Mining Operations Collision Avoidance System Market Getting Back To Stellar Growth Ahead:

A mining operations collision avoidance system is a technological solution designed to prevent collisions and accidents in mining environments. It utilizes various sensors, communication systems, and advanced algorithms to detect and mitigate potential collisions between mining vehicles, equipment, and personnel.https://www.htfmarketintelligence.com/report/global-mining-operations-collision-avoidance-system-market

Why Health & Safety Regulations Are Accelerating Equipment Upgrades in Mines

The mining industry is entering a transformative era driven by rising productivity demands, stringent safety standards, and the global push toward sustainability. According to recent market analysis, the mechanized mining equipment market was valued at US$ 102.8 Mn in 2023 and is projected to grow at a CAGR of 8.8% from 2024 to 2034, reaching US$ 260.1 Mn by the end of 2034.

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 Mechanized mining is reshaping how mineral resources are extracted. Through automation, digital control systems, and remote technologies, it enhances productivity while minimizing human intervention and associated risks.

Why Mechanization Matters in Modern Mining

The demand for increased mining efficiency is a key factor fueling the adoption of mechanized equipment. Traditional labor-intensive methods are no longer sufficient to meet the global appetite for raw materials—especially as mines go deeper and conditions become more hazardous.

Mechanization offers clear advantages:

Lower labor and operational costs

Improved worker safety

Faster extraction processes

Enhanced precision and reduced downtime

Mining companies are increasingly deploying trackless equipment, hydropower systems, rock-cutting machines, monorail transport systems, and automated drilling rigs to streamline operations across underground and surface mining sites.

Health & Safety Regulations Fuel Market Expansion

Stringent safety standards across the globe are pushing companies to replace outdated, labor-intensive practices with smart and safe alternatives. High-profile accidents in recent years, such as the tragic collapse in Inner Mongolia in 2023 that claimed 53 lives, have underscored the need for proactive safety measures.

In response, countries like China have implemented stricter regulations to improve production safety in coal mines. Mechanized equipment supports this shift by enabling automated monitoring, early risk detection, and safer working conditions. Robotics and AI-powered sensors are increasingly used for patrols, blast monitoring, and structural assessments.

Technology-Driven Innovations Redefine Equipment Capabilities

The competitive landscape is evolving rapidly as key players invest in digitalization and autonomous technology. Companies such as Caterpillar, Sandvik, Epiroc, Komatsu, and Hitachi are developing next-generation solutions that combine hardware excellence with cutting-edge software.

These innovations include:

Electric rotary drill rigs for reduced emissions

Autonomous haul trucks for open-pit mining

Collision-avoidance systems and AI-based analytics

Lightweight, modular underground mining vehicles

Notably, in 2024, Sandvik secured an order to supply electric rotary drill rigs to the Tsagaan Suvarga Project in Mongolia. Similarly, Epiroc won a contract to deliver underground equipment to Shandong Gold Group in China—highlighting a growing trend of smart mining investments.

Asia Pacific Leads Global Market Share

Geographically, Asia Pacific dominates the mechanized mining equipment market, driven by robust demand from China and India. The region accounted for the largest market share in 2023, fueled by expanding mining operations and significant infrastructure projects.

India, with over 1,400 operational mines, is investing in both metallic and non-metallic mineral exploration.

China is pioneering the development of smart mines, leveraging 5G and automation technologies. Shaanxi Coal Group’s Caojiatan Coal Mine exemplifies this trend.

In contrast, Europe’s market growth is being powered by an increasing focus on sustainability. Major mining companies in the region are modernizing operations to reduce environmental impact and comply with emission regulations.

Challenges in Market Growth

Despite its strong growth trajectory, the mechanized mining equipment market faces challenges:

High upfront investment: Introducing mechanization demands significant capital for advanced machinery and systems.

Technical integration: Seamless coordination between old and new systems can be complex.

Workforce training: Skilled labor is needed to operate and maintain advanced digitalized equipment.

Nonetheless, these hurdles are being steadily addressed as mining companies recognize the long-term benefits of mechanized operations, especially in high-risk or high-yield mining environments.

The Road Ahead: Safer, Smarter, and Sustainable Mining

As mining activities continue to intensify worldwide, mechanized equipment will play a pivotal role in shaping the future of the industry. Driven by the twin goals of efficiency and safety, manufacturers are expected to push the boundaries of innovation—introducing even more intelligent, autonomous, and environmentally-friendly machines.

The mechanized mining equipment market is poised for robust expansion over the next decade. Stakeholders who invest in the right technologies and strategies today will be better positioned to capitalize on tomorrow’s mining revolution.

⛏️🚜 Mining Robots? Autonomous Machines Are Digging Up a $10.3B Market!

The adoption of autonomous mining vehicles is revolutionizing the mining industry by enhancing safety, efficiency, and productivity in harsh environments. 

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These self-driving vehicles, including autonomous haul trucks, drills, and loaders, utilize AI, LiDAR, GPS, and real-time data analytics to navigate complex terrains and optimize material transportation. With machine learning-driven route optimization and collision avoidance systems, these vehicles significantly reduce operational risks while ensuring continuous, 24/7 mining operations. By minimizing human intervention in hazardous conditions, such as underground mines and unstable open pits, companies are reducing accidents and improving overall worker safety.

Beyond automation, connected fleets and IoT-based predictive maintenance enable real-time monitoring of vehicle performance, fuel consumption, and wear-and-tear analytics. The integration of 5G networks and edge computing ensures seamless communication between autonomous vehicles, optimizing fleet coordination and reducing downtime. Additionally, the rise of electric and hybrid-powered mining vehicles is contributing to sustainability efforts by lowering carbon emissions and fuel costs. As demand for smart mining solutions increases, autonomous mining technology is set to redefine resource extraction, operational efficiency, and environmental responsibility in the mining sector.

