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accuratesurvey · 1 month ago

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Why Is GIS Surveying in High Demand in the UAE? Unlocking Accurate Data for Smarter Decisions

In the middle of the Arabian Peninsula, the United Arab Emirates shows off what people can accomplish through their ideas and the use of new technology. Among all the digital changes happening in this country, GIS surveys and data processing have become important tools for building roads and homes, planning cities, and taking care of the environment. Embracing GIS shows that the UAE values using data for decisions, helping the country progress sustainably in a world where things are getting more intricate.

The Evolution of GIS in the UAE started as a way to track and map important data for cities, and now it is used for almost all types of activities and services in the country.

The technology started as simple ways to map areas and has grown into tools that examine how different areas relate to each other across the country. The government of the UAE saw from the start that effective handling of spatial data would be key for achieving its big development plans. Today, GIS is used in many parts of life in the UAE, like helping people build things, plan roads, find doctors, and attract tourists.

Applications Transforming the Nation

The footprint of GIS survey and data processing covers different fields in the UAE. They make it possible for those working in urban planning to visualize, assess, and improve city designs before starting construction. GIS technology was used to design the Palm Jumeirah island in Dubai to provide strong structures and ensure that it does not harm the environment.

Scientists in the field use GIS to look out for changes in the shape of dunes and to locate places that might turn into deserts. By having this data, officials can work more effectively to manage and protect water resources where there is a long-standing problem with not having enough water.

Advanced-Data Collection Methods

The accuracy of GIS applications is mostly determined by how good the data are that people gather. Data collection in the UAE uses important methods such as LiDAR, imaging via drones, and imagery from satellites to ensure the highest level of accuracy. With mobile GIS, teams can catch data live and prevent mistakes made by humans.

showing how committed they are to data, the city’s Smart Geospatial Contact Center uses AI to check and correct geographical information used in different systems. The focus on data accuracy has made the UAE a leader in geospatial intelligence in the region.

Digital Transformation and Integration

It is not just the use of GIS that makes the UAE unique, but also how they connect GIS with different digital tools. By using GIS data, the country’s efforts to become a smart city create well-connected urban areas where different complimentary systems and services are together.

The Roads and Transport Authority in Dubai uses GIS to improve traffic management, cut down on congestion, and set up future transportation systems. As another example, telecom companies use precision mapping so that underground operations during maintenance and construction are less likely to disrupt visitors or everyday usage.

Overcoming Challenges Through Innovation

Certain problems arise when GIS surveys and data processing are used in the UAE. Difficult desert conditions influence the tasks conducted by oilfield workers and the performance of equipment. Fast growth in cities means that spatial databases must be updated often to remain precise.

As a result, people have devised new ways to tackle these issues. Companies in the UAE have both designed heat-resistant tools and developed new techniques for surveying deserts. Initiatives from the government, including the UAE Spatial Data Infrastructure, have helped to ensure standards for data sharing and compatibility, making the whole national spatial data system more unified.

Building Local Expertise

Understanding that the impact of technology depends on learning, the UAE has focused on developing GIS experts within the country. Colleges and universities offer courses in geospatial sciences, and there are professional certification courses available for already-employed individuals. As a result, the knowledge is shared and helps build lasting resources within the Emirates.

The Road Ahead

When we think about the future, GIS survey and data processing in the UAE will include emerging technologies such as artificial intelligence and blockchain to make both data analysis and security better. They will help the country achieve vital objectives, like ensuring enough food and adapting to climate change.

By embracing GIS in the UAE, the country has demonstrated that using spatial intelligence can help strengthen, organize, and sustain a society. With the help of GIS, Emirati agencies can now study and survey the regions of Abu Dhabi and Dubai, while mapping how the economy moves toward knowledge-work.

Accurate Survey UAE provides precise land, building, and construction surveys using advanced technology, ensuring reliable results for projects across the UAE. If you would like to learn more about GIS survey and data processing, you can visit the page.

#GIS Survey and data processing #land survey #survey

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luckystudentgardener · 3 months ago

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Mapping the Unmapped – How A-THON’s ASHVA 4X4 ATV is Transforming Rural Infrastructure Access

India’s rural transformation depends on one thing—access. A-THON’s ASHVA 4X4 ATV is becoming an essential mobility solution for surveyors, engineers, and planners working in the most challenging terrains of India’s infrastructure growth story.

Building India Starts With Reaching It.

India’s development is no longer urban-centric. The future of economic progress and social transformation depends on infrastructure, connectivity, and services in over 6.4 lakh villages, spread across mountains, valleys, forests, deserts, and flood-prone regions.

Government initiatives like PM Gati Shakti, PMGSY (Pradhan Mantri Gram Sadak Yojana), and Digital Bharat all start with a critical first step—surveying, mapping, and terrain verification.

But how do teams access remote locations, navigate washed-out trails, or cross unstructured terrain to collect vital data?

The A-THON ASHVA 4X4 ATV provides the perfect mobility solution, allowing survey teams, infrastructure planners, and field engineers to reach, assess, and develop unmapped areas with precision and efficiency.

1. The Hidden Mobility Challenge in Rural Infrastructure Projects

Infrastructure development in remote and rural India relies on: ✔ Land surveys and GPS mapping ✔ On-ground engineering inspections ✔ Geo-tagging and elevation profiling ✔ Field validation for roads, bridges, borewells, telecom towers, and schools

The Challenge:

Despite technological advancements, rural terrain continues to present significant obstacles: ✔ Narrow, broken, or seasonally submerged paths ✔ Projects stall due to lack of physical access to survey sites ✔ Satellite maps and drone data fail to capture on-ground conditions ✔ On-foot surveys are slow, exhausting, and inconsistent

The Impact:

✔ Delays in Detailed Project Reports (DPRs) ✔ Inaccurate budget estimations ✔ Faulty infrastructure design due to incomplete data

The Solution – A-THON ASHVA 4X4 ATV

Designed for India’s toughest terrains, the ASHVA 4X4 ATV provides a robust, terrain-adaptive transport solution, ensuring that no project is delayed due to inaccessibility.

2. How A-THON ASHVA 4X4 ATV Enhances Rural Infrastructure Development

The ASHVA 4X4 ATV is specifically designed for infrastructure survey teams, government agencies, and engineering firms working in challenging, unstructured terrain.

Key Features for Survey and Site Validation:

✔ High-torque, 4x4 drivetrain – Tackles loose soil, riverbeds, and steep inclines ✔ Compact dimensions and tight turning radius – Navigates narrow village paths and jungle trails ✔ Seating for multiple field engineers – Supports government officers, planners, and contractors ✔ Rear utility bed – Transports survey equipment, drones, tripods, GIS gear, and power tools ✔ Tablet mounts and power outlets – Enables real-time data capture and geo-mapping ✔ All-weather resilience – Performs in monsoons, dust storms, and extreme heat

The Result:

✔ More accurate terrain data ✔ Faster project planning and execution ✔ Improved infrastructure outcomes

By ensuring uninterrupted mobility, the ASHVA 4X4 ATV is bridging the gap between data and development in rural India.

3. Key Government Use Cases for ASHVA 4X4 ATV

1. Rural Road and PMGSY Surveys

✔ Accessing remote villages for road connectivity assessments ✔ Verifying topography for optimal road alignment ✔ Assessing embankment risks post-monsoon

2. Jal Jeevan Mission (Water Infrastructure Development)

✔ Identifying feasible sites for borewells, water tanks, and pipelines ✔ Mapping terrain for gravity-fed water supply systems

3. Renewable Energy Microgrid Deployment

✔ Surveying un-electrified zones for solar and wind power projects ✔ Transporting panel prototypes and installation kits

4. BharatNet & Telecom Expansion

✔ Surveying for mobile towers and fiber optic routes ✔ Terrain validation for last-mile connectivity

5. Smart Village Infrastructure Planning

✔ Identifying locations for schools, health centers, and government offices ✔ Supporting digital service hubs like e-Mitra, CSC, and DigiGaon

The ASHVA 4X4 ATV empowers government agencies, private contractors, and survey teams to increase operational efficiency and execution speed in rural infrastructure projects.

4. Partnerships & Stakeholders in Rural Development Mobility

A-THON is actively partnering with government bodies, infrastructure firms, and technology innovators to support nationwide rural infrastructure projects.

