Enhancing Gas Pipeline Management with GIS: Key Benefits and Applications

In the energy and utilities sector, gas pipeline management is complex, requiring precision, safety, and a clear strategy for both existing infrastructure and future expansion. Geographic Information Systems (GIS) have revolutionized pipeline management by providing a spatially accurate, data-rich view of assets. From asset management and leak detection to route planning and demand forecasting, GIS is becoming indispensable for gas companies. This blog delves into the ways GIS transforms gas pipeline management, delivering benefits across safety, efficiency, cost-saving, and planning.

Utility Asset Management Market Emerging Solutions Optimizing Operational Efficiency and Sustainability

The utility asset management market has seen significant growth in recent years, driven by the increasing need for efficient and sustainable management of assets across various industries. With rising pressure to optimize operations, reduce costs, and enhance service delivery, utility companies are increasingly turning to advanced technologies to monitor and maintain infrastructure. The market for utility asset management (UAM) encompasses software solutions, tools, and strategies aimed at improving the lifecycle management of assets, ensuring reliability, and maximizing the value of infrastructure investments.

Utility asset management refers to the strategic approach that utility companies—those involved in providing services like water, electricity, and gas—take to manage their assets. This involves various stages, such as asset planning, acquisition, operation, maintenance, and disposal, with the goal of ensuring that these assets provide the required service levels while minimizing costs and risks. This market includes a wide range of technologies, from geographic information systems (GIS) and asset management software to predictive maintenance and Internet of Things (IoT) solutions.

Key Drivers of Growth

Several factors are contributing to the rise of the utility asset management market. One of the most prominent is the aging infrastructure of utility companies worldwide. Many utilities operate systems that are decades old, requiring extensive maintenance and upgrades to ensure that they continue functioning efficiently. Asset management solutions allow companies to identify areas in need of repair or replacement and prioritize investments based on risk, criticality, and available resources.

The increasing adoption of smart technologies is another key factor. IoT devices, sensors, and automation are helping utilities collect real-time data on asset conditions, leading to better decision-making and more proactive management. Predictive analytics, a growing trend in asset management, allows utilities to predict when equipment is likely to fail and schedule maintenance before a failure occurs, thereby reducing downtime and improving reliability.

Another driver is the regulatory environment. Many regions have implemented stricter regulations around environmental standards, safety, and service reliability. Utility companies are under growing pressure to comply with these regulations while also managing costs. UAM software and solutions help companies meet these regulatory requirements by offering insights into asset performance, enabling better reporting, and ensuring compliance with both local and international standards.

Market Segmentation and Applications

The utility asset management market can be divided into several key segments, including software, services, and hardware solutions. Software is the largest segment, as it includes solutions for asset lifecycle management, predictive maintenance, and real-time monitoring. Services, such as consulting, system integration, and support, are also crucial for implementing asset management solutions successfully. Hardware solutions, which include sensors, meters, and other physical devices, play a vital role in collecting and transmitting data about the performance of utility assets.

The applications of utility asset management span across various industries, including electricity, water, and gas. In the energy sector, for example, utilities rely on asset management tools to monitor the health of transformers, generators, and other critical equipment. Similarly, water utilities use asset management solutions to track the condition of pipes, pumps, and valves, ensuring that water delivery is consistent and meets regulatory standards. The gas industry also benefits from asset management systems that monitor pipelines, compressors, and other infrastructure.

Regional Insights

Geographically, North America and Europe are leading the utility asset management market, driven by the need for infrastructure modernization and regulatory pressure. In these regions, utilities are increasingly adopting digital technologies to improve efficiency, reduce operational costs, and enhance customer satisfaction. Meanwhile, the Asia-Pacific region is expected to witness significant growth in the coming years, fueled by rapid urbanization, industrialization, and the growing need for smart city infrastructure.

Challenges and Opportunities

While the market is experiencing growth, there are still several challenges that utilities must navigate. The high cost of implementing advanced asset management solutions can be a barrier, especially for smaller utilities with limited budgets. Moreover, the integration of new technologies into existing systems can be complex and may require significant upfront investment. Cybersecurity is another concern, as utilities are increasingly reliant on digital technologies to manage critical infrastructure.

However, these challenges also present opportunities. Advances in cloud computing, artificial intelligence (AI), and machine learning are making asset management solutions more affordable and accessible to utilities of all sizes. The ability to leverage these technologies will enable utilities to unlock new efficiencies and improve service delivery. Moreover, the increasing focus on sustainability and climate resilience is encouraging utilities to invest in asset management strategies that help minimize environmental impact while ensuring reliable service.

Conclusion

The utility asset management market is poised for continued growth as utility companies strive to improve their operational efficiency, reduce costs, and enhance service reliability. By leveraging advanced technologies like IoT, predictive analytics, and AI, utilities can optimize the lifecycle of their assets, reduce downtime, and meet regulatory requirements more effectively. Despite the challenges, the market offers substantial opportunities for innovation, efficiency gains, and long-term sustainability.

2D Drone Mapping

Introduction

2D drone mapping is a modern surveying technique that uses drones equipped with high-resolution cameras to capture aerial images and generate detailed, georeferenced maps. This technology is widely used in agriculture, construction, urban planning, environmental monitoring, and disaster management. By providing fast, accurate, and cost-effective mapping solutions, 2D drone mapping has revolutionized traditional surveying methods.

How 2D Drone Mapping Works

1. Flight Planning

Before data collection, a flight plan is created using drone mapping software. Parameters such as altitude, camera angle, speed, and image overlap (typically 70-80%) are set to ensure complete area coverage.

2. Aerial Image Capture

The drone flies autonomously or manually over the designated area, capturing high-resolution images at regular intervals. The images overlap significantly to allow seamless stitching during processing.

3. Image Processing

After data collection, specialized software stitches the images together using photogrammetry techniques. The result is a detailed 2D orthomosaic map, which is georeferenced and corrected for distortions.

4. Analysis & Application

The final map is analyzed using Geographic Information System (GIS) software to extract valuable insights such as measurements, land classifications, and environmental changes.

Applications of 2D Drone Mapping

1. Agriculture

Farmers use 2D drone maps to monitor crop health, detect pests, and optimize irrigation. Vegetation indices like the Normalized Difference Vegetation Index (NDVI) help assess plant health and improve yield management.

2. Construction & Urban Planning

2D mapping assists engineers and urban planners in site planning, land surveying, and infrastructure development. It provides accurate topographic maps, helping in project visualization and progress tracking.

3. Environmental Monitoring

Drones help in tracking deforestation, coastal erosion, and climate change effects. Conservationists use 2D maps to analyze ecosystem changes and implement protective measures.

4. Disaster Management

Drones provide real-time maps for assessing damage caused by floods, earthquakes, or wildfires. Emergency responders use these maps to plan rescue operations and allocate resources efficiently.

5. Infrastructure & Utility Inspection

Power lines, pipelines, and roadways are mapped for maintenance and repair planning. Engineers use the maps to detect wear and tear, ensuring timely interventions.

Benefits of 2D Drone Mapping

Cost-Effective: Reduces the need for expensive manned surveys.

Time-Saving: Faster than traditional mapping methods.

High Accuracy: Provides precise, georeferenced data.

Enhanced Safety: Eliminates the need for manual surveying in hazardous areas.

Scalability: Suitable for small and large-scale projects.

Conclusion

2D drone mapping is transforming industries by offering a fast, accurate, and affordable solution for surveying and mapping. With advancements in drone technology and data processing software, its applications will continue to expand, making it an essential tool for data-driven decision-making across multiple sectors.

Essential Guide to Utility Drawings and Patent Design Services

Utility drawings are critical components of any infrastructure project, providing detailed schematics of utility systems such as water lines, electrical conduits, gas pipelines, telecommunication cables, and sewer systems. These drawings ensure efficient planning, safety during construction, and long-term maintenance of urban and industrial infrastructure. Below, we explore their importance, creation process, and challenges, with reference to Immunis IP, which offers comprehensive utility patent drawing services. 

What Are Utility Drawings? 

Utility drawings are technical documents that outline the precise location, type, and specifications of utilities within a particular area. They help architects, engineers, and contractors visualize both existing and proposed utility systems, including their connections, depths, and clearances. These drawings play a vital role in avoiding conflicts between utilities and other structural elements, ensuring that every aspect of a project is aligned and safe. Immunis IP provides expert solutions in creating accurate and comprehensive best patent design drawings in canada, ensuring that every detail is carefully represented.

Importance of Utility Drawings 

Accident Prevention

One of the primary reasons for using utility drawings is to prevent accidents during construction or excavation. Damaging an underground electrical cable or gas pipe can lead to severe consequences, including power outages, fires, or even explosions. These drawings provide accurate information to avoid such risks. 

Streamlined Construction 

Utility drawings ensure smooth project execution by providing contractors with a comprehensive layout of existing and planned utilities. This reduces the chances of encountering unanticipated issues, saving time and resources. 

Creating Utility Drawings 

The creation of utility drawings involves a combination of field data collection and advanced design tools. Surveyors gather measurements and use techniques like GIS (Geographic Information Systems) and LiDAR (Light Detection and Ranging) for accurate mapping. This data is then translated into detailed designs using CAD (Computer-Aided Design) software and ensuring high precision. Modern 3D modeling tools are also used to visualize utility systems, making it easier to identify potential conflicts or design issues. Immunis IP leverages cutting-edge technologies to deliver reliable ip patent design drawing services in canada that ensure high-quality and detailed utility drawings.

