#AI in Geotechnical Engineering
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nnctales · 1 year ago
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Leveraging GPT AI for Seismic Design in Structural Engineering: A Technical Perspective
In the contemporary landscape of structural engineering, seismic design is a critical consideration. The constant threat of seismic events requires innovative methods that factor in such disturbances to ensure robust and resilient built environments. The latest advancement reshaping seismic design in this field is GPT (Generative Pretrained Transformer) AI, developed by OpenAI. GPT AI, an…
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miningdoc · 2 months ago
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How Digital Networks Are Breaking Down Barriers in the Mining Industry
The mining industry has traditionally been limited to those working directly within it. New updates, technological advancements, and specialized knowledge have often been confined to specific regions and companies. This lack of knowledge sharing made the mining industry inaccessible to most people.
Not anymore. Now we have new online platforms for mining professionals to access, share, and connect with others in the field. Anyone interested in mining sustainability can join these communities to explore the industry.
Connecting Experts and Technology Globally
If you are facing mining-related issues and don't have external support to solve them. In such cases, digital networks, online communities, and professionals in the mining sector can help. Through a mining-based platform, you can directly engage with mining professionals. They can solve issues within seconds by providing insights, data, and ideas instantly in real time.
Knowledge with Online Courses and Content
Previously, mining knowledge was limited to those actively working in the field. The only options were to rely on expensive in-person training sessions and printed materials. With the rise of digital networks, professionals now have the option to enroll in online courses on topics like mineral processing, geotechnical engineering, rock mechanics, and environmental impact assessments.
Moreover, the platform even provides in-depth white papers, research, and case studies on processes such as mine-to-mill optimization and sensor-based ore sorting.
Collaboration on Innovative Solutions
A digital network connects people from all across the world to share knowledge. However, that's not the only purpose of online networks. Sometimes, sharing insights leads to profitable collaborations. Connections with mining companies, technology developers, and professionals can lead to significant advancements. You can learn about emerging technologies like block caving, new ore blasting techniques, or using AI in mining.
Preparing for Future Mining Challenges
The future of mining depends on advanced technology and digital platforms. People can directly contact experts in the field to understand the nuances of mining sites and operations.
For instance, if you want to learn more about innovations like digital twin technology, which creates virtual models for mining operations, you have a reliable source for all the necessary information.
About Mining Doc:
Mining Doc is a comprehensive platform for the mining industry, offering knowledge sharing, online mining courses, and lead generation. It connects professionals globally to stay informed about advancements in mining technology and mining finance. Additionally, you can use the platform to drive business growth through collaborations.
For more information, visit https://www.miningdoc.tech/
Original Source: https://bit.ly/3Y58L04
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iemedugroup · 5 months ago
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Top Engineering Courses That Will Boost Your Career Prospects
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In today's competitive job market, selecting the right engineering courses can significantly enhance your career prospects. With various engineering colleges offering specialized programs, choosing the right course can set you on the path to success. This article will explore some of the top engineering courses that can propel your career to new heights.
Civil Engineering
Civil engineering is one of the oldest and most respected engineering courses. It involves the design, construction, and maintenance of infrastructure such as roads, bridges, and buildings. By studying civil engineering at reputed engineering colleges, you will gain a comprehensive understanding of structural analysis, geotechnical engineering, and environmental engineering.
Key Points:
Design and Construction: Learn the principles of designing safe and sustainable structures.
Project Management: Acquire skills in managing large-scale construction projects.
Environmental Impact: Understand the environmental considerations in civil engineering projects.
Mechanical Engineering
Mechanical engineering is another cornerstone of the engineering profession. This field focuses on the design, analysis, and manufacturing of mechanical systems. Enrolling in mechanical engineering courses will provide you with a strong foundation in thermodynamics, fluid mechanics, and materials science.
Key Points:
Machine Design: Gain expertise in designing efficient and innovative machines.
Manufacturing Processes: Learn about the latest manufacturing technologies and methods.
System Dynamics: Understand the dynamics of mechanical systems and their applications.
Electrical Engineering
Electrical engineering is crucial in today's technologically driven world. This discipline covers the study of electrical circuits, power generation, and telecommunications. Engineering colleges offering electrical engineering courses equip students with knowledge in circuit theory, signal processing, and power systems.
Key Points:
Power Generation: Learn about various methods of generating and distributing electrical power.
Telecommunications: Understand the principles of modern communication systems.
Control Systems: Study the design and implementation of control systems.
Computer Science and Engineering
Computer science and engineering is at the forefront of the digital revolution. This course covers software development, algorithms, and computer hardware. By enrolling in computer science and engineering courses, you can become proficient in programming, data structures, and artificial intelligence.
Key Points:
Software Development: Master various programming languages and software development methodologies.
Data Structures and Algorithms: Gain a deep understanding of efficient data management and algorithm design.
Artificial Intelligence: Explore the latest advancements in AI and machine learning.
Data Science and Engineering
Data science and engineering is an emerging field that combines statistics, computer science, and domain expertise. Engineering colleges offering data science courses teach students how to analyze and interpret complex data sets to drive decision-making and innovation.
Key Points:
Data Analysis: Learn techniques for analyzing large data sets and extracting valuable insights.