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Exploring the Underground Mining Vehicles Market Opportunities and Challenges Forecast (2024-2031)

The underground mining vehicles market is undergoing significant transformations as technological advancements, environmental considerations, and industry demands push the boundaries of traditional mining practices. Underground mining vehicles play a crucial role in modern mining operations by transporting materials, personnel, and equipment in underground mines' confined, challenging conditions. This article explores the opportunities and challenges in the underground mining vehicles market, with a forecast from 2024 to 2031.

What Are Underground Mining Vehicles?

Underground mining vehicles are specialized machines designed to operate in subterranean environments where traditional vehicles cannot function. These vehicles are engineered to navigate narrow passageways, steep inclines, and hazardous conditions typical of underground mining operations.

Types of underground mining vehicles include:

Loaders: Used to transport materials within mines.

Haul Trucks: Designed for heavy loads and long distances within tunnels.

Shuttle Cars: Specialized vehicles for transporting coal or ore from the mining face to a loading area.

Drilling Rigs: Equipment used for drilling boreholes for exploration or extraction.

These vehicles are critical to improving productivity, ensuring safety, and reducing operational downtime in underground mining. Their ability to withstand harsh environments, combined with advancements in automation and safety features, drives their demand globally.

Market Growth Forecast (2024-2031)

The global underground mining vehicles market is projected to grow at a CAGR of 3% from 2024 to 2031. This growth can be attributed to several key factors:

Technological Advancements: Automation, electrification, and data analytics are revolutionizing underground mining operations. Companies are investing heavily in automated vehicles that improve efficiency, reduce costs, and minimize human error. Autonomous vehicles and remotely operated vehicles (ROVs) are becoming more prevalent, allowing for safer and more efficient mining operations.

Increased Safety Regulations: Stringent safety regulations are driving the demand for vehicles equipped with advanced safety systems, such as collision avoidance technology, real-time monitoring, and enhanced ventilation systems. Governments and regulatory bodies are enforcing stricter laws to protect mine workers, which in turn is propelling the adoption of safer underground mining vehicles.

Rising Demand for Minerals and Metals: As the demand for minerals and metals continues to grow, driven by industries such as construction, electronics, and renewable energy, mining companies are exploring new underground deposits. This is creating a higher demand for specialized mining vehicles to access these resources in deeper and more complex mining environments.

Opportunities in the Underground Mining Vehicles Market

Adoption of Electric Vehicles (EVs): One of the most exciting opportunities in the underground mining vehicles market is the adoption of electric vehicles (EVs). Traditional diesel-powered vehicles emit harmful gases, contributing to air quality issues in underground mines. Electric mining vehicles eliminate these emissions, improving working conditions and reducing the need for extensive ventilation systems. Moreover, EVs reduce fuel costs and maintenance requirements, making them an attractive option for mining companies looking to lower operational expenses.

Automation and AI Integration: The integration of artificial intelligence (AI) and automation is reshaping the underground mining industry. Automated mining vehicles can operate 24/7 with minimal human intervention, increasing productivity and reducing labor costs. AI-driven systems can optimize vehicle routes, monitor equipment health, and predict maintenance needs, further enhancing operational efficiency.

Sustainability and Environmental Regulations: As the mining industry faces growing scrutiny over its environmental impact, there is a growing emphasis on sustainability. Mining companies are investing in energy-efficient vehicles and adopting low-emission technologies to reduce their carbon footprint. The push towards sustainable mining practices presents a significant opportunity for vehicle manufacturers to develop innovative, eco-friendly solutions.

Challenges Facing the Underground Mining Vehicles Market

High Initial Costs: One of the primary challenges in the adoption of advanced underground mining vehicles is the high initial cost. The shift to automated and electric vehicles requires substantial capital investment, which can be a barrier for smaller mining companies. Although these technologies offer long-term savings, the upfront costs can deter adoption, particularly in developing regions.

Infrastructure Limitations: Underground mines, especially older ones, may not have the necessary infrastructure to support modern mining vehicles, particularly electric and autonomous ones. Retrofitting mines to accommodate these vehicles can be costly and time-consuming. Additionally, the charging infrastructure for electric vehicles in underground settings is still in its infancy, posing another hurdle to widespread adoption.

Skilled Workforce Shortage: The rise of automation and advanced technologies requires a skilled workforce to manage and maintain these systems. However, the mining industry is facing a shortage of qualified workers with the technical expertise needed to operate and service automated mining vehicles. This shortage is particularly pronounced in remote and underdeveloped regions, where mining operations are often located.

Environmental and Social Concerns: While the push for electric and automated vehicles is a step towards reducing the environmental impact of mining, there are still concerns about the long-term sustainability of these solutions. The mining industry itself is under pressure to minimize its ecological footprint, and there are growing demands for transparency and responsibility in how resources are extracted.

Regional Insights

The underground mining vehicles market is experiencing growth across multiple regions, with key drivers varying by location:

North America: Technological innovation and automation are driving the market, particularly in the U.S. and Canada.

Europe: The focus is on electrification, with stringent environmental regulations pushing the adoption of electric mining vehicles.

Asia Pacific: The rapid industrialization in countries like China, India, and Australia is fueling demand for underground mining vehicles.

South America: Brazil and Argentina are witnessing increased mining activities, driving the demand for efficient underground vehicles.

Middle East & Africa: The region is rich in mineral resources, and mining companies are investing in modern vehicles to enhance efficiency and safety.

Conclusion

The underground mining vehicles market is poised for steady growth from 2024 to 2031, driven by technological advancements, environmental regulations, and the rising demand for minerals and metals. Opportunities lie in the adoption of electric and automated vehicles, which promise to enhance safety, reduce costs, and improve sustainability. However, the industry must navigate challenges such as high initial costs, infrastructure limitations, and a skilled workforce shortage.

As mining companies continue to explore deeper and more complex deposits, the demand for specialized underground mining vehicles will only increase, offering significant growth potential for manufacturers and technology providers in the sector.

