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industrynewsupdates · 27 days

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Smart Agriculture Market 2024-2030: Growth Share and Future Trends

The global smart agriculture market size was valued at USD 22.65 billion in 2023 and is expected to grow at a compound annual growth rate (CAGR) of 13.7% from 2024 to 2030.

Increasing automation of commercial greenhouses and growing implementation of the controlled environment agriculture (CEA) concept in greenhouses, in a bid to obtain a higher yield and maintain optimum growing conditions, are the key factors driving demand during the forecast period. Cultivators realize the potential benefits of growing plants inside a greenhouse, which has led to the development of commercial greenhouses. Cultivators have shifted from the conventional lighting systems to LED grow lights as the latter can easily be integrated into a CEA setup. Although LED grows lights are high in cost, they are an ideal option for indoor farming, owing to their long-term benefits in terms of energy efficiency.

Gather more insights about the market drivers, restrains and growth of the Smart Agriculture Market

Smart agriculture companies are shifting their focus toward the development of equipment that is integrated with advanced sensors and cameras. Key technologies driving the market demand include livestock biometrics, such as RFID, biometrics, and GPS to help cultivators automatically obtain information regarding livestock in real-time. Furthermore, infrastructural health sensors are used for monitoring material conditions and vibrations in buildings, factories, bridges, farms, and other infrastructure. Coupled with an intelligent network, infrastructural health sensors help provide information to the maintenance team in real-time. In addition, agricultural robots are being used to automate farming processes, such as soil maintenance, weeding, fruit picking, harvesting, planting, plowing, and irrigation, among others.

To sustain profits, farmers are increasingly adopting smarter and more efficient agriculture technologies to deliver high-quality products to the smart agriculture market in sufficient quantities. Mobile technology aids in offering innovative types and applications that are used across the agricultural value chain.

Machine-to-Machine (M2M) applications are particularly suited for the agricultural sector, enabling farmers to monitor equipment, assess the environmental impact on production, precisely manage livestock and crops, and keep track of tractors and other agricultural equipment. M2M is an integral part of IoT, which describes the coordination of multiple devices, appliances, and machines connected to the internet through multiple networks.

The COVID-19 pandemic has brought widespread disruption to the global supply chain, resulting in food shortages and inflation. Necessary measures are required to strengthen the food supply chain and prepare for any future crisis. The ongoing pandemic has highlighted the significance of being able to carry out agricultural operations remotely. The ability of smart agricultural practices to help farmers recoup losses in a relatively shorter lead time is expected to drive future market growth.

Smart Agriculture Market Segmentation

Grand View Research has segmented the global smart agriculture market report based on type, offering, application, and region.

Type Outlook (Revenue, USD Million, 2017 - 2030)

• Precision farming

• Livestock monitoring

• Smart greenhouse

• Others

Offering Outlook (Revenue, USD Million, 2017 - 2030)

• Hardware

o Automation & control systems

o Drones

o Application control devices

o Guidance system

o GPS

o GIS

o Remote sensing

o Handheld

o Satellite sensing

o Driverless tractors

o Mobile devices

o VRT

o Map-based

o Sensor-based

o Wireless modules

o Bluetooth technology

o Wi-Fi technology

o Zigbee technology

o RF technology

o Milking robots

o Sensing devices

o Soil sensor

o Nutrient sensor

o Moisture sensor

o Temperature sensor

o Water sensors

o Climate sensors

o Others

o HVAC system

o LED grow light

o RFID tags & readers

• Software

o Web-based

o Cloud-based

• Types

o System integration & consulting

o Maintenance & support

o Managed types

o Data types

o Analytics types

o Farm operation types

o Assisted professional types

o Supply chain management types

o Climate information types

Application Outlook (Revenue, USD Million; 2017 - 2030)

• Precision farming application

o Yield monitoring

o On-farm

o Off-farm

o Field mapping

o Crop scouting

o Weather tracking & forecasting

o Irrigation management

o Inventory management

o Farm labor management

• Livestock monitoring application

o Milk harvesting

o Breeding management

o Feeding management

o Animal comfort management

o Others

• Smart greenhouse application

o Water & fertilizer management

o HVAC management

o Yield monitoring

o Others

• Others

Regional Outlook (Revenue, USD Billion, 2017 - 2030)

• North America

o U.S.

o Canada

o Mexico

• Europe

o U.K.

o Germany

o France

o Russia

o Netherland

• Asia Pacific

o China

o Japan

o India

o Australia

o Singapore

• South America

o Brazil

• Middle East and Africa (MEA)

o Turkey

Browse through Grand View Research's Next Generation Technologies Industry Research Reports.

• The global agriculture 4.0 market was estimated at USD 67.73 billion in 2023 and is projected to grow at a CAGR of 11.6% from 2024 to 2030.

• The global AI in food & beverages market size was valued at USD 8.45 billion in 2023 and is projected to grow at a CAGR of 39.1% from 2024 to 2030.

Key Companies & Market Share Insights

Some of the key players operating in the market include Ag Leader Technology, AGCO Corporation, AgJunction, Inc., AgEagle Aerial Systems Inc., Autonomous Solutions, Inc., Argus Control Systems Ltd, BouMatic Robotic B.V., CropMetrics, CLAAS KGaA mbH, CropZilla, Deere & Company, DICKEY-john, DroneDeploy, DeLaval Inc, Farmers Edge Inc, Grownetics, Inc., Granular, Inc., Gamaya, GEA Group Aktiengesellschaft, Raven Industries, Trimble Inc., Topcon Positioning System among others.

• AGCO Corporation is a U.S.-based agriculture equipment manufacturer. The company develops and sells products and solutions such as tractors, combines, foragers, hay tools, self-propelled sprayers, smart farming technologies, seeding equipment, and tillage equipment.

• Deere & Company is engaged in the manufacturing & construction of agricultural and forestry machinery; drivetrains and diesel engines for heavy equipment; and lawn care machinery. Additionally, the company also manufactures and provides other heavy manufacturing equipment. The company serves diverse industries such as agriculture, forestry, construction, landscaping & grounds care, engines & drivetrain, government and military, and sports turf.

Prospera Technologies and Agrible, Inc. are some of the emerging market participants in the target market.

• Prospera Technologies is a global service provider of agriculture technology for managing and optimizing irrigation and crop health. The company provides AI-based sensors and cameras that aid farmers in crop monitoring.

• Agrible is a U.S.-based agriculture solution provider. The company helps customers in more than 30 countries optimize water use, crop protection, fertilization, fieldwork, research trials, food supply chains, and sustainability initiatives

Key Smart Agriculture Companies:

• Ag Leader Technology

• AGCO Corporation

• AgJunction, Inc.

• AgEagle Aerial Systems Inc.

• Autonomous Solutions, Inc.

• Argus Control Systems Ltd

• BouMatic Robotic B.V.

• CropMetrics

• CLAAS KGaA mbH

• CropZilla

• Deere & Company

• DICKEY-john

• DroneDeploy

• DeLaval Inc

• Farmers Edge Inc

• Grownetics, Inc.

• Granular, Inc.

• Gamaya

• GEA Group Aktiengesellschaft

• Raven Industries

• Trimble Inc.

• Topcon Positioning System

Recent Developments

• In July 2023, Deere & Company announced the acquisition of Smart Apply, Inc. The company planned to leverage Smart Apply’s precision spraying to assist growers in addressing the challenges associated with input costs, labor, regulatory requirements, and environmental goals.

• In May 2023, AgEagle Aerial Systems Inc. announced that it had entered into a 2-year supply agreement with Wingtra AG. This agreement is purposed to secure the supply of RedEdge-P sensor kits for incorporation with WingtraOne VTOL drones. This is specifically resourceful for those seeking to benefit materially from unparalleled, high precision, and plant-level detail in commercial agriculture, environmental research, forestry, and water management applications.

• In April 2023, AGCO Corporation announced a strategic collaboration with Hexagon, for the expansion of AGCO’s factory-fit and aftermarket guidance offerings. The new guidance system was planned to be commercialized as Fuse Guide on Valtra and Massey Ferguson tractors.

• In February 2023, Topcon Agriculture unveiled the launch of Transplanting Control, an exceptional guidance control solution for specialty farmers. This turnkey solution was designed to boost efficiency, reduce labor, and proliferate production. Further, it delivers GNSS-driven guidance, autosteering & control, thereby proving advantageous for the growers of perennial trees, vegetables, and fruits.

• In January 2023, ASI Logistics in collaboration with SICK, Inc. announced the successful implementation of autonomous yard truck operations. In this collaboration, ASI Logistics leveraged its groundbreaking Vehicle Automation Kit (VAK) along with the industry-leading LiDAR systems of SICK.

• In March 2022, Raven announced its business expansion in South Dakota and Arizona to enhance the development of AI-driven technologies for tailoring cutting-edge solutions. The strategy was also aimed at allowing access to a nearby test farm for same-day testing.

• In October 2021, BouMatic announced the acquisition of SAC Group to leverage automatic and conventional milking systems. The transaction demonstrated the company’s incessant commitment to delivering best-in-class dairy farm solutions to consumers across the world.

• In May 2021, AGCO announced a targeted spraying solutions strategic collaboration with Raven Industries Inc., BASF Digital, and Robert Bosch GmbH. The objective of this deal was to assess the targeted spraying technology for enhancing crop protection product applications by limiting crop input costs and addressing environmental sustainability.

Order a free sample PDF of the Smart Agriculture Market Intelligence Study, published by Grand View Research.

#Smart Agriculture Market #Smart Agriculture Industry #Smart Agriculture Market size #Smart Agriculture Market share #Smart Agriculture Market analysis

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gauricmi · 5 months

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Smart Pacifiers Market will drive parenting innovation owing to growing demand for baby monitoring and soothing

The smart pacifier market has witnessed significant growth in recent years owing to technological innovations that provide parents with new ways to monitor and soothe their infants. Smart pacifiers are being integrated with sensors, trackers, and soothing functions that help parents gain insights into their baby's wellbeing and behavior from a distance. Advantages such as motion and breathing monitoring, temperature tracking, and two-way audio allow parents to check on babies remotely while ensuring their safety and comfort.

The Global Smart Pacifier Market Size is estimated to be valued at US$ 640.2 Mn in 2024 and is expected to exhibit a CAGR of 5.4% over the forecast period 2024 to 2031.

Key Takeaways Key players operating in the smart pacifier market include Brainchild Technologies, LLC, Root3 Labs, BlueMaestro, Washington State University, NiNite , and Nouvo Health. These companies are integrating innovative technologies like sensors, wireless connectivity, and soothing audio/vibrations into traditional pacifier designs.

Explore More Related Topic: Smart Pacifiers Market

Get More Insights On This Topic: Smart Pacifiers Market

#Smart Pacifier #Baby Tech #Infant Health #Parenting Gadgets #Wearable Technology #Baby Monitoring #IoT Devices #Childcare Innovation

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marketresearch99 · 9 months

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Efficient Energy Solutions: Innovations in Energy Harvesting Systems

In the pursuit of sustainable and efficient energy solutions, the Energy Harvesting System Market emerges as a frontrunner, revolutionizing the way we harness and utilize power from ambient sources. As we step into 2023, this market continues to witness remarkable advancements, offering innovative technologies that pave the way towards a greener and more self-sufficient future.

The Concept of Energy Harvesting

Energy harvesting, also known as energy scavenging, involves capturing and converting energy from surrounding sources such as light, heat, vibration, or motion into usable electrical power. This principle serves as the foundation for diverse applications across various industries, enabling the generation of electricity where traditional power sources may be limited or inaccessible.

Diverse Sources of Energy

The Energy Harvesting System Market embraces a spectrum of ambient energy sources, each with its unique potential for power generation. Solar photovoltaic cells capture sunlight to produce electricity, while thermoelectric generators harness temperature differentials to generate power. Furthermore, kinetic energy from vibrations or motion can be converted into electrical energy through piezoelectric or electromagnetic systems.

Applications Across Industries

One of the key driving forces behind the Energy Harvesting System Market's growth is its diverse applications across industries. In the realm of IoT (Internet of Things), energy harvesting enables self-powered sensors, wireless devices, and remote monitoring systems, eliminating the need for batteries and facilitating continuous and autonomous operation.

In building automation and smart infrastructure, energy harvesting technologies power wireless sensors for environmental monitoring, lighting control systems, and smart meters, contributing to energy efficiency and reducing maintenance costs.

Moreover, in the automotive sector, these systems find applications in tire pressure monitoring systems (TPMS) and vehicle health monitoring, enhancing safety and efficiency while reducing the environmental impact.

Advancements Driving Efficiency

Technological advancements continue to drive the efficiency and effectiveness of Energy Harvesting Systems. Ongoing research focuses on improving the conversion efficiency of energy harvesters, enhancing energy storage solutions, and optimizing system integration to maximize power output from ambient sources.

Additionally, miniaturization and advancements in material science lead to the development of more compact and lightweight energy harvesting devices, making them more versatile and applicable across a wider range of scenarios.

Sustainability and Environmental Benefits

The Energy Harvesting System Market of 2023 aligns with global sustainability goals, offering eco-friendly solutions that reduce reliance on traditional power sources and minimize carbon footprints. By utilizing renewable and ambient energy sources, these systems contribute to a more sustainable and greener future while reducing waste associated with disposable batteries.

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Future Outlook and Innovation Trajectory

Looking ahead, the Energy Harvesting System Market shows promise for further expansion and innovation. Research initiatives focus on exploring novel materials, advanced integration techniques, and hybrid energy harvesting systems that combine multiple sources for increased efficiency and reliability.

Moreover, advancements in AI (Artificial Intelligence) and machine learning are poised to optimize energy harvesting systems by predicting and adapting to varying ambient conditions, maximizing energy capture and utilization.

Conclusion

The Energy Harvesting System Market in 2023 embodies a paradigm shift towards sustainable and self-sufficient energy solutions. As it continues to evolve and innovate, this market remains a cornerstone in the journey towards a future powered by renewable and ambient energy sources. With its diverse applications, technological advancements, and commitment to sustainability, energy harvesting promises a more efficient, autonomous, and environmentally conscious world.

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namanr · 9 months

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Machine Sensor Market Expected to Reach $35.8 Billion, Globally, by 2032 at 8.2% CAGR: Allied Market Research

The machine sensor market is predicted to witness significant growth in the coming years as government regulations and initiatives are encouraging innovation and the creation of new applications in multiple industries. Despite the rising adoption of machine sensors in different fields, their application is restricted in harsh environments, which may hinder market growth. However, the emergence of IoT technology offers machine sensors opportunities to furnish real-time information on machine performance and environmental circumstances.

Wilmington, Delaware

According to a new report published by Allied Market Research, titled, “Machine Sensor Market," The machine sensor market was valued at $16.5 billion in 2022, and is estimated to reach $35.8 billion by 2032, growing at a CAGR of 8.2% from 2023 to 2032.

Download Research Report Sample & TOC: https://www.alliedmarketresearch.com/request-sample/75335 (We look forward to moving quickly to provide the Report Analysis needed for your Business Success) •105 – Tables •66 – Charts •243 – Pages

A machine sensor is a device that is used to detect or measure physical properties of a machine or its environment, such as temperature, pressure, vibration, or acceleration. These sensors are often used in industrial applications to monitor the health and performance of machines, and to detect potential problems before they become critical.

Machine sensors can be wired or wireless and can be connected to a variety of systems such as data loggers, controllers, or cloud-based platforms. They can also be integrated with artificial intelligence or machine learning algorithms to provide predictive maintenance, fault diagnosis, or optimization of machine performance.

Prime determinants of growth:

The machine sensor market is being driven by the need for automation, digitization, energy efficiency, and sustainability in various industries. Machine sensors provide real-time data on machine performance, enabling predictive maintenance and optimizing energy consumption. However, the high cost of machine sensors can be a significant barrier for smaller businesses and price-sensitive industries. The development of smart sensors with real-time data processing and analysis capabilities presents an opportunity for the machine sensor market to further enhance operational efficiency and product quality while reducing downtime.

The machine sensor market is highly competitive, owing to the strong presence of existing vendors. Vendors of the machine sensor market with extensive technical and financial resources are expected to gain a competitive advantage over their competitors because they can cater to market demands. The competitive environment in this market is expected to increase as product launches, funding, acquisitions, agreements, collaboration, expansion, and partnership like different strategies adopted by key vendors increase. Competitive analysis and profiles of the major machine sensor market players that have been provided in the report include AB Elektronik Gmbh, ATI Industrial Automation, Inc., Baumer Group, FUTEK Advanced Sensor Technology, Inc., Honeywell International Inc., Infineon Technologies AG, OMRON Corporation, Sensata Technologies, Inc., TE Connectivity Ltd., and Tekscan, Inc.

Report Coverage and Details:

Aspects

Details

Market Size By 2032

USD 35.8 billion

Growth Rate

CAGR of 8.2%

Forecast period

2022 - 2032

Report Pages

243

By Type

Temperature Sensor

Pressure Sensor

Position Sensor

Proximity Sensor

Force and Torque Sensor

Others

By End Use Industry

Oil and Gas

Automotive

Aerospace

Healthcare

Others

Manufacturing

COVID-19 Scenario:

The COVID-19 pandemic has affected the machine sensor market in various ways. Some industries, such as automotive and aerospace, experienced a decrease in demand for sensors due to reduced economic activity. On the other hand, the healthcare industry saw an increase in demand for medical equipment, including sensors for monitoring and diagnosis. Additionally, the demand for automation in manufacturing and logistics increased. Disruptions to global supply chains resulted in shortages of raw materials and components, leading to increased costs and longer lead times for manufacturers. Overall, the pandemic has had a mixed impact on the machine sensor market, with some industries experiencing declines while others have seen growth.

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Leading Market Players:

ATI Industrial Automation,

Infineon Technologies AG,

Sensata Technologies, Inc.,

OMRON Corporation,

TE Connectivity Ltd.,

Honeywell International Inc.,

FUTEK Advanced Sensor Technology, Inc.,

Tekscan, Inc.,

KYOCERA AVX Components (Werne) GmbH,

Baumer

The report provides a detailed analysis of these key players of the global machine sensor market. These players have adopted different strategies such as product development and product launch to increase their market share and maintain dominant shares in different regions. The report is valuable in highlighting business performance, operating segments, product portfolio, and strategic moves of market players to showcase the competitive scenario.

Key Benefits for Stakeholders:

This report provides a quantitative analysis of the market segments, current trends, estimations, and dynamics of the machine sensor market analysis from 2022 to 2032 to identify the prevailing machine sensor market opportunity.

The market research is offered along with information related to key drivers, restraints, and opportunities.

Porter's five forces analysis highlights the potency of buyers and suppliers to enable stakeholders make profit-oriented business decisions and strengthen their supplier-buyer network.

In-depth analysis of the machine sensor market segmentation assists to determine the prevailing market opportunities.

Major countries in each region are mapped according to their revenue contribution to the global market.

Market player positioning facilitates benchmarking and provides a clear understanding of the present position of the market players.

The report includes the analysis of the regional as well as global machine sensor market trends, key players, market segments, application areas, and market growth strategies.

By Region:

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

Europe (U.K., Germany, France, Italy, Spain, Russia, Netherlands, Belgium, Poland, and Rest of Europe)

Asia-Pacific (China, Japan, India, South Korea, Australia, Malaysia, Thailand, Philippines, Indonesia, and Rest of Asia-Pacific)

LAMEA (Latin America, Middle East and Africa)

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Power Cable Market size is projected to reach $277.8 billion by 2031, growing at a CAGR of 6.4% from 2022 to 2031

Embedded Systems Market size is projected to reach $163.2 billion by 2031, growing at a CAGR of 6.5% from 2022 to 2031.

About Us:

Allied Market Research (AMR) is a full-service market research and business-consulting wing of Allied Analytics LLP based in Wilmington, Delaware. Allied Market Research provides global enterprises as well as medium and small businesses with unmatched quality of "Market Research Reports Insights" and "Business Intelligence Solutions." AMR has a targeted view to provide business insights and consulting to assist its clients to make strategic business decisions and achieve sustainable growth in their respective market domain.

We are in professional corporate relations with various companies and this helps us in digging out market data that helps us generate accurate research data tables and confirms utmost accuracy in our market forecasting. Allied Market Research CEO Pawan Kumar is instrumental in inspiring and encouraging everyone associated with the company to maintain high quality of data and help clients in every way possible to achieve success. Each and every data presented in the reports published by us is extracted through primary interviews with top officials from leading companies of domain concerned. Our secondary data procurement methodology includes deep online and offline research and discussion with knowledgeable professionals and analysts in the industry.

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prachireport-prime1 · 1 year

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Rugged IC Market Growth, Trend, and Prospects from 2023–2030

Rugged IC Market Growth

The Rugged IC Market is expected to grow from USD 2.90 Billion in 2022 to USD 5.70 Billion by 2030, at a CAGR of 8.70% during the forecast period

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Rugged IC Market Size

Rugged IC refers to integrated circuits that are designed to perform optimally in harsh operating conditions, including extreme temperatures, high vibration, and intense shock. The global rugged IC market research report segments the market based on type, application, region, and market players. The type segment includes general-purpose IC and application-specific IC, while the application segment covers automotive, electronics, healthcare, and others. The regional segment includes North America, Asia Pacific, the Middle East, Africa, Australia, and Europe, with key market players being General Dynamics Corporation, Crystal Group, Richtek Technology Corporation, Qualcomm, Honeywell International Inc., Infineon Technologies AG, Analog Devices Inc., NXP Semiconductors N.V., Texas Instruments Inc., and STMicroelectronics. Additionally, the report takes into account regulatory and legal factors that are specific to market conditions. This is crucial in ensuring that market players adhere to the set regulations and standards, which facilitates a conducive business environment and ultimately drives the growth of the rugged IC market.

Rugged IC Market Key Players

Major Key Player is listed in the Rugged IC

General Dynamics Corporation

Crystal Group

Richtek Technology Corporation

Qualcomm

Honeywell International Inc.

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Rugged IC Market Segment Analysis

The Rugged IC target market is composed of various sectors including aerospace, defense, automotive, healthcare, and industrial. These industries require high-performance electronic components that can withstand harsh environments. The demand for high-level reliability, durability, and resistance to extreme temperatures, vibration, and shock is driving the growth of the Rugged IC market.

The increasing need for miniaturization and cost-effectiveness is a significant factor driving revenue growth in the Rugged IC market. As the market for electronic devices grows, so does the demand for smaller, lighter components that offer superior performance in harsh environments. Rugged ICs are used to increase efficiency and performance in these devices, making them more reliable in tough environmental conditions.

The latest trend in Rugged IC market is the integration of advanced technologies like artificial intelligence, machine learning, and IoT into ruggedized devices. These technologies are used to improve data processing, communication, and connectivity in harsh environments. Additionally, the rising demand for wireless sensors and other IoT devices is also driving the growth of the Rugged IC market.

However, the Rugged IC market is faced with several challenges, including the high cost of manufacturing rugged ICs due to the complex design and manufacturing processes involved. Additionally, the high level of competition in the market is putting pressure on manufacturers to reduce costs while maintaining quality and reliability.

The main findings of the report indicate that the Rugged IC market is expected to grow significantly due to the increasing demand for high-performance electronic components that can withstand harsh environments. The market is projected to reach $6.46 billion by 2025, with aerospace and defense being the largest end-users. The report recommends that manufacturers focus on developing cost-effective solutions that offer superior reliability, durability, and resistance to harsh environments.

In conclusion, the Rugged IC market is poised for growth due to the increasing demand for high-performance electronic components that can operate in harsh environments. Manufacturers must focus on developing cost-effective solutions that maintain quality and reliability to remain competitive in this market. The integration of advanced technologies like IoT and AI will also play a significant role in driving the growth of the Rugged IC market in the future.

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Market Segmentation (by Application)

Automotive

Electronics

Healthcare

Others

Information is sourced from www.reportprime.com

#business #market analysis #market growth #market strategy #market research

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poojascmi · 1 year

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The Role of Technology in Shaping the Future of the Automotive Interior Leather Market

The automotive interior leather market is experiencing a transformational shift driven by advancements in technology. As consumers demand more sophisticated, connected, and sustainable vehicles, technology plays a pivotal role in shaping the future of automotive interiors, including the use and development of leather materials. From smart surfaces to eco-friendly tanning methods, technology is revolutionizing the way automotive interior leather is designed, manufactured, and experienced.

Smart Surfaces and Interactive Features: Technology is enabling the integration of smart surfaces within automotive interiors. These surfaces can respond to touch, gestures, or voice commands, allowing drivers and passengers to interact with various functions seamlessly. Incorporating leather with embedded sensors and haptic feedback technology enhances the overall user experience and adds a touch of luxury to modern vehicles.

Artificial Intelligence and Personalization: AI-driven systems can analyze user preferences, driving behavior, and biometric data to create personalized settings for each occupant. In the context of automotive interior leather, AI can optimize seat adjustments, climate control, and even massage functions to cater to individual preferences, providing a truly customized driving experience.

Augmented Reality Head-Up Displays: Augmented reality (AR) head-up displays are becoming more common in vehicles, projecting essential information directly onto the windshield. As part of the interior design, leather surfaces can incorporate haptic feedback elements that interact with the projected data, enhancing the driver's situational awareness and safety.

Sustainable Leather Tanning: Technology is playing a critical role in the development of Global Automotive Interior Leather Market tanning methods. Traditional tanning processes can be environmentally harmful due to the use of chemicals. However, innovative technologies are emerging that utilize eco-friendly and bio-based tanning agents, reducing the ecological footprint of leather production.

Smart Material Science: Advancements in material science have led to the development of smart and adaptive leather materials. These materials can change their properties based on environmental conditions, such as temperature and humidity. For example, leather surfaces with self-adjusting ventilation properties can provide enhanced comfort in varying climates.

3D Printing and Customization: 3D printing is revolutionizing the design and manufacturing process of automotive interior components, including leather elements. This technology enables intricate designs and allows for on-demand production, facilitating greater customization options for consumers.

Nanotechnology and Coatings: Nanotechnology is being employed to create advanced coatings for leather surfaces, enhancing their durability, stain resistance, and UV protection. These coatings can also give leather surfaces a unique sheen or matte finish, further expanding design possibilities.

Integrating Connectivity and Infotainment: The integration of technology with automotive interior leather goes beyond aesthetics. Leather surfaces can incorporate wireless charging pads, wireless smartphone connectivity, and hidden storage compartments, keeping the cabin clutter-free and technologically advanced.

Lightweighting and Performance: Technological advancements in composite materials and carbon fiber-reinforced polymers are influencing automotive design, including the choice of interior materials. Advanced lightweight materials can replace traditional leather in certain areas to reduce vehicle weight and improve performance and fuel efficiency.

Energy Harvesting and Sustainable Features: Technology enables energy harvesting from various sources within the vehicle, such as vibrations and heat. This harvested energy can power low-energy devices and systems, reducing the overall power consumption of the car and enhancing its sustainability credentials.

In conclusion, the Global Automotive Interior Leather Market is undergoing a significant transformation, driven by technological innovations that enhance user experience, sustainability, and design possibilities. From smart surfaces and AI-driven personalization to sustainable tanning methods and 3D printing, technology plays a crucial role in shaping the future of automotive interiors. Automotive manufacturers and suppliers must embrace these technological advancements to stay competitive and meet the ever-evolving demands of consumers in the automotive industry.

#Automotive Interior Leather Market #Automotive Interior Leather Market demand #Automotive Interior Leather Market growth #Automotive Interior Leather Market analysis #Coherent Market Insights

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pcbmust · 1 year

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From Concept to Creation: The Journey of Hardware Design

Introduction:

In the ever-evolving world of technology, hardware design stands as a fundamental pillar in bringing innovative and groundbreaking products to life. It encompasses the entire process of transforming an abstract concept into a tangible, functional device. From the initial spark of an idea to the final product hitting the market, hardware design involves a myriad of stages and factors that contribute to the success of a device. In this blog, we will explore the fascinating journey of hardware design, delving into its benefits and other important factors that shape this intricate process.