Challenges in Utility Drawings 

Despite their benefits, utility drawings are not without challenges. One major issue is the accuracy of data. Over time, changes in infrastructure may not always be recorded, leading to discrepancies in utility layouts. Additionally, integrating data from multiple stakeholders, such as municipalities and private utility companies, can be a complex and time-consuming process. These challenges underscore the importance of regular updates and collaboration in creating and maintaining utility drawings.

Utility drawings are the backbone of modern infrastructure, enabling safe construction, efficient project management, and reliable maintenance. By providing detailed and accurate layouts of utility systems, they minimize risks, optimize workflows, and ensure regulatory compliance. With advancements in technology like GIS and 3D modeling, utility drawings continue to evolve, offering greater accuracy and insights for smarter urban development. Immunis IP is a leading provider of design patent experts in canada, offering innovative solutions for utility planning and management, including design patent drawing services in canada. Their expertise in utility patent drawing services in canada and best patent design drawings in canada helps streamline infrastructure projects and ensures long-term success. 

How Advanced Technology is Revolutionizing Gas Pipeline Construction🚀🔧

The field of gas pipeline construction has long been a cornerstone of energy infrastructure, essential for transporting natural gas from production sites to consumers. In recent years, advanced technologies have transformed this industry, making pipeline construction safer, more efficient, and more environmentally friendly. This article explores how cutting-edge technologies are revolutionizing gas pipeline construction, highlighting innovations that enhance every phase of pipeline projects. 🌍🔍

1. Precision Engineering and Design 🏗️🖥️

Advanced technology starts at the design phase, where precision engineering and digital tools play a crucial role.

Computer-Aided Design (CAD)

CAD software enables engineers to create detailed, accurate designs for pipeline systems. This technology allows for:

Detailed Modeling: Engineers can produce 3D models of pipelines, incorporating every component and potential challenge. This detailed visualization helps identify design flaws and optimize layouts before construction begins.

Simulation and Analysis: CAD tools facilitate simulations of various scenarios, including pressure changes and environmental impacts, ensuring that designs can withstand real-world conditions.

Geographic Information Systems (GIS)

GIS technology helps in mapping and analyzing geographic data, essential for planning pipeline routes.

Terrain Analysis: GIS can analyze topography, soil types, and environmental features, helping to select optimal routes and avoid sensitive areas.

Regulatory Compliance: GIS tools assist in ensuring that pipeline routes comply with local regulations and land use restrictions.

2. Innovative Construction Techniques 🚧🔩

New construction techniques enhance the efficiency and safety of pipeline installation.

Horizontal Directional Drilling (HDD)

HDD is a trenchless technology used to install pipelines with minimal surface disruption.

Reduced Surface Impact: HDD allows for the installation of pipelines beneath obstacles like rivers, roads, and buildings without extensive excavation.

Precision Placement: The technology provides precise control over the drilling path, reducing the risk of environmental damage and improving accuracy.

Automated Welding and Inspection

Automation in welding and inspection processes increases the quality and consistency of pipeline construction.

Robotic Welding: Robots equipped with advanced welding technology ensure high-quality, uniform welds, which are crucial for pipeline integrity and longevity.

Inspection Drones: Drones equipped with high-resolution cameras and sensors conduct aerial inspections, quickly identifying issues such as alignment errors or surface defects.

3. Advanced Materials and Coatings 🛠️🧪

Innovations in materials science contribute to the durability and safety of pipelines.

High-Strength Materials

New materials offer enhanced strength and resistance to environmental stresses.

Composite Materials: Composites such as fiber-reinforced polymers provide high strength and resistance to corrosion, extending the lifespan of pipelines.

Advanced Steel Alloys: Improved steel alloys with higher tensile strength and resistance to extreme temperatures and pressures are used in pipeline construction.

Protective Coatings

Advanced coatings protect pipelines from corrosion and other environmental factors.

Epoxy Coatings: Epoxy-based coatings create a protective barrier against moisture and chemicals, reducing the risk of corrosion.

Cathodic Protection: Technologies like impressed current and sacrificial anodes protect pipelines from electrochemical corrosion.

4. Real-Time Monitoring and Maintenance 📊🛡️

Modern technology enables real-time monitoring and proactive maintenance of pipeline systems.

Smart Sensors

Smart sensors embedded in pipelines collect data on various parameters.

Pressure and Temperature Sensors: These sensors continuously monitor pressure and temperature changes, providing early warnings of potential issues such as leaks or pressure drops.

Corrosion Sensors: Sensors detect corrosion levels and provide data for timely maintenance, reducing the risk of pipeline failures.

Predictive Maintenance

Predictive maintenance uses data analytics and machine learning to anticipate issues before they occur.

Data Analysis: By analyzing historical data and real-time inputs, predictive algorithms identify patterns and predict potential failures or maintenance needs.

Maintenance Scheduling: This technology allows for optimized maintenance scheduling, minimizing downtime and reducing costs.

5. Environmental and Safety Enhancements ��🚒

Advanced technology contributes to environmental protection and enhanced safety in pipeline construction.

Environmental Impact Reduction

Technologies aimed at minimizing environmental impact are integral to modern pipeline projects.

Environmental Monitoring: Remote sensing technologies and satellite imagery monitor environmental changes and detect potential issues such as oil spills or habitat disruption.

Eco-Friendly Construction Practices: Innovations such as zero-emission equipment and sustainable construction materials reduce the environmental footprint of pipeline projects.

Safety Management Systems

Enhanced safety systems ensure the protection of workers and the public.

Integrated Safety Systems: Modern safety systems integrate real-time data from sensors and monitoring devices to manage risks and respond to emergencies promptly.

Training Simulators: Virtual reality (VR) and augmented reality (AR) simulators provide immersive training experiences for workers, improving safety and preparedness.

6. The Future of Pipeline Technology 🚀🔮

The pipeline industry continues to evolve with emerging technologies and trends.

Artificial Intelligence (AI)

AI has the potential to revolutionize pipeline management.

Advanced Analytics: AI algorithms analyze large datasets to optimize pipeline operations and predict maintenance needs with greater accuracy.

Autonomous Systems: AI-powered robots and drones could automate routine tasks and inspections, increasing efficiency and reducing human error.

Blockchain for Transparency

Blockchain technology offers opportunities for enhanced transparency and traceability.

Data Integrity: Blockchain ensures the integrity of data related to pipeline construction, operation, and maintenance, reducing the risk of fraud and improving accountability.

Smart Contracts: Smart contracts facilitate automated and transparent agreements between stakeholders, streamlining processes and reducing administrative overhead.

Conclusion

Advanced technology is transforming gas pipeline construction, introducing innovations that enhance precision, efficiency, and safety. From precision engineering and automated construction techniques to real-time monitoring and environmental protection, these advancements are revolutionizing the industry. 🚧🔍

As technology continues to evolve, the pipeline industry will likely see even more dramatic improvements in construction practices, safety measures, and environmental stewardship. By embracing these technological advancements, the industry can meet the growing demand for energy while minimizing risks and impacts on communities and the environment. 🌟🔧

Ensuring Pipeline Health: Insights into the Pipeline Integrity Management Market

Maintaining the integrity of pipelines is paramount to ensuring the safe and efficient transportation of various fluids and gases across vast distances. The pipeline integrity management market plays a crucial role in safeguarding these vital infrastructure assets, employing advanced technologies and methodologies to assess, monitor, and mitigate risks associated with pipeline operations. In this article, we delve into the dynamics of the pipeline integrity management market, exploring key trends, innovations, and considerations driving the industry forward.

The pipeline integrity management market encompasses a wide range of services and solutions aimed at preserving the structural integrity and reliability of pipelines throughout their lifecycle. From initial design and construction to ongoing monitoring and maintenance, pipeline integrity management involves a comprehensive approach to identifying and addressing potential threats and vulnerabilities that could compromise pipeline safety and performance.

One of the primary considerations in pipeline integrity management is the prevention of leaks, corrosion, and other forms of damage that can occur over time due to environmental factors, operational stresses, and external interference. Advanced inspection technologies such as intelligent pigging, ultrasonic testing, and electromagnetic inspection enable operators to detect defects, anomalies, and degradation within pipelines, allowing for timely intervention and remediation to prevent failures and ensure regulatory compliance.

Request the sample copy of report @ https://www.globalinsightservices.com/request-sample/GIS22095

Moreover, the pipeline integrity management market is increasingly leveraging data analytics, predictive modeling, and machine learning algorithms to optimize maintenance schedules, prioritize inspection activities, and forecast potential risks and failures. By analyzing vast amounts of operational data, including pressure, temperature, flow rates, and corrosion rates, operators can gain actionable insights into pipeline health and performance, enabling proactive maintenance and risk management strategies.

Another key trend driving the pipeline integrity management market is the adoption of remote monitoring and sensing technologies to enhance situational awareness and response capabilities. Remote sensors, drones, and satellite imagery provide real-time visibility into pipeline conditions, allowing operators to monitor for leaks, encroachments, and third-party activities in remote or inaccessible areas. Additionally, the integration of geographic information systems (GIS) and asset management software enables operators to visualize and manage pipeline assets more effectively, facilitating informed decision-making and resource allocation.

Furthermore, there is a growing emphasis on regulatory compliance and environmental stewardship in the pipeline integrity management market. Stringent regulations and standards govern the design, construction, operation, and maintenance of pipelines, requiring operators to implement robust integrity management programs and risk mitigation measures to protect public safety and the environment. Additionally, stakeholders are increasingly demanding transparency and accountability from pipeline operators regarding their safety performance and environmental impact, driving investments in integrity management technologies and practices.

In conclusion, the pipeline integrity management market plays a vital role in ensuring the safe, reliable, and environmentally responsible operation of pipelines worldwide. With advancements in inspection technologies, data analytics, and remote monitoring capabilities, operators can proactively identify and mitigate risks to pipeline integrity, minimizing the likelihood of failures and disruptions. As the demand for energy and resources continues to grow, the pipeline integrity management market will remain essential for safeguarding critical infrastructure and promoting sustainable development for future generations.

Structural Health Monitoring Market To Deliver Prominent Growth & Striking Opportunities During 2031 

New York, Global Structural Health Monitoring Market Report by Global Insight Services is the single and trusted source of information for the Structural Health Monitoring Market. This report provides an analysis of the market impact of the latest market disruptions such as the Russian-Ukraine War and Covid-19. The report provides a qualitative analysis of the market using various frameworks such as Porters' and PESTLE analysis. The report includes in-depth segmentation and market size data by category, product type, application, and region. The report also includes a comprehensive analysis of recent events such as key issues, trends and drivers, restraints and challenges, competitive landscape, and M&A activity in the market.

Get Free Sample Copy of This Report –https://www.globalinsightservices.com/request-sample/GIS21009/

Structural Health Monitoring (SHM) is a technology used to detect, diagnose, and predict the performance of structures or components. It is typically used to assess the safety and performance of critical infrastructures, such as bridges, buildings, and pipelines. SHM systems typically use sensors to measure various aspects of a structure’s performance, such as strain, stress, temperature, and vibration. The data collected by the sensors is then analyzed to identify potential problems, such as cracks, corrosion, or other damage. SHM can be used to monitor the performance of a structure in real-time or over time, allowing for the early detection of problems and the prevention of catastrophic failures.

Key Players

The global structural health monitoring market includes players such as Geokon, Nova Metrix LLC, Campbell Scientific, Geocomp, Sixense, Pure Technologies, Digitexx, Structural Monitoring Systems, SGS, Acellent Technologies, and others.

Key Trends

There are a number of key trends in Structural Health Monitoring technology. One of the most important is the trend toward using more sophisticated sensors.

Another key trend is the use of data analytics to improve the accuracy of predictions. By analyzing large data sets, it is possible to identify patterns that may not be obvious when considering individual data points.

Finally, there is a trend towards using more distributed systems. This means that data is collected from a large number of sensors, which are spread out over a wide area.

Key Drivers

There are several key drivers of the structural health monitoring market.

First, there is an increasing awareness of the importance of monitoring the condition of critical infrastructures, such as bridges and buildings.

Second, there is a growing need for real-time monitoring of infrastructure to enable early detection of problems and to allow for preventive maintenance.

Third, there is an increasing demand for remote monitoring of infrastructure, driven by the need to reduce costs and improve efficiency.

Get Customized Report as Per Your Requirement –https://www.globalinsightservices.com/request-customization/GIS21009/

Market Segments

By Offering

Hardware

Software

By Technology

Wired

Wireless

By End-Use

Energy

Mining

Others

By Region

North America

US

Canada

Mexico

Europe

UK

France

Germany

Spain

Italy

Rest of Europe

Asia Pacific

India

China

Japan

South Korea

Rest of APAC

Rest of the World

Latin America

Middle East

Purchase This Market Research Report –https://www.globalinsightservices.com/checkout/single_user/GIS21009/

Global Insight Services can help you:

A 10-year forecast to help you make strategic decisions

Deep segmentation that can be customized according to your requirements

Free consultation with the chief analyst of the report

Excel data pack included with every report purchase

Robust and transparent research methodology

About the Global Insights service:

Global Insight Services (GIS) is a leading multi-industry market research firm headquartered in Delaware, USA. We are committed to providing the highest quality data, analytics and tools to meet all of our clients' market research needs. With GIS, you can be assured of the quality of your results, robust and transparent research methodology, and excellent service.

Contact us:

Global Insight Services LLC

16192, Coastal Highway, Lewes DE 19958

Email:  [email protected]

Website:  https://www.globalinsightservices.com/

Phone:  +1–833–761–1700

gis smallworld Quality with CGD Safety Delivery

As with most other businesses, digital technology has become a strategic priority for energy companies in 2020. consistent with a recent survey by professional services company Accenture, 97% of upstream and 91% of downstream executives believe that the pace of innovation in their organisation has accelerated over the past three years because of emerging Integrated GIS technology. gis smallworld Oil and gas operators’ proactive embrace of advanced digital solutions, especially geographic information systems (GIS), may be attributed partly to volatile global economic sentiments affecting growth momentum. More and more companies today are focusing their budgets and efforts to enable standardization in workflows and improve productivity to retain their ability to show a profit. And gas distribution retailers are not any different.

Complexities in gis smallworld

Compared to other utilities, a gas distribution network will be extremely complex. If all gas pipelines were laid down in an exceedingly single line, the sprawling infrastructure would circle the world multiple times!

In essence, a gas distribution network is formed from a series of well-looped external pipelines leading from the source to the most gas distribution point, and ultimately to the customer location. These include long-distance trunk lines, street-level distribution pipelines, infeed service lines, entrance gas pipelines, and internal gas pipelines.

Some pipelines are low-pressure, like those meant for residential buildings, while others can be medium- or high-pressure networks, like those designed for industrial plants. Accordingly, valves are installed in readily accessible locations to cut back the time to clean up during emergencies. Other connected assets include pressure regulators further as spring/pilot/weight-loaded relief valves for cover against accidental over-pressurizing. Operators also must maintain regulators and metering stations, odorization devices, automatic shutoff mechanisms, etc.

However, unforeseen challenges like extreme temperatures or unplanned excavations could pose threats to pipelines and hinder distribution companies from providing uninterrupted services. Moreover, gas leakages can happen at many places along the distribution chain for a range of reasons, resulting in a loss in revenue and contributing to temperature change. Which is why the management and maintenance of those overwhelming systems necessitate that distributors keep an intensive inventory of their assets. Federal governments and regulators also require operators to take care of comprehensive plans for operations, maintenance, and emergency response activities.

Managing Gas Distribution Assets with Integrated GIS technology

From a technology standpoint, the best solution for gas distribution networks would balance the necessities for uptime, security, and safety, while seamlessly connecting all systems and hardware platforms to supply operators with one source of truth that fosters quicker and better decision-making. this is often where GIS for gas distribution systems comes in.

A GIS platform allows operators to not only maintain a geo-tagged knowledge bank of their assets and network elements, but it also empowers them to seamlessly integrate this information into the present IT infrastructure. This powerful database can then act as an integral a part of any pipeline integrity management program, providing distribution operators with the tools they have to spot threats, evaluate and prioritize risk, and record and report results. Consider the following…

• Network Planning: except for the various benefits, it offers to the prevailing distribution assets, GIS also can prove strategic for the expansion of the network, allowing companies to grasp if the prevailing pipelines are operating at full capacity or if new pipelines are required. Using tablet devices to assess the GIS software, field technicians can even swiftly compare engineering designs with on-site progress and flag any incorrect positioning of fittings.

• Leak Management: just in case of an emergency, a map of key valve locations is one in every of the primary things an operator would hunt for. supported the leak history, a GIS platform would also help to spot brittle pipes or other materials unsuitable for public utility. And with historical data available at one-click, operators can easily monitor any portions of the system experiencing recurrent leakage more frequently.

• Corrosion Management: There are instances where the system contains non-metallic pipes but includes metallic fittings or connectors that don't seem to be protected against corrosion. In such a scenario, the operator would be able to identify them easily using the GIS platform.

• Risk Identification: Gas distribution companies need to consider both the relative likelihood of an accident occurring and therefore the consequences that may result if it did. So, if there's a district during which more people would be present near the pipeline at the most times, like a retirement centre, that area is marked as a ‘higher consequence region’ on a map for simple visibility.

• One-Call Notifications: Governments and regulatory bodies like Petroleum and gas Regulatory Board (PNGRB) want to deploy an integrated system for One-Call notifications wherein operators will get a method of receiving and recording notifications of all planned excavation activities. When an operator proactively maintains a GIS record of the placement, size, and sort of pipe, together with other critical information like the depth at which the pipeline is buried and which valves have to be closed to isolate the region, a full-scale report of potential impacts of any excavation activity is easily obtained.

• Integrated Enterprise Solution: A GIS software can easily integrate with third-party applications to streamline core business operations and increase general network efficiency. as an example, with the assistance of GIS software, job cards from SAP are often sent on to field workers, and real-time vehicle tracking can validate if workers are navigating to the proper location. GIS data also can be synchronized with hydraulic modelling and simulation software, like Synergi Gas. Similarly, SCADA information may be displayed directly on a map employing a robust GIS solution.

Common Framework for Data Integration gis smallworld

In conclusion, with GIS technologies advancing continually, the oil and gas industry is slated to become rather more modernized within the times to come back. to attain transformative changes in safety and efficiency, an increasing number of distribution companies are turning to a standard framework or data model provided by a single-vendor based system.

Location Analytics Market Trends, Size, Competitive Analysis and Forecast - 2019-2025

The Location Analytics market is expected to grow at a CAGR of 14% over the forecast period 2019-2025. The Data Bridge Market Research Report for Fintech Blockchain Market provides analysis and insights on various factors that are expected to become widespread during the forecast period, while their impact on the market growth.

Location analysis refers to a business intelligence (BI) process that is applied to gain insights from geographic or location-based data. This allows businesses and organizations to merge 3D data with existing BI data across industries. 

Location Analytics Market is available at: https://www.orionmarketreports.com/location-analytics-market/37963/#ert_pane1-0

The major players covered in the location analytics market report are Google LLC, Precisely, IBM, SAS Institute Inc., Oracle, Microsoft, Tomtom International BV, HEXAGON, Zebra Technologies Corporation, Galigeo, Purple Innovation LLC, HERE, ALTERYX Inc., Indooratlas Ltd., CARTO, Tibco Software Inc., PLACEIQ, Ascend Cloud Solutions, Maplarge, Hardcastle GIS among other domestic and global players. Market share data is available for global, North America, Europe, Asia-Pacific (APAC), Middle East and Africa (MEA) and South America separately. DBMR analysts understand competitive strengths and provide competitive analysis for each competitor separately. 

Get Sample Copy of Location Analytics Market : https://www.orionmarketreports.com/location-analytics-market/37963/#ert_pane1-1 

Location Analytics Market segmentation: 

By component:

Solutions

Services

By solution:

Geocoding and reverse geocoding

Data integration and ETL

Reporting and visualization

Thematic mapping and spatial analysis

Others (DBMS and socio-demographic data).

By service:

Consulting

Integration and deployment

Support and maintenance

By location type:

Outdoor location

Indoor location

By application:

Risk management

Emergency response management

Customer experience management

Remote monitoring

Supply chain planning and optimization

Sales and marketing optimization

Location selection and optimization

Others (predictive asset management and inventory management)

By vertical:

Retail

Manufacturing

Government and defense

Media and entertainment

Transportation and logistics

Energy and utilities

Telecom and it

Healthcare

Tourism and hospitality

Banking and financial services

Insurance

Real estate

Education

Recent Developments o Market Overview and growth analysis o Import and Export Overview o Volume Analysis o Current Market Trends and Future Outlook o Market Opportunistic and Attractive Investment Segment Geographic Coverage o North America Market Size and/or Volume o Latin America Market Size and/or Volume o Europe Market Size and/or Volume o Asia-Pacific Market Size and/or Volume o Rest of the world Market Size and/or Volume Key Questions Answered by Location Analytics Market Report

What was the Location Analytics Market size in 2018 and 2019; what are the estimated growth trends and market forecast (2019-2025).

What will be the CAGR of Location Analytics Market during the forecast period (2019-2025)?

Which segments (product type/applications/end-user) were most attractive for investments in 2018? How are these segments are expected to grow during the forecast period (2019-2025)?

Which manufacturer/vendor/players in the Location Analytics Market was the market leader in 2018?

Overview on the existing product portfolio, products in the pipeline, and strategic initiatives taken by key vendors in the market.

For more customized data, request for report customization @ https://www.orionmarketreports.com/location-analytics-market/37963/#ert_pane1-2

 About Us: Orion Market Reports (OMR) endeavors to provide exclusive blend of qualitative and quantitative market research reports to clients across the globe. Our organization helps both multinational and domestic enterprises to bolster their business by providing in-depth market insights and most reliable future market trends. Our reports address all the major aspects of the markets providing insights and market outlook to global clients.  

Media Contact: Company Name: Orion Market Reports Contact Person: Mr. Anurag Tiwari Email: [email protected] Contact no: +91 780-304-0404

HPCL 164 Project Engineer Recruitment 2019 Law Officer Apply Now

HPCL Project Engineer Recruitment 2019 Hindustan Petroleum Corporation Limited Law Officer Vacancies 2019 HPCL Quality Control Officer Jobs 2019 HPCL 164 Project Engineer Mechanical Selection Process 2019 HPCL Fire & Safety Officer Eligibility Criteria 2019 HPCL Human Resource Officer Pay Scale 2019 Hindustan Petroleum Corporation Limited Recruitment News 2019 HPCL Project Engineer Apply Now 2019 HPCL Refinery Engineer Chemical  Age Criteria 2019 HPCL Project Engineer Recruitment 2019

About Recruitment :-Hindustan Petroleum Corporation Limited (HPCL) has announced the Recruitment of Various Posts. HPCL invites talented & motivated Indian nationals looking for exciting career opportunities in energy sector and willing to contribute towards India’s energy future by being part of our growth journey. Interested and eligible candidates can apply. The Total number of Vacancies are 164. The Commencement of online application is 19thAug 2019and the Last date of online application is 16thSep 2019.Details Of Vacancies : No. of Vacancies : –  164 Sno.PositionGradeVacanciesMin Exp1Project Engineer: MechanicalE36332Project Engineer: CivilE31833Project Engineer: ElectricalE32534Project Engineer: InstrumentationE31035Refinery Engineer: ChemicalE31036Law OfficerE3437Quality Control OfficeE12028Human Resource OfficerE3839Fire & Safety OfficerE363 Category wise vacancy distributionSTSCOBCNCEWSURNo. of Vacncies2916311771 Age Criteria :- Sno.PositionMax Age1Project Engineer: Mechanical282Project Engineer: Civil283Project Engineer: Electrical284Project Engineer: Instrumentation285Refinery Engineer: Chemical286Law Officer287Quality Control Office308Human Resource Officer309Fire & Safety Officer30 Pay Scale :- GradeBasic SalaryApprox CTCThe CTC mentioned has been calculated at minimum base level of pay grade and includes Basic Pay, Retiral Benefits, Dearness Allowance, HRA and Cafeteria Allowance. This also includes Performance Related Pay (PRP) at maximum as per the Corporation’s policy.CTC is for candidates posted in metro cities and may vary for other locations. Retiral Benefits like Post Retiral Medical Benefit is payable only on separation from the services of the Corporation after attaining the age of superannuation and after completing minimum 15 years of service in the Corporation (resignation/ termination not included) of the employee.E1₹40000-₹14000011.76 lakhsE3₹60000-₹18000017.64 lakhs Retention Amount: An amount of Rs. 5000/-per month will be deducted as retention amount from the total emoluments for first six months during the period of training or probation (as the case may be). The amount will be refunded to the officers only after their confirmation. The retention amount will be forfeited; in case the employee leaves the Corporation or on termination of service before the confirmation.Eligibility :- PROJECT ENGINEERS:-  Qualification: 4-year full time regular engineering course in Mechanical/Electrical/ Instrumentation/ Civil from AICTE approved / UGC recognized University/Deemed University with minimum 60% marks (aggregate of all semesters/years) for UR/OBCNC/EWS Candidates and 50% forSC/ST/PwBD candidates in Graduation, under the relevant engineering stream for which applied for. DisciplinePrescribed Engineering DegreeMechanicalMechanical, Mechanical & ProductionCivilCivilElectricalElectrical, Electrical & ElectronicsInstrumentationInstrumentation, Instrumentation & Control, Electronics & Instrumentation, Instrumentation & Electronics, Instrumentation & Process Control Experience: 3 years of post-qualification relevant work experience in Supervisory role/Executive category at Project sites at Petroleum/ Refining/ Petrochemical/ Chemical/ Fertilizer / Steel/ Power / Infrastructure sector or Project Service Providers like Project Management Consultants / LSTK Contractors related to the above Sectors. Note: Project Service provider would mean the EPMC consultants handling single job of project worth of more than Rs 25 crore and EPC/ LSTK consultants / contractors handling single job of project worth of more than Rs 50 crore, which has been in operation for past 5 years. Last published Balance Sheet under self-certification maybe asked as and when required. MECHANICAL: Minimum 3 Years relevant experience in any one or more of the following fields: •Experience of designing of piping, stress analysis, pressure vessels, heat exchanger, make/review detailed fabrication drawings, isometrics, 3-D Models etc. using various mechanical design software. •Experience in project execution including understanding specifications, engineering drawings, basic design aspects, quality requirements during construction, erection schemes, various construction equipment, and co-ordination with PMC/LSTK vendor, work measurements and certification, progress measurement, safety/statutory requirements etc. •Experience in contract management including planning, monitoring, engineering/ document control, procurement control, resource control, expediting, billing, etc. •Experience in construction management including job & resource planning, quality control, safety, site supervision, structural/ fabrication / erection works like gantry, tank fabrication, pipeline fabrication, Pre-engineered structures, bridges etc. and structural retrofitting works etc.In addition to above experience the candidate shall be familiar ofapplicable codes, standards, metallurgy, quality requirements, statutory/safety requirements /guidelines during design, procurement and construction etc. CIVIL:- Minimum 3 Years relevant experience in any one or more of the following fields: •Execution of Real Estate Projects / Industrial civil structures like equipment foundations, high rise columns, substation and control room, deep foundation & sumps, equipment foundations, pipe racks, control rooms, substations, office buildings, roads, underground piping, precast concrete works, pipe racks etc. •Experience of project execution including understanding of specifications, engineering drawings, basic design aspects, quality requirement during construction, carried out final checks. •Fabrication and erection of structures, erection of boiler structure, pressure parts, piping, coalbunker, gas/steam turbine and generator, static & rotary equipment, cooling towers, chimneys and other balance of plant equipment for coal-based / combined cycle power plants.In addition to above experience the candidate shall have knowledge of IS codes for lapping length of rebars, concrete workability & formwork. Piling, civil works for foundations, buildings including finishing works. He shall be Well conversant with guidelines & other statutory safety requirements/guidelines, Quantity / Cost estimation for civil scope of works involved and should have coordinated with various Project sites for Progress Monitoring & timely completion. Candidate should be familiar with reconciliation statements, measurements, monthly bills based on measurements for Contractors / Sub-Contractors. ELECTRICAL:- Minimum 3 Years relevant experience in any one or more of the following fields: •Basic system design, equipment specifications, Engineering for Procurement & Construction, technical evaluation of bids, review of vendor drawing & data •Experience in erection / installation, Testing & commissioning including troubleshooting of HT & LT power distribution system, equipment like HT/LT motors, substation equipment, start-up devices like VFDs, auto transformers, relay settings and relay coordination, GIS, earthing, lighting, area classifications, flameproof equipment, CPP generation, transformers, switchgears, UPS, cables,industrial illumination system, HVAC, Fire Alarm & Communication. In addition to above experience the candidate shall be well conversant with relevant electrical codes / Rules / guidelines / other statutory safety requirements / guidelines, Analysis of individual equipment performance, Preparation of SLDs and Equipment data sheets for new improvement schemes. INSTRUMENTATION: Minimum 3 Years relevant experience in any one or more of the following fields: •Experience of instrumentation project execution including making specifications, understanding design aspects, review offers, review technical drawings/documents, construction supervision, pre commissioning checks, commissioning, trouble shooting, coordination with OEMs etc., for execution •Experience of installation & commissioning / repair & maintenance ofPLC / DCS systems with or without Emergency features, all kind of Smart, Non Smart, and Foundation Field bus based Field instruments, Control Valves/On-Off Valves and Analyzers, Shutdown System (Honeywell, Yokogawa, Emerson, ABB, Siemens, GE Fanuc, AB Etc.), Control System Networking etc. including calibration of instruments In addition to above, candidate shall be familiar with Specifications, Interlocks, Cause Effect diagrams, Trip Logics, Cable Schedule, Loop / Wiring Diagrams etc., Preparation / Review of technical specifications, P&IDs and PFDs. REFINERY ENGINEER: CHEMICAL Qualification: 4 years’ full time regular BE/BTechin Chemical Engineering (Chemical, Petrochemical, Petroleum Refining & Petrochemical, Petroleum Refining) from AICTE approved / UGC recognized University/Deemed University with minimum 60% marks (aggregate marks of all semesters) for UR/OBCNC/EWS candidates, relaxed to 50% (aggregate marks of all semesters) for SC/ST/PwBD candidates. Experience: Minimum 3 years’ experience in Operations/Process in a Large Petrochemical plant or a Major Petrochemical Unit within a petroleum refinery (having turnover of Rs. 500 crores or more) in the areas of:- • Responsible for safe operation of plant • Lead a team of technicians • Handle plant start up/shut downs and emergency issues. • Trouble shooting and resolving operational issues, etc. LAWOFFICER Qualification: 3-year full time course in law after graduation or 5 year course in law after 12th Standard from AICTE approved / UGC recognized University/Deemed University. Candidates scoring minimum 60% in aggregate of all the semesters/years (55% for SC, ST & PwBD candidates) in the qualifying degree (as applicable) are only eligible to apply. Qualification should be obtained only through full time regular course from a recognized University/Institute. Experience: Minimum of three years’ experience as a practicing Advocate or working in a reputed Law Firm or Company. For practicing Advocates, the experience must be after enrolment in the Bar Association and for working candidates, it must be post qualification. Experience should preferably relate to drafting Agreements, preparing Court/Arbitration papers, briefing Counsel, etc. substantially covering the law relating to Contracts, Sale of Goods, Transfer of Property, Intellectual Property and Consumer Protection.Candidates should possess excellent written/verbal communication skills. Proficiency in reading and writing in any one or more Scheduled language (as per Constitution) in addition to English and Hindi is preferred. QUALITY CONTROL OFFICER Qualification: Two-year full time regular M.Sc. in Chemistry (Analytical/ Physical/ Organic/ Inorganic) from AICTE approved / UGC recognized University / Deemed University. Candidates (belonging to UR, EWSand OBCNC category) should have secured minimum 60% marks (aggregate marks of all semesters) in qualifying degree examinations, relaxed to 50% (aggregate marks of all semesters) for SC/ST/PwBD candidate. Experience: Minimum 2 years post qualification relevant experience in a chemical testing laboratory on testing/ analysis/ R&D/ Quality Control etc. Experience in testing of Petroleum Products will be an added advantage. (Fuel, Lube, Grease etc) and the candidate should be conversant with relevant IS, ASTM, ISO and IP test methods and product standards. HR OFFICER Qualification: Two-year full time, Post graduate Degree /Equivalent course in HR /Personnel Management / Industrial Relations/Psychology or Masters in Business Administration (MBA) with specialization in HR/Personnel Management from AICTE approved / UGC recognized institute / university. Candidates (belonging to UR, EWS and OBCNC category) should have secured minimum 60% marks (aggregate marks of all semesters) in qualifying degree examinations, relaxed to 50% (aggregate marks of all semesters) for SC/ST/PwBD candidate. Experience: Minimum 3 years’ experience in HR roles in any of the below: Handling end to end recruitment of candidates in a talent acquisition profile. Formulating of HR policies and implementation. Knowledge of HR technology tools, Process and systems, HR analytics, knowledge of ERP system. Managing employee relations, knowledge  of Industrial and Labour Laws and Contract Labour Management. Learning and development plan in identifying and analyzing training needs of the organization and e-learning techniques/platforms. Managing PMS and Talent Management system. Roster Maintenance, reservation management of employees. Organizational Development Initiatives. Handling Disciplinary matters. FIRE & SAFETY OFFICER Educational Qualifications: Full time regular BE/ B Tech in Fire Engineering or Fire & Safety Engineering from AICTE approved / UGC recognized University / Deemed University. Candidates (belonging to UR, EWSand OBCNC category) should have secured minimum 60% marks (aggregate marks of all semesters) in qualifying degree examinations, relaxed to 50% (aggregate marks of all semesters) for SC/ST candidate. Preferable: a.Full time regular BE/ B Tech in Fire Engineering or Fire & Safety Engineering from AICTE approved / UGC recognized University / Deemed University. Candidates (belonging to UR, EWSand OBCNC category) should have secured minimum 60% marks (aggregate marks of all semesters) in qualifying degree examinations, relaxed to 50%(aggregate marks of all semesters) for SC/ST candidate and possesses a full time Diploma or Certificate in industrial safety or equivalent of duration not less than one year awarded by any University incorporated under the Central or State legislations or Department of Technical Education or Board of Technical Education of any State /Government of India or from Regional Labor Institute or Central Labour Instituteb.Adequate knowledge of local language i.e. Marathi (Mumbai Refinery) or Telegu (Visakhapatnam Refinery). Experience: Post qualification and 3 years’ relevant experience in Fire Fighting operations & system maintenance, operation of firefighting vehicles, handling safety related jobs like investigation analysis, safety inspection, job safety analysis, shutdown safety, construction safety, conducting safety meetings/ audits, conducting mock-drills, fire & safety training inan Oil & Gas, Exploration, Pharmaceutical, Fertilizer, Chemical, Steel Industry or Airport Operators.Application Fee :-The application fees are applicable to all positions. SC, ST & PwBD candidates are exempted from payment of application fee. UR, OBCNC and EWS candidates are required to pay a Non-Refundable Amount of ₹590/-+ payment gateway charges if any (Application fee of₹500/-+ GST@18% of ₹90/-+ payment gateway charges if applicable).Selection Process :-The selection process may comprise of various shortlisting tools like written test, interview, group task, mootcourt (only for lawofficers) etc.How To Apply:-Candidates are requested to read the complete instructions hereunder before proceeding to the application form. STEP 1: Read all the instructions given in the advertisement carefully. Candidate should keep scan copy of Passport size photo (in jpg / jif format less than 50kb) ready before filling online application form. (Candidates uploading any image other than their passport size photo will not be shortlisted) STEP 2: Fill in the online form with all the relevant details. Upload Scan copy of your latest passport size photograph along with the online application form. STEP 3: Click Submit. You will get a system generated 12 Digit Application No. Please note that this Application No. is important and will be required for all future references throughout the selection process. Take Printout of the Online Application Form and preserve it for future reference. Important Dates :- Commencement of online application10:00 hrs on 19th Aug 2019Last date of online application11:59 hrs on 16th Sep 2019 Important Link Area Download Advertisement Detailed AdvertisementApply Online Apply NowAdmit CardHPCL Project Engineer Admit CardSyllabusHPCL Project Engineer SyllabusOfficial Websitewww.hindustanpetroleum.com Read the full article

Job: Okinawa.2ResTech.AntBiodiversity

The Economo Lab (http://bit.ly/1dSYDrw) at the Okinawa Institute of Science and Technology Graduate University (http://bit.ly/2oq60oz) is seeking qualified applicants for two technician positions. The lab works at the interface of ecology, evolution, and natural history, with an empirical focus on ant biodiversity. We use a variety of approaches to understanding biodiversity including field expeditions, collections-based research, x-ray micro-CT, 3D modeling and morphometrics, phylogenomics, biodiversity informatics, and quantitative theory. Although two positions are described below, we are flexible with regards to division of duties among the two hired individuals. RESEARCH TECHNICIAN: Description: The hired individual will get involved with a number of research activities in the lab including: curating an entomological research collection, managing lab databases, procuring lab supplies and materials, and performing miscellaneous tasks to support lab research. In addition, there are exciting opportunities to become an expert in X-ray micro-CT scanning and downstream applications such as segmentation, 3D modeling (e.g. http://bit.ly/2NxHdK8), morphometrics, 3D printing, and interacting with biodiversity data in virtual and augmented reality. Qualifications: An undergraduate degree or higher in a scientific or technical field and experience with scientific research are required. Although there is no requirement for proficiency in a specific computational program/language, it is important that the person has strong computational skills and a high ability to learn different software and methods independently. Although not required by any means, experience with any of the following would be highly desirable: biodiversity collections management, 3D modeling, 3D animation, data management, computational phylogenetics, geometric morphometrics, GIS, HPC, VR/AR applications. RESEARCH COMPUTING TECHNICIAN: Description: The hired individual will be responsible for computational support of lab research including; designing and maintaining research databases, maintaining lab websites, assist with design and maintenance of bioinformatic data analysis pipelines, application support for utilizing HPC resources, and desktop support to lab members. In addition, there are opportunities to lead or participate in development of new technologiesthat facilitate and accelerate biodiversity research. Qualifications: An undergraduate degree or higher in a scientific or technical field and experience with scientific research computing are required. As this position is not tied to a single application or task, the ideal candidate would have a good baseline of programming skills, including familiarity with both compiled and interpreted languages, and ability to learn independently. Proficiency with Linux, SQL-based database design and administration, and at least basic familiarity with server administration are required. Experiences with one or more of the following would be highly desirable but are not required; GIS, bioinformatics, phylogenetics, ecoinformatics, parallel computing, and statistical computing. Job Data: OIST is a newly established international graduate university located in the resort area of Onna-son, Okinawa, Japan, and offers a high quality of life and good working conditions in an international environment. Logistical and financial assistance with relocation will be provided, along with a competitive salary and benefits package. OIST is an English-language working environment, so knowledge of Japanese is not required. To apply, please send a cover letter, CV, and list of three references with contact information to in an email with subject $B!H(BResearch Technician Application$B!I(B or $B!H(BResearch Computing Technician Application$B!I(B, as appropriate. Informal inquiries are also welcome at the same address. Application review will begin immediately and will remain open until the positions are filled. Evan P. Economo Assistant Professor Biodiversity and Biocomplexity Unit Okinawa Institute of Science and Technology Graduate University 1919-1 Tancha Onna-son Okinawa, Japan 904-0495 http://bit.ly/1dSYDrw http://bit.ly/2uyx7jN "Evan P. Economo" via Gmail

Global Market Insights looks at the factors driving the geographic information system (GIS) market and how the energy segment will contribute towards the market growth.

The research firm forecasts the GIS market to surpass a valuation of $$9 billion by 2024.

Touted to boast of a broad application scope spanning key business sectors, the global GIS market has surfaced as a fundamental entity representing profitability and operational efficiency over the past several years.

From conducting surveys and mapping activities for the energy segment to developing telematics and navigational solutions for transportation purpose, GIS services have become a basic necessity while undertaking new ventures or expanding territorial operations.

The prominent resources and data which companies acquire as well as manage using geographically-relevant information include demographics, workforce distribution, customer behavior and real-time asset monitoring.

Suitable GIS allows for more reliable analysis of this data to make critical business decisions, unlike complex legacy systems and previous data collection methods where small bits of important statistics could easily be overlooked. 

Development of modern hardware and software components, that can work with remote sensing technologies and spatial information-gathering objects, has picked up pace with the increased consumer demand for various services.

In recent years, with the surge in demand for energy and communication along with the need for more extensive and reliable energy infrastructure, the utility industry, including power, oil & gas and telecom, has rapidly adopted GIS to achieve significant business transformation and bring more efficiency into every day operations.

Managing the integration of wind and solar energy with modernised electricity grids to meet national sustainability goals has further induced the need for high-tech utility solutions.

Geographical data tracking has the potential to considerably improve the service capabilities of telecom companies as well, since mapping, mobile asset management and consumer data are crucial factors that influence major decisions.

Keeping an eye on investments like tools, people and communications, infrastructure through GIS data helps in timely equipment maintenance, while access to demographic information enables better handling of customer contracts.

Utility applications and the GIS market

Regardless of the type of utility services, GIS is essential to determine infrastructure requirements, forecast vulnerabilities using real-time data, prioritise repair-maintenance tasks as per geographic specifications and ensure interoperability of different business components. These features have increasingly become vital due to growing power consumption and stringent policies regarding utility rates and environmental control.

Planning and designing networks: Accounting for the largest share of investments made by a utility firm, networks form the core of business operations which need effective planning and design to avoid failure of services.

GIS-powered insights and decisions enable companies to not only design efficient networks to reach customers, but also save considerable cost incurred on engineering, development and supply chain services.

Referring to data submitted to the US Federal Energy Regulatory Committee, between 2015-2016 running one mile of natural gas pipeline cost around $$7.65 million per mile. This demonstrates the importance of building a robust network which is able to reach customers, allows for easy workflow management and tracking of resources.

GIS software are able to assist planners in developing critical utility networks like water and gas distribution, district energy grids, wastewater systems, among others using precise mapping technologies and data analytics.

Managing business assets: Utility services are by default asset-based and firms have always struggled to manage them due to the spread of physical networks over vast territories and in different weather conditions.

Although a large number of existing assets are difficult to monitor and maintain, the GIS industry can help in enhancing the management of new assets which are a part of a more decentralized, smart grids.

Duke Energy, for instance, has total assets of $133 billion and serves more than 7.4 million electric customers in the US.

The company is consistently expanding its solar energy initiatives and recently bid for a 680 MW project that would power almost 125,000 households at peak output.

Such efforts underscore the requirement of GIS and other smart technologies to manage and optimize physical assets of utility providers with the growing mix of renewables in the energy supply. 

Outage management: Power failures caused by weather events and faults in equipment could lead to millions in losses for utility providers as well as commercial operations in the area. Reportedly, eight major markets in the U.S. forfeit nearly $27 billion every year owing to power outages, with some businesses accruing bigger losses than others.

Today, utilities can avail the services of GIS providers to acquire mapping and data management abilities for enhancing outage management, by building a map that indicates physical assets and offering a graphic display of size and effect of events such as storms.

Continuous gathering of data can assist in forecasting when an outage could take place, possible location of the damage and anticipate which areas may get affected by weather. It also allows firms to dispatch a field crew even before an event occurs, enabling predictive maintenance. GIS also makes it easy for mobile workers to access the same information as those in the back offices, making operations more efficient.

Regulatory compliance: Most countries around the world have strict regulatory standards to be implemented during city planning activities or setting up of utility services like water supply, sewer flow gas pipelines and electricity lines.

Precise mapping and monitoring is needed to determine the delivery flow of utilities and predict service interruptions. In doing so, enormous amounts of data are collected regarding the area and GIS is a technology that is able to manage and analyze this data more effectively.         

Planners have to evaluate whether new infrastructure will comply with regulatory demands, which can be done using GIS-based data. Remarkably, GIS software could help create visual presentations of the environmental conditions in an area, helping to compare between current settings and estimated outcomes of proposed utility network design and development. In addition to helping meet regulatory demands, the GIS industry would also help utilities in creating strategies to make amenities and services more accessible and reliable.

