xNAV650

Measuring only 77 x 63 x 24 mm the xNAV650 is our smallestINS to date. Its small form factor is ideal for any application where space is limited making it ideal for UAV based mapping.

When weight is a factor look no further than the xNAV650 INS. Weighing just 130 g, the xNAV650 is the ideal partner when precision is crucial, but the payload needs to be as light as possible. A lighter payload and lower power consumption means longer flight times for UAVs.

Don’t let budget be a barrier to success. xNAV650 hardware bundles start at an affordable price meaning that surveyors can now integrate precise and reliable navigation data into their projects even when the budget is limited.

Quad constellation (GPS, GLONASS, BeiDou and Galileo) as standard means that users of the xNAV650 INS can benefit from 2 cm position accuracy even in the most challenging GNSS environments.

OxTS NAVsuite software is a complimentary addition to OxTS’ range of inertial navigation systems including the xNAV650. The tools allow users of OxTS’ devices to configure, analyse and post-process their data with ease.

 

Options

• The xNAV650 INS benefits from optional Precision Time Protocol (PTP) time stamping functionality. All xNAV650 INS devices have the option to utilise PTP when synchronising time with LiDAR and other sensors that also utilise the feature. PTP allows for a much simpler set-up over ethernet, providing surveyors with the ability to get up and running quickly.
• OxTS’ gx/ix tight-coupling technology ensures that users of OxTS inertial navigation systems receive the most accurate measurements possible even in tough GNSS conditions such as urban canyons.
• OxTS Georeferencer allows users of OxTS’ inertial navigation systems to georeference pointclouds from almost any LiDAR sensor. By combining OxTS INS data with raw LiDAR data using OxTS Georeferencer, users can increase the quality of their pointclouds, decrease the time to survey, intelligently analyse data and improve project ROI.
• Boresight calibration is an optional feature within the OxTS Georeferencer software. If the coordinate systems of the two devices (INS and LiDAR) do not match perfectly then the georeferencing of LiDAR data will diverge over longer ranges and result in a less accurate pointcloud. The boresight calibration feature within OxTS Georeferencer allows users to take advantage of a simple, data-driven method to calibrate the coordinate systems, meaning a more precise result.

 

Further reading:

OxTS LiDAR Surveying Brochure

Download the OxTS LiDAR Surveying brochure and learn more about LiDAR Surveying using an OxTS INS. The brochure introduces the benefits of integrating the inertial data provided by an OxTS INS with raw LiDAR data. The brochure also details the currently supported LiDAR sensors.

READ BROCHURE

 

OxTS Boresight Calibration Brochure

Accurately measuring the angles between your navigation and survey devices can be difficult to get right. However, using a data-driven approach to calibrating these angles can dramatically reduce survey set up time, increase survey repeatability and improve final output. Read how this can be achieved with our Boresight Calibration brochure.

READ BROCHURE

 

OxTS xNAV650 UAV Based Bridge Survey – Case Study

OxTS Partner Dronezone were tasked with scanning an aging railway bridge to identify potential weaknesses in its structure. Once they made the decision to survey the bridge using a UAV, there were a number of challenges they faced, specifically around payload weight, flight time, data processing, pointcloud accuracy and more. This case study details how they overcame them.

READ CASE STUDY