Benefits of Hardware Design:

1. Innovation and Creativity: At the heart of hardware design lies the ability to innovate and unleash creativity. It provides engineers and designers with a platform to explore new solutions to real-world problems. By pushing the boundaries of what is possible, hardware design leads to the development of cutting-edge products that revolutionize industries and improve people’s lives. Through hardware design, novel features and functionalities can be incorporated into devices, providing unique user experiences and setting new industry standards.

2. Customization and Optimization: Hardware design allows for customization and optimization of devices to meet specific requirements. Designers can tailor the hardware components, circuitry, and architecture to achieve desired performance, power efficiency, and form factor. This flexibility enables the creation of devices that cater to diverse user needs, whether it’s a compact wearable device or a high-performance server. By optimizing hardware design, engineers can enhance functionality, reduce power consumption, and optimize space utilization.

3. Integration and Connectivity: In our increasingly interconnected world, hardware design plays a crucial role in enabling seamless integration and connectivity among various devices. Designers need to consider the compatibility of hardware components, protocols, and interfaces to ensure smooth communication between different systems. Well-designed hardware facilitates the integration of sensors, actuators, wireless modules, and other technologies, enabling devices to interact with each other and the surrounding environment effectively. This connectivity opens up endless possibilities for automation, IoT applications, and smart ecosystems.

4. Reliability and Robustness: Hardware design focuses on creating devices that are reliable and robust in various operating conditions. Designers carefully select and test components to ensure their durability, stability, and resilience to external factors such as temperature, humidity, and vibration. Through meticulous design and testing, hardware engineers can create products that withstand the challenges of real-world usage. Robust hardware design enhances user satisfaction and trust in the brand, while also reducing product failures and warranty claims.

5. Cost Optimization: Hardware design plays a crucial role in optimizing manufacturing costs. By carefully selecting components, simplifying circuitry, and optimizing production processes, designers can reduce material costs and improve manufacturing efficiency. Additionally, thoughtful design choices can lead to easier assembly, maintenance, and repair processes, resulting in cost savings throughout the product’s lifecycle. Cost optimization enables companies to offer competitive pricing while maintaining profitability.

Other Factors in Hardware Design:

1. Prototyping and Testing: Prototyping is an integral part of the hardware design process. It involves building a physical model or a small batch of devices to evaluate the design’s feasibility, functionality, and performance. Prototyping helps identify design flaws and allows for iterative improvements before mass production. Rigorous testing, including functionality tests, stress tests, and compatibility tests, ensures that the final product meets quality standards and user expectations. Prototyping and testing reduce the risk of design flaws and ensure a smooth transition from concept to market-ready product.

2. Design for Manufacturing (DFM): Design for Manufacturing (DFM) is a critical consideration in hardware design. It involves designing products with manufacturability in mind, optimizing the design for efficient production processes. DFM focuses on factors such as component availability, ease of assembly, and cost-effective manufacturing techniques. Collaborating closely with manufacturers during the design phase helps streamline the transition from concept to mass production. By designing for manufacturability, companies can reduce production costs, minimize time-to-market, and ensure consistent product quality.

3. Regulatory Compliance: Hardware design must adhere to regulatory and industry standards to ensure the safety, reliability, and compatibility of devices. Designers need to consider factors such as electromagnetic compatibility (EMC), safety certifications, environmental regulations, and wireless communication standards. Compliance with these standards not only ensures the product’s marketability but also guarantees its compatibility with other devices and user safety. Understanding and adhering to regulatory requirements early in the design process helps avoid costly redesigns and delays during product certification.

4. User Experience (UX) Design: Hardware design goes beyond functionality; it encompasses user experience design. Designers need to consider ergonomic factors, aesthetics, intuitive controls, and ease of use to create devices that provide a seamless and delightful user experience. Attention to detail in the physical design, user interface, and overall interaction design significantly impacts the perception and adoption of a product. By designing with the end-user in mind, companies can differentiate their products, build brand loyalty, and create a positive impact on users’ lives.

Conclusion:

From concept to creation, hardware design embarks on a complex and fascinating journey that combines innovation, technical expertise, and meticulous attention to detail. The benefits of hardware design, including innovation, customization, integration, reliability, and cost optimization, are instrumental in shaping the technological landscape. By understanding and embracing the challenges and opportunities of hardware design, engineers and designers can bring forth remarkable devices that push the boundaries of what is possible and enhance the way we live, work, and interact with technology. The journey of hardware design is a testament to human ingenuity and the relentless pursuit of progress in shaping a better future.

About the Author: Avi Gupta, Founder of PCB Must Innovations, is a dynamic force in the world of electronics design. With a wealth of industry experience, Avi thrives on solving intricate problems and delivering dependable solutions. A tech enthusiast, Avi stays ahead of trends while cherishing precious moments with family. Avi could be reached at [email protected]

Hardware, Hardware Design

#pcb design #hardware design #hardware #automotive electronics #circuit design #circuit board #electronics design #pcb circuit design #electronics #iot applications

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worldwideanalysis · 1 year

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North America Is Dominating the Cryocooler Market

The cryocooler market was valued at $2.51 billion in 2021, and it is set to reach $4.45 billion by 2030, growing at a CAGR of 6.6% between 2021 and 2030, according to a research report by P&S Intelligence.

The growth of this industry is mainly ascribed to the increasing requirement for medical and healthcare services in developing countries and the growing usage of cryocoolers in nuclear MRIs, cryosurgeries, proton therapies, MRI systems and liquefaction of oxygen in hospitals.

The aerospace & defense category is projected to grow at the fastest rate of over 7% in the coming years. Cryocoolers are adopted in industries with sensors and sensitive electronics for commercial scientific space or military payloads.

The best-known publicly accessible LEO sensors are LANDSAT and MODIS sensors, with three-dimensional resolutions of 30 m and 250/500/1,000 m respectively. Such applications' requirements are very low vibration and capability to endure satellite launch vibration, power efficiency, and high reliability and can be exposed to space radiation for a longer time.

Moreover, cryocoolers are also extensively used in the missile guidance application, as enhanced guided-missiles technology these days is a vital requirement of a modern military inventory. From short-range anti-armor and anti-air missiles to medium, air-to-surface long-range air-to-air weapons, cruise, and ballistic missiles are now established as key elements of the most capable national militaries.

Additionally, cryocoolers are gradually discovering their applications in the semiconductor fabrication sector, because of the reduced costs of large-scale fabrication processes and the increased demand for semiconductors. Similarly, the demand for cryocoolers will surge moderately for high-temperature superconductors in wireless mobile phone base stations across the world.

Furthermore, the growing demand for cooling down IR sensors utilized in electromagnetic thermography offers many opportunities to small-sized cryocoolers producers. An electromagnetic camera or thermal imaging camera is a prominent feature of mid-IR sensors and is rapidly accepted in space exploration tasks for image sensing and data mining.

North America held the largest share of the cryocooler market of over 32%, In 2021. This can be credited to the increasing expenditure in the defense industry and medical research and healthcare innovations.

Furthermore, the snowballing cancer cases is one of the major reasons driving the market in the region.

The European market is projected to grow moderately. This can be ascribed to the extensive use of cryocoolers in high-end detectors and systems including, thermal weapon sights, missile warning systems and scaled-downed payloads in the region.

Therefore, the increasing requirement for medical and healthcare services in developing countries and the growing usage of cryocoolers in nuclear magnetic resonance instruments, cryosurgeries, and proton therapies, such factors will contribute to the industry growth in the future.

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electronalytics · 1 year

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Industrial Primary Lithium Batteries Market Outlook on Key Growth Trends, Factors and Forecast 2032

Industrial Primary Lithium Batteries Market Overview:

The industrial primary lithium batteries market refers to the market for non-rechargeable lithium batteries used in various industrial applications. These batteries offer high energy density, long shelf life, and reliable performance, making them suitable for critical and demanding industrial operations. Global Primary Lithium Battery Market Insight [2023-2030] Estimated to Reach USD 3907.4 Million (Growing at a CAGR of 4.3%)

Here is an overview of the industrial primary lithium batteries market and its key factors:

Key Factors:

Industrial Applications: Industrial primary lithium batteries find extensive use in a wide range of industries such as oil and gas, mining, manufacturing, transportation, aerospace, defense, and utility sectors. These batteries power various equipment and devices, including remote monitoring systems, sensors, meters, wireless communication devices, and backup power solutions.

High Energy Density: Industrial primary lithium batteries are known for their high energy density, meaning they can store a significant amount of energy in a compact size. This characteristic is crucial in industrial applications where space is limited, and long-lasting power supply is essential.

Long Shelf Life: Lithium batteries have an extended shelf life, retaining their charge even when stored for extended periods. This is advantageous in industrial settings where batteries may need to be deployed on-demand or stored as backup power solutions.

Temperature Performance: Industrial primary lithium batteries offer excellent performance in extreme temperatures, including high and low temperature conditions. This makes them suitable for applications that require reliable operation in harsh environments.

Reliability and Safety: Industrial operations often rely on critical equipment and systems where reliable power supply is crucial. Primary lithium batteries are known for their stable voltage output and consistent performance throughout their lifespan. Additionally, they are designed with safety features to prevent issues such as leakage or thermal runaway, ensuring safe operation in industrial environments.

Durability and Resistance: Industrial primary lithium batteries exhibit durability and resistance to vibrations, shocks, and various environmental factors such as humidity, dust, and chemicals. These characteristics make them suitable for rugged industrial applications and challenging operating conditions.

