processing contexts yields compelling revelations. The u-blox receiver consistently secures an upper hand, attaining precision levels within a remarkable 5 cm and accuracy honed to an exceptional 1 cm. Meanwhile, smartphone outcomes present slight disparities, often ranging in the order of meters due to the inherent noise within measurements (Dabove et al., 2020). Despite this, the potential for reliable positioning using these technologies remains undeniably promising. Enhancing this potential further lies the prospect of integrating advanced external antennas, propelling the realm of performance to even greater heights (Dabove et al., 2020).
Conclusion
The voyage into the world of high-accuracy GNSS positioning through low-cost receivers and smartphones has embarked upon a new trajectory. What was once a realm reserved for specialized devices has now been democratized, ensuring that centimeter-level accuracy is within reach for myriad applications. The implications ripple across sectors, reshaping possibilities and redefining precision.
References
Cina, A. and M. Piras (2015). Performance of low-cost GNSS receiver for landslides monitoring: Test and results, Geomatics, Natural Hazards and Risk, 6(5-7): 497-514.
Dabove, P., V. Di Pietra and M. Piras (2020). GNSS Positioning Using Mobile Devices with the Android Operating System, ISPRS International Journal of Geo-Information, 9(4): 220.
EGSA (European Global Navigation Satellite Systems Agency) (2019). GNSS Market Report. Issue 6; Retrieved from https://www.gsa.europa.eu/market/market-report; accessed on 20 April, 2020.
Marchi, M. D., Diantini A. and Pappalardo, S.E. (2022). Drones and Geographical Information Technologies in Agroecology and Organic Farming. CRC Press.
Suggestion for Citation: Amerudin, S. (2023). Pioneering High-Accuracy GNSS Positioning with Low-Cost Receivers and Smartphones. [Online] Available at: https://people.utm.my/shahabuddin/?p=6611 (Accessed: 14 August 2023).