Mining Automation Companies - Caterpillar (US), Komatsu Ltd. (Japan) and Sandvik AB are the Key Players

The global mining automation market size is expected to grow from USD 3.6 billion in 2024 to USD 5.1 billion by 2029, at a CAGR of 7.2% from 2024 to 2029.

Mining automation offers a controlled, safe environment for surface and underground activities that safeguard workers and maintenance personnel. This technology reduces the total cost of ownership and maintenance expenses while also boosting productivity and safety. In mining operations, automation is accomplished through the use of dedicated software, such as autonomous haulage systems and collision detection and avoidance systems, as well as automated hardware, such as autonomous haulage/mining trucks, autonomous drilling rigs, underground LHD loaders, and others.

Underground Mining Equipment Market : A Comprehensive Overview

Mining has been an essential part of human civilization for centuries, providing the resources that fuel our technological advancement and infrastructure development. Underground mining, in particular, has seen significant growth and evolution over the years. In this article, we will explore the Underground Mining Equipment Market, from its historical roots to the advanced machinery that drives it today.

Evolution of Underground Mining

Mining operations have come a long way from the rudimentary tools used by early civilizations. The need for deeper and more efficient mining processes led to the development of underground mining. Initially, hand tools and animal labor were used to extract valuable resources from beneath the earth's surface. However, as the demand for minerals and metals increased, so did the need for more sophisticated equipment.

Importance of Advanced Equipment

Modern underground mining heavily relies on advanced equipment for several reasons. Firstly, these machines significantly enhance productivity, allowing for the extraction of larger quantities of resources in a shorter time. Second, they improve safety, reducing the risk to miners by automating and streamlining hazardous tasks. This combination of efficiency and safety is paramount in today's mining industry.

Types of Underground Mining Equipment

Drills

Drills are fundamental in the mining industry. They create blast holes for explosives, enabling the extraction of ore and minerals. Drills have evolved from pneumatic devices to sophisticated hydraulic machines.

Loaders

Loaders are used to transport excavated material from the mining site. They are available in various sizes and capacities, making them versatile tools in the underground mining process.

Trucks

Underground mining trucks are specially designed to navigate the challenging terrain of mines. They transport materials to the surface, ensuring efficient logistics within the mine.

Excavators

Excavators are used for digging and removing debris. Their precision and power make them indispensable for various mining tasks.

Technological Advancements

Automation

Automation has revolutionized underground mining. Autonomous vehicles and equipment controlled remotely improve safety and increase efficiency. These advancements reduce the need for human presence in dangerous areas.

Safety Measures

Safety is a top priority in mining. Advanced equipment is equipped with safety features such as proximity detection systems and collision avoidance technology, reducing the risk of accidents.

Key Market Players

Several companies dominate the Underground Mining Equipment Market, offering a wide range of products and services. These market players invest heavily in research and development, ensuring that their equipment remains at the forefront of technological advancement.

Global Market Overview

The underground mining equipment market is global in scope. Mines are operational on every continent, and the demand for equipment spans the world. Asia-Pacific, North America, and Europe are the key regions driving market growth.

Market Growth Factors

Increasing Demand for Metals and Minerals

The growing global demand for metals and minerals, driven by industries such as construction, manufacturing, and renewable energy, fuels the expansion of the underground mining equipment market.

Growing Investments in Mining

As the value of minerals and metals continues to rise, investments in mining operations have also increased, leading to the need for more advanced equipment.

Challenges in the Industry

Environmental Concerns

Mining operations often face scrutiny for their environmental impact. Reducing the ecological footprint of mining is a constant challenge for the industry.

Cost Implications

The initial cost of advanced mining equipment can be substantial, posing challenges for smaller mining operations.

Future Outlook

The underground mining equipment market is poised for continued growth. As technology evolves and environmental concerns are addressed, the industry will find innovative ways to extract valuable resources sustainably.

In conclusion, the underground mining equipment market plays a pivotal role in resource extraction, with advanced equipment driving efficiency and safety. As the demand for metals and minerals continues to rise, the industry's future remains promising.

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Air Horn Systems Market Size 2023

New Jersey, United States – The Air Horn Systems Market is the title of another report delivered by IBI. The paper goes through significant development techniques, drivers, potential open doors, key fragments, Porter’s Five Forces examination, and the cutthroat scene exhaustively. This exploration can assist with promoting players, and financial backers; VPs, partners, and new participants get a superior comprehension of the business and figure out what moves to make to acquire an upper hand.

The Worldwide Air Horn Systems market size is estimated to be worth USD million in 2023 and is forecast to a readjusted size of USD million by 2030 with a healthy CAGR during the review period. It also shows the importance of the Air Horn Systems market main players in the sector, including their business overviews, financial summaries, and SWOT assessments.

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The Major Players Covered in this Report: Oglaend (Hilti), Eaton, Indiana, Atkore, Korvest, Treadwell, Niedax, Thomas & Betts (ABB), Unitech, Schneider Electric, Indiana, Real Safety, MP Husky, Omkar Composites Pvt ltd, Sharda Cable Trays Pvt. Ltd., Ferrotech Structurals, Fiber Tech Composite Private Limited, Fibex, EPP Composites, ERCON Composites, Hebei Longxin, Jiansu Huapeng, Hebei Chuangye, Zhenjiang Shenlong, King Sitong

This study also covers company profiling, specifications and product picture, sales, market share, and contact information of various regional, international, and local vendors of Global Air Horn Systems Market. The market proposition is frequently developing ahead with the rise in scientific innovation and M&A activities in the industry. Additionally, many local and regional vendors are offering specific application products for varied end-users. The new merchant applicants in the market are finding it hard to compete with international vendors based on reliability, quality, and modernism in technology.