Cost-effectiveness: Although the upfront cost of primary lithium batteries may be higher than other battery types, their long service life and reliable performance make them cost-effective solutions for industrial applications. The reduced need for frequent battery replacements and maintenance contributes to overall cost savings.

Technological Advancements: The industrial primary lithium batteries market benefits from ongoing technological advancements. These include improvements in battery chemistry, materials, and design, resulting in enhanced energy density, extended operational life, increased safety, and better performance in various industrial environments.

Increasing Industrial Automation: The growing trend of industrial automation and digitization drives the demand for reliable and long-lasting power solutions. Industrial primary lithium batteries provide the necessary energy supply for automated systems, wireless communication, and remote monitoring, supporting the advancement of industrial automation.

In summary, the industrial primary lithium batteries market is driven by the wide range of industrial applications, high energy density, long shelf life, temperature performance, reliability, safety, durability, cost-effectiveness, technological advancements, and the increasing adoption of industrial automation. As industrial operations continue to evolve and demand reliable power solutions, the market for industrial primary lithium batteries is expected to grow.

We recommend referring our Stringent datalytics firm, industry publications, and websites that specialize in providing market reports. These sources often offer comprehensive analysis, market trends, growth forecasts, competitive landscape, and other valuable insights into this market.

By visiting our website or contacting us directly, you can explore the availability of specific reports related to this market. These reports often require a purchase or subscription, but we provide comprehensive and in-depth information that can be valuable for businesses, investors, and individuals interested in this market.

“Remember to look for recent reports to ensure you have the most current and relevant information.”

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Market Segmentations:

Global Industrial Primary Lithium Batteries Market: By Company

• EVE Energy

• SAFT

• Hitachi Maxell

• GP Batteries International

• Energizer

• Duracell

• Varta

• Changzhou Jintan Chaochuang Battery

• Vitzrocell

• FDK

• Panasonic

• Murata

• Wuhan Lixing (Torch) Power Sources

• Newsun

• Renata SA

• Chung Pak

• Ultralife

• Power Glory Battery Tech

• HCB Battery

• EEMB Battery

Global Industrial Primary Lithium Batteries Market: By Type

• Li/SOCL2

• Li/MnO2

• Li-SO2

• Others

Global Industrial Primary Lithium Batteries Market: By Application

• Automotive

• Security Equipment

• Communication Equipment

• Others

Global Industrial Primary Lithium Batteries Market: Regional Analysis

All the regional segmentation has been studied based on recent and future trends, and the market is forecasted throughout the prediction period. The countries covered in the regional analysis of the Global Industrial Primary Lithium Batteries market report are U.S., Canada, and Mexico in North America, Germany, France, U.K., Russia, Italy, Spain, Turkey, Netherlands, Switzerland, Belgium, and Rest of Europe in Europe, Singapore, Malaysia, Australia, Thailand, Indonesia, Philippines, China, Japan, India, South Korea, Rest of Asia-Pacific (APAC) in the Asia-Pacific (APAC), Saudi Arabia, U.A.E, South Africa, Egypt, Israel, Rest of Middle East and Africa (MEA) as a part of Middle East and Africa (MEA), and Argentina, Brazil, and Rest of South America as part of South America.

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Reasons to Purchase Industrial Primary Lithium Batteries Market Report:

• To gain insights into market trends and dynamics: this reports provide valuable insights into industry trends and dynamics, including market size, growth rates, and key drivers and challenges.

• To identify key players and competitors: this research reports can help businesses identify key players and competitors in their industry, including their market share, strategies, and strengths and weaknesses.

• To understand consumer behavior: this research reports can provide valuable insights into consumer behavior, including their preferences, purchasing habits, and demographics.

• To evaluate market opportunities: this research reports can help businesses evaluate market opportunities, including potential new products or services, new markets, and emerging trends.

• To make informed business decisions: this research reports provide businesses with data-driven insights that can help them make informed business decisions, including strategic planning, product development, and marketing and advertising strategies.

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#Wireless Sensors #Smart Grid #Power Tools #Emergency Lighting #Security Systems #Environmental Monitoring #Transportation #Renewable Energy #Lithium Thionyl Chloride #Lithium Sulfur Dioxide #Lithium Manganese Dioxide #Lithium Iron Disulfide #Lithium Carbon Monofluoride.

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rubydobson12 · 1 year

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RuggedCore: An Embedded System Built to Withstand Extreme Conditions

Rugged embedded systems are a type of computing device designed to operate in harsh environments, such as extreme temperatures, high humidity, vibration, and shock. These systems are widely used in military, aerospace, transportation, and industrial applications, where reliability and durability are critical.

One of the key features of rugged embedded systems is their ability to withstand harsh conditions. They are typically built with robust materials and designed to operate in extreme temperatures, from -40°C to 85°C, and withstand shocks and vibrations up to 50G. They are also sealed against moisture and dust, and can operate in high humidity environments.

Another important feature of rugged embedded systems is their ability to operate in remote locations with limited power sources. These systems are often designed with low power consumption in mind, and can operate on battery power for extended periods of time. They also often feature advanced power management capabilities, such as sleep modes and power throttling, to maximize battery life.

Rugged embedded systems are also highly customizable and can be tailored to specific applications. They can be designed with a wide range of interfaces, including Ethernet, USB, serial, and wireless, and can support a variety of operating systems and software applications. They can also be integrated with a range of sensors, such as accelerometers, temperature sensors, and GPS, to provide real-time data and analytics.

One of the primary advantages of rugged embedded systems is their reliability. These systems are designed to operate in harsh environments without failure, and are often subject to rigorous testing to ensure their performance under extreme conditions.

Get More insights on this: https://www.persistencemarketresearch.com/market-research/rugged-embedded-system-market.asp

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globalinsightsservices · 2 years

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

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

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

Key Players

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

Key Trends

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

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

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

Key Drivers

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

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

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

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

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Market Segments

By Offering

Hardware

Software

By Technology

Wired

Wireless

By End-Use

Energy

Mining

Others

By Region

North America

Canada

Mexico

Europe

France

Germany

Spain

Italy

Rest of Europe

Asia Pacific

India

China

Japan

South Korea

Rest of APAC

Rest of the World

Latin America

Middle East

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A 10-year forecast to help you make strategic decisions

Deep segmentation that can be customized according to your requirements

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

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strangemusictriumph · 2 years

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IO-Link Market - Forecast (2022 - 2027)

IO-link Market size was valued at $5.3 billion in 2020 and it is estimated to grow at a CAGR of 18.51% during the period 2021-2026, owing to high penetration of industry 4.0 across industries. IO-link is a point-to-point serial communication protocol that includes an IO-Link master and one or several IO-Link devices. This system is highly being used for increasing the level of efficiency of industrial automated processes. Thus high demand for automation drives the growth of IO-Link market. Moreover, its ability to offer support and sustainability for various Fieldbus and Ethernet communication protocol plays a major role in the growth of this market. Furthermore, the government’s initiative to promote the adoption of industrial automation such as programmable logic controllers (PLCs), MES, SCADA and IoT sensors (such as photoelectric sensors, proximity sensors and sensor nodes), is one of the primary factors augmenting the demand for IO-Link. This technology also reduces the overall operational cost and increases the operational efficiency. Hence, the above-mentioned factors will drive the growth of IO-link industry during the forecast period.

Report Coverage

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

By Type: IO-Link Wired, IO-Link Wireless

By Component: IO-Link Master(PROFINET, EtherNet/IP, Modbus-TCP, EtherCAT, Multiprotocol and Others), IO-Link Devices(Sensor Nodes (Position sensor, Temperature sensor, Pressure sensor, Vibration sensor and Others), Modules, Actuators, RFID Read Heads and Others).

By Application: Machine Tool, Handling and Assembly Automation, Intra-logistics, Packaging and Others

By End User Industry: Process Industry (Oil & Gas, Chemical, Power and others), Discrete Industry (Automotive, Aerospace & Defense, Semiconductor & Electronics, Machine Manufacturing and Others)and Hybrid Industry (Pharmaceutical, Metal & Mining, Food & Beverage, Cement And Glass 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)

Key Takeaways

IO-Link Master held the major IO-link market share in 2020, due to high penetration of industrial 4.0 across industries and rapid industrialization.

Europe dominated the market in 2020, and is anticipated to witness significant growth during the forecast period 2021-2026, owing to early adoption of this technology and presence of major market players in this region.

Rapid adoption of automation and field bus independency of IO-link are the major growth drivers of this market.

IO-link Market outlook is consolidated with top market players including Siemens AG, Hans Turck GmbH & Co. KG, Balluff GmbH, Rockwell Automation, Inc., SICK AG, and others.

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IO-link Market Segment Analysis – By Component

By component, this market is segmented intoIO-Link Master and IO-Link Devices. IO-link master segment is further segmented intoPROFINET, EtherNet/IP, Modbus-TCP, EtherCAT, Multiprotocol and Others, and IO-Link Devices segmented into Sensor Nodes, Modules, Actuators, RFID Read Heads and others. IO-link master held major IO-link market share around 35.99% in 2020, owing to rapid industrialization, increasing penetration of automation and industry 4.0 across sectors. For instance, in June 2019, UiPath published a report on present and future progress of automation and according to the survey report, 90% organizations are already using the automation technology to conduct their business processes. High adoption rate of automation across industries creates huge demand for IO-link masters and to fulfill such demand major players of this market are launching new products as well as investing heavily for the advancement of this solution. In June 2019, Contec Co. introduced a new IO-Link master solution CPSL-08P1EN, which supports use with four types of industrial Ethernet-based system protocols, including CC-Link IE Field Basic, EtherNet/IP, Modbus TCP and PROFINET. Hence, the above mentioned factors will drive the demand for IO-link Maters during the forecast period.