Machine Learning: Understand the fundamentals of machine learning algorithms and their applications.
Big Data Technologies: Gain knowledge of big data platforms and tools.
Aerospace Engineering
Aerospace engineering involves the design and development of aircraft and spacecraft. This field requires a strong foundation in aerodynamics, propulsion, and materials science. By studying aerospace engineering, you will be equipped to work on cutting-edge technologies in the aviation and space industries.
Key Points:
Aerodynamics: Study the principles of flight and the behavior of air around objects.
Propulsion Systems: Learn about the different types of propulsion systems used in aircraft and spacecraft.
Materials Science: Understand the materials used in aerospace applications and their properties.
Environmental Engineering
Environmental engineering focuses on solving environmental problems through the application of engineering principles. This field covers water and air quality management, waste treatment, and sustainable development. Engineering colleges offering environmental engineering courses prepare students to address the pressing environmental challenges of our time.
Key Points:
Water Quality: Learn about methods for ensuring safe and clean water supply.
Air Pollution Control: Study techniques for reducing air pollution and its impact on health.
Sustainable Development: Understand the principles of sustainable engineering and development.
Biomedical Engineering
Biomedical engineering is an interdisciplinary field that combines engineering principles with medical sciences to improve healthcare. This course covers the design of medical devices, imaging systems, and biocompatible materials. By studying biomedical engineering, you can contribute to advancements in medical technology and patient care.
Key Points:
Medical Device Design: Learn about the design and development of innovative medical devices.
Imaging Systems: Study the principles and applications of medical imaging technologies.
Biomaterials: Understand the properties and applications of materials used in medical implants and devices.
Chemical Engineering
Chemical engineering involves the design and operation of chemical processes for the production of valuable products. This field covers areas such as process engineering, thermodynamics, and reaction engineering. Engineering colleges offering chemical engineering courses provide students with the skills to work in industries such as pharmaceuticals, petrochemicals, and food processing.
Key Points:
Process Engineering: Learn about the design and optimization of chemical processes.
Thermodynamics: Study the principles of energy transfer and conversion in chemical systems.
Reaction Engineering: Understand the kinetics and dynamics of chemical reactions.
Robotics and Automation Engineering
Robotics and automation engineering is a rapidly growing field that focuses on the design and development of robotic systems and automated processes. This course covers topics such as robot kinematics, control systems, and artificial intelligence. By studying robotics and automation engineering, you can work on cutting-edge technologies that drive innovation in various industries.
Key Points:
Robot Design: Learn about the design and development of robotic systems.
Control Systems: Study the principles of controlling robotic movements and actions.
Artificial Intelligence: Understand the role of AI in robotics and automation.
Petroleum Engineering
Petroleum engineering involves the exploration, extraction, and production of oil and gas. This field requires a strong understanding of geology, fluid mechanics, and reservoir engineering. Engineering colleges offering petroleum engineering courses equip students with the skills to work in the energy sector and contribute to the efficient extraction of fossil fuels.
Key Points:
Reservoir Engineering: Learn about the characterization and management of oil and gas reservoirs.
Drilling Engineering: Study the techniques and technologies used in drilling operations.
Production Engineering: Understand the methods for optimizing oil and gas production.
Nuclear Engineering
Nuclear engineering involves the study and application of nuclear processes for energy production and other uses. This field covers topics such as nuclear reactor design, radiation protection, and nuclear materials. By studying nuclear engineering, you can work on technologies that harness the power of nuclear energy for various applications.
Key Points:
Reactor Design: Learn about the design and operation of nuclear reactors.
Radiation Protection: Study the principles of protecting people and the environment from radiation.
Nuclear Materials: Understand the properties and applications of materials used in nuclear processes.
Conclusion
Engineering courses offered by reputable engineering colleges can significantly boost your career prospects. By choosing the right course, you can gain the skills and knowledge needed to succeed in various engineering fields. Whether you're interested in civil engineering, mechanical engineering, or emerging fields like data science and robotics, there's an engineering course that can set you on the path to success.
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blueweave · 6 months ago
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Distributed Fiber Optic Sensor Market size at USD 1.44 billion in 2023. During the forecast period between 2024 and 2030, BlueWeave expects the Global Distributed Fiber Optic Sensor Market size to expand at a CAGR of 7.13% reaching a value of USD 2.08 billion by 2030. The Global Distributed Fiber Optic Sensor Market is propelled by the growing demand for efficient monitoring of machine systems in enterprises. Optical sensing technologies are being widely adopted across industries, such as automotive, aerospace, civil engineering, and energy, with Raman and Rayleigh effect-based sensing offering unique operational benefits. The oil & gas sector is experiencing rapid digitization and automation to meet the rising needs for productivity, efficiency, and safety. This trend is driven by increased offshore drilling activities and significant investments in new oil & gas reserves. Distributed temperature sensing is critical for downhole monitoring in offshore operations, aiding in flow control and production optimization by detecting issues like sand in downhole and assessing gas lift valve operations. This technology enhances production assessment and reduces losses in oil and gas production. Similarly, in civil engineering, the use of Distributed Fiber Optic Sensors (DFOS) is growing, primarily for structural health monitoring. These sensors are deployed in geotechnical structures, pipelines, bridges, and dams to better understand structural conditions and manage infrastructure efficiently. Next-generation sensors offer significant advantages by measuring strain, temperature, or pressure over numerous locations simultaneously, allowing real-time tracking of structural malfunctions in challenging environments. Hence, such trends are expected to boost the expansion of the Global Distributed Fiber Optic Sensor Market during the period in analysis.