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The segments and sub-section of Air Horn Systems market is shown below:

The Study is segmented by the following Product/Service Type:

FRP Cable Trays and Ladders

Cable Conduits

Cable Trunking

Cable Connectors and Glands

Cable Raceway

Cable Junction Box

Other Types

Major applications/end-users industry are as follows:

IT and Telecom

Manufacturing

Energy & Utility

Oil and Gas

Mining

Other

Regional Analysis for Global Air Horn Systems Market:

• APAC (Japan, China, South Korea, Australia, India, and the Rest of APAC; the Rest of APAC is further segmented into Malaysia, Singapore, Indonesia, Thailand, New Zealand, Vietnam, and Sri Lanka)

• Europe (Germany, UK, France, Spain, Italy, Russia, Rest of Europe; Rest of Europe is further segmented into Belgium, Denmark, Austria, Norway, Sweden, The Netherlands, Poland, Czech Republic, Slovakia, Hungary, and Romania)

• North America (U.S., Canada, and Mexico)

• South America (Brazil, Chile, Argentina, Rest of South America)

• MEA (Saudi Arabia, UAE, South Africa)

Furthermore, the years considered for the study are as follows:

Historical year – 2017-2023E

Base year – 2022

Forecast period – 2023 to 2030

Collision Avoidance System Market Report Covers Detailed Industry Scope, Future Scenario and Elaborates Outlook to 2032

The Collision Avoidance System market has experienced significant growth in recent years, driven by the increasing demand for advanced safety solutions in the automotive and industrial sectors. Collision avoidance systems, also known as collision mitigation systems, are designed to prevent or reduce the severity of collisions by detecting obstacles in a vehicle's path and taking corrective actions to avoid potential accidents. These systems use a combination of sensors, cameras, radars, and LiDAR technologies to monitor the surrounding environment and provide real-time alerts to drivers or automatically apply brakes to prevent collisions.

In the automotive industry, the rising focus on vehicle safety and the growing adoption of advanced driver-assistance systems (ADAS) have been instrumental in driving the Collision Avoidance System market. Governments and regulatory authorities worldwide are increasingly mandating the inclusion of collision avoidance technologies, such as automatic emergency braking (AEB) and lane departure warning (LDW), in vehicles to reduce road accidents and fatalities.

Moreover, the increasing popularity of electric and autonomous vehicles has further accelerated the demand for collision avoidance systems. As self-driving technology advances, the need for robust collision avoidance solutions becomes critical to ensure the safety of passengers, pedestrians, and other vehicles on the road.

In the industrial sector, collision avoidance systems are becoming increasingly prevalent in material handling equipment, construction machinery, and mining vehicles. These systems help improve workplace safety by preventing collisions between machinery, objects, and workers, thereby reducing accidents and enhancing operational efficiency.

The Collision Avoidance System market is highly competitive, with major players such as Continental AG, Robert Bosch GmbH, ZF Friedrichshafen AG, and Delphi Technologies leading the industry. These companies invest heavily in research and development to offer innovative and reliable collision avoidance solutions, catering to various industries' specific requirements.

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Looking ahead, the Collision Avoidance System market is expected to witness continued growth as safety regulations become more stringent, and industries increasingly prioritize accident prevention and worker safety. The integration of artificial intelligence and machine learning technologies is likely to further enhance collision avoidance systems' capabilities, enabling them to adapt and respond to complex and dynamic environments. Additionally, the growing demand for connected and autonomous vehicles in smart cities will play a significant role in shaping the future of collision avoidance systems, making them a crucial component of the transportation and industrial safety landscape.

Block Caving - A Cost-Effective Underground Mining Method

Block caving is a very efficient underground mining method. Its costs are lower than other mining methods per tonne mined. In addition, it requires a lower ventilation requirement. It also allows for a more flexible use of equipment, such as LHDs.

In block cave mining, a section of the rock mass is undercut and then collapses into excavations. These form ore extraction drawpoints.

Cost-effectiveness

Compared with other mining methods, block caving is one of the most cost-effective ways to mine copper and gold. It also reduces the need for surface waste disposal. However, it requires substantial planning and infrastructure and a long lead time. This method can be more sensitive to world events than other mining techniques, making it a riskier investment.

To develop a block cave, access shafts are excavated to a level below the ore body. Horizontal tunnels, known as haulage tunnels, are then dug benearth the ore body. These are followed by a series of upward-sloping tunnels, known as raises. Blasting is used to create these, and large rock funnels, called drawbells, are excavated beneath the undercut level.

A major challenge for block cave mining is the ability to fracture the rock mass and generate enough fragmentation to support long-life drawpoints and excavation tunnels. This requires preconditioning, which is a comprehensive process that includes destressing and fracturing the in situ rock mass.

Safety

Block caving is a safe mining method, but it requires special skills and equipment. Mining machinery manufacturers have been developing automated systems to increase safety. Caterpillar has developed a system for loading and hauling that is specifically designed for block caving, making it safer for miners.

This system will enable real-time mapping of cave material movement, which can help minimise dilution and improve recovery. It will also allow miners to design cave layouts that are more efficient. It will also help reduce mine safety risks and environmental impacts.

The technology has already been tested at Ridgeway Deeps and was found to be effective. It will be available on the market next year. Its development is supported by the mining industry and the University of Western Australia. Increasing numbers of PEAs and feasibility studies are recommending the use of this technique. This is a good sign that the future of block caving is bright. It can be used for both new mines and for extending the life of open pits.

Environmental impact

The success of block caving means mining companies are turning to it for deeper ore bodies that could not be mined profitably using traditional methods. However, deeper rocks are stronger and less fractured, so they require a lot more support to allow for natural caves to form. This means that companies need to give nature a helping hand, using technologies such as remote operation and collision avoidance systems for hydraulic breakers.

The development sequence for a block cave begins with the establishment of access drifts around the ore body. Once this is done, a grid of crosscuts are developed for workers and equipment. A new level is then developed above the first drift, and mining begins. Blasting and hydraulic breaking are used to break up the ore.