Potential Collaborators:

✔ Rural Development Ministries & State Engineering Departments ✔ Survey of India, NIC, and Bhuvan GIS Teams ✔ Infrastructure & Construction Majors (L&T, Shapoorji Pallonji, NCC, etc.) ✔ District Collectorates and Panchayat Development Boards ✔ CSR-backed rural development projects ✔ Tech startups in geospatial mapping, AI surveying, and smart infra solutions

How ASHVA 4X4 ATV Supports Rural Infrastructure:

✔ Deployed as terrain mobility support for government and engineering teams ✔ Integrated with IoT sensors for field data collection and analysis ✔ Leased to infrastructure agencies for seasonal project demands

The ASHVA 4X4 ATV is not just a vehicle—it is an enabler of rural connectivity and progress.

5. Specialized ASHVA 4X4 ATV Variants for Infrastructure Surveying

A-THON offers customized ATV models optimized for rural infrastructure development and land surveying.VariantFeaturesSurveyor Scout ATVGIS tablet mount, tripod rack, weatherproof storage, laser rangefinder portsEngineering Inspection ATVSeating for multiple engineers, drone launch bay, blueprint rackSmart Village Data ATVPortable server, battery pack, and CSC digital terminalBridge & Culvert Inspection ATVCompact wheelbase, slope stability, moisture sensor toolkitHydro-Terrain ValidatorFlow sensors, GPS loggers, and camera mounts for stream path tracing

These specialized ATV models can be leased, integrated into PPP projects, or deployed in district administrations for on-demand field mobility.

6. Transforming Rural Infrastructure with Smarter Mobility

Measurable Impact of ASHVA 4X4 ATV Deployments:

✔ 25–40% increase in survey throughput per week ✔ Reduced need for re-surveys and corrections in DPRs ✔ Higher accuracy in terrain data, leading to better infrastructure design ✔ Lower long-term repair costs due to well-planned projects ✔ Enhanced training opportunities for rural workers in mobility tech

With ASHVA 4X4 ATVs in action, infrastructure projects become smarter, faster, and more effective.

Conclusion: Before You Build the Road, Reach the Road

In rural India, mobility is the foundation of development. Pipes, roads, and towers can only be built after the land is understood.

The A-THON ASHVA 4X4 ATV is the ultimate terrain mobility solution for India’s planners, engineers, and infrastructure pioneers.

This is more than transportation—it’s nation-building mobility, enabling real progress in Bharat’s most remote corners.

#atv #india #innovation #techinnovation #technology

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shinchain · 5 months ago

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Harnessing Geospatial Intelligence for Disaster Response and Resilience

Disasters can occur at any time and in any place, and then strike back at people with all the force they can muster, leaving everyone in the affected community to pick up the pieces. This is where fast and efficient Geospatial disaster technologies response have become an indispensable crucial factor in disaster response reducing as loss of help life in and fast property. evaluation and generation of appropriate recommendations for the emergency response teams. Advintek Geoscience uses advanced geospatial technologies to provide emergency teams with precise information and can plan to act any time quickly and can rebuild it properly.

The Role of Geospatial Tools in Emergency Network Restoration Rapid Damage Assessment with Geospatial Intelligence When a disaster disrupts wireless infrastructure, restoring communication networks is often the first priority. Geospatial tools play a pivotal role in assessing the extent of damage, pinpointing areas where communication has collapsed, and identifying accessible routes for emergency teams.

Satellite imagery and drone-based mapping provide high-resolution data that helps assess structural damage and prioritize repairs. GIS platforms can overlay this data with existing network maps to pinpoint which towers, antennas, or fiber-optic lines require immediate attention. For example, during hurricanes or earthquakes, geospatial analysis ensures response teams focus their efforts on the areas with the greatest need.

Enhancing Collaboration Among Stakeholders Geospatial tools enable seamless collaboration between government agencies, telecom providers, and emergency responders. Shared geospatial dashboards provide a unified view of the situation, ensuring all stakeholders are aligned on priorities and action plans. This collaborative approach accelerates decision-making and reduces downtime for critical communication services.

Temporary Coverage Solutions for Emergency Scenarios Planning Mobile Cell Site Deployments with GIS When communication towers are severely damaged, temporary coverage becomes essential. Mobile cell sites, often mounted on vehicles or portable structures, provide an interim solution to restore connectivity. GIS plays a crucial role in determining the optimal locations for deploying these mobile units.

Using real-time data, GIS tools analyze factors such as population density, terrain, and proximity to damaged infrastructure. This ensures that mobile cell sites are strategically placed to maximize coverage and minimize disruption. Additionally, GIS modeling can predict how these temporary solutions will perform under various scenarios, allowing teams to plan for contingencies.

Optimizing Deployment Routes In disaster-hit areas, navigating damaged roads and blocked access points can delay deployment efforts. GIS-based route optimization ensures that teams deploying mobile cell sites take the most efficient paths. By integrating live traffic and hazard data, GIS tools help emergency teams avoid delays and reach critical areas faster.

Building Long-Term Resilience Leveraging Geospatial Insights for Infrastructure Planning Disasters offer valuable lessons for building resilient infrastructure. Post-disaster geospatial analysis helps identify vulnerabilities in wireless networks and informs future planning. By understanding patterns of damage, telecom providers can reinforce at-risk infrastructure, ensuring greater resilience in the face of future events.

For instance, GIS tools can identify flood-prone areas where network equipment should be elevated or hurricane-prone regions where wind-resistant designs are necessary. These insights contribute to the development of robust communication networks that can withstand extreme conditions.

Integrating Early Warning Systems with GIS Geospatial tools are not only reactive but also proactive in disaster management. By integrating real-time monitoring systems with GIS, organizations can establish early warning mechanisms. For example, sensors monitoring seismic activity or river levels can feed data into GIS platforms, triggering alerts and enabling preemptive action to protect infrastructure and communities.

Why Geospatial Tools Are the Future of Disaster Management The ability to visualize and analyze data in real-time is revolutionizing the way we approach disaster management. Geospatial tools bring clarity and structure to chaotic situations, enabling emergency teams to respond with precision and confidence. They are not only tools of reaction but also instruments of prevention and long-term planning. Here’s why they are set to define the future of disaster management.

Real-Time Situational Awareness In the critical hours following a disaster, real-time information can save lives. Geospatial tools integrate live data feeds from satellites, drones, sensors, and social media, creating a comprehensive situational awareness map. This allows responders to see the full scope of the disaster, from flooded areas to collapsed infrastructure, and prioritize efforts accordingly. For instance, during wildfires, GIS can provide dynamic fire progression maps, helping teams strategize evacuations and resource allocation.

Enhanced Decision-Making Through Data Integration Disaster management often involves a plethora of data sources: meteorological data, infrastructure maps, population density, and real-time updates from the field. Geospatial tools excel at integrating these diverse datasets into a single, interactive platform. This integration enables emergency teams to make decisions backed by a holistic view of the situation, rather than relying on fragmented or outdated information.

Predictive Modeling for Preemptive Actions The future of disaster management is moving toward prediction rather than reaction. Geospatial tools enable predictive modeling by analyzing historical disaster data alongside current conditions. For example, by studying historical flood data and weather patterns, GIS can predict areas most likely to be affected in upcoming storms. This foresight allows governments and organizations to pre-position resources, evacuate populations, and protect critical infrastructure before disaster strikes.

Streamlined Coordination Across Agencies Disasters often require coordinated efforts from multiple agencies, including emergency responders, government bodies, utility companies, and non-profits. Geospatial platforms act as a common operating picture for all stakeholders, ensuring seamless communication and coordination. Shared geospatial dashboards enable each entity to contribute to and access vital information, reducing redundancy and increasing efficiency.

Advancing Recovery and Mitigation Efforts Geospatial tools are as critical in recovery as they are in response. After a disaster, GIS can assess long-term impacts, track recovery progress, and inform mitigation strategies to reduce vulnerability in the future. For instance, post-earthquake GIS analyses can help identify areas where building codes need strengthening, while flood impact maps can guide the construction of levees or drainage systems.

Advintek Geoscience: Leading the Charge in Disaster Response Innovation At Advintek Geoscience, we specialize in providing advanced geospatial solutions tailored to the unique challenges of disaster response and resilience. Our expertise in GIS, and data analytics ensures that our clients are equipped to navigate emergencies effectively.

We collaborate with telecom providers, government agencies, and emergency responders to deliver customized solutions that restore connectivity and strengthen infrastructure. With Advintek Geoscience, you’re not just responding to disasters — you’re building a future that’s better prepared for them.

Ready to transform your disaster response strategy? Discover how Advintek Geoscience can empower your organization with geospatial intelligence today.

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sudeepkedar · 1 year ago

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Location Intelligence Market: Industry Potential, Trends and forecast to 2032

Global Location Intelligence Market will reach over USD 60 billion by 2032. The burgeoning popularity of location-based services, coupled with the rising demand for spatial analysis will catalyze the industry growth over 2024–2032. Businesses across various sectors increasingly rely on location-based insights for targeted marketing, resource optimization, and operational efficiency. Moreover, the need for spatial analysis in urban planning, environmental monitoring, and disaster management is soaring. As organizations recognize the strategic value of location intelligence, the market will witness robust growth.