Opportunity - Advancements in data analytics
The integration of artificial intelligence (AI) and machine learning (ML) technologies with distributed fiber optic sensors is revolutionizing data analytics and predictive maintenance. These advancements enable the analysis of voluminous sensor data to identify patterns and anomalies, optimizing operations and minimizing downtime. AI and ML algorithms, processing data in real-time, swiftly detect deviations from normal conditions, facilitating proactive maintenance interventions. Moreover, historical data analysis offers predictive insights, aiding in anticipating maintenance requirements and optimizing resource allocation. This synergy between distributed fiber optic sensors and advanced analytics empowers industries to enhance efficiency, improve asset performance, and mitigate risks effectively.
Sample Request @ https://www.blueweaveconsulting.com/report/distributed-fiber-optic-sensor-market/report-sample
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arpitadey30 · 7 months ago
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Global Position Transducers Market growth, trend, opportunity and forecast 2023-2030
Position Transducers Market
The Position Transducers Market is expected to grow from USD 1.70 Billion in 2022 to USD 2.60 Billion by 2030, at a CAGR of 5.30% during the forecast period.
Get the sample report: https://www.reliablebusinessinsights.com/global-position-transducers-market-r1297260
Position Transducers Market Size
Position transducers are devices used to measure linear or rotary positions of objects accurately. The global position transducers market research report categorizes the market based on type, including draw wire linear position transducers, incremental encoder, absolute position encoders, inductive proximity sensors, LVDT transducer, linear potentiometer, magnetostrictive transducer, and non-contact or laser linear position sensors. The report also segments the market by application, including metal processing industries, geotechnics, rubber and plastic injection presses, earth-moving and agricultural machines, blowing machines, renewable energies, machines in the automotive sector, pneumatic and hydraulic sensors, and the food industry, and by region, including North America, Asia Pacific, Middle East, Africa, Australia, and Europe. Leading market players include TE Connectivity, Honeywell, Gerfan, Rota Engineering, Novotechnik, Allergo Microsystems, Panasonic, and Qualcomm Technologies. Regulatory and legal factors specific to market conditions are also analyzed in the report.
Position Transducers Market Key Players
TE Connectivity
Honeywell
Gerfan
Rota Engineering
Novotechnik
Position Transducers Market Segment Analysis
One of the latest trends in the Position Transducers market is the integration of sensors with advanced technologies such as IoT and AI. The sensors are designed to capture position, acceleration, and temperature data, which is then analyzed using advanced data analytics tools to provide valuable insights to manufacturers and service providers. Moreover, the miniaturization of Position Transducers is also a major trend in the market, enabling its installation in small and confined spaces.
In conclusion, the Position Transducers market presents various growth opportunities with its wide target market and increasing demand for automation and motion control systems. However, challenges such as high costs and regular maintenance and calibration requirements need to be addressed to ensure a sustainable revenue growth path. By integrating advanced technologies, manufacturers can enhance their product offerings, which could lead to increased market adoption and revenue growth.
This report covers impact on COVID-19 and Russia-Ukraine wars in detail.
KEY PRODUCT APPLICATION COVERED
Metal Processing Industries
Geotechnics
Rubber and Plastic Injection Presses
Earth-Moving and Agricultural Machines
Blowing Machines
KEY PRODUCT TYPES COVERED
Draw Wire Linear Position Transducers
Incremental Encoder
Absolute Position Encoders
Inductive Proximity Sensors
Contact Info:
Krishna Sharma
US:- +1 507 500 7209Email:- [email protected]
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mgsusa · 1 year ago
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How Technology is positively affecting the Mining Industry?
Over the years, the mining industry has experienced significant transformations and advancements, thanks to the integration of cutting-edge technology. These changes have revolutionized the way mining projects are conducted, leading to notable improvements in efficiency, safety, and environmental stability. Let's delve into some of the ways technology is reshaping the age-old mining sector.
One of the most remarkable advancements in mining is the incorporation of sensor and geospatial technology. These innovations empower mining companies to gather accurate and real-time data about mineral deposits, geology, and environmental conditions. Such data plays a vital role in optimizing the extraction process, determining the most efficient methods, and minimizing waste.
According to FINEPRINT, a European Research Council (ERC) Consolidator Grant Project, mining activities globally cover 57,277 km² of lands. By implementing remote monitoring through wireless point sensors and scanning techniques, mining projects can adhere to environmental and geotechnical regulations while promoting sustainable practices.
Furthermore, the application of data analytics and artificial intelligence (AI) has made a positive impact on the mining industry. With data being the new commodity, AI algorithms can analyze information from various sources, identifying patterns and trends. This enables predictive maintenance, improved resource allocation, and better decision-making. As a result, the entire mining and metals industry has grown into a USD 1 trillion economy, as highlighted by the World Economic Forum. Real-time dashboards, such as those provided by platforms like MissionOS, are extremely valuable for mining companies in acquiring, understanding, and presenting critical data.