The key to successful block cave mining is a well-designed development, which allows for the creation of undercuts that will automatically collapse when the orebody is undercut. The dimensions of the undercuts are important, as they determine the speed at which ore is drawn down through the drawpoints and transferred to the transfer raises. Insufficient undercuts can lead to a loss of productivity and may cause the cave roof to stabilize or even collapse.

Technology

Increasingly, mining companies are considering block caving as an alternative to developing new mines or extending the life of existing open pits. The method involves drilling access shafts into an ore deposit and excavating a network of tunnels underneath the surface. These tunnels are known as haulage tunnels and are linked by upward-sloping rock funnels called raises. They are excavated by blasting from a central location called an undercut.

Block caving has several advantages over other underground mining methods. It offers higher production rates and lower operating costs. It also reduces the amount of waste rock generated by a mine, as it is buried below ground level.

However, the process requires significant initial investment and long lead times. It can take up to 20 years for a large-scale block cave to be established. Furthermore, the method is not suitable for all ore bodies. The rocks should be competent, with good permeability and low fracture energy.

Autonomous Mobile Robots  Market Outlook: World Approaching Demand & Growth Prospect 2022-2027

A Latest intelligence report published by AMA Research with title "Global Autonomous Mobile Robots Market Outlook to 2027. This detailed report on Autonomous Mobile Robots Market provides a detailed overview of key factors in the Global Autonomous Mobile Robots Market and factors such as driver, restraint, past and current trends, regulatory scenarios and technology development.

Autonomous Mobile Robots (AMR) is a robot which performs the behaviors or tasks with a high degree of autonomy. These robots rely mainly on autonomous navigation where it does not require any wires, tape, GPS or other navigation. AMR has its laser guidance system which assures precise navigation, helps in obstacle avoidance and human safety. Amr works by gathering information from the sensors and plotting an exact map representation and then executing optimal collision-free path for a given task to be handled. The demand for AMR is significantly higher compared to conventional industrial robots because of its better feature such as, that it can operate autonomously in unknown and dynamic environments to fulfill their assigned tasks.

Major Players in this Report Include are

 Northrop Grumman (United States)

Honda Motor (Japan)

Softbank (Japan)

iRobot (United States)

DJI (China)

Lockheed Martin (United States)

Kongsberg Maritime (Norway)

KUKA (Germany)

Bluefin Robotics (United States)

Samsung Electronics (South Korea)

Market Drivers: High Adoption of Robots for Personal and Commercial Use

Increasing Demand for Warehouse Automation

Market Trend: Adoption of Uavs for Applications Such As Agriculture, and Surveying and Mapping

Opportunities: Focus On Developing Autonomous Mobile Robots with Special Features in Developed Countries

Increasing Geriatric Population Worldwide Boosting Demand for Service Robots for Elderly Assistance

The Global Autonomous Mobile Robots Market segments and Market Data Break Down by Type (Unmanned Aerial Vehicle, Unmanned Marine Vehicle, Unmanned Ground Vehicle, AMRs with SLAM, AMRs without SLAM), Application (Residential Maintenance, Manufacturing, Industrial Automation, Commercial Operations, Other Applications), Component Type (Hardware, Sensors, Actuators, Power Supply, Control System, Others (electrical, electronic, and mechanical components), Software), Mode of Operation (Autonomous (Fully Autonomous, Semi-Autonomous), Human Operated (Untethered, Tethered)), Functional Ability (Autonomous Navigation, Environmental Perception, Self-maintenance, Task Perception, Task Performance, Other Functional Abilities, Self-learning, Reasoning), Operating Environment (Aerial, Ground, Marine), End User (Power & Energy, Oil & Gas, Mining & Minerals, Medical & Healthcare, Logistics & Warehouse, Forest & Agriculture, Aerospace & Defence, Automotive)

Geographically World Autonomous Mobile Robots markets can be classified as North America, Europe, Asia Pacific (APAC), Middle East and Africa and Latin America. North America has gained a leading position in the global market and is expected to remain in place for years to come. The growing demand for Global Autonomous Mobile Robots markets will drive growth in the North American market over the next few years.

Presented By

AMA Research & Media LLP

Wifi HaLoW Devices Market - Forecast (2022 - 2027)

WI-FIHaLow Devices market size was valued at 5.6 million units in 2020 and it is estimated to grow at a CAGR of 12.6% during 2021-2026. The growth can be attributed to the adoption of Wi-Fi HaLow devices across various industries due to its ability to offer long range connectivity at low cost, low power consumption, and avail high data speed as compared to others. Furthermore, its ability to provide network in dead zones, better battery life, higher scalability, simple installation process are the main market drivers. Wi-fi HaLow technology’s ability to penetrate through walls, buildings or other barriers is also considered as an important factor contributing to the market growth. This technology supports a carrier-sense multiple access with collision avoidance (CSMA/CA) which acts to prevent collision before it occurs. This in turn, increases the adoption rate of this technology. In addition, it also supports machine to machine communication, various types of adaptive coding and modulation (ACM) schemes that are progressively being used to increase the network capacity or downlink data rates. This is a major contributing factor to the market growth.

Report Coverage

The report: “Wi-Fi HaLow Devices Market Forecast (2021-2026)”, by IndustryARC, covers an in-depth analysis of the following segments of the Wi-Fi HaLow Devices Market.

By device type: Transceiver, Chipsets, Modules, and others.

By application: Industrial sensor network systems, smart security surveillance, building automation, smart agriculture, connected vehicles, home automation, digital healthcare system, industrial automation and others.

By end user industry : power, oil & gas, automotive, healthcare, mining, agriculture, waste water & treatment, transportation & logistics, electronics & semiconductors, metal processing, general manufacturing, paper & pulp, Construction and others.

By geography: North America (US, Canada, Mexico),Europe (Germany, France, UK, Italy, Spain, Rest of Europe), APAC (Japan, China, India, Australia, South Korea, rest of APAC), South America (Brazil, Argentina, rest of South America), and RoW (Africa, Middle East)

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Key Takeaways

Agriculture sector is analyzed to grow with a significant pace during the forecast period, owing to increasing demand for IoT, connected devices and digital platforms in agricultural sector.