Request for Sample Copy report @ https://www.gminsights.com/request-sample/detail/6702

Location intelligence market from the remote monitoring application segment will observe a noteworthy upsurge by 2032, owing to the growing need for real-time tracking and management of assets, vehicles, and equipment across various industries. With advancements in IoT technology and connectivity, remote monitoring solutions offer enhanced visibility and control over dispersed assets for improving operational efficiency and reducing costs. As organizations prioritize remote monitoring capabilities to optimize workflows and ensure compliance, the segment will witness steady growth.

The IT and telecom segment in the location intelligence market will depict considerable growth from 2024 to 2032, attributed to its pivotal role in infrastructure development and connectivity. As telecommunications companies leverage location intelligence to optimize network coverage, enhance service delivery, and improve customer experiences, the demand for location-based solutions will soar. The increasing investments in 5G network deployment and IoT technologies will also drive the segment growth.

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Asia Pacific location intelligence industry will register a remarkable CAGR from 2024 to 2032, driven by rapid urbanization, increasing adoption of digital technologies, and government initiatives for promoting smart city development. With its vast population and growing economies, the APAC offers significant opportunities for location-based services and solutions. As organizations harness the power of location intelligence to make data-driven decisions, the region will stand as a key contributor to the industry expansion.

Partial chapters of report table of contents (TOC):

Chapter 1 Methodology & Scope

1.1 Market scope & definition

1.2 Base estimates & calculations

1.3 Forecast calculation

1.4 Data Sources

1.4.1 Primary

1.4.2 Secondary

1.4.2.1 Paid sources

1.4.2.2 Public sources

Chapter 2 Executive Summary

2.1 Location intelligence market 3600 synopsis, 2018 - 2032

2.2 Business trends

2.2.1 Total Addressable Market (TAM), 2024-2032

2.3 Regional trends

2.4 Solution type trends

2.5 Services trends

2.6 Location type trends

2.7 Deployment model trends

2.8 Application trends

2.9 Industry vertical trends

Chapter 3 Location intelligence Market Industry Insights

3.1 Industry ecosystem analysis

3.2 Supplier Landscape

3.3 Profit margin analysis

3.4 Technology innovation landscape

3.5 Patent analysis

3.6 Key news and initiatives

3.7 Regulatory landscape

3.8 Impact forces

3.8.1 Growth drivers

3.8.1.1 Rising demand for business insights.

3.8.1.2 Expanding IoT ecosystem.

3.8.1.3 Expanding retail and e-commerce sector.

3.8.1.4 Advancements in GIS and Mapping Technologies

3.8.1.5 Increasing demand for telco network optimization and personalization.

3.8.2 Industry pitfalls & challenges

3.8.2.1 Data security and privacy concerns

3.9 Growth potential analysis

3.10 Porter’s analysis

3.11 PESTEL analysis

About Global Market Insights:

Global Market Insights, Inc., headquartered in Delaware, U.S., is a global market research and consulting service provider; offering syndicated and custom research reports along with growth consulting services. Our business intelligence and industry research reports offer clients with penetrative insights and actionable market data specially designed and presented to aid strategic decision making. These exhaustive reports are designed via a proprietary research methodology and are available for key industries such as chemicals, advanced materials, technology, renewable energy and biotechnology.

Aashit Tiwari Corporate Sales, USA Global Market Insights Inc. Toll Free: +1-888-689-0688 USA: +1-302-846-7766 Europe: +44-742-759-8484 APAC: +65-3129-7718 Email: [email protected]

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shijayprojects01 · 1 year ago

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Underground Utility Mapping Services in Delhi

Delhi is known to be a bustling metropolis and a cultural hub that seamlessly blends history with modernity. It is not just a city above ground but also its subterranean realm holds an intricate network of different utilities that are crucial for urban life.

In this blog, we embark on a journey to understand the significance of underground utility mapping services in Delhi, meanwhile also shedding light on this intricate web that is lying beneath the surface of this city to keep it running smoothly.

What are underground Utility Mapping Services?

Underground utility services involve the use of very high-tech, advanced technology and surveying techniques to accurately locate, identify, and map the various utilities that are present beneath the ground’s surface. These services play a very important role in things like urban planning, construction, and maintenance because they provide extensive information about the infrastructure hidden underground. The utilities that are found typically include water and sewage pipes, gas lines, electrical cables, telecommunications conduits, and other subsurface structures.

Key aspects of underground utility mapping services

Precisely determining the horizontal and vertical locations of underground utilities because they help in avoiding accidental damage that can happen due to construction and excavation activities.

The accurate use of specialized types of equipment to collect data about the type, size, depth, and condition of underground utilities because it provides a comprehensive overview of the subsurface infrastructure.

GIS (Geographic Information System) is employed to create a detailed, and interactive map that displays the various underground utilities with other geographical features. It is not only important for better visualization but also for analysis and proper decision-making in urban planning and development.

Correctly facilitates coordination among different utility service providers, construction teams, and urban planners because this helps in minimizing conflicts, reducing the risk of damage to existing infrastructure, and it also ensures efficient use of space below ground.

Importance of Underground Utility Mapping

Beneath Delhi's vibrant markets and historical streets lies an intricate web of hidden infrastructure that consists of pipelines, cables, and conduits that power, connect, and sustain the city, and the underground utility mapping services play a key role in exploring and finding information about this hidden landscape. These services help in providing a comprehensive understanding of the location, depth, and type of utilities to the professionals. From water and sewage lines to gas and electricity cables, accurate mapping is extremely crucial for efficient urban planning and development.

Shijay Projects: providing the best underground utility services in Delhi

Geophysical Services

Shijay Projects India Private Limited offers Shallow Geophysical Surveys that include Data Acquisition, Data Processing, and other associated services for Telecom, Civil, Infrastructure, and EPC companies.

It has also built capabilities to offer the following geophysical survey services to its clients

Ground Penetrating Radar Survey

Topographical Survey

Induction Locator

Electrical Resistivity Survey

Gravity and Magnetic Survey

Microgravity Survey

Geodetic Survey

Metal Detector Survey

Cross hole/Uphole/Downhole Seismic Survey

Passive Seismic Tomography

Refraction Micro-Tremor

It is important to note that data is not always available in its most suitable format and sometimes it may require conversion into a more suitable or readable format for GIS use. Using their expert team of GIS consultants with extensive proven experience, they can offer a full range of data capture and conversion services at internationally competitive prices, such as:

GIS Mapping

Lidar Mapping

Photogrammetry

Drone Survey

3D Modelling

So, if you are looking for the best of the best underground utility mapping services in Delhi that will assist you every step of the way and will make sure that you get accurate data then Shijay Projects stands among the top companies in this industry!

#underground utility mapping services in Delhi #gpr survey services in delhi #geophysics services in Delhi #geophysics services survey in delhi #crosshole seismic in delhi #induced polarization resistivity #uphole seismic survey in delhi #crosshole downhole or uphole survey in delhi #cable and pipe locator in delhi #MASW/Remi Survey in India

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worldwideanalysis · 3 years ago

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automaticbluebirdcollector · 4 years ago

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Mobile Mapping Market Size, Trends, Growth by Top Key Players, Demand and 2027 Forecast Research Report.

SUMMERY:

Market Research Future published a research report on “Mobile Mapping Market Research Report- Global Forecast 2027” – Market Analysis, Scope, Stake, Progress, Trends and Forecast to 2027.

Mobile Mapping Market Highlights:

The global mobile mapping market could post a robust CAGR of 13.42% during the forecast period (2017-2023), asserts Market Research Future (MRFR).

The mobile mapping market gets a significant boost from the soaring demand for terrestrial mobile mapping in transportation as well as telecommunication. Mobile mapping is generally used by organizations for fleet management, asset management, construction and maintenance of cable network. In earlier times, the data was collected using the aerial photogrammetry methods. But this process of collecting data with aerial photogrammetry takes too long and proves to be a costly process. These constraints have prompted organizations to adopt mobile mapping for acquiring geospatial data. The low cost and low delivery time of mobile mapping compared to other methods have done wonders for the market, revenue-wise.

Enhanced network connectivity across mobile devices coupled with subsequent surge in adoption of mobile maps across Mobile Mapping Market have stimulated market growth in recent years. Advent of the 4G technology has accelerated the data transfer speeds, compared to the 3G networks. With the improvement in network connectivity owing to 4G, users are now efficiently using mapping solutions on their smartphones to navigate.