https://ift.tt/eA8V8J

[Full-time] City of Salina, Kansas Employment Openings at City of Salina, KS

Location: United States Of America URL: https://jobs.salina-ks.gov Description: City of Salina, Kansas offers excellent benefits including: Dental, health, life, disability, & prescription coverage; vacation, sick, & holiday pay; retirement plan. Contact: Human Resources Department, 300 W. Ash, Room 200, P.O. Box 736, Salina, KS 67402-0736, (785) 309-5710 Office, (785) 309-5711 Fax. EOE Apply at www.jobs.salina-ks.gov. UTILITY TECHNICIAN II (Design/Construction Observation) Application deadline: TH 10/25/2018-Utilities- Duties: Performs technical engineering designs, construction observations, and GIS application duties; designs, surveys & observes construction for the installation of sanitary sewer, water mains, & other public utility projects; prepares conceptual designs & project estimates. Education: Associate’s degree in Mechanical, Environmental, or Civil Engineering Technology, Geography with GIS certification, or related field. Experience: Two years technical civil engineering work and/or any combination of education or experience. Requirements: Must possess a valid Kansas driver’s license. Pay: $17.77-19.90/hr. GIS/UTILITY TECHNICIAN Application deadline: TH 10/25/2018-Utilities–Duties: Performs technical work in the maintenance & updating of GIS mapping & as-built utility maps; prepares routine drawings & maps; maintains water & sewer system models; performs data collection, data entry, maintenance & updating of GIS mapping; assists with survey & design of utility projects; locates water & wastewater pipelines in the field; assists plumbers & others in researching sewer/water files/records. Education: Technical school graduate. Experience: Two years of experience in drafting (Auto Cad preferred); familiarity with Utilities design & Utilities system modeling preferred. Must have knowledge of surveying, mathematics, & land records; knowledge & understanding of GIS hardware & software operations; understanding of personal computers, plotters, printers & associated hardware & software. Requirements: Must possess valid Kansas driver’s license. Pay: $17.77/hr. UTILITY WORKER I Application deadline: Until filled-Utilities-Duties: Performs semi-skilled & skilled labor in the maintenance & operation of a water distribution & transmission system/wastewater collection system; performs minor electrical & mechanical maintenance; maintains wastewater pumps, motors & controls; installs, repairs, cleans, taps, fits & inspects wastewater/water pipelines; installs & repairs wastewater/water valves, manholes, & fire hydrants; installs & repairs chemical feed pumps & piping; performs custodial work such as cleaning, painting, lawn mowing & snow removal. Education: High school diploma or G.E.D. Experience: Two years maintenance of mechanical & electrical equipment, or related work preferred. Requirements: Must live within 40-minutes response time; must possess a valid Kansas Class A commercial driver’s license (CDL) with air brakes & tanker endorsements, or obtain within three months of appointment. Work Type: Heavy, exerting up to 100 pounds of force occasionally, and/or up to 50 pounds of force frequently, and/or up to 20 pounds of force constantly to move objects. Hours: Monday-Friday 8:00 a.m.-5:00 p.m. & after-hours calls. Starting pay: $16.09/hr. MAINTENANCE WORKER II Application deadline: TH 10/18/2018- Public Works/Flood Control- Duties: Performs a variety of skilled & semi-skilled work in the operation, repair & maintenance of the levee system & ancillary flood control structures & facilities; operates, services & maintains light & medium equipment; performs minor welding; services & maintains flood control sluice, flap gates, & pumps; performs some concrete work & plumbing repairs; cleans, repairs & maintains ditches, flumes & drainage channels; maintains ponds, rip-rap & other areas; assists in hike & bike trail maintenance; applies pesticides; mows levee & trims trees, grass, weeds & shrubbery. Education: High school diploma or G.E.D. Experience: Two years of progressively responsible work in the construction, maintenance & repair of public facilities or similar activities. Requirements: Must live within a 40-minute response time; must possess a valid Kansas CDL Class B driver’s license with air brakes & tanker endorsements. Pay: $13.93-22.24/hr. SANITATION WORKER / DRIVER Application deadline: Until filled-Public Works/Sanitation-Duties: Performs heavy manual labor in the collection of refuse and/or recycling materials; operates medium equipment & heavy duty trucks. Education: Eighth grade graduate. Experience: One year sanitation work or experience with small trucks & light equipment in construction, maintenance, or related activities; must be able to work outside in all weather conditions; heavy manual labor & outside work experience desired. Requirements: Must possess valid Kansas Class B commercial driver’s license (CDL) with air brake endorsement; must be able to perform heavy manual labor & run designated routes; must be eighteen (18) years of age or older. Work Type: Heavy manual labor, exerting up to 100 pounds of force occasionally, up to 50 pounds for force frequently, and/or up to 10 pounds of force constantly to move objects. Pay: $13.25-21.15/hr. STREET MAINTENANCE WORKER Application deadline: Until filled-Public Works/Streets & Traffic-Duties: Performs a variety of unskilled & semi-skilled manual labor in the construction & maintenance of streets, storm sewers, buildings & other municipal facilities; drives various types of trucks & operates light construction equipment; lays & rakes asphalt; performs & assists in carpentry, including construction of forms, concrete work, painting & minor welding; responds to weather & other emergencies. Education: High school diploma or G.E.D. Experience: One year construction or maintenance work preferred. Requirements: Must live within 40-minutes response time; must possess Kansas Class B commercial driver’s license (CDL) with air brakes & tanker endorsements. Work Type: Very heavy, exerting up to 100 pounds of force occasionally, and/or in excess of 50 pounds of force frequently, and/or in excess of 20 pounds of force constantly to move objects. Hours: Workweek generally Monday - Friday. Pay: $12.62-20.15/hr. Reference : City of Salina, Kansas Employment Openings jobs Apply to this job source http://www.america-jobs.net/job/12521/city-of-salina-kansas-employment-openings-at-city-of-salina-ks/

Why is BIM Necessary for Smart Cities?

BIM for smart cities- BIM is now no more an option but it’s a necessity. In every infrastructure project, various teams work together. One group looks after planning, another one takes the responsibility of designing, yet another one does the construction, and the remaining others take supervision of the maintenance. In such scenarios importance of BIM is growing.

The most significant benefit of BIM is that it facilitates collaboration and management of information and communication between the teams associated with a construction project. In the conventional process of functioning, some of the asset information is lost whenever one team assigns the project to another. Thus, it leads to wastage concerning revenue as well.

BIM succeeds these shortcomings by including information versatility and making everyone use the similar set of processes and standards. As a result, asset information consistently rises over the lifecycle of the project. Implementing BIM facilitates architects and engineers to obtain informed design options, and constructors reduce waste and complete their projects at a particular time. Thus, saving on expenditures incurred due to avoidable delays.

A city is never in isolation with BIM. A building remains integrated continuously with other bases like the transportation system, utilities, etc. Hence it is a challenging task to accomplish, but that’s the excellence of BIM. Projects that implement BIM open up the opportunities for collaboration and a free flow of standardized information across systems.

Furthermore, BIM is widely in use in the Architecture, Construction and Engineering industries.

Analyzing the concept of a Smart City and BIM, the most significant specific factor is information and easy access to it. 3D models also lived in a world of architecture for a long period.

The use of BIM is now across the whole infrastructure lifecycle.

bim lifecycle

3D modeling and BIM for smart cities

BIM and 3D modeling are a boon for Smart Cities. The 3D software allows constructors to level model infrastructure to build underground. While making a city, the workers know how deep to dig it to not break into a fiber optic cable or a gas pipeline. Drainage, highway and bridge architects can work with the similarly immersive model. Since all this is geo-referenced, an exact geographic design is a reward.

A host of BIM and GIS-enabled answers are possible for smart cities, involving MicroStation, ProjectWise, and also AssetWise. Regarding buildings, the 3D GIS abilities of Bentley Map and also Descartes release the companies to create design, model, edit and also to analyze 3D solids. Even outline for the line of sight, darknesses, lighting, skyline studies, are also desirable. Smart models facilitate more knowledgeable decisions that impact the durability and performance of the construction.

Now check the Adoption of BIM

With UK authorizing the implementation of BIM on every government project, governments and all across the globe are becoming serious about BIM. Furthermore, in Europe, nations like France, Spain, and Germany have advanced the adoption of BIM standards. Dubai is the country which has already implemented the BIM technology. Singapore has announced a roadmap for BIM. And also, just like the UK, New Zealand has also made it mandatory to apply BIM for significant infrastructure projects. Adoption of BIM is also gaining momentum in India because of the government’s “100 Smart Cities” projects. However, the Nordic nations of Norway, Denmark, and Sweden are pioneers in the BIM field because they adopted BIM as early as 2004-2005.

Thus, to conclude, in the generation of IoT and Big Data, exerting BIM to City planning and management appears merely to be the next logical step.

“Once BIM adopted, opportunities in BIM are limitless!”

“Digital innovation and BIM technology can transform the process of design, construction, and management of smart buildings and smart cities. The future of our cities looks bright.”

ArcGIS Pro Tips: Top 10 Questions from the 2017 User Conference

The 2017 Esri User Conference was the best attended ever, with the largest number of ArcGIS Pro users in attendance to date. It was so great to see the inspiring work you’re doing with Pro! With so many users, there was no shortage of questions for the team at the ArcGIS Pro Area of the Esri Product Showcase.

While there were plenty of complex and unique questions, there were some questions that were asked more than once. Here are the top 10 questions and answers for those of you who were unable to attend who share some of the same concerns.

1. What are the biggest benefits of using ArcGIS Pro?

ArcGIS Pro is the future of desktop GIS. Our dev team is still doing great work to maintain ArcMap, but ArcGIS Pro is the focus of our advancing development work and new functionality.

ArcGIS Pro features a modern ribbon-based user interface, 2D and 3D views, multi­threaded geoprocessing, support for multiple maps and layouts, and so much more.

One major benefit or Pro is the tight integration of desktop and web GIS. The 2D and 3D maps that you create in ArcGIS Pro can easily be shared as web maps and web scenes to ArcGIS Online and ArcGIS Enterprise. To learn how, try the Share a web map tutorial.

In addition, you can customize ArcGIS Pro in numerous ways to fit your needs. Create Tasks in Pro to streamline repeatable workflows, automate your work with Python, or extend Pro with add-ins and configurations using the ArcGIS Pro SDK for .NET.

The release of ArcGIS Pro 2.0 brought a ton of new, highly requested features and bug fixes. Check out this video of the Top 10 features of ArcGIS Pro:

2. What are the differences between ArcGIS Pro and ArcMap?

ArcGIS Pro has many capabilities beyond ArcMap including better 3D visualization,tighter integration with web GIS, advanced animation tools, and the ability to publish vector tiles.