Maxwell GeoSystems' MissionOS stands out as a highly flexible platform, capable of catering to diverse site requirements and managing complex data sets with a focus on infrastructure and mining sectors. Developed entirely in-house, MissionOS benefits from a team of agile engineers and programmers who swiftly address specific development requests, truly comprehending the industry's unique needs.
MissionOS plays a crucial role in helping mining projects cope with varying geological characteristics of the ground by integrating digital data and production data into dynamic live 4D models. This adaptability is essential in meeting production cycles and targets within the dynamic mining industry of 2023.
Read full article : https://www.maxwellgeosystems.com/news/technology-impact-on-mining
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srikrishnainstitute · 3 years ago
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Top Engineering Branches to Pursue in 2021
2021
Top Engineering Branches to Pursue in 2021
SKIT
The engineering degree is one of the most sought-after qualifications in today’s job market, mainly because it responds to the practical needs of our society by applying the discoveries of sciences in every sector. With lucrative job offers waiting right after they graduate, engineering graduates are spoilt for choice as to which branch they can pursue.
The engineering degree focuses on specialization like industrial, civil, chemical, mechanical, biomedical, information engineering, etc., which sometimes poses a challenge for students to pick the proper discipline they could pursue.
In recent years a variety of engineering disciplines have emerged. Each engineering discipline has its perks and varied career opportunities. However, to achieve the career's goals and to reach the top of the profession, one has to choose the right discipline depending upon the interest and aptitude.
If you are confused about which discipline to go with, check out the top engineering branches to pursue in 2021 listed here. It will help you get an idea of the most popular engineering branches and their job prospects.
Electronics and communication engineering
Eager to learn the working of sensors, transistors, circuits, mobile phones, ipod – then the best choice for you is Electronics and Communication Engineering. ECE is one of the evergreen branch of Engineering and of course in top demand among the students to opt for further studies and has ample job opportunities. Here, You will be dealing with the design and construction of electrical circuits, the signal system, and communications, among other components. It finds its application in all fields like Education, Industries, Medical, Defence, Research & Development. Every graduate in engineering can become a programmer but ECE offers a high scope for the graduates to work in fields like Telecom sector, IT sector, instrumentation, VLSI designing, Robotics and Machine Learning, networking, large scale electronics and so on.
Computer Science Engineering
Just take a look around, and you will most certainly see some sort of computational device at work, be it a mobile phone, TV, laptop, or even a watch. In this technology-driven world, computers are everywhere. So, there is no surprise that the Computer Science Engineering is among the most popular engineering disciplines. Hence Computer Science is more appealing to Everyone !
In the last two decades, the IT industry has grown at a rapid pace, especially in India, making it the tech hub of the world. Thereby, it calls for opportunities for the young entrepreneurs also.
Students with keen interest in programming, software development and having good analytical skills can bet on computer science being the best choice. As a computer science student, you will be learning different programming languages and algorithms, and use them to design complex computational systems. Since computer systems have penetrated almost every industry, you will never be short of lucrative job options once you graduate.
Information Science & Engineering
An offshoot of Computer Science, Information Science & Engineering is another highly sought-after engineering branch. Like its counterpart, its popularity is largely due to the endless job possibilities in various sectors across public and private domains.
As a part of the Information Science & Engineering curriculum, you will be studying the application of computer science principles in communication, research, and business. Mainly the focus will be on the study of Operating systems, computer networks, learning different programming languages, algorithms, and their design.
A degree in Information Science & Engineering opens the world of limitless possibilities and opportunities. The rapid expansion and penetration of technology in our daily life have created numerous avenues where there is a growing demand for Information Science & Engineering graduates. Inclination towards technology can simplify a rather complex process and having these skills hint at Information Science & Engineering being your calling.
Mechanical engineering
Mechanical Engineering is one of the oldest and broadest fields of Engineering. It uses the combination of Engineering Physics and Mathematical Principles and applies to the materials for designing, analyzing and manufacturing. The discipline aims to train professionals interested in the production and maintenance of mechanical systems.
With the advancement of technology, the scope of mechanical engineering is also expanding. Today, mechanical engineers are employed in the field of manufacturing industries, aerospace industries, automotive industries, energy utilities, biomedical industries, Government sectors and the list continues.
Mechanical engineers do many researches in various fields like Aerodynamics and Fluid mechanics, Biomechanics, Combustion and Energy systems, Design and Manufacturing, Vibrations – Acoustics and Fluid-Structure Interaction, Materials and Structures.
Artificial Intelligence & Machine Learning Engineering
Humans have long dreamed of creating machines that could mimic their thought processes. Recent advancement in the scientific and technological front has pushed us closer to realizing that dream. With AI and machine learning now it's possible to create machines with autonomous learning and adaptation capabilities.
The endless potential of AI and machine learning in various fields has made this discipline hugely popular. With the rise in popularity, the demand for AI engineers is also rising rapidly. A degree in AI and machine learning will provide the necessary knowledge to understand how to design an AI system and the various possibilities it opens in today’s world. You will learn to create intelligent machines, by applying deep learning and data visualization methodologies.