Sensing the high growth rate as well as the host of opportunities available, industry players are giving extra efforts in upgrading mobile mapping services. Renowned vendors are indulging in strategic alliances, in addition to adopting advanced business development strategies which help then solidify their position in the industry. The main focus of these vendors is on product innovation and launches as well as mergers and acquisitions. To exemplify this point, Heron indoor mobile mapping system has been popular since it was launched in 2018. It boasts of a 360-degree panoramic camera along with fully high-definition that aids in collecting, digitally documenting, and georeferencing huge amount of data sets as well as information within indoor environments.

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Renowned Vendors:

Some of the renowned vendors competing in the global mobile mapping market include Mitsubishi Electric Corporation (Japan), Google (USA), Hyper Tech (Israel), Huron Geomatics Inc. (Canada), PASCO CORPORATION (Japan), The Sanborn Map Company Inc (USA), Trimble Inc. (USA), NAVVIS (Germany), Telefonaktiebolaget LM Ericsson (Sweden), NGC Aerospace Ltd (Canada), 3D Laser Mapping (UK), Hexagon AB (Sweden), TOPCON CORPORATION (Japan), Apple Inc. (USA), IGI mbH (Germany), FARO Technologies Inc. (USA), Gexcel (Italy, TomTom International BV (Netherlands), Microsoft Corporation (USA), among others.

Market Segmentation:

The worldwide mobile mapping market has been segmented with context to component, solution, application and end-user.

Component-based segments in the market are hardware (sensors, cameras, laser scanners, and others) as well as software and services (managed and professional). Among these, the hardware segment could lead the mobile mapping market in the coming years, given the intense demand for sensors and cameras in consumer electronic products, followed by IT & telecom and automotive.

Depending on the solution, the mobile mapping market covers location-based services, asset management solutions, indoor mapping, 3D mapping, and others.

With regard to the application, the mobile mapping market can be split into land surveying, laser scanning, aerial surveys, bridge planning, and others.

The end-users in the mobile mapping market include real estate & construction, agriculture, marine transport, energy & power, aviation & aerospace, manufacturing, IT & telecom, mining, media & entertainment, healthcare, and others.

Regional Insight:

The region-wise analysis of the mobile mapping market has been done in Asia Pacific (APAC), Europe, North America, and the rest of the world (RoW).

Rising adoption of mobile mapping to collect geospatial data has been chiefly responsible for the market growth in North America. In addition, high use of smartphones that are equipped with global positioning systems (GPS), especially in the United States (US), Mexico and Canada, has induced market growth. In the US, augmented demand for mobile mapping technology in the transportation industry for facilitating high-precision mapping over long-range, acquiring details about road barriers, analyzing road surface, locating light poles, signboards and overhead wires, as well as for route assessment, results in market growth. Soaring demand for Global Navigation Satellite System (GNSS) data in Mexico has elevated the uptake of mobile mapping technology in recent years. On top of that, rising applications of mobile mapping for land, aerial and water surveys, mapping of public infrastructures like bridges, tunnels, road inventory, subways, cartography, and rail inspection will prove to be instrumental in the future market growth.

In Europe, mobile mapping technology finds numerous applications, such as automatic detection of traffic lights, walking pathways, asset management, and tracking and road signs. Increasing use of airborne LiDAR-based mobile mapping for rural and urban mapping, rail asset management, global information system (GIS) and transportation applications also boosts market growth in the region.

APAC notes the highest penetration of mobile mapping technology in India, China, Australia, Japan, South Korea, Taiwan, and New Zealand. The demand for mobile mapping technology in the region is expected to rise, primarily for smart highway systems, smart transport systems, and land vehicle navigation. Apart from this, increased adoption of smartphones, mounting demand for survey of roads, bridges, land, and other public infrastructure and advances in network connectivity are projected to have a profound effect on the regional market during the evaluation period.

Table of Contents

1 Executive Summary

2 Scope of the Report

2.1 Market Definition

2.2 Scope of the Study

2.2.1 Research Objectives

2.2.2 Assumptions & Limitations

2.3 Markets Structure

3 Market Research Methodology

3.1 Research Process

3.2 Secondary Research

3.3 Primary Research

3.4 Forecast Business Function

Continued…

Browse Full Report Details @ https://www.marketresearchfuture.com/reports/mobile-mapping-market-5747

List of Tables

Table1 World Population by Major Regions (2017 To 2023)

Table2 Global Mobile Mapping Market: By Region, 2017-2023

Table3 North America Mobile Mapping Market: By Country, 2017-2023

Continued…

List of Figures

Figure 1 Global Mobile Mapping Market Segmentation

Figure 2 Forecast Methodology

Figure 3 Porter’s Five Forces Analysis of Global Mobile Mapping Market

Continued…

About Market Research Future:

Mobile Mapping Market Highlights:

The global mobile mapping market could post a robust CAGR of 13.42% during the forecast period (2017-2023), asserts Market Research Future (MRFR).

Request a Free Sample @ https://www.marketresearchfuture.com/sample_request/5747

Renowned Vendors:

Market Segmentation:

The worldwide mobile mapping market has been segmented with context to component, solution, application and end-user.

Depending on the solution, the mobile mapping market covers location-based services, asset management solutions, indoor mapping, 3D mapping, and others.

With regard to the application, the mobile mapping market can be split into land surveying, laser scanning, aerial surveys, bridge planning, and others.

Regional Insight:

The region-wise analysis of the mobile mapping market has been done in Asia Pacific (APAC), Europe, North America, and the rest of the world (RoW).

Table of Contents

1 Executive Summary

2 Scope of the Report

2.1 Market Definition

2.2 Scope of the Study

2.2.1 Research Objectives

2.2.2 Assumptions & Limitations

2.3 Markets Structure

3 Market Research Methodology

3.1 Research Process

3.2 Secondary Research

3.3 Primary Research

3.4 Forecast Business Function

Continued…

Browse Full Report Details @ https://www.marketresearchfuture.com/reports/mobile-mapping-market-5747

List of Tables

Table1 World Population by Major Regions (2017 To 2023)

Table2 Global Mobile Mapping Market: By Region, 2017-2023

Table3 North America Mobile Mapping Market: By Country, 2017-2023

Continued…

List of Figures

Figure 1 Global Mobile Mapping Market Segmentation

Figure 2 Forecast Methodology

Figure 3 Porter’s Five Forces Analysis of Global Mobile Mapping Market

Continued…

About Market Research Future:

Market Research Future (MRFR) is an esteemed company with a reputation of serving clients across domains of information technology (IT), healthcare, and chemicals. Our analysts undertake painstaking primary and secondary research to provide a seamless report with a 360 degree perspective. Data is compared against reputed organizations, trustworthy databases, and international surveys for producing impeccable reports backed with graphical and statistical information.

We at MRFR provide syndicated and customized reports to clients as per their liking. Our consulting services are aimed at eliminating business risks and driving the bottomline margins of our clients. The hands-on experience of analysts and capability of performing astute research through interviews, surveys, and polls are a statement of our prowess. We constantly monitor the market for any fluctuations and update our reports on a regular basis.

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#Mobile Mapping Market #mrfr

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speedylightheart · 5 years ago

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AT CAGR of 19% Mobile Mapping Market is to Witness Significant Growth between 2020-2025

Mobile Mapping Market is valued at USD 14.32 Billion in 2018 and expected to reach USD 48.40 Billion by 2025 with the CAGR of 19% over the forecast period.

Mobile Mapping Market: Global Size, Trends, Competitive, Historical & Forecast Analysis, 2020-2025. Increasing adoption of mobile mapping devices, infrastructural development of telecommunication networks, and adoption of mobile mapping technology for various applications are some of the primary factors driving the growth of global mobile mapping market.

Scope of Mobile Mapping Market-

Mobile Mapping Is The Procedure of collecting geospatial data from a mobile vehicle, typically fitted with a range of GNSS, photographic, radar, laser, LiDAR or any number of remote sensing systems. Such systems are collected of an integrated array of time synchronized navigation sensors and imaging sensors attached on a mobile platform. The primary output from such systems contains GIS data, digital maps, and georeferenced images and video. It used by individuals and enterprises to access real-time, location-based information that helps in making informed decisions. The traditional mobile mapping systems are expensive due to the need for exclusive sensor components. The advent of mobile devices prepared with remote sensing and positioning abilities allowed the users to use the mapping applications for navigational purposes.

Mobile Mapping market report is segmented on the basis of product type, application and by regional & country level. Based upon product type, mobile mapping market is classified into ground survey, geometrics and Lidar. Based upon application, mobile mapping market is classified into real estate and construction, it and telecom and others.