By device type, chipsets market is estimated to witness the fastest growth, owing to the rising investments and collaboration among the organizations.

North America dominated the Wi-Fi HaLow Devices market in terms of value in 2020 owing to its technological advancement and having the ideal operating ISM band.

The market's ability to provide network coverage to dead zones works as a growth driver.

Wi-Fi HaLow industry outlook is consolidated with the top market players including NEWRACOM Inc., AdvanWISE, Morse Micro Pty. Ltd., Methods2Busines B.V., Silex Technology and many others.

By device type, this market is segmented into Transceiver, Chipsets, Modules, and others. Wi-Fi HaLow chipsets market is analyzed to grow with the fastest CAGR of 15.5%

 during the forecast period. Organizations are collaborating and investing heavily for the development of this market. In June 2019, NEWRACOM had collaborated with Fortune tech system in order to provide world’s first miniaturized HaLow solution built on Raspberry Pi 3. This product is highly integral and equipped with NEWRACOM’S 802.11ah WI-FI-SoC. This solution can be used in various IoT applications such as smart home, smart office, smart industry, smart city, healthcare sectors, smart grid, security systems, smart controllers, smart motors and others. In March 2021, LitePoint collaborated with Morse Micro to accelerate the connectivity of Wi-Fi HaLow. LitePoint IQxel-MWTM also validates the performance of the Morse Micro System-on-Chip family. These types of collaborations will drive the WiFi HaLow module market in the forecast period 2021-2026.

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WI-FI HaLow Devices Market Segment Analysis- By Device Type

By device type, this market is segmented into Transceiver, Chipsets, Modules, and others. Wi-Fi HaLow chipsets market is analyzed to grow with the fastest CAGR of 15.5% during the forecast period. Organizations are collaborating and investing heavily for the development of this market. In June 2019, NEWRACOM had collaborated with Fortune tech system in order to provide world’s first miniaturized HaLow solution built on Raspberry Pi 3. This product is highly integral and equipped with NEWRACOM’S 802.11ah WI-FI-SoC. This solution can be used in various IoT applications such as smart home, smart office, smart industry, smart city, healthcare sectors, smart grid, security systems, smart controllers, smart motors and others. In March 2021, LitePoint collaborated with Morse Micro to accelerate the connectivity of Wi-Fi HaLow. LitePoint IQxel-MWTM also validates the performance of the Morse Micro System-on-Chip family. These types of collaborations will drive the WiFi HaLow module market in the forecast period 2021-2026.

WI-FI HaLow Devices Market Segment Analysis- By End-User Industry

The WI-FI HaLow market is segmented into power, oil & gas, automotive, healthcare, mining, agriculture, waste water & treatment, transportation & logistics, electronics & semiconductors, metal processing, general manufacturing, paper & pulp, Construction and others, based on the end-used industry. Healthcare WI-FI HaLow device Market is estimated to witness a highest growth CAGR 18.1%  during forecast period 2021-2026 owing to its ability to provide real time information about a patient’s health condition and their location. The demand for reliable communication system and a quick access to patient’s medical record facilitates the adoption of IoT in this sector. Thereby, increases the demand for WI-FI HaLow. These features make HaLow devices ideal for healthcare sector in which getting real time information is a pertinent feature. The current Covid-19 pandemic has accelerated the growth in demand for digital health care services such as smart monitoring, tele-health services, tele-medicine services, personal fitness wearable devices, elderly monitoring and others, which in-fact created various new growth avenues for Wi-Fi HaLow based devices. The above mentioned factors will play a major role in the market growth.

WI-FI HaLow Devices Market Segment Analysis- By Geography

North America dominated the Wi-Fi HaLow Devices market in 2020 with a share close to 38%, and is estimated that the market of this region is also going to witness highest growth during the forecast period. WI-FI HaLow has different radio spectrum allocation for different countries. The band ranges for different countries are 902-928MHz in U.S., 863-868 MHz in Europe, 717-723 MHz in Korea, 755-787 MHz in China and many countries do not even have an operating frequency spectrum. The only operating ISM band for HaLow product is 900 MHz, which makes HaLow a U.S. centric product which drives the North American market.

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WI-FI HaLow Devices Market Drivers

Network Connectivity:

Wi-Fi HaLow builds on spectral efficient orthogonal frequency-division multiplexing (OFDM) foundations and operates in frequency bands below one gigahertz due to which, it can offer a prolonged use, as it consumes less power and connectivity to Wi-Fi products. These features make HaLow devices ideal for short and burst data which is particularly used for IoT applications. Apart from this, it can provide network connectivity even to those places where the cellular networks or the traditional Wi-Fi connectivity can’t reach such as dead zones, subways, hilly areas, typical rural areas, deep inside the buildings and others which makes HaLow ideal for smart home, digital health care services, connected cars, smart city as well as industrial application. It also uses direct-sequence spread spectrum (DSSS), that effectively helps this technology to avoid intentional interference such as jamming and performs better than FHSS in the presence of noise that makes it perfectly suitable for security related applications.

Increasing Investment and Development in WI-FI HaLoW:

The investment in WI-FI HaLow is anticipated to grow rapidly due to the tremendous level of development and innovation scope for this technology. In November 2020, Australia based company, Morse Micro had secured additional $13 million fund to accelerate WIFI HaLow development. In November 2020, Scenestek came up with the first skyline technology based Wi-Fi HaLow security camera with 1000 foot range. It can easily penetrate through walls, buildings and the installation process is super easy. It is said that the world wide shipping will start from April or May 2021. Recent developments and increasing investment in Wi-Fi HaLow are working as growth drivers for this market.

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Wi-FiHaLow Devices Market Challenges

Availability of beneficial alternatives:

The launch of the 802.11ax alongside the launch of Wi-Fi HaLow had a distinct adverse effect on the market of Wi-Fi HaLow. 802.11ax solutions that were more in demand than 802.11ah or HaLow solutions because unlike HaLow, it had a standard frequency spectrum which makes them cost effective. Similarly, there has been a perceptible increase in the demand and the investment for 5g and LTE IoT products, leaving almost no resources for HaLow market to grow which is a major market challenge for WI-FI HaLow.

WI-FI HaLow Devices Market Landscape

Technology launches, Acquisitions, Collaboration, and R&D activities are key strategies adopted by players in the Wi-FiHaLow Devicesmarket. Top Wi-Fi HaLow Devices companies include NEWRACOM Inc., AdvanWISE, Morse Micro Pty. Ltd., Methods2Busines B.V., Silex Technology, Palma CeiaSemiDesign, Inc., Scenestek technology, Adapt-IP and others.

Acquisitions/Technology Launches

In February 2020, Silex technology collaborated with Newracom and launched industries first WIFI HaLow module, SX-NEWAH. Powered by NEWRACOM's NRC7292 system on a chip, SX-NEWAH operates in the Sub 1 GHz licensed band and enables 1 km+ long connectivity range while maintaining the low power requirement.

In August 2019, Adapt-IP had announced the availability of their newly developed platform for WI-FI HaLow Development. This is available for the integrators and developers of IoT market. This platform supports the IEEE 802.11ah standards and offers a hardware and software environment for development.

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Drone Transponder Market Is Growing At CAGR 5.9 % Between 2021-2027

Market Overview

The Global Drone Transponder Market is anticipated to reach USD 2,998 Million by 2024 at a CAGR of 6.68% during the forecast period.

In the last few years, drones were used for various industrial applications, including aviation, construction, mining, oil & gas, telecom, and logistics. The rise in the use of drones in these industries is driven by benefits over conventional manual inspection technologies; the use of drones helps save lives, time, and costs.

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Competitive Landscape

Key players in the global drone transponder market are Aerobits Sp. z.o.o. (Poland), FreeFlight Systems, Inc. (US), Google LLC (US), L3Harris Technologies, Inc. (US), Micro Systems, Inc. (US), Microair Avionics Pty Ltd (Australia), Sagetech Corporation (US), Sandia Aerospace Corporation (US), Trig Avionics Limited (UK), and uAvionix Corporation (US).

Market Segmentation

By type, the market has been classified as ADS-B compatible and ADS-B non-compatible. The ADS-B compatible segment is projected to dominate the market. It was valued at USD 1,486.1 million in 2018 and is expected to reach USD 2,262 million by 2024. Onboard sensors on drones are ineffective in ensuring collision avoidance. Thus, transponders, such as the ADS-B compatible, are being developed to ensure airspace safety and increase situational awareness, thereby reducing collision risks. ADS-B technology helps drone operators sense and avoid possible collisions. The ADS-B non-compatible segment is anticipated to exhibit a CAGR of 5.60% during the forecast period.

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Regional Analysis

The market in North America was valued at USD 832.6 million in 2018. The presence of major market players, such as L3Harris Technologies, Inc., Sagetech Corporation, Google LLC, and uAvionix Corporation, is expected to drive the market growth in the region. The North American drone transponder market is anticipated to expand at a CAGR of 5.70% during the forecast period.

Europe is projected to be the second-largest market during the review period. The regional market is expected to reach USD 672.5 Million by 2024, expanding at a CAGR of 7.22% during the forecast period. Asia-Pacific is projected to be a key region for the market during the review period. The market in the region is expected to reach USD 646.1 million by 2024 at a CAGR of 8.69% during the forecast period.

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Global Smart Mining Market Trends, Share, Size, Estimation, Applications, Dynamics, Competitor and Major Companies Analysis Forecast 2021

Smart Mining was born as a result of nationalization of resources, decreasing productivity and increasing operational cost in the mining industry. Smart Mining offers integrated solutions, where the flow of information and optimization of processes with the incorporation of latest technologies increases overall efficiency (recorded a whopping 40% rise in efficiency) and maximizes the outcome of the mining process and at the same time improves the safety of equipment and personnel. This new wave of digital transformation has changed manual intensive processes to fully-automated, reactive analysis approach to predictive analysis and provided a holistic approach to scheduling and planning.

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Market Dynamics

Major drivers of the growth are an adoption of automated equipment and Internet of Things solutions, and growing concern for safety (For ex: remote controlled-driverless trucks) and security. Also, with the improvements in infrastructure, the market share of underground marketing is expected to increase in the forecasted years. Another major factor is the cost cut provided by smart mining, such as pre-knowledge of potential sites and mining spots. As more and more data moves to the cloud with the advent of IoT, there has been a growing concern of cyber-security where corporate intellectual property, mining and exploration plans, personnel information and business data are all at risk. Another inhibitor to the growth of smart mining market is the concern of environment and resource depletion that communities and governments raise and address. Having said that, market players are already working on mining solutions that do not affect life on planet and vegetation.

Market Segmentation

Smart Mining Market can be segmented on the basis of type, category and geography. On the basis of type, there exists underground and Surface Mining. However, Surface Mining generates more than half of the revenue. On the basis of category, market can be classified into automated equipment and component. Various types of automated equipment areroad train, excavators, trucks, wheelpro, hydroseeders etc. Excavator segment accounted for the highest revenues in the automated equipment category, owing to the advancements in GPS and collision- avoidance technology. On the basis of the component, the market is further segmented into services, hardware and software solutions. Hardware segment generates highest revenues for the smart mining market. Hardware includes radar and other sensors, Intelligent Systems etc. Software solutions include innovations and integrated solutions for logistics, Remote Management systems, safety, security, analytics, data, and operations. Remote Management Systems captures maximum market share in software solutions segment. Services provided by smart mining are support, maintenance, integration, and consultation.

Regional/Geographic Analysis

On the basis of geography, Smart Mining Market can be segmented into North America, Europe, and Asia-Pacific region, Latin America, Middle East and Africa. APAC region has recorded highest revenues in the past. For example, Chinese market has undergone intensive competition and adoption of technology and automated equipment. Moreover, there has been a rising mandate for safety procedures such as, fire extinguishers and ventilation at the mining site.

Key Players

Some of the major players in the market includeRockwell Automation,Trimble Navigation Limited,Caterpillar, ABB Group, Cisco Systems, Komatsu Ltd., Hexagon AB, Alastrietc. Report ContentsRegional AnalysisReport Highlights Market segments Market Drivers, Restraints and Opportunities Market Size & Forecast 2016 to 2022 Supply & Demand Value Chain Market - Current Trends Competition & Major Companies Technology and R&D Status Porters Five Force Analysis Strategic and Critical Success Factor Analysis of Key Players

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Autonomous Underwater Vehicle Market to witness a CAGR growth of 21.89% during the forecast period

Overview

Global Autonomous Underwater Vehicle (AUV) Market is expected to reach USD 1,198.1 Million by 2023 at a CAGR of 21.89% during the forecast period of 2019 to 2023.

The oil & gas industry is expected to witness steady growth during the forecast period after the global slowdown in 2014. Obtaining oil & gas from both non-conventional and conventional sources is becoming more dynamic in the current scenario. The need for oil & gas in various industries will necessitate the implementation of robotics and automation in rugged offshore environments to enhance efficiency and improve productivity. Thus, the demand for AUVs for oil & gas applications is expected to increase in the forecast period.

Segmental Analysis

The Global Autonomous Underwater Vehicle Market has been Segmented Based on Type, Technology, Payload, and Application.

Based on Type, the autonomous underwater vehicle market has been segmented into shallow, medium, and large. The large segment dominated the market with a valuation of USD 288.4 million in 2018 and is expected to reach USD 787.0 million by 2023. Large AUVs have the potential to dive up to 3,000-meter seawater (MSW). These AUVs assist in long-range operations and support multiple capabilities such as obstacle avoidance and underwater docking. Large AUVs have 360-degree maneuverability and six degrees of freedom. They are equipped with sensors, cameras, and navigation & positioning systems, and are robust owing to which several companies are investing in the R&D of large AUVs.

On the basis of technology, the global autonomous underwater vehicle market has been classified as communication, collision avoidance, navigation, imaging, and propulsion. The navigation segment is expected to exhibit the highest CAGR of 21.94% during the forecast period. AUVs support 3D imaging sensors and software that support GPS and cameras. GPS and cameras provide accurate location information and assist operators to navigate accurately to the mines. AUVs offered by companies, such as General Dynamics Corporation—Bluefin-9M Unmanned Underwater Vehicle (UUV)—provide an integrated navigation system that offers greater navigation capabilities to operators.

By payload, the global autonomous underwater vehicle market has been divided into sensors, cameras, synthetic aperture sonars, echo sounders, acoustic doppler current profilers (ADCPs), and others. The cameras segment is expected to register the highest CAGR of 21.43% during the forecast period. Cameras are an essential component of AUVs as they offer visibility and effective sightlines missions and general navigation. They are critical as they help in collecting data, samples, images, and videos for further planning and precision positioning. Cameras are also used for inspection, maintenance, and repair work. The efficient connection of the cameras with monitors offer multiple viewpoints to the operator.

On the basis of application, the global autonomous underwater vehicle market has been classified as military & defense, oil & gas, oceanography, environmental protection and monitoring, archaeological and exploration, and search and salvage operations. The military & defense segment is expected to exhibit the highest CAGR of 23.33% during the forecast period. Military & defense operations pose various risks to human life as they are carried out in dangerous conditions. AUVs with multiple capabilities, such as cameras and sensors, are capable of operating underwater and in restricted spaces, identifying suspicious objects, and destroying unmanned vehicles while keeping humans safe. AUVs can be used in mine detection and classification with the help of mine-hunting capabilities. Moreover, ROVs are equipped with GPS and navigation systems that can be used to survey nuclear, biological, and chemical-contaminated locations, eliminating the need for human intervention in hazardous conditions.

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Regional Analysis

The regional analysis of the Global Autonomous Underwater Vehicle Market covers North America, Europe, Asia-Pacific, and the rest of the world.

North America led the market with a valuation of USD 182.3 Million in 2018 and is expected to reach USD 442.5 Million by 2023 at a CAGR of 19.40% during the forecast period. This can be attributed to the presence of major manufacturers such as Lockheed Martin Corporation and General Dynamics Corporation in the region.

Europe was the second-largest market with a valuation of USD 97.0 million in 2018. The European market is projected to exceed USD 268.6 million by 2023 at a 22.59% CAGR. Market growth in the region is driven by terrorist incidents and the influx of illegal immigrants from countries, such as Syria, Iraq, and Libya.

Competitive Analysis

The Key Players in the Global Autonomous Underwater Vehicle Market are Boston Engineering Corporation (US), Lockheed Martin Corporation (US), Fugro (Netherlands), General Dynamics Corporation (US), Kongsberg Maritime (Norway), Graal Tech Srl (Italy), Teledyne Technologies Incorporated (US), The ECA Group (France), Saab AB (Sweden), and International Submarine Engineering Limited (Canada).

Key Developments

In March     2019, the ECA Group     signed a 10-year contract worth USD 508.8 million (450 million Euros) with     the Belgian navy. As per the terms of the contract, it will provide AUVs,     towed sonars, and mine identification & destruction systems (MIDS)     composed of ROV for the identification and destruction of mines, and the     unmanned surface vehicles. It helped improve the company’s financial     position in the global AUV market.

In April     2018, Fugro signed a     contract with seafloor mineral exploration company, Nauru Ocean Resources     Inc. (NORI), a subsidiary of DeepGreen Metals Inc. to reform detailed site     characterization surveys in the deep waters of the eastern Pacific Ocean.     The contract helped it to increase its financial position in the global     AUV market.

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