ArcGIS Pro is primarily licensed with Named User licenses, which means you sign in with a username and password associated with your ArcGIS Online or ArcGIS Enterprise account. However, there are additional licensing options for Pro with Concurrent or Single Use licenses through a traditional License Manager.

We are working hard to add more features to ArcGIS Pro. Check out the Roadmap for ArcGIS Pro on Geonet to get a sneak peek on what’s coming next.

3. What should I look at to get started with ArcGIS Pro? Are there tutorials or learning resources?

There are SO many great learning materials for ArcGIS Pro, and a lot of them are free! If you’re looking for short tutorials, check out the ArcGIS Pro Help Quick Start Tutorials. For longer, complete workflows based in real-life problem solving, Learn ArcGIS has several ArcGIS Pro lessons.

Use the filter to find Pro lessons in the Learn ArcGIS Lesson Gallery.

If you’re looking for more complex, topic-specific, or in-depth training, there are hundreds of different resources on the Esri Training website. Search the Training Catalog for ArcGIS Pro training options.

Search the Catalog on Esri Training for ArcGIS Pro training.

4. How do I get ArcGIS Pro? Do I have to pay extra for it?

ArcGIS Pro doesn’t cost anything extra! It is included with ArcGIS Desktop, which also includes ArcMap and ArcCatalog. If you have ArcGIS Desktop and are current on maintenance, you have access to ArcGIS Pro. You can download ArcGIS Pro from My Esri.

You can also sign up for an ArcGIS Trial, which includes ArcGIS Pro.

If you do not have ArcGIS Desktop or you are not current on your maintenance, contact your Account Manager, Esri Customer Service, or your local Esri distributor.

5. Do I have to get new licenses for my existing ArcGIS Desktop extensions?

No. Extensions licensed for ArcGIS Desktop can be used with both ArcMap and ArcGIS Pro.

The majority of the ArcGIS Desktop extensions are available in ArcGIS Pro. These include 3D Analyst, Data Interoperability, Data Reviewer, Geostatistical Analyst, Network Analyst, Spatial Analyst, and Workflow Manager. In addition, the Pipeline Referencing, Defense Mapping, and Aviation: Airports extensions are available for ArcGIS Pro.

Over the rest of 2017 and into the next year, additional extensions will be available for use with ArcGIS Pro including Publisher, Business Analyst, and Image Analyst. We’ll also be releasing the industry-focused extensions Aviation: Charting, Production Mapping, Maritime: Bathymetry, Maritime: Charting, and Roads and Highways.

Check out the Roadmap for ArcGIS Pro on Geonet to see our current plan for future ArcGIS Pro extensions.

6. Will my existing ArcMap documents work? How about my models, tools, and scripts?

Yes! You can import your ArcMap documents directly into ArcGIS Pro projects. To learn how, try the Import an ArcMap document tutorial.

The majority of geoprocessing tools that are available in ArcMap are also in ArcGIS Pro. However, if a tool in your ModelBuilder model is not available in ArcGIS Pro, then the model will not work. You may need to wait until that tool is available in a future release of ArcGIS Pro, or you can remove the tool and find a workaround. If a tool in the model has changed in ArcGIS Pro, then the model will not work until you update the model – to do this, open the model in ArcGIS Pro, validate, and save. Here’s an ArcGIS Pro Help topic on ModelBuilder migration from ArcMap.

The same type of answer applies to your Python scripts. ArcGIS Pro uses Python 3.4, while other apps in ArcGIS Desktop use Python 2.x. Despite some significant differences between these versions of Python, many scripts can be used as-is in both ArcMap and ArcGIS Pro. Read about Python migration for more details.

You can use the Analyze Tools For Pro geoprocessing tool to analyze your scripts or models for necessary updates to get them working in ArcGIS Pro. A tool’s help page also provides information that you may need to get your models and scripts running.

7. Can I export maps from ArcMap to ArcGIS Pro?

No. While you can import an .mxd into Pro, they are not backwards compatible. Once they are imported into Pro, map documents (.mxd) are converted into map (.mapx) and layout (.lyrx) files.

8. What are tasks?

A task is like a recipe that you can create for other users to follow to complete a complex or unfamiliar workflow. Click Record, complete your workflow, and each command that you use during that workflow is recorded as a step in a task. That task can be configured and shared with others to implement a best-practice workflow, improve efficiency, or create a series of interactive tutorial steps.

Tasks are not part of an extension, they are built into ArcGIS Pro, so anyone can create and use them. Learn more about tasks in the ArcGIS Pro Help.

9. How do I share my maps? Can I publish to a server yet?

Sharing is easy with ArcGIS Pro. You can share your work (maps, layouts, geoprocessing tools, models, and more) with others. Just click the Share tab, pick your item, set your configuration, and click Share.

Publishing to a server is not included with ArcGIS Pro. ArcGIS Pro follows the web GIS pattern, which means that all publishing is done to a cloud-like portal, either ArcGIS Online or ArcGIS Enterprise. The portal and its items can be accessed from any device at any time, making it easier to collaborate with your organization and the larger GIS community.

10. Is ArcMap going away? Do I have to switch to ArcGIS Pro?

ArcMap is not going away anytime soon. We will continue to support past and future releases of ArcMap, fix bugs, and maintain the software for a long time to come.

However, ArcGIS Pro will eventually replace ArcMap. Our focus is on making ArcGIS Pro the world’s best desktop GIS. There are still some capabilities of ArcMap that are not yet in ArcGIS Pro, so some of you will be using both ArcGIS Pro and ArcMap until ArcGIS Pro has everything you need to fully support your work. And yes, you can use ArcGIS Pro and ArcMap at the same time, side by side.

ArcGIS Pro is advancing desktop GIS and provides a modern 2D/3D user experience for doing powerful analysis and creating beautiful maps. You should be actively moving to ArcGIS Pro because this is where we are putting our focus and the majority of our development effort.

Thank you all for sharing your questions and time with me at the User Conference! I’m already looking forward to seeing you again next year! For more answers to your questions, check out the Esri UC 2017 Q&A.

from ArcGIS Blog http://ift.tt/2uLnEo1

System Administrator Required for Company in Dubai

System Administrator Required for Company in Dubai The System Administrator (SA) is responsible for effective provisioning, installation/configuration, operation, and maintenance of systems hardware and software and related infrastructure. This individual participates in technical research and development to enable continuing innovation within the infrastructure. This individual ensures that system hardware, operating systems, software systems, and related procedures adhere to organizational values, enabling staff, volunteers, and Partners. This individual will assist project teams with technical issues in the Initiation and Planning phases of our standard Project Management Methodology. These activities include the definition of needs, benefits, and technical strategy; research & development within the project life-cycle; technical analysis and design; and support of operations staff in executing, testing and rolling-out the solutions. Participation on projects is focused on smoothing the transition of projects from development staff to production staff by performing operations activities within the project life-cycle. This individual is accountable for the following systems: Linux, Windows and MAC systems that support GIS infrastructure; Linux, Windows and MAC Application systems that support Asset Management; Responsibilities on these systems include SA engineering and provisioning, operations and support, maintenance and research and development to ensure continual innovation. Knowledge/ Skills: 1. Bachelor (4-year) degree, with a technical major, such as engineering or computer science. 2. Systems Administration/System Engineer with Certifications in Microsoft, Adobe and Autodesk 3. Expertise in Render Farm and required Design software knowledge such as Adobe and Autodesk Products 4. Four to six years system administration experience. Profile Requirements: SA Engineering and Provisioning: Develop and maintain installation and configuration procedures. Contribute to and maintain system standards. Engineering of SA-related solutions for various project and operational needs. Install new / rebuild existing servers and configure hardware, peripherals, services, settings, directories, storage, etc. in accordance with standards and project/operational requirements. Perform daily backup operations, ensuring all required file systems and system data are successfully backed up to the appropriate media, recovery tapes or disks are created, and media is recycled and sent off site as necessary. Perform regular file archival and purge as necessary. Create, change, and delete user accounts per request. Research and recommend innovative, and where possible automated approaches for system administration tasks. Identify approaches that leverage our resources and provide economies of scale. Operations and Support: Perform daily system monitoring, verifying the integrity and availability of all hardware, server resources, systems and key processes, reviewing system and application logs, and verifying completion of scheduled jobs such as backups.. Perform regular security monitoring to identify any possible intrusions. On an ongoing basis, the senior systems administrator is relied upon to research and evaluate new software or hardware systems that may improve asset creation within the studio, as well as identifying areas where new technology can make the production pipeline more efficient. Maintenance: Apply OS patches and upgrades on a regular basis, and upgrade administrative tools and utilities. Configure / add new services as necessary. Provide Tier III/other support per request from various constituencies. Investigate and troubleshoot issues. Repair and recover from hardware or software failures. Coordinate and communicate with impacted constituencies. Operating a render farm, outputting 3D models, flushing internal storage, and maintaining equipment. Configures and maintains in-house servers and networking functions, the render farm, as well as security and authentication protocols. Upgrade and configure system software that supports GIS infrastructure applications or Asset Management applications per project or operational needs. Maintain operational, configuration, or other procedures. Perform periodic performance reporting to support capacity planning. Perform ongoing performance tuning, hardware upgrades, and resource optimization as required. Configure CPU, memory, and disk partitions as required. Maintain data center environmental and monitoring equipment. Email: [email protected]