The regions covered in this mobile mapping market report are North America, Europe, Asia-Pacific and Rest of the World. On the basis of country level, market of Mobile Mapping is sub divided into U.S., Mexico, Canada, U.K., France, Germany, Italy, China, Japan, India, South East Asia, GCC, Africa, etc.

Mobile Mapping Companies:

Mobile Mapping market report covers prominent players are,

Ericsson

Gexcel

Hyper Tech

TomTom International BV

Apple Inc.

TOPCON Corporation

IGI mbH

FARO Technologies Inc.

Trimble Geospatial

Google

Hexagon AB

Huron Geomatics Inc.

3D Laser Mapping

PASCO Corporation

Mitsubishi Electric Corporation

NAVVIS

The Sanborn Map Company Inc

NGC Aerospace Ltd.

Mobile Mapping Market Dynamics –

The global mobile mapping market is witnessing substantial growth due to increasing adoption of mobile mapping devices, infrastructural development of telecommunication networks and adoption of mobile mapping technology for various applications are some of the primary factors driving the growth of global mobile mapping market. According to the GIM International, Geo-matching is the world’s major product platform for surveying, locating and machine guidance, listing more than 2,000 products from 500 producers and inviting more than 250,000 users in 2017. Mobile mapping equipment is one of Geo-matching’s most important sections, containing 52 products from 25 manufacturers. In mid-2017 and 2018, Geo-matching started paying extra special attention to mobile mapping systems, with direct achievement. Since September 2017 the number of page views has more than doubled. However, the data accuracy concerns associated with the mobile mapping technology is hindering the market growth. Furthermore, increasing complexity of mobile mapping tech has allowed extensive acceptance of the mobile mapping market and is expected to be the vital booster for the global mobile mapping market over the upcoming period.

Mobile Mapping Market Regional Analysis –

North America is dominating the mobile mapping market with the potential rate due to growing demand for mobile mapping technology in the transportation sector to facilitate high-precision mapping over long range, capture details regarding road barriers, analyze road surface, locating overhead wires, light poles, and signboards along with route assessment. According to the International Trade Administration (ITA), the transportation industry in the United States is highly competitive. By investing in this sector, multinational firms position themselves to better enable the flow of goods through the world's largest consumer market. International and domestic businesses in this industry benefit from a highly skilled workforce and relatively low costs. United States Business Logistics Costs reached $1.6 trillion in 2018 (8 percent of GDP that year).

The Asia Pacific is expected to emerge as the fastest-growing regional market over the forecast period due to the increased adoption of smartphones, and growing demand for the survey of roads, bridges, land, and other public infrastructure in the Asian countries. In addition, Asia-Pacific is expected to witness a high demand for mobile mapping technology for land vehicle navigation, smart highway systems, and smart transport systems. According to the GSMA report, the smartphone adoption in India is likely to increase to 49 per cent by 2020 from 28 per cent in 2016. This will mainly be on account of growth in data usage which, in turn, will increase the demand for 3G and 4G data connections. However, smartphone adoption for India is lower compared to China.

Key Benefits for Mobile Mapping Market Reports –

Global Market report covers in depth historical and forecast analysis.

Global Market research report provides detail information about Market Introduction, Market Summary, Global market Revenue (Revenue USD), Market Drivers, Market Restraints, Market opportunities, Competitive Analysis, Regional and Country Level.

Global Market report helps to identify opportunities in market place.

Global Market report covers extensive analysis of emerging trends and competitive landscape.

Mobile Mapping Market Segmentation –

By Product Type: Ground Survey, Geomatics, LiDAR

By Application: Real Estate and Construction, IT and Telecom, Others

Regional & Country Analysis North America, U.S., Mexico, Canada , Europe, UK, France, Germany, Italy , Asia Pacific, China, Japan, India, Southeast Asia, South America, Brazil, Argentina, Columbia, The Middle East and Africa, GCC, Africa, Rest of Middle East and Africa

About Us:

Brandessence Market Research and Consulting Pvt. ltd.

Brandessence market research publishes market research reports & business insights produced by highly qualified and experienced industry analysts. Our research reports are available in a wide range of industry verticals including aviation, food & beverage, healthcare, ICT, Construction, Chemicals and lot more. Brand Essence Market Research report will be best fit for senior executives, business development managers, marketing managers, consultants, CEOs, CIOs, COOs, and Directors, governments, agencies, organizations and Ph.D. Students. We have a delivery center in Pune, India and our sales office is in London.

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cloudeo · 5 years ago

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How the telecommunication industry is getting reshaped with geo-spatial technologies

Telecommunication is a highly competitive industry and a major factor that has enabled the leaders to gain a competitive edge is their decision to factor in the power of location intelligence in their functioning at an early stage. Location intelligence has been helping them to understand vital facts about their business such as how many customers they can reach, how many towers they need to build and connect, how they can optimize the existing networks, etc. By keeping the ‘where’ dimension in their functioning, these companies have been able to model and test the best sites to locate towers for optimum coverage, understand the demographics of the population, and target outreach efforts.

Geo-spatial has been an integral part of telecom networks so far, but with 5G in the picture, the relevance of geodata in telecommunication increases manifold.

Why Geo-spatial is Crucial in Telecom’s sustainable development

Optimizing telecom networks is not just about rolling out new technologies like 5G. The telecom companies need to focus on analyzing and optimizing the existing networks as well, and this cannot be achieved without the effective use of geospatial data. Using new location data streams, they can understand consumers at a deeper granularity. Be it long-term network planning, developing the marketing strategy or capability building, geospatial becomes their ‘go-to’ technology as well.

With more complex 5G networks, the necessity of having accurate and detailed geospatial data will heighten. Location technology is vital for telecom network planning, risk management, and performance monitoring, and with 5G the importance will intensify.

5G is a wireless technology standard that promises to bring with it enhanced capacity and speed of data transmissions, often referred to as low latency. This is required to enable communication between millions of devices, sensors, and infrastructure. This split-second flow of densely packed data will allow intelligent systems to make more informed decisions while managing daily operations of smart communities.

5G will serve as the data transmission backbone of future technologies and cities, and to make the technology a success, telecom operators have to necessarily integrate spatial data and big data into their operations. So is the case with existing networks (2G, 3G, 4G/LTE) which aim to upgrade themselves and provide better services.

Geospatial data in all realms

Low-latency data throughput, which must be achieved by 5G to fulfill its promises of high-speed connectivity and data transmission, requires it to operate in a very broad bandwidth of the radio-frequency (RF) spectrum with a much higher frequency. Accordingly, cellular networks need to be reconfigured into much smaller, tighter cell sites, and as compared to 4G networks, operators are required to install many more cell sites per square kilometer. For such precise planning of installation sites, using location intelligence becomes necessary.

Next, to have undisturbed high-speed data transmission and network availability, it is necessary to ensure that 5G signal paths do not get obstructed by objects such as buildings and trees. For ensuring this, highly accurate geodata is required. Accurate maps that display terrain and infrastructure can help the telecom operators to determine where the towers can be built such that they can relay high-frequency signals effectively.

Managing Risks and Assets

Location intelligence and access to highly accurate geospatial data can help the telecom operators to not only carry out effective network planning but also manage the assets after installation. Accurate identification of problem sites will help the teams to resolve the issues quickly. This quick and efficient resolution of issues will lead to enhanced customer satisfaction.

Using visual mapping dashboards and automated alerts triggered from the GIS system based on geofencing or risk proximity, Network Operating Centers can get a clear overview of physical and human assets and proactively monitor the risks that could threaten the network operations. Risks could be environmental such as hurricanes, earthquakes, and storms as well as those related to health and safety.

Timely identification of the risks will allow the organizations to take the necessary action faster and add more satisfied customers to the database.

Improving Workforce Management

There remains no doubt that due to the presence of more advanced capabilities, 5G networks and infrastructure will be more complex than the 3G and 4G networks. Accordingly, there will be an increase in the number of assets (towers, microcells) as well. The increased number of assets will require more installation and maintenance work, putting more pressure on the field service workforce.

In such high-pressure situations, geospatial technology will enable the workforce to be more efficient. Geospatial technology will help in improving and automating several aspects of the workflow management; right from route planning optimization to dispatch and vehicle tracking, to monitoring real-time outage intervention status. The outcomes so achieved will be par excellence.

Enhancing Customer Experience

Right from the planning stage, geospatial data will significantly help the telecom operators identify the best markets to develop. Based on data related to population density or population segmentation expenditures, the operators can identify the best areas for potential 5G consumers. Demographic data can also help them to ascertain where the towers should be installed as it would be better to keep them closer to areas where the maximum number of customers will be located.

