We provide GIS & Information Services
Geographic Information Systems (GIS) has become a powerful tool for governments, utility companies, and private organizations.
At JSAN consulting Group, we offer cutting-edge geospatial technology solutions to help you unlock the power of location-based data, digital mapping, conversion, Data capture, Data migration and maintenance, Data management & manipulation, Geo processing & spatial analysis, 3D Spatial modelling & visualisation and GeoAI. Our team of experienced GIS professionals is dedicated to providing comprehensive mapping, analysis, and visualization services tailored to your specific needs.
Our geospatial wizards master Geospatial AI-infused development across renowned platforms. We migrate, integrate, and standardize data seamlessly in Utility, Telecom, Urban, Real Estate, and Mining sectors.
Our GIS Developers, Network Capturing experts, and GIS Analysts are ready to guide your project. Beyond maps, we extend our landscape to integrate Platform, ERP, and Testing solutions, setting apart with a distinct solution set.
STREET VIEW (FIELD) DATA COLLECTION
Street View data collection refers to the process of capturing and collecting imagery and geospatial location data of road networks, buildings, and other features from street-level perspectives. This data is typically collected by vehicles equipped with multiple cameras mounted on the roof, which capture 360-degree panoramic images at regular intervals and other sensors that drive on public roads and collect geographical information. The cameras are synchronized with GPS receivers to record the precise location of each image.
Street View data is commonly used in mapping applications, navigation systems, urban planning, and various other applications that require detailed and accurate representations of the physical environment.
Overall, street view data collection plays a crucial role in creating detailed and accurate maps, aiding navigation systems, providing visual context for businesses and landmarks, and assisting in various applications like urban planning, transportation management, and virtual tourism.
INDOOR & OUTDOOR PEDESTRIAN MAPPING
Indoor and outdoor pedestrian mapping involves capturing and representing detailed spatial information about pedestrian pathways, points of interest, and other relevant features in both indoor and outdoor environments. It aims to provide accurate and comprehensive maps that enable users to navigate and explore these spaces efficiently.
Here's a breakdown of indoor and outdoor pedestrian mapping:
- Data Collection
Indoor pedestrian mapping data is collected using specialized techniques and technologies, such as laser scanning, indoor positioning systems (IPS), or manual mapping. Laser scanning captures detailed 3D point cloud data of the indoor environment, while IPS relies on sensors, Wi-Fi, or Bluetooth beacons to track user positions. -
Data Processing
The collected data is processed to create accurate representations of indoor spaces, including floor plans, corridors, rooms, stairs, elevators, and points of interest. This involves data filtering, noise removal, data fusion, and alignment of multiple scans or sensor readings. -
Mapping and Visualization
The processed data is used to create detailed indoor maps that depict the layout, pathways, and points of interest within buildings. These maps can be rendered in various formats, such as interactive digital maps for mobile apps or web-based platforms, or static floor plans for signage and way finding purposes.
- Data Collection
Outdoor pedestrian mapping data is collected using various techniques, including GPS-based mapping, mobile mapping systems, aerial imagery, and satellite imagery. GPS receivers and inertial measurement units (IMUs) are used to capture location coordinates, heading, and other relevant data. -
Data Processing
The collected data is processed to create accurate representations of outdoor pedestrian pathways and features. This may involve georeferencing the data to align it with a reference map or coordinate system, removing noise or inaccuracies, and integrating additional information such as street names and addresses. -
Mapping and Visualization
The processed data is used to create detailed maps that depict pedestrian pathways, crosswalks, landmarks, and other outdoor features. These maps can be rendered in various formats, such as digital maps for navigation systems, web-based maps, or printed maps for public distribution.
- Navigation and Wayfinding:
Pedestrian maps help users navigate through complex outdoor and indoor environments, providing directions, information about points of interest, and real-time positioning. -
Urban Planning
Pedestrian mapping data is used in urban planning to analyze pedestrian flow, identify areas of congestion, and optimize the design of walkways and public spaces. -
Accessibility
Pedestrian maps can assist individuals with disabilities in finding accessible routes and facilities within buildings and public spaces. -
Location-based Services
Pedestrian mapping data is used by location-based service providers to deliver targeted information, promotions, and recommendations to users based on their location and preferences. -
Emergency Response
Pedestrian mapping data aids emergency responders in quickly locating and navigating within buildings during rescue operations.
AERIAL MAP DATA COLLECTION
Aerial map data collection involves capturing high-resolution imagery and other geospatial information from an elevated perspective using aerial platforms, such as airplanes, helicopters, drones, or satellites. Aerial mapping is widely used for creating detailed and up-to-date maps, conducting environmental assessments, monitoring land use changes, and supporting various applications that require accurate spatial data. Here's an overview of the aerial map data collection process:
Cadastral Mapping
Cadastral mapping, also known as cadastral surveying or land surveying, involves the creation and maintenance of maps and records that depict the boundaries, ownership, and legal descriptions of land parcels within a jurisdiction. Cadastral maps are used for land management, property taxation, land registration, urban planning, and various other purposes. Here's an overview of the cadastral mapping process:
Utility mapping
The intelligent use of data has become the key to efficiently managing daily operations in any modern utility. Increase your operational efficiency by becoming a real data-driven utility, relying on qualitative data, an optimal environment, and efficient processes.
JSAN consulting Group offers wide range of services for water, gas, electric, or district heating utilities covers both the Geospatial intelligence and engineering support domain. We not only support production, but also transmission (TSO) and distribution (DSO) companies across the world.
Utility mapping, also known as underground utility mapping or subsurface utility engineering (SUE), involves the identification, location, and mapping of underground utilities such as water pipes, gas lines, electrical cables, telecommunications infrastructure, and other subsurface infrastructure. Utility mapping is crucial for infrastructure planning, construction projects, maintenance, and avoiding accidental utility damage. Here's an overview of the utility mapping process: