A global navigation satellite system (GNSS) is a network of satellites broadcasting timing and orbital information used for navigation and positioning measurements.
Global navigation satellite systems (GNSS) are invisible pieces of technology that people rely on everyday without thinking about it. From communications systems to mobile navigation applications like Google Maps, GNSS
Few major players in this field are Hexagon (Leica) (Sweden), Trimble (US), Topcon (Japan), Robust (INDIA), South (China), Esurvey (Unistrong) (China), CHC (China), Hi-target (China), Geomax etc.
At BB Marketing Technologies Pvt. Ltd., we supply a wide range of GNSS survey equipment instruments designed to meet various accuracies and specifications. Our solutions cater to diverse industries, including Construction, Land Surveying, GIS, Archaeology, Asset Management, and many others. We Offer comprehensive geospatial positioning solutions, from lower-spec handheld GNSS devices to centimeter-level accuracy network rovers.
We at BB Marketing Technologies Pvt. Ltd. are Manufacturers, Suppliers, Provider, Dealer, Exporters of GNSS Systems. Each GNSS system features a ground control segment responsible for monitoring and controlling satellites, maintaining their orbits, and updating navigation data. The user segment comprises GNSS receivers and user equipment that utilize satellite signals for positioning, navigation, and timing applications.BB Marketing Technologies Pvt. Ltd. is deeply engaged in offering a wide array of GNSS Systems to our valuable clients located in Mumbai, in Navi Mumbai, in Thane and all over India. Our commitment to quality and customer satisfaction ensures that we deliver the best GNSS solutions tailored to meet your specific needs.
Integrated DGPS is an advanced self-learning GNSS smart antenna designed to handle the increasing signals from expanding satellite constellations. This GNSS receiver is both smart and reliable, making it a dependable measurement tool for surveyors who require accurate and survey-proof results.
The GNSS system is lightweight and portable, capable of handling even the most challenging measurement conditions. The DGPS offers a smart solution that can be used either as a rover or as a reliable base station.
GNSS antennas serve as the primary connection between GNSS satellite constellations and GNSS receivers. They receive L-band signals transmitted from satellites, which is the frequency range used for broadcasting by many GNSS constellations. As applications like Precision Agriculture demand precise positioning, GNSS antennas play a crucial role in delivering the most accurate results.
Game Changer is designed to simplify processes while providing a range of professional data capture functions to enhance field productivity.
When used with the CORS Station antenna, the device can capture points, lines, and polygons with accuracy down to 1-to-2 centimeters, even in challenging GNSS environments.
This portable RTK receiver, developed with advanced technology, supports signal tracking from all satellite constellations and frequencies. It quickly achieves centimeter-level positioning accuracy and is versatile for applications in railway inspection, utility network inspection, precision agriculture, surveying and mapping, and smart parks.
Introducing Future Plus Technology, a versatile survey-grade GNSS RTK rover featuring Visual Positioning. This advanced tool enables surveying professionals to measure points that were previously challenging to capture with a GNSS rover. You can swiftly capture site images and measure points directly from these images, either in the field or later in the office.
Sensor fusion of GNSS, IMU, and a camera creates Visual Positioning technology, resulting in a GNSS RTK rover that allows you to measure what you see. In addition to Visual Positioning, users can map points using either a tilted or level pole, combining all the functionality mentioned above.
Handheld GNSS devices are transforming Geographic Information Systems (GIS) by bringing them out of the office and into the field. These devices enable the capture, storage, manipulation, analysis, and display of geospatial data directly on-site. Field controllers, connected to GIS systems, enhance the functionality of mobile GIS, improving operational efficiency in the field.
These receivers are utilized in GIS and mapping applications where decimeter-level accuracy is required. They are commonly used for archaeological and geographical purposes, such as mapping the locations of trees, vegetation, and other natural resources. Additionally, they are valuable for determining the relative positions of infrastructure assets like street lights and park benches.
Data is collected using the surveying and mapping software installed on your device. You can then export this data in formats such as .CSV, .DXF, or .SHP files to integrate with asset management systems like GeolinQ or ArcGIS
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