AI and ML is one of the most sought-after engineering branches and it will open endless job opportunities in the field of technology, research, medicine, aviation and so on. We can find AI & ML in many advanced fields like Reinforcement Learning, Robotics, Automated Reasoning, Natural Language Processing, Text analytics, autonomous or driverless cars.
Civil Engineering
Civil Engineers are the central figures of the community development!! Civil Engineering innovations have their greatest impact on the quality of human lives. Yes, they design, build and maintain the foundation of our modern society with beautiful buildings, roads, bridges, canals, dams, and the list continues. This is one of the oldest disciplines of engineering and it primarily focuses on the construction of buildings and infrastructure. Every human-made structure standing today must have involved a civil engineer during its construction phase.
You must study varied subjects to become proficient in the civil engineering branch. A civil engineer can specialize in various fields, from construction engineering to transport, from geotechnics that is the study of the interaction between ground and consolidation systems to hydraulics.
Civil Engineers have plentiful job opportunities in various government and private sectors.
Conclusion
While there are many more engineering branches with their own opportunities, the ones mentioned here are the most popular. Understanding what each branch deals with, and the opportunities it leads to, are important things to consider while choosing an engineering branch. We hope that this guide elaborating the most popular engineering branches and what they deal with, would provide you some insights and the clarity to choose a branch of your interest. These being the core engineering branches, you can be sure of landing your dream job as soon as you graduate with your engineering degree.
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researchinsight · 3 years ago
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Global Geospatial Analytics Market 2021-2027:  DigitalGlobe, Alteryx, Fugro N.V.
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The global geospatial analytics market is anticipated to grow at a 13.8% CAGR during 2021-2027. Factors attributing to the growth of the geospatial analytics market include the rising number of AI and ML-based GIS solutions, advancement of smart cities and urbanization, development of big data analytics, and mounting deployment of IoT sensors across locations. The rising use of GPS devices, the growing trend towards integration and convergence of geospatial technologies, innovation of novel business models to leverage the demand for geospatial information will further accelerate the growth of the market.
The COVID-19 outbreak has provided significant opportunities for the geospatial analytics market owing to the rising use of smart wearable, robots, and drones. Moreover, the high-quality geospatial data allows models to handle the outbreak by providing information related to risk factors, setting specific characterization of disease transmission, and predicting pathogen and viral prevalence.
Request to get a free sample copy at https://www.vynzresearch.com/ict-media/geospatial-analytics-market/request-sample
Based on the vertical, the global geospatial analytics market can be divided into automotive, defense and intelligence, utility and communication, business, natural resources, government, and others. The defense and intelligence segment will have a significant share during 2021-2027 as military strategies are reliant on strategic intelligence. Geospatial information is a significant component of strategic alliance. Geospatial data helps in providing border security operations, provides information about situational awareness, rapid decision making, and enhances national security.
North America is anticipated to be the largest contributor to the geospatial analytics market owing to its wide adoption in applications like construction, agriculture, transportation, etc. There will be an increase in the demand for real-time information and location-based services that will increase the usage of mobile GIS technologies, resulting in a positive impact on the geospatial analytics market in the region.
Trimble has collaborated with Worldsensing who is an industry-leading manufacturer of geotechnical IoT monitoring systems to add a geotechnical portfolio to its geospatial automated monitoring portfolio. The collaboration aids survey, geotechnical and structural engineers to impeccably develop their monitoring business opportunities with a comprehensive solution that integrates geotechnical and geospatial data.
The prominent players in the geospatial analytics industry include DigitalGlobe, Alteryx, Fugro N.V., RMSI, Hexagon, SAP, Maxar Technologies, Trimble Navigation, MapLarge, Bentley Systems, Harris Corporation, ESRI, Pitney Bowes, General Electric Company, Oracle, and Google.
Source: VynZ Research
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architectnews · 4 years ago
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2 Murray Road, Hong Kong, China
2 Murray Road, HK Offices, China, Hong Kong Commercial Development, Modern Chinese Tower Building, Images
2 Murray Road in Hong Kong
23 Sep 2020
2 Murray Road, HK
Design: Zaha Hadid Architects
Location: Hong Kong, China
image © Arqui9
Located in the heart of Hong Kong’s central business district, the 36-storey Murray Road project for Henderson Land replaces a multi-storey car park to create an urban oasis adjacent to Chater Garden within a short walking distance to both Central and Admiralty MTR metro stations.
images © Arqui9
With its base elevated above the ground to shelter courtyards and gardens cultivated with trees and plants in the centre of one of the world’s busiest cities, the design creates new civic plazas that are enveloped by nature.
Echoing the organic forms of the natural world; the redevelopment connects with the adjacent public gardens and parks. These tranquil outdoor areas flow into the generous communal spaces of the interior; the craftsmanship and precision of the curved glass façade enhancing this seamless connectivity between the building’s interiors and the surrounding gardens and city beyond.
image © MIR
The design reinterprets the structural forms and layering of a Bauhinia bud about to blossom. Known as the Hong Kong orchid tree, the Bauhinia x blakeana was first propagated in the city’s botanic gardens above the Murray Road site and its flowering bud features on Hong Kong’s flag.
image © PixelFlakes
At the core of the city’s financial district, the project is situated at the east-west / north-south junction of Hong Kong’s network of elevated pedestrian walkways; connecting directly with surrounding gardens, shops and restaurants as well as the offices of leading financial and civic institutions.