An important component of good customer service is the easy availability of a physical store. It is necessary for the telecom providers to place the stores strategically to be able to cater to the existing and new customers better. This is another area where geospatial data has been playing a vital role. It has been helping the telecommunication companies in identifying the best location for their stores and with 5G the story will be no different.

In today’s digital world, even before a customer arrives at a physical store, he/she researches the carrier, its coverage quality, or availability of the service in their geographic area through the company website. For providing such information accurately to the prospective customers, telecom companies have to harness the power of location technology, be it for geocoding the customer location, validating service availability, or allowing them to select the nearest store-based on preferred criteria. This practice has been adopted by the leaders in the fields and with competition enhancing, the 5G players definitely need to imbibe the same.

Telecom companies must work towards including highly accurate coverage maps in their websites which can help the prospective customers to know when the 5G technology will be available near them. Easy availability of such information will help in building up the customer base. Moreover, analysis of such queries can largely enable the telecom provider to decide where to invest while building up the network such that it can cater to a larger number of customers.

After the service is in place, geospatial data will also be beneficial for resolving customer complaints. It can be used to perform pre-diagnostic tests by locating potential causes, whether it’s a weak coverage close to a customer location, an ongoing outage in proximity to a customer, or a cell site that reaches maximum capacity. Such location-based analysis can greatly speed up the resolution time and improve customer satisfaction while making the telecom provider more efficient.

Where to Find High-Quality Geodata

So, there is no doubt that using geospatial data, telecom companies can aim towards creating more robust networks and achieving the goals of very high data speeds, low latency, enhanced reliability, huge network capacity, and better user experience to the increased numbers of users.

However, an important question arises here, ‘Where to get high-quality geospatial data that meets the needs effectively?’

One answer is Cloudeo.

Cloudeo is the platform that enables Telecom companies to access multiple high-quality, ready-to-use data from various geodata creators like satellites, airplanes, and drones, in-situ-data, etc. under Data as a Service (DaaS) in a few clicks. Additionally, the Software as a Service (SaaS) feature allows the customers to use the latest version of different types of software needed to process the geodata without worrying about updates, releases, etc. The platform strategically brings together Partners and customers into one standard operating platform globally.

This cloud-based market platform hosts a wide range of value-added service providers and developers who can simplify and customize the data as per the user’s needs. With Infrastructure as a Service (IaaS) provision, the users can use all of Cloudeo’s services without increasing their IT infrastructure cost. The service works excellently with user-specific specifications, code, workflow, and even has to scale up options at a very affordable cost at the customer’s preferred location and time.

All in all, the platform stands out as the perfect choice for high-valued geoinformation services that telecom companies are looking at, more actively now with the promise of 5G in place. By bringing in all the data creators, data processors, and data users into one platform, Cloudeo is creating the most user-friendly geospatial solutions marketplace to meet your company’s need of accessing highly accurate geospatial data.

Explore Cloudeo today and take the first step towards creating more robust networks that will power the smarter cities of tomorrow.

#remote sensing #telecom #5g #line of sight #dtm #dsm #geospatial

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syndranker1 · 6 years ago

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Going to Commercial UAV Expo in Vegas? Check out these Booths, Speakers and Sponsors

Commercial UAV Expo in Las Vegas next week looks to be one of the best drone events of the year – where attendees are guaranteed to meet current and potential friends, sponsors, clients, and partners. The event is being held at The Westgate Resort, Las Vegas, USA from October 28 – 30th

While you’re there, stop by these booths to meet some of DRONELIFE’s friends, partners and sponsors that you may have read about here. (Please confirm the dates and times of the sessions as these are subject to change and we don’t want you to go to the wrong place.). And be sure to say hi to Miriam, our Editor-in-Chief, who will be covering the show!

CompTIA: Booth 233

CompTIA is a leading voice and advocate for the $5 trillion global information technology ecosystem; and the more than 50 million industry and tech professionals who design, implement, manage, and safeguard the technology that powers the world’s economy. Through education, training, certifications, advocacy, philanthropy, and market research, CompTIA is the hub for advancing the tech industry and its workforce. https://www.comptia.org/

DroneDeploy: Booth 833

DroneDeploy is the leading cloud software platform for commercial drones, and is making the power of aerial data accessible and productive for everyone. Trusted by leading brands globally, DroneDeploy is transforming the way businesses leverage drones and aerial data across industries, including agriculture, construction, mining, inspection and surveying. Simple by design, DroneDeploy enables professional-grade imagery and analysis, 3D modeling and more from any drone on any device.

In addition, CEO Mike Winn will be on the panel for UAS Insights and Strategies for Success in the Current Marketplace on Tuesday Oct. 29th from 9:00 to 10:45 am in Pavilion 1-3. (see more on Mike below).

Gremsy: Booth 1031

Established in 2011, Gremsy is a leading global brand of the camera stabilizer. Since its establishment, Gremsy has focused on R&D to release high-grade quality products like Gremsy T3, Gremsy S1, and Pixy, …to meet rigorous demands not only for commercial uses but also for enterprise solutions.

Combined with engineers with over 8-year expertise in gimbal designing and with great passion for pushing the limit to be a crucial component of the drone systems, Gremsy continues launching new compact gimbals to carry different sensors.

Besides presenting the latest gimbals at this Commercial UAV show, Gremsy team is excited to discuss with valued clients for their customized gimbals projects.

Check out their new gimbal, the PixyU , that is designed to work with a number of different air frames.

FLIR Systems: Booth 925

FLIR Systems, Inc. is a global leader in the design and manufacture of innovative, high-performance digital cameras for industrial, medical and life science, traffic, biometric, GIS, and people counting applications.

FLIR Systems, Inc. designs, develops, manufactures, markets, and distributes technologies that enhance perception and awareness. We bring innovative sensing solutions into daily life through our thermal imaging systems, visible-light imaging systems, locator systems, measurement and diagnostic systems, and advanced threat detection systems. Our products improve the way people interact with the world around them, enhance public safety and well-being, increase energy efficiency, and enable healthy and entertained communities.

Randall Warnas who runs FLIR global drone business is speaking at the Energy – Vertical Breakout Session on Tuesday October 29th from 2:00 to 3:30 pm in Pavilion 3. (see more on Randall below).

They recently announced the FLIR Muve C360 which helps detect the presence of gas.

Pix4D: Booth 431

Pix4D is a dynamic and rapidly expanding software company with headquarters in Lausanne, Switzerland, and local offices in San Francisco, Shanghai and Berlin. The company develops a line of end-to-end mapping solutions which convert images into georeferenced maps and models. Using advanced algorithms based on computer vision and photogrammetry, Pix4D offers survey-grade accuracy, as well as a unique bundle of desktop and cloud processing.

SimActive: Booth 310

SimActive is the developer of Correlator3D

software, a patented end-to-end photogrammetry solution for the generation of high-quality geospatial data from satellite and aerial imagery, including UAVs. Correlator3D

performs aerial triangulation (AT) and produces dense digital surface models (DSM), digital terrain models (DTM), point clouds, orthomosaics and vectorized 3D features. Powered by GPU technology and multi-core CPUs, Correlator3D

ensures matchless processing speed to support rapid production of large datasets. SimActive has been selling Correlator3D

to leading mapping firms and government organizations around the world, offering cutting-edge photogrammetry software backed by exceptional customer support. For more information, visit www.simactive.com.

Speakers we think are worth seeing (some are partners, others just our industry heroes):

Dyan Gibbons, CEO Trumbull Unmanned: Tuesday October 29 from 4:30-5:45 pm Conference Room 12-14

Dyan attended the Air Force Academy, where she was a member of the Air Force Parachute team and learned to fly. After studying engineering, she served as an Acquisitions Officer. While managing cruise missiles, a type of unmanned aircraft, she earned her MBA. Dyan then supported Air Force One and Global Hawk UAS engineering and logistics. Her PhD research in UAS/drones, RFID, wireless systems, computer vision and the promotion of hydrocarbon sequestration from a UAV led Dyan to the energy sector and being selected as an SPE Distinguished Lecturer (2015-2016). (See our profile of Dyan here to be inspired.)

David Hose, CEO AirMap:

David Hose is a seasoned technology leader and entrepreneur. Prior to joining the AirMap team, David was the Interim CEO of Rhapsody, International; Chief Development Officer and SVP of Openwave Systems; and founder and CEO of Signalsoft, a pioneer in the development of location-based services for mobile phones. David has more than 35 years of experience in technology, serving as founder, CEO, investor, board member, and advisor for more than 40 companies over the course of his career. (See a profile of David here.)

Amit Ganjoo, CEO Anra Technologies: Amit is speaking at both the Drone Industries Visionary and the UAS Traffic Management (UTM) Updates and Progress.

