A Complete, Modular Software Solution for Precise Vehicle Localization
Swift Automotive Suite
Centimeter Accurate Position, Velocity, and Time
Reliable Accuracy Everywhere
Uniform performance continent-wide
ASIL Certified for Automotive Safety
Built to the ISO 26262 standard
Software-Only Implementation
Compatible with automotive sensors
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Swift Automotive Suite Components
Swift’s Skylark Precise Positioning Service and Starling Positioning Engine integrate seamlessly into the automotive sensor suite to enable precise localization, planning, and control.

Skylark Precise Positioning Service

Skylark Precise Positioning Service is a cloud-based GNSS corrections service that improves satellite positioning accuracy to centimeter level.
By providing corrections via the cloud, Skylark delivers maximum scalability, availability, and cybersecurity, all at an affordable price point.
Skylark is the first and only real-time cloud-based service to be ISO 26262 certified for automotive safety.

Technical Specifications
3-7 cm accuracy
<20 seconds fix
PPP-RTK corrections offering uniform performance continent-wide
Optional integrity with error bounding and flagging available
Available in the US, Canada, UK, EU, China, Japan, and Korea
Corrections data available in both OSR and SSR formats
Automotive Industry Awards




Starling Positioning Engine
Starling Positioning Engine provides centimeter-accurate absolute position, velocity, and time (PVT). Starling’s sensor fusion combines inertial sensors, wheel odometry, and precise GNSS to deliver high-integrity vehicle localization.
Starling can be implemented as a standalone positioning engine or in conjunction with Skylark.

Technical Specifications
Leverages OSR / RTK, SSR / PPP-RTK, and sensor fusion (IMU and wheel odometry)
Compatible with a broad array of modules and chipsets
Supports GPS L1/L2/L5, GLONASS G1/G2, BeiDou B1/B2a/B2b, Galileo E1/E5b/E5a and SBAS
Target Integrity Risk (TIR) configurable down to 10-7/hour
Delivers binary library and header files, and safety artefacts for ASIL implementations