A high-tensile steel structure provides very wide span (up to 26m) of naturally lit, column-free, Grade A office space with a 5 metre floor-to-floor height giving maximum flexibility; its vertical core located on the eastern side of the building to optimise views of Chater Garden and the city’s renowned skyline to the west.
images © MIR
Working with the Henderson Land and Arup’s Building Sustainability Team, the design has achieved LEED Platinum and WELL Platinum pre-certification together with the highest 3-Star rating of China’s Green Building Rating Program. The design, procurement and construction targets full certification at occupancy.
The building’s smart management system creates a contactless pathway for all occupants from the street to their workstation that eliminates direct contact with communal surfaces and includes AI-assisted lift controls. Using a mobile phone, contactless smart card or biometric recognition, occupants can enter the building and pass security, call lifts to their office floor and access other zones such as lounge areas and washrooms.
Arranged for access on multiple levels, the large double-height foyer at ground level welcomes staff and visitors with its interplay of natural light, planting and organic forms leading up to the second floor public lobby on the city’s elevated walkway network. Suspended above the canopy of its surrounding tress, the sculptural glass façade of this expansive lobby defines a variety of nested spaces, each refined for purpose and experience.
Designed for intuitive navigation and to accommodate evolving patterns of working with enhanced workplace flexibility, the colour palettes of these finely detailed spaces differentiate key destinations within the tower.
Located on the refuge floor, the Sky Garden is an outdoor recreational space with running track and an aquaponics planting network that acts as an effective biological air-purifying filter by consuming contaminants.
The banqueting hall at the top of the tower offers panoramic views of the city’s surrounding skyline. Hosting a variety of public and corporate events, its glazed roof and façade will ensure this space becomes one of the city’s most memorable venues.
Designed to withstand the region’s powerful summer typhoons, the façade is comprised of 4-ply, double-laminated, double-curved insulated glass units – the first of their kind in Hong Kong – to effectively insulate the building and reduce its cooling load as well as build resilience.
Hybrid ventilation is controlled by the building’s automated management system and enables all office levels to be naturally ventilated. This natural ventilation can be supplemented when required with mechanical dehumidification and filtration to further enhance the indoor environment and air quality.
The building’s air quality monitoring system will detect the degree of occupancy in any interior and automatically adjust indoor air temperature, humidity and fresh air volume to meet demand. These smart systems learn to accurately predict daily occupancy trends to optimise energy demand, ensuring increased efficiencies with lower energy consumption.
Two weather stations installed at street level and roof level will monitor real-time outdoor conditions including PM10, PM2.5, ozone, daylight (solar irradiation), wind speed (m/s), rainfall (mm), temperature (oC), humidity (%) and noise (dB). These weather stations will inform occupants of outdoor air quality and are connected to the building’s automated management system to adjust the tower’s hybrid ventilation as required, ensuring the optimum supply of high quality outdoor air.
The redevelopment also incorporates a solar responsive ventilator (SRV) along the western perimeter of each floor to enhance the comfort of occupants. Powered by photovoltaics, the low speed, silent SRV creates a channel of air that has the ability to adjust solar radiative heat to the perimeter zone for further comfort.
A 26% reduction in electricity demand will be achieved with the use of smart chiller plant optimization, high-efficiency HVAC equipment and daylight sensors that reduce artificial lighting during periods of sufficient natural light.
A top-down construction method is employed to accelerate the redevelopment programme on-site by implementing deep basement and above-ground construction at the same time.
With construction works beginning last year and its procurement targeting embodied carbon reductions as well as the use of recycled materials, 2 Murray Road looks to the future with the integration of advanced design, construction and operational technologies.
2 Murray Road in HK, China – Building Information
Height: 190m (36 levels including ground, 5 below ground) Floor area: 43,200 sq.m Site coverage: 65% developed
Project Team Client: Henderson Land Architect: Zaha Hadid Architects (ZHA) Design: Patrik Schumacher ZHA Project Directors: Jim Heverin; Sara Klomps, Chris Lepine ZHA Project Team: Brandon Gehrke, Bidisha Sinha, Carlos Michel-Medina, Edgar Payan, Eddie Can, Fernando Alvarenga, Hazel Wu, Inês Fontoura, Irena Predalic, Janet Cheung, Kaloyan Erevinov, Kar-Hwa Ho, Karoly Markos, Kelvin Ma, Kylie Chan, Magda Smolinska, Melodie Leung, Michael Sims, Muriel Boselli, Nailu Chen, Oliver Bray, Paulo Flores, Simon Yu, Tim Yeung, Torsten Broeder, Yun Zhang ZHA Competition Team: Edgar Payan, Adrian Yiu, Brandon Gehrke, Carlota Boyer, Eddie Can, Fernando Alvarenga, Irena Predalic, Karoly Markos, Lorena Espaillat Bencosme, Maria Tsironi, Michail Desyllas, Nailu Chen, Paulo Flores, Philip Siedler, Saman Dadgostar, Torsten Broeder, Uli Blum
Local Architect & AP: Ronald Lu & Partners (Hong Kong) Building Services Engineering: WSP (Asia) Structural & Geotechnical Engineering: LERA Consulting Structural Engineers (Steel); C M Wong & Associates; Eckersley O’Callaghan Asia (Footbridges & Banquet Hall) Facade Engineering: Group 5F; Meinhardt Facade Technology (Hong Kong) Lighting consultant: LichtVision; Speirs + Major (Landscape & Media Façade) Landscaping: PWP Landscape Architecture; Earthasia Quantity Surveyor: Rider Levett Bucknall Sustainability & Civil Engineering: Arup Traffic consultant: MVA (Hong Kong) Acoustic consultant: Shen Milsom & Wilke Vibration consultant: C.F. Ng and Associates AV / IV / Specialist Media consultant: Ptarmigan Integration Limited Security consultant: UCS Hong Kong Signage & Wayfinding consultant: Atelier Pacific
image © Arqui9
Renders by Arqui9, MIR and PixelFlakes
Copyright © Zaha Hadid Architects.