IO-link Market Segment Analysis - By End-User Industry

Based on end-user industry, IO-link Market is segmented into process industry, discrete industry and hybrid industry. Hybrid industry is sub-segmented into pharmaceutical, metal & mining, food & beverage, cement and glass and other industries. Pharmaceutical industry is the fastest growing segment in IO-link market and estimated to grow at a CAGR of 19.06% during forecast period 2021-2026, specifically due to the increasing investment in this sector. According to the report of Invest-India, the pharmaceutical sector is analyzed to reach $65 billion by 2024 and to reach $120 billion by the year 2030. Furthermore, rapid adoption of industry 4.0, increasing demand for reliable as well as sustainable communication and remote monitoring system in this industry are the key factors behind the growth of this market. IO-Link offers end-to-end communication to the whole process operation which reduces the overall downtime of the machines, which reduces the overall operational and maintenance cost. Moreover, out-break of COVID-19 has a positive impact on the growth of pharmaceutical industry. The rise in COVID cases and the growing health awareness among public are the key factors behind this high investment that creates the massive requirement of IO-link solutions, which in turn drives the growth of IO-link market. Hence, rising investment in pharmaceutical industry is being seen as the opportunity for the players operating in the IO-linkmarket during 2021-2026.

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IO-link Market Segment Analysis - By Geography

Europe dominated the IO-Link Market in 2020 with a share close to 30.18%, followed by North America and APAC. Moreover, it is estimated that Europe will have a significant amount of market growth during the forecast period 2021-2026, owing to technological advancement, early adoption of this technology and government’s initiatives for the development of smart factories. Rising demand for IoT enabled connected devices, industrial automation are the key factors fuelling the growth of this market. Furthermore, this technology has a well-established customer base in this region. Apart from that, continuous development, new advanced product launches of the technology also plays a major role towards the market growth. Europe-based companies such as Siemens AG and General Electric is one of the largest manufacturers of this technology in the world. Devices produced in Siemens are generally equipped with PROFINET and this company dominates the European market. In November 2020, a Germany-based company, Igus joined PI organization, for advancing the research of PROFINET technology in dynamic applications. In February 2019, SICK announced the launch of Safe EFI-pro System, which offers standard industrial Ethernet-based safety network integration for highly-adaptive as well as dynamic safeguarding in automated production and logistics environments to SIL 3/PLe.This kind of strategic movements and technologically advanced product launches will drive the market for this region during the forecast period.

IO-link Market Drivers

Increasing Penetration of Automation:

Increasing adoption of automation across industries is one of the major drivers for IO-Link, triggering the growth for this technology. Integration of automation system across industries offers greater efficiency, higher reliability, enhanced asset management, production boost, better process speed and cost effectiveness, which is accelerating the amount of investments made by organizations to remain productive. This in turn, drives the growth of IO-Link technology, as this technology is a point-to-point serial communication protocol, which is highly being used for communicating with sensors and actuators in industrial automation processes. In July 2020, for digital industrial transformation, Carlo Gavazzi announced the launch of its new IIoT-enabled IO-Link Masters, YL212 and YN115, that supports leading industrial Ethernet-based system protocols including EtherNet/IP, PROFINET IO and MODBUS TCP access. This product has advanced features such as embedded web interface and OPC UA, which offers full remote access, control of the IO-Link masters and connected devices. This product also offers reliability, transparent process data transmission into the cloud-based systems from the sensors and actuators along with access to the data, attached to the smart devices through the Programmable Logic Controller (PLC) and OPC UA clients. This type of product with such unique features fuels the growth of his market. PI Organization’s recent research report shows that, the performance of Profinet RT fulfills 95% timing requirements of industry-based automation. Hence, the adoption of automation will drive the growth of IO-link market during the forecast period.

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Fieldbus Integration:

IO-Link is an open source interface, which makes this technology a Fieldbus independent solution. It can be integrated into all the fieldbus systems including PROFINET, AS-i, CANopen, CC-Link, PROFIBUS, EtherCAT, EtherNet/IP, DeviceNet, Interbus, Powerlink and others. Different organizations use different networking protocols for their systems, which make the fieldbus-independent IO-Link more suitable for the companies, as it allows the businesses to connect their products to different systems and control level devices including Programmable Logic Controller (PLC), Supervisory control and data acquisition (SCADA) and others. This in turn, saves the investments that are already made by the manufacturers, plant operators, machine builders and others, on the systems. Even when the organizations decide to migrate from one technology to other technology, IO-Link makes the process cost effective, by reducing the overall cost. In January 2019, Korenix introduced a new cost-effective Profinet supported, Fieldbus gateway, JetLink 1302, which can transmit the data faster among the devices and provide seamless communication between fieldbus and industrial Ethernet communication protocol. Hence, the fieldbus independency of IO-Link is one of the major growth drivers of this market.

IO-link Market Challenges

Security Issues:

IO-link technology is vulnerable to various security threats such as cross site request forgery (CSRF), reflected cross-site scripting (XSS), blind command injection, denial-of-service (DoS) issues, spear phishing and others, which hinders the growth of this market. Furthermore, in February 2020, OTORIO security researchers discovered a security weakness in PROFINET-IO stack, which is responsible for handling the packets that being used in device management. If a device is overloaded with multiple diagnostic packets, it may create a security threat that allows the attackers to send the devices into a denial-of-service (DoS) condition, which can create disruption in operational processes. Many industrial devices such as devices produced by Siemens, MoxaEDS Ethernet switches and others; that rely on Siemens PROFINET-IO stack are highly being affected. Hence, the above mentioned factor creates security related issues that will hinder the growth of this market during 2021-2026.

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IO-link Market Landscape

Partnerships and acquisitions along with product launches are the key strategies adopted by the players in the IO-link Market. As of 2020, IO-link Market top 10 companies includesSiemens AG, Hans Turck GmbH & Co. KG, Balluff GmbH, Rockwell Automation, Inc.,SICK AG, Omron Corporation, Pepperl+Fuchs SE,Schneider Electric, General Electric,B&R Industrial Automation GmbH among others.

Acquisitions/Technology Launches

In March 2020, Harting Americas had launched Single Pair Ethernet (SPE) technology, thatutilizes Power over Data Line (PoDL) technology to bring communication to the devices and also the voltage and amperage needed to power the device. SPE communication protocols are available for Ethernet/IP, Profinet, EtherCat and others.

In February 2020, European company, SICK had launched a sensor integrated PROFINET gateway, which is the first product that can act as both IO-Link Masters and control system.

For more Electronics related reports, please click here

#IO-link Market price #IO-link Market share #io link market #IO-link Market trends #IO-link Market report #IO-link Market analysis #IO-link Market forecast #IO-link

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latestmarketblogupdates · 2 years

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Hall Effect Sensor Market - Forecast 2022-2027

Hall Effect Sensor Market Overview

The Hall Effect Sensor Market size is forecast to reach US$ 2.1 billion by 2027, growing at a CAGR of 8.6% from 2022 to 2027. Hall effect sensors use ‘Hall Effect’ principle to convert magnetically encoded information into electrical signals. The principle of Hall effect sensors depends on the electron mobility. These devices have a range of applications, with Hall effect sensors often used in automotive systems to sense position, distance and speed. They are commonly used in automotive control systems like proximity sensing, speed detection, anti lock braking systems and others, electronics, and measurement devices. The factors such as rise in industrial automation, growing application of hall effect sensor in robotics, increasing use of programmable and fully integrated current sensors and transducers and wide temperature stability in extreme environments in wide range of industry verticals are helping in the growth of this market. However, the factors such as high cost of raw materials for hall effect sensors and technical issues like inconsistent.

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Hall Effect Sensor Market Report Coverage

The report: “Hall Effect Sensor Industry Outlook – Forecast (2022-2027)”, by IndustryARC covers an in-depth analysis of the following segments of the Hall Effect Sensor industry.

By Type of Loop :Open-Loop Sensor, Closed-Loop Sensor By Rotor:Magnetic rotor, Ferrous vane rotor By Magnetic field:Unipolar, Bipolar, Omnipolar By Technology:BiCMOS, CMOS By Material:Gallium Arsenide (GaAs),Indium Arsenide (InAs),Indium Phosphide (InP),Indium Antimonide (InSb),Graphene By Output: Analog ( Linear ), Digital ( Switching ) By Application:Position sensing, Motion sensing, Wireless Communication, Pressure Sensing, Flow rate Sensing, Vibration sensing, Others By End user: Industrial Equipments, Power & Energy, Oil, gas and petrochemical, Automotive, Consumer Electronics, Telecommunication, Healthcare, Aerospace & Defense, Manufacturing, Robotics, Others By Geography: North America (U.S, Canada, Mexico), Europe(U.K, Germany, France, Italy, Spain,Others), APAC (China, Japan, South Korea, India, Australia, Others), South America (Brazil, Argentina, Others), RoW (Middle East, Africa)

Key Takeaways

The open loop sensor segment is predicted to grow at a faster rate than closed loop sensor overthe forecast period of 2002-2027 in the Hall Effect Sensor Market segmented by type of loop. This is owing to more precise results with simple design, cost effective circuit and easy to maintain and tune. The industrial segment held the largest share in Hall Effect Sensor Market by application, in 2021. This is attributed toadvent of industrial automation and need of accurate production lines for safety and efficiency. Asia-Pacific (APAC) market held the largest market share of 35%, in 2021. This is due to growing research in Hall Effect sensor technologies, rise in industrial automation and robotics and government policies to boost the semiconductor sensor industry. The increasing smart grids and robotics in industries, growing use of electric vehicles and smart automotive systems and growing research in Hall Effect sensors for improved performance are the contributing factors in the growth of Hall Effect Sensor Market.

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Hall Effect Sensor Market Segment Analysis - By Type of Loop The Hall Effect Sensor Market by type of loop has been segmented into open loop sensor and closed loop sensor. The open loop segment is predicted to grow at a faster rate with CAGR of 9.8%, over the forecast period 2022-2027. This is owing to growing application of open loop hall effect sensors in industrial equipments, ease of implementation of the mechanism and galvanic isolation effect. Open loop current sensors consist of a Hall sensor mounted in the air gap of a magnetic core. An open-loop Hall-effect sensor uses the Hall voltage directly to produce its output signal making it simpler to implement and exhibits a faster response time. These sensors help improve the overall efficiency and productivity of an automation process due to galvanic isolation effect. It is a major factor in the selection of a open loop hall effect sensor mainly for current measurement applications. Thus, open loop hall sensors have several benefits in industrial applications which are mainly promoting the growth of this open loop hall sensor segment. In July 2021, a customized version of LEM’s HAH1, an open loop hall effect sensor, was developed. It significantly reduces the assembly footprint compared to previously available solutions and allows a higher integration level within the control infrastructure. Thus, growing use of open loop Hall Effect sensor with integrated systems and customized structure as per requirement is fuelling the growth of this market

Hall Effect Sensor Market Segment Analysis - By End User

The Hall Effect Sensor Market by end user has been segmented into industrial equipments, automotive, consumer electronics, telecommunication, healthcare, aerospace & defense, manufacturing, others. The industrial equipment segment held the largest share of 32%, in 2021. This is owing to the increasing need of precision production line processes and wide working temperature range in extreme industrial environments. Current sensor, pressure sensors and rate of flow sensors are some of the extensively used applications of Hall Effect sensors in industrial and manufacturing. In Industrial equipments, Hall Effect sensors are used in security systems, alignment controls, micrometers, machine tools, key switches, linear potentiometers, rotary encoders, and brushless DC motor commutators. Thus, a large scale of equipment and process line requirement of Hall Effect sensor in industrial applications is assisting the industrial equipments segment growth. In October 2021, Texas Instruments has introduced TMAG5170, the first device in a new family of 3D Hall-effect position sensors for real-time control in factory automation and motor-drive applications. The sensor is promoted as providing integrated functions and diagnostics to maximize design flexibility and system safety while saving energy. Such growing advancements in hall effect sensor technologies for industrial requirements and other applications is driving the growth of this market

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Hall Effect Sensor Market Segment Analysis - By Geography

The Hall Effect Sensor Market by geography is segmented into North America, Europe, Asia-Pacific (APAC), South America, and the rest of the world (RoW). Asia Pacific (APAC) held the largest Hall Effect Sensor Market share with 35% of total market size. This is due to increasing government policies supporting industrial automation and growing research in new technological integration in Hall effect sensors such as 3D sensing or bipolar complementary metal-oxide-semiconductor (BiCMOS) technology in countries such as China, India, South Korea, and Japan. The recent developments of graphene-based Hall Effect sensors, programmable hall effect sensors are also boosting the growth in Asian countries. In June 2020, Melexsis announced an automotive grade monolithic sensor that uses Hall Effect to provide contactless sensing in three-dimensional environment. The dual die version of MLX90395 is defined through system processor, rather than hardwires into device. Such, growing innovations in the Hall Effect sensors is accelerating the growth of this market in Asian countries.

Hall Effect Sensor Market Drivers

The rising industrial automation and increasing use of smart grids in production line boosts the growth of Hall Effect Sensor market The Hall Effect Sensor Market is growing due to the rise in demand for sensors with higher accuracy levels, wide working temperature ranges and accurate results. The increasing use of smart grids and rising safety concerns within industrial applications drive the demand of hall effect sensors. The rise in implementation of industry 4.0 technologies such as industrial internet of things (IIoT) and cloud-computing has created high demand for variety of sensors. Another essential part, DC motors, and switches, controls also use Hall Effect sensors for automation which are increasingly used by various industries. Hall effect sensors are also an effective, contactless way to measure DC magnetic flux in current transformers. These sensors dedicated for different kinds of industrial applications are available for example, sealed Hall Effect devices are water-proof and are made in such a way to resist any vibration. Thus, customization of these sensors is assisting in the growth of this market. In January 2022, Allegro MicroSystems, Inc., a global leader in sensing and power solutions for motion control and energy-efficient systems, announced its new A33230 3D sine/cosine Hall-effect position sensor IC. The A33230 is the smallest 3D sine/cosine sensor currently available in the market, and offers system designers a cost-effective solution for automotive and industrial applications with a quick time to market. Thus, growing industrial applications is driving the Hall Effect Sensor Market growth.

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The increasing research in bipolar complementary metal-oxide-semiconductor (BiCMOS) technology, intelligent hall effect sensors and three-dimensional sensors is boosting the hall effect sensors market growth.

There are growing advancements in the Hall Effect sensor technologies such as BiCMOS, three-dimensional and many others. BiCMOS offers a high current drive per unit, low input density, high power dissipation, and low noise compared to conventional or CMOS technology. A BiCMOS chopper stabilization circuit is utilized to reduce signal offset and to stabilize the output of the IC over its operating temperature range. with BiCMOS technology, features fast power-on time and low-noise operation. A family of Hall-effect sensors optimized for automotive and mechatronic applications that demand accuracy and flexibility combined with low cost. It includes a microcontroller, a temperature sensor, advanced on-chip compensation, and a digital interface. The latest automotive designs require smart sensors to deliver the high level of precision and robustness linked with the capability of local pre-processing of the measured data. In May 2022, Synaptics Inc. has launched the FlexSense family of sensor processors that captures and intelligently handles input from up to four sensors in a tiny, ultra-low-power form factor that is up to 80% smaller than existing solutions. Integrating a mix of capacitive, inductive, Hall effect and ambient sensing into a single processor with proprietary algorithms, the FlexSense family brings reliable, low-latency, and context-aware force, proximity, and touch sensing to Internet of things (IoT) devices. Such innovations in integration of hall effect sensors with intelligent technologies is driving the growth of this market.

Hall Effect Sensor Market Challenges

The issue of uneven strength of magnetic fields in Hall Effect sensors is restricting the growth of this market

Hall effect sensors produce an output voltage directly proportional to the strength of the magnetic field generated by the current supplied. It is connected to an analog to digital (A/D) converter, microprocessor, or microcontroller to maintain the voltage. Hall-Effect sensors work on the concept of magnetic field, which makes them more vulnerable to external magnetic fields, leading to inconsistent measurement of the current flow. These sensors are not suitable for measuring the flow of current if the distance between the generated magnetic field and the current-carrying conductor is beyond certain limits which is expected to hinder the market growth. In May 2022, Titan Enterprises Ltd, explains some of the reasons for sensor failures. High quality Hall effect sensors are typically used within Titan’s pulse precision flow measurement devices. The sensors operate between 4.0Vdc and 30Vdc, however, exceeding the maximum 30Vdc to the Hall Effect sensor will damage the unit. A good quality regulated DC power supply is recommended for powering a pulse flow meter. Thus, due to the technical limitations and need to maintain certain distance and current flow restricts the growth of this market.

Hall Effect Sensor Market Landscape

Product launches, acquisitions, and R&D activities are key strategies adopted by players in the Hall Effect Sensor industry. The Hall Effect Sensor top 10 companies include:

ABB Ltd Allegro MicroSystems LLC TE Connectivity Ltd Bartington Instruments Ltd Honeywell International Inc. Analog Devices, Inc. Robert Bosch GmbH NXP Semiconductors N.V. TDK Corporation Infineon Technologies AG

Recent Developments:

In July 2020, Texas Instruments announced the industry’s first zero-drift Hall-effect current sensors. The TMCS1100 and TMCS1101 enable the lowest drift and highest accuracy over time and temperature while providing reliable 3-kVrms isolation, which is especially important for AC or DC high-voltage systems such as industrial motor drives, solar inverters, energy-storage equipment and power. This product with unique feature and varied applications will aquire a significant market share In May 2021, Paragraf continues to push performance boundaries with its graphene Hall Effect sensors. Oxford Instruments, a leading provider of high technology tools and systems for research and industry, have employed a modified version of the Paragraf GHS09CC sensor device to carry out measurements at temperatures and magnetic field strengths far beyond the scope of any other sensing solution. Thus, this breakthrough innovation of using graphene will help in gaining a significant market share. In October 2021, Texas Instruments has introduced TMAG5170, the first device in a new family of 3D Hall-effect position sensors for real-time control in factory automation and motor-drive applications. The sensor is promoted as providing integrated functions and diagnostics to maximize design flexibility and system safety while saving energy. Thus, expanding the integration and advanced features will assist in capturing the market of hall effect sensors. In November 2021, TDK Corporation announced the portfolio expansion of its Micronas direct-angle Hall-effect sensor family with the HAR 3927. This product uses proprietary 3D HAL® pixel-cell technology and addresses the need for ISO 26262-compliant development. Various configuration options of HAR 3927 increase customers’ flexibility during development and enable one sensor to be used in multiple applications, which reduces costs and effort for re-qualification. Thus, compliance with certification and improved results will help in market growth of hall effect sensors.