Amit Ganjoo is a serial entrepreneur and the Founder and CEO of ANRA Technologies, an Award Winning UTM Software Company headquartered in Washington, DC with global operations. Amit has over 20 years of aviation, telecom and wireless experience in both the federal and the commercial space. He is an engineer, a licensed pilot, following a lifelong passion in aviation and builds experimental aircraft. He was the Director of Engineering at Ericsson Federal, providing telecom solutions to Federal Government, where he was the recipient of the Athena Award. Deployed as part of the Expeditionary Strike Group, he was chief system architect for Navy 4G LTE Sea Pilot, delivering a one of a kind turn-key, secure, unmanned airborne/afloat autonomous 4G LTE Network with applications to directly support the war fighter. He architected the first ever approved classified security architecture for 4G LTE in line with NSA Commercial Solutions for Classified (CSfC) framework, approved for operational deployment in DoD in 2012. Amit is an adjunct professor at the George Mason University and shares his passion for engineering by teaching in the School of Engineering and volunteers at a local Maker Space in the D.C. area. (See Amit make the concepts of UTM clear here.)

Marc Kegelaers, CEO Unifly:

High profile, quadri-lingual executive with a formal education in Engineering, Business Administration and Aviation. Started his career in the product management department of a multinational (GTE). Over the years, he has gone through the stages of Product Management, International Sales, Key Account Management, Sales Director, General Manager, Chief Executive and Business Owner in a range of sectors: Network management, IT security, Aviation, Telecommunications.

Richard Lopez, Hansel Phelps Construction: Lopez runs the drone program for Hensel Phelps Construction Co. which has one of the first FAA exemptions with help from Parazero systems.

Richard Lopez is a Virtual Design and Construction Manager with Hensel Phelps Construction Co., an employee-owned company that over the last 80 years has grown to be one of the nation’s most recognized general contractors, serving both public and private clients. Richard leads the implementation of new sUAS technology, software, and advancements at Hensel Phelps to increase efficiency and safety on the jobsite while providing valuable information for forecasting, recordkeeping, and as part of the procurement effort.

Lisa Murray, Group Director – Diversified Communications:

Lisa Murray is the director of a group of technology events and media at Diversified Communications, a global event organizer with a dozen offices across the world operating in a variety of business areas. In her role, Ms. Murray oversees Commercial UAV Expo Americas, Commercial UAV Expo Europe, Commercial UAV News and International Lidar Mapping Forum. These market-leading events and media provide professionals access to the education and technology that help them make the best business decisions and connect vendors with qualified buyers. Vertical markets include Surveying & Mapping; Construction; Infrastructure & Transportation; Energy & Utilities; Mining & Aggregates; Forestry & Agriculture; Law Enforcement, Security and Emergency Response.

Douglas Spotted Eagle, Sundance Media:

Douglas Spotted Eagle is a giant in the video and audio industries, having received Grammy, Emmy, DuPont, Peabody, and many other awards. Douglas is a primary instructor and industry consultant for Sundance Media Group, Inc. and VASST, authoring several books and DVDs and serving as an advisor and guide for videographers, software manufacturers and broadcasters. Douglas is a well-known musician and a world-travelled speaker/instructor. Douglas now focuses his energy and experience within the UAV/sUAS industry. Skydiving since 2006 and instructing UAS since 2012, Douglas is an accomplished aerial photographer who thrives in the adrenaline-filled world of fast-action videography. Appointed as a Safety and Training Advisor in the aviation world, he is a risk management/mitigation subject matter expert. Douglas is an audio and imaging pro with numerous awards for his productions; with an intimate knowledge of the FAA FARs and FSIMs, Douglas’ vision is to incorporate his years of imaging and aviation experience into best-practices for everything drone/UAV/UAS. Douglas is a frequent (and dynamic!) speaker and consults on UAV cinematography, commercial and infrastructural UAV applications, UAV risk management, night UAV flight, aerial security systems, and 107 training to ensure pilots clearly understand the FAA laws.

Randall Warnas, FLIR:

Randall is speaking at the Energy – Vertical Breakout Session on Tuesday October 29th from 2:00 to 3:30 pm in Pavilion 3.

Randall manages FLIR’s sUAS business globally, and has a singularly unique perspective of the drone industry. From pioneering drone retail in 2014, he went on to develop the initial stages and foundation of DJI’s Enterprise business. Now working for FLIR, he has engaged with tens of thousands of end-users in both the consumer and commercial space, helped consult and develop hundreds of business around the use of drones, and has worked with most drone manufacturers, software providers, and industrial service companies. Through interfacing with such a wide variety of participants in the drone space, Randall uses this lens to help grow and promote the industry throughout the world. With aerial thermal imaging being one of the most proven applications of drones in the commercial space, his exposure to a variety of use-cases allows him to evaluate and validate potential opportunities with this technology.

Mike Winn, CEO DroneDeploy: Co-Founder and CEO of DroneDeploy will be on the panel for UAS Insights and Strategies for Success in the Current Marketplace.

Mike Winn is the co-founder and CEO of DroneDeploy, where he is responsible for overall strategic direction, management and growth. Winn completed his undergraduate degree in Economics and Maths at Rhodes University. Before starting DroneDeploy, he held sales and technical positions at Google and co-founded Zoomatelo, a web-service that facilitated carpooling in large organizations and communities through closed social networks. In his spare time, you can find him reading or flying RC helicopters and drones.

Gretchen West, CEO Schiebel Aircraft:

Gretchen West is the new CEO of Schiebel Aircraft. Gretchen took the top spot at Schiebel this year, following her time at law firm Hogan Lovells as a Senior Advisor for Innovation and Technology, during which she co-founded drone advocacy group, Commercial Drone Alliance. (See our profile of Gretchen here.)

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vsplusonline · 5 years ago

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Geospatial data will emerge as a key differentiator for businesses: CSS Corp's Manish Tandon

New Post has been published on https://apzweb.com/geospatial-data-will-emerge-as-a-key-differentiator-for-businesses-css-corps-manish-tandon/

Geospatial data will emerge as a key differentiator for businesses: CSS Corp's Manish Tandon

Chennai: Tech company CSS Corp is investing heavily in geospatial technologies as they see huge potential in the space. Manish Tandon, CEO of CSS Corp said their services will enable organizations to visualize spatial data, generate insights on spatial relationships from massive datasets, and simplify data management.

He said the company’s services enable organizations to acquire and merge high-quality spatial data efficiently from multiple sources, allowing for easy access, analysis, and utilization. It also help organizations generate new revenue streams through value-added services using locational context and targeting under-served markets using spatial analytics.

“Geospatial technologies facilitating high-end locational intelligence will be the catalyst for a smart, inclusive community,” he said. “Internet of Things, Big Data Analytics, and Artificial Intelligence integrated with spatial intelligence will transform the way we live and work. Geospatial data will emerge as a key differentiator for businesses while building new products and services. It can be leveraged for decisive insights and enable smarter business decisions.”

Geospatial technologies can use the power of IoT and analytics to provide real-time insights to manage basic amenities such as power and streamlining postal operations. This form of data combined with market intelligence, demographics, and operational data can be used for building marketing networks, creating telecom infrastructure, or scheduling healthcare visits in smart cities.

The company, which offers analytics, automation and cloud consulting services, has a portfolio that encompasses geographic information systems (GIS), geo-image processing, mapping, and geo-analytics services. Location data gathering is made possible through the network of connected sensors that deliver real-time information of community movement, utility deliveries, traffic, crime and so on.

The rollout of 5G will be another big positive trigger for geospatial technologies gaining prominence, the CEO of the technology company owned by Swiss PE firm Partners Group said.

“If you look at 5G, most of the use cases are location dependent,” Manish said. “Whether it is autonomous driving or location based advertising, all of this is location-based. When 5G will give you the power, one of the fundamental things is location and hence, mapping and geospatial technologies is crucial and that is an area that we have started with and are having some very good success.”

An interesting focus of the company when it comes to mapping services is that of providing services in native languages in order to cater to a wider audience.

The company has been on an aggressive path for growth. This is expected to continue this year too where CSS Corp is looking to expand its facilities in India by employing about 1,000 people over the course of this year.

CSS Corp, Manish said has been growing sequentially by 5%, Manish said and has witnessed a growth of 25% from last year. Despite the expansions, Manish said the company was able to maintain its EBITDA and is currently focussed on “enhancing human potential.”

In India, the company has offices situated in Noida, Bengaluru, Chennai and Hyderabad. Overseas, it has centres in the US, Poland, Mauritius, Costa Rica, China and the Philippines. The company is constantly looking for greener pastures to expand in though, Tandon said.