Zaha Hadid Architects
2 Murray Road, Hong Kong, China images / information from Zaha Hadid Architects (ZHA)
Jockey Club Innovation Tower Hong Kong – external link to ZHA website
Location: 11 Yuk Choi Road, Block V, The Hong Kong Polytechnic University, Hung Hom, Hong Kong, Eastern Asia
Hong Kong Architecture Designs
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efielddata · 4 years ago
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Application of Machine Learning/Artificial Intelligence in Geotechnical Scheduling
Machine Learning/Artificial Intelligence can be used in engineering service industries for intelligent process improvement and reactive scheduling. We at eFieldData are heading in this direction. We have spent time understanding the needs of companies in the industry.
https://efielddata.com/application-of-machine-learing-ai-in-geotech.html
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sixtus01 · 5 years ago
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Artificial Intelligence for Civil Engineers: Part 2
Artificial Intelligence for Civil Engineers: Part 2
Artificial Intelligence methods have been extensively used in the fields of civil engineering applications e.g. construction management, building materials, hydraulic optimization, geotechnical and transportation engineering and newly added EHS.
Artificial intelligence technology nowadays plays a key role to improve and support the construction sector, Artificial intelligence (AI) usage in…
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workofcer · 6 years ago
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Leading Geotechnical Publication Features Professor Iskander
September 19, 2018
Groundbreaking Research Highlighted in Pile Driver Long before Magued Iskander became NYU Tandon’s Chair of the Department of Civil and Urban Engineering and a leading expert in geotechnical engineering, he was a student discovering his career path just like the many students walking the halls of NYU Tandon today.
Iskander’s journey from university student to renowned educator features prominently in the latest issue of the Pile Driver magazine, a publication of the Pile Driving Contractors Association. The magazine’s feature article spotlights Iskander’s storied 30-year career, tracing his early days as a civil engineer in the Egyptian armed forces, to his doctoral research on the capacity of piles in sand, and up through his current research at NYU Tandon.
Pile drivers, also known as hammers, are devices engineers use to install piles, or poles, into soils to support buildings, skyscrapers, and other structures with deep foundations. (The magazine highlights the latest trends and technologies for pile driving, and reaches a global audience of industry professionals and engineering firms.)
Known internationally for his research on replacing conventional piling with recycled polymeric piling in structures near water, Iskander is also recognized in the article for his development of transparent soil surrogates — surrogates that are used to study the behavior of soils near foundations in model tests. His visualization techniques have widespread impact and applications, with 30 universities having employed them. His present work is experimenting with computer science and artificial intelligence (AI) and its potential to predict pile capacity.
Reflecting on his journey from a young student to his current place at the helm of NYU Tandon’s Civil & Urban Engineering department, Iskander remembers his lifelong fascination with foundations and piling. “I came to America exactly 30 years ago to study foundation engineering. In fact, I wrote my dissertation on the behavior of pipe piles in sand,” Iskander notes. “It is very gratifying that on the 30th anniversary of me arriving to the U.S. as a student, I have been recognized in one of the top foundation engineering trade publications, and one especially dedicated to piling.”
In the feature, Pile Driver also details Iskander’s dedication to teaching the next generation of civil and geotechnical engineers, in particular his involvement in Tandon’s K-12 STEM programs. Helping inspire students as young as second grade envision themselves as scientists and engineers, these programs bring authentic tools such as sensors into classroom experiments, engaging students who typically receive less opportunities and resources.
Almost 33 years since he graduated from university, Iskander recognizes that hard work and perseverance are at the heart of wealth and success, and emphasizes that students who take shortcuts seldom reach their goals. 
He also encourages students to always help others and expect nothing in return: “Those you help may never be able to pay you back, but somehow you will be repaid in full and more.”
Originally published at: https://engineering.nyu.edu/news/leading-geotechnical-publication-features-professor-iskander
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vilasmrf · 7 years ago
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Geotechnical Instrumentation and Monitoring Market: Development Trends and Worldwide Growth 2018-2023
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Global Geotechnical Instrumentation and Monitoring Market: Component (Hardware, Software, Services), Technology (Wired Networking, Wireless Networking), Application (Tunnels and Bridges, Buildings, Dams, Others), Industry Vertical - Forecast Till 2023
 Market synopsis
Geotechnical instrumentation benefits the engineers and construction workers by providing data in every stage of a project. Geotechnical instrumentation and monitoring are essential for the effective completion of construction projects. The prominent reasons for deploying instrumentation is its capability of providing quality control, construction control, monitoring in-service performance, design verification, and many others. Geotechnical instrumentation enhances the quality of work and makes it easy to document the work done, with greater accuracy.
 The rising awareness and various advantages of geotechnical instrumentation and monitoring and increasing investments across the developing countries like China and India are driving the market. The technological advancements in the field of sensors and prominence of instrumentation in untapped economies are expected to drive the market through the forecast period. However, high deployment costs of monitoring solutions are hampering the market growth.
 Sample Report Available @ https://www.marketresearchfuture.com/sample_request/5842
 Segmentation
On the basis of the component, the market is segmented into hardware, software, and services. The hardware is further sub-segmented into sensors, piezometers, inclinometers, extensometers, and others. The service is further sub-segmented into installation and designing service, monitoring services, and others.
On the basis of technology, the market is segmented into wired networking and wireless networking.
On the basis of application, the market is segmented into tunnels and bridges, buildings, dams, and others.
On the basis of industry vertical, the market is segmented into construction and infrastructure, energy & power, oil & gas, agriculture, and other.
On the basis of region, the market is segmented into North America, Europe, Asia Pacific, and rest of the world.
 Regional analysis
The global Geotechnical Instrumentation and Monitoring Market is estimated to grow at a significant rate during the forecast period. The geographical analysis of geotechnical instrumentation and monitoring market marks the study for regions like North America, Europe (including Russia), Asia Pacific (including Australia and New Zealand) and rest of the world (including the Middle East, Africa, and South America). Among these, the market is led by North America. The reason for this robust growth in North America is due to the increasing number of projects that are deploying geotechnical instrumentation and monitoring solutions. This also includes the initiatives by the government to implement this technology for the safety of the infrastructure in this region. Another major factor contributing to the growth of geotechnical instrumentation and monitoring in North America is the advancement in positioning systems.
 However, the high cost of installation and a slower rate of adoption restrain the growth of the market in the developing countries like China, India, and the Middle East & Africa. On the other hand, Europe comprises most of the key players that operate in the geotechnical instrumentation and monitoring market. This higher concentration of key players permits the European region to compete closely with North America in terms of the market share. Asia Pacific is expected to be the fastest growing region in geotechnical instrumentation and monitoring market.
 Key players
Some of the major players in global geotechnical instrumentation and monitoring market include Deep Excavation LLC (U.S.), Geocomp Corporation (U.S.), DST Consulting Engineers Inc (Canada), Fugro (Holland), Monitoring Solution Providers Pte Ltd (Singapore), S. W. Cole Engineering, Inc (U.S.), Coffey International (Australia), WJ Groundwater Limited (U.K), EKO Instruments (Japan), Geotechnics Limited (U.K),  among others
Other vendors include GaiaComm Ltd. (Greece), M.A.E. Advanced Geophysics Instruments (Italy), Innovative Geotechnical Instrumentation (India), Geotechnics Ltd. (New Zealand), Quantum Geotechnical (U.K), Geotechnical Services, Inc (U.S.), Petra Geotechnical, Inc. (U.S.), American Geotechnical, Inc.(U.S.), Wardle Drilling & Geotechnical Ltd. (U.K), Land-Drill Geotechnics Ltd (U.K.), Cascade Geotechnical Inc. (Canada), Canterbury Seismic Instruments Ltd (New Zealand), Ace Instrument Co., Ltd (South Korea), HMA Geotechnical Systems Australia Pty (Australia), Geotest Instrument Corporation (U.S.), Marton Geotechnical Services Ltd (MGS) (U.K), among others.
 The prominent players constantly keep innovating and investing in research and development to present a cost-effective portfolio. There have been recent mergers and acquisitions among the key players, where the business entities expect to strengthen their reach to their customers
 Access Report Description @ https://www.marketresearchfuture.com/reports/geotechnical-instrumentation-monitoring-market-5842
 Intended Audience
Enterprise     AI service providers
Enterprise     AI solution vendors
Application     developers
System     developers and integrators
Government     agencies
Application     end-user
Research     Firms
 About Market Research Future:
At Market Research Future (MRFR), we enable our customers to unravel the complexity of various industries through our Cooked Research Report (CRR), Half-Cooked Research Reports (HCRR), Raw Research Reports (3R), Continuous-Feed Research (CFR), and Market Research & Consulting Services.
 MRFR team have supreme objective to provide the optimum quality market research and intelligence services to our clients. Our market research studies by Components, Application, Logistics and market players for global, regional, and country level market segments, enable our clients to see more, know more, and do more, which help to answer all their most important questions.
 In order to stay updated with technology and work process of the industry, MRFR often plans & conducts meet with the industry experts and industrial visits for its research analyst members
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