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mccleary67wong-blog · 7 years ago

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The Push To Change.

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mrrolandtfranco · 7 years ago

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Vision and overview of the utility network

In my former life at Alabama Power Company, I used to have a manager who would give me requirements like the Ronco Man’s signature line. “But wait! There’s more!” The Utility Network Management extension is much the same. The more I dive into its core features, the more its capabilities become apparent.

It has been amazing to see the interest of the partner and user community that has helped drive this project. New functionality like the utility network, attribute rules, a new service based multi-user editing model (branch versioning), and many other components are a direct result of Esri responding to the needs of the utility sector.

As a result, with the release of ArcGIS Enterprise 10.6 and ArcGIS Pro 2.1, the Utility Network Management extension is offered as a comprehensive solution to managing utility and telecom networks (telecom model not available with first release). Core tools within the Utility Network Toolbox can be used to create and configure the utility network. For automation purposes, the Utility Network Package Tools from the ArcGIS solutions team are available with asset packages for electric, gas, and water domains.

So, I’d like to share Esri’s vision for the utility network and offer an overview of the functionality it brings to the table. Esri’s utility network vision has four main concepts:

• Leverage the Esri platform • Accurately model real-world assets • Provide dynamic visualization • Provide advanced editing and tracing

Leverage the Esri platform

You can model, edit, and analyze the utility network across the entire Esri platform. The extension accesses all capabilities through a service-based architecture that is available on any device or web application. Your GIS team can model and edit in the ArcGIS Pro client; while a wide range of mobile applications can be developed for your inspections and asset tracking. Web solutions can be provided for people who work in the field as well as those who work in the office. Out of the box applications like Collector and Explorer can be used with enhanced capabilities coming in future releases.

But wait! There’s more! All these new features deployed on mobile devices can provide content rich data integrity and collection modules. An excellent example of this is line inspections. Now your inspectors will be geo-empowered with mobile applications during substation inspections. And those inspectors can provide feedback simultaneously for your work plan tracking and asset repair as necessary. Mobile, web, and business intelligence applications configurations can be used in step with the Utility Network Management extension.

We have built a new robust data design that is better suited for operational intelligence and business intelligence platforms. The new framework is built around Representational State Transfer (REST) based feature services and can provide a more significant return on investment for your Enterprise package. The utility network takes advantage of a new transactional model (branch versioning) that is accessible via REST for deployed services. The utility network can handle your company’s ever-changing data needs, and it is easy to share information securely with those who need it.

This capability will be powerful for existing asset inspections such as switches, structure components, and even encroachments. Actual stub poles and even anchors can be captured in field inspections, used in work plans, or in the hectic world of restoration activities. Air patrols for pipelines can capture features that pose a risk to reliability and associate them with maintenance response teams. It’s going to be interesting to see this potential on display during emergency restoration events. Instead of paper maps, digital as-built/designed configurations will be in the hands of your field crews to assist with communication, logistics and overall improved response times.

Accurately model real-world assets

But wait! There’s even more! The utility network accurately models real-world assets. A new concept called associations allows connectivity, containment, and structural attachments to be modeled between network features, giving you an accurate representation of what’s on the ground. For the first time, there is a true interconnection between the engineering design of the asset and the operational utilization of the same feature. I have had some frustration in attempting to provide solutions that bridge the gap for years. In my experience, operational models were not suited for asset inspection. And GIS datasets were focused on maintenance work plans and were often updated manually from operational notes. It’s important to note that the Utility Network Management extension certainly has a strong operational flavor and associations enable solutions far beyond traditional operations-based GIS products.

Associations allow you to model and view the contents of complex assemblies of devices and lines and manage how assets are connected to them. Connectivity, Containment, and Structural attachment are the three associations modeled in the utility network.

With the connectivity association, you can have point to point connectivity between two devices that are not necessarily geometrically coincident. Flow systems such as gas, water, sewer, and complex valve systems can be visualized and participate in connective tracing.

This is the ‘bread and butter’ of the utility network, due to feature service and data structure optimization. You now have greater control over feature management, participation, and function than ever before. The new Utility Network Management extension allows for businesses to model multiple interconnected networks. Not only can you map facilities from source to sink and from transmission to distribution activities; but gas, electric, and water assets can be modeled in a single solution.

Container associations can help you model the association between devices contained in a structure. Historically, it has been challenging to build GIS solutions for substation or pumphouse maintenance and construction. The density of critical features in a limited space is complicated to represent at a regional scale across service territories.

The container approach takes away the challenge of modeling features in tight spaces and provides performance and scalability. This capability allows you to build simulated environments for complex switching or pumping configurations. You can utilize the utility network to capture feature locations with improved accuracy and provide spatial context during pumphouse and substation inspections. The ability to containerize features also prevents the buildup of map clutter that can reduce the visual impact of your map product.

But wait! There’s more! Structure associations enable features and objects to be associated with physical orientations on the ground. For the first-time, poles can be associated with linear network assets. The Utility Network Management extension allows for the attachment of switches, fuses, transformers, and other connectively based assets. You can correctly model H-frames and three pole configurations down to the pole asset. Associations are going to change the way utility companies track, manage and operate their assets. This is going to be a major opportunity for utilities during storm events when communication is critical between the field and the storm center. This level of data resolution will also allow for effective logistics pipelines for improved restoration times.

Provide dynamic visualization

Have I mentioned how beautiful ArcGIS Pro renders maps? GIS teams have never been so empowered to render beautiful cartographic products due to the 64-bit geoprocessing and rendering capabilities.

The utility network incorporates a mixture of cartography and network modeling for displaying network features. A common problem when mapping utilities are, it’s hard to produce a cartographic representation and still accurately represent the underlying connectivity of the network. The utility network gives users many ways to visualize their network system and assets. Display filters can be used in conjunction with associations to toggle features on or off in the map view for dense areas such as substations within electrical networks. This gives you the flexibility to control the complexity of map contents whether you are creating cartographic maps for different use cases, or inspecting and editing utility features.

But wait! There’s more! Network diagrams can be created to allow you to efficiently create multilevel representations, readily check network connectivity, and obtain logical views of the utility network. The utility network includes preconfigured schematic diagramming capabilities that allow the generation of diagrams without any setup. You can enrich them by building custom schematic diagramming models or importing models that were built for other utility networks.

Advanced editing and tracing

Honestly, it’s difficult not to get a little excited about all these new toys. The utility network provides a highly responsive and intelligent editing environment. Network rules, attribute rules, and validation in the network helps ensure data quality by preventing the entry of invalid data and associations. With advanced topology rules, behavior regarding the connection to terminal devices (such as transformers) can provide ‘on the fly’ quality control during editing sessions. Load-based restrictions can prevent you from connecting inappropriate devices or equipment. Design constraints can be applied to objects supporting or limiting flow. Offset objects that impact the operation or reliability of the linear assets can now be tracked and participate within the context of the model.

Templates allow you to create preset collections of related assets with a single click or organize a group of templates for more interactive feature creation. You can create preset templates for repeatable configurations when editing that create automatic defining of containment, connectivity, and structural attachment associations during feature creation. For example, with a preset template you can create a pad mounted single phase transformer bank container with two elbows and two line ends in one click.

In addition to pole features using associations, a pole mounted transformer can also be vertically represented. The utility network classes are z-enabled to allow accurate modeling of above and below ground infrastructure. This enables the viewing and editing of network features in their real-world elevation and allows you to take advantage of the many ArcGIS Pro visualization features.

But wait! There’s more! The utility network has a collection of tracing and analysis tools to support a variety of analytic workflows. You can use traces to help determine the number of customers with access to your resource, create a load summary to present the number of customers being fed by a specific circuit, or do an inspection of the entire network after a major weather event.

Tracing functions exposed as a geoprocessing tool perform at a higher rate because of the use of REST endpoints that pass through the analysis service. You can trace network features upstream or downstream from a given location. Analytics can be fired off as SDK (Software Development Kit) or process styled events. This approach translates to a faster performance for analytic capabilities customized to fit specific business drivers. If a water main breaks, you can run a trace across all systems involved to see where the problems are, then decide on the best solution.

In the words of Ron Popeil, “Isn’t that amazing!” I am excited for our partners and user community to use and experience the Utility Network Management extension. The utility network has so much functionality it’s difficult to discuss all of it in one post. In future posts, I will share more about specific areas of functionality in the utility network across electric, gas, water, and telecom use cases. The next blog post will discuss the concept of domain networks in the utility network, opportunities for utilization and even a few thoughts from the development team here in Redlands.

- Remi Myers, Esri Utility Network Product Manager

from ArcGIS Blog http://ift.tt/2Bnh7T1

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