#Hall Effect Sensor Market #Hall Effect Sensor Market size #Hall Effect Sensor Market share

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cool-akashy-maximize · 2 years

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Global Industrial Automation Market Segmentation, Challenges, Restraints, Revenue, Recent Developments, Stakeholders and Forecast Research 2029

Global Industrial Automation Market: was valued at USD 133.10 Billion in 2021, and it is expected to reach USD 217.2 Billion by 2029, exhibiting a CAGR of 8.5 % during the forecast period (2022-2029)

Global Industrial Automation Market Overview:

The purpose of this research is to provide a detailed analysis of the Global Industrial Automation Market by segment and geography. The report goes into great detail about the primary factors influencing the Global Industrial Automation market's growth. The research also includes a comprehensive assessment of the market's value chain.

Global Industrial Automation Market Dynamic:

Industrial automation technologies enable firms to access plant floor data in real time, allowing them to consolidate corporate data and multi-plant operations. This feature is expected to accelerate the growth of the industrial automation market. For example, HMI allows manufacturers to carefully monitor manufacturing processes and act quickly to changing production demands, improving operational efficiency and decreasing unplanned downtime, and therefore providing greater visibility. Predictive maintenance and asset management systems provide user insight into the state of equipment by monitoring factors such as temperature, current, voltage, speed, vibration, and location. It also predicts when components are likely to break, allowing action to be taken, enhancing efficiency. As a result, unplanned downtime and production waste may be eliminated.

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Market Scope:

To get the final quantitative and qualitative data, all possible components influencing the markets covered by this research study were studied, thoroughly researched, validated by primary research, and evaluated. Market size is predicted for top-level markets and sub-segments, and the influence of inflation, economic downturns, regulatory and policy changes, and other variables is taken into account when estimating market size. This data is collated and presented in this study, together with comprehensive contributions and analysis from companies.

To validate the market size and estimate the market size by different segments, top-down and bottom-up methodologies are utilized. The research's market estimates are based on the sale price (excluding any discounts provided by the manufacturer, distributor, wholesaler, or traders). Weights applied to each section based on usage rate and average sale price are used to determine percentage splits, market shares, and segment breakdowns. The percentage adoption or usage of the provided market Size in the relevant area or nation is used to determine the country-wise splits of the overall market and its sub-segments.

Global Industrial Automation Market Segmentation:

By Components, the Industrial sensors segment is expected to hold largest share of industrial automation components market in the middle east & africa during forecast period. The increased adoption of Industry 4.0 and IIoT, as well as the growth of the wireless sensor market, are driving the growth of the industrial sensors segment. Industrial sensors are widely utilised in the manufacturing industry, primarily to improve connection across diverse activities. Manufacturers all across the world have begun to integrate sensors for gathering real-time data from multiple data points. Sensors as an important component of predictive maintenance solutions are expected to see rapid growth in demand in the coming years, as predictive maintenance is expected to offer lucrative opportunities through sensor data capture in the coming years.

By Industry, the semiconductor industries are the only end-users, which maintained or increased demand for collaborations in 2021, mainly in the Asian market. Automotive and electronics accounted for nearly 62% of robotics revenues in 2021 but automotive continues to be weak and the sector will not surpass 2019 levels of demand for robotic solutions until 2022. Electronics segement is expected to recover slightly than automotive, having shown good signs of recovery in 2020, again especially in the Asian markets.

Global Industrial Automation Market Key Players:

• ABB Ltd. • Honeywell International Inc. • FANUC Corporation • Yaskawa Electric Corporation • Toshiba Machine Corporation Ltd. • Yokogawa Electric Corporation • Emerson Electric Company • General Electric Company • Rockwell Automation, Inc. • Mitsubishi Electric Corporation • Voith GmbH • GE Company • Honeywell International Incorporation • Omron Corporation • Schneider Electric SA • Siemens AG • Kuka AG • Keyence Corporation • Fanuc Corporation • Bosch Rexroth • Fuji Electric Co., Ltd. • Endress+Hauser AG • Hitachi Ltd. • Yaskawa Electric Corporation • Danaher Corporation • NI • Ropoer Technologies • Phoenix Contact • AVEV

Market leaders are identified through primary and secondary research, and market revenue is calculated by primary and secondary research. Primary research included in-depth interviews with important thought leaders and industry professionals such as experienced front-line personnel, CEOs, and marketing managers, while secondary research included an analysis of the top manufacturers' quarterly and financial performance. Secondary data is used to establish worldwide market percentage splits, market shares, growth rates, and breakdowns, which are then cross-checked against primary data.

The major players covered in the Global Industrial Automation market report are

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Regional Analysis:

Global, North America, Europe, Asia-Pacific, the Middle East, Africa, and South America market share statistics are accessible individually. Analysts at Maximize evaluate competitive strengths and conduct competitive analysis for each competitor individually.

COVID-19 Impact Analysis on Global Industrial Automation Market:

The COVID-19 pandemic has impacted industries such as aerospace and military, agriculture, autos, retail and e-commerce, energy and power, healthcare, packaging, mining, electronics, banking, financial services, and insurance, among others. COVID-19 has had an influence on the Global Industrial Automation market as a whole, as well as the growth rate in 2019-2020, as the impact of COVID-19 has spread. Our most recent questions, views, and market information are vital to the Global Industrial Automation industry's firms and associations.

Key Questions Answered in the Global Industrial Automation Market Report are:

Which segment grabbed the largest share in the Global Industrial Automation market?

What was the competitive scenario of the Global Industrial Automation market in 2021?

Which are the key factors responsible for the Global Industrial Automation market growth?

Which region held the maximum share in the Global Industrial Automation market in 2021?

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About Maximize Market Research:

Maximize Market Research is a multifaceted market research and consulting company with professionals from several industries. Some of the industries we cover include medical devices, pharmaceutical manufacturers, science and engineering, electronic components, industrial equipment, technology and communication, cars and automobiles, chemical products and substances, general merchandise, beverages, personal care, and automated systems. To mention a few, we provide market-verified industry estimations, technical trend analysis, crucial market research, strategic advice, competition analysis, production and demand analysis, and client impact studies.

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thateconstutor · 4 years

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21 Gadgets to Help You Sleep Better in 2021

A great day starts with a great night’s sleep. And a great year starts with the right gadgets. Try these new, high-tech products and apps to get the rest you need in 2021.

1. Dodow Sleep Machine

If you tend to wake up during the night, Dodow provides breathing exercises to help you get back to sleep. The small wireless device can sit on your nightstand and be turned on with the touch of a button. It projects a soft light keeps your mind from racing and guides your breath back to a relaxed state.

2. Cove

Cove is a modern wearable device that uses specific vibrations that naturally activates the part of your brain that controls emotions. It is hailed as breakthrough technology to help decrease stress and anxiety. People who have tried the gadget say that it helps them fall asleep faster and stay asleep longer.

3. Homni – Terraillon Smart Sleep Solution

This may just look like a sleek bedside lamp, but it is actually a sleep device with integrated sensors, light and a Bluetooth speaker. Using the connected Terraillon app, it analyzes your sleep environment, tracks sleep quality and cycles, and makes your morning wakeup routine more pleasurable.

4. 10minds Motion Pillow

This smart pillow is connected to a small computer engineered to prevent snoring. It tracks the position of your head while asleep and detects snoring. Then, the Motion Pillow automatically adjusts to keep you comfortable while facilitating proper airflow.

5. Smart Nora Snoring Solution

This is an innovative anti-snore product. You simply need to slip the expander under your regular pillow and tap the device before going to sleep. When the Smart Nora device detects snoring, the expander adjusts your position to stop snoring before your partner wakes up.

6. Muse S Headband

This wearable device delivers relaxing soundscapes and help you fall asleep faster. The Muse S Headband also tracks brain activity, heart rate, breathing, and movement while you fall asleep and throughout the night.

7. Somneo Sleep & Wake-Up Light

This gadget made by Philips uses soothing light therapy to help you nod off naturally. When you lie down, it simulates the sunset to relax into a deep slumber. Then, in the morning, it simulates the sunrise to help you wake up gradually, instead of using a harsh alarm clock.

8. Headspace App

This mobile application was made to give people easy access to guided meditation and mindfulness. The Headspace concept is to help you make time in your busy day for exercises that relieve stress and support quality sleep.

9. Koala Weighted Blanket

Finally, there is a single blanket that is comfortable for both hot and cold sleepers. The Koala Blanket is breathable and weighted without being bulky, so it can be used in every season. Working like a warm embrace, the blanket is weighted to help ease stress and feel calmer.

10. Modernist X Gravity Summer Blanket

In the summer, a blanket can make you feel too hot to sleep, yet you may toss and turn more when uncovered. This weighted blanket is made specifically to provide that same calming effect to fall asleep fast even in hot weather and climates.

11. Dyson Pure Humidify + Cool

Breathe easier and nourish your body while you sleep with purified air. The Dyson Pure Humidify+Cool™ cleans allergens and pathogens from the air in your bedroom. Plus, it humidifies the air to provide the right amount of moisture for your skin, nasal passages, and airway.

12. Balluga: The World’s Smartest Bed

This mattress promises the sleep of your dreams. It allows you to control the firmness, temperature, and position throughout the night and has been made to prevent compression or sagging over time. It keeps you cool in the summer and heats to ensure you get into a warm bed in the winter. It has a light under the bed that turns on automatically when you get up.

13. Sense with Sleep Pill

This sleek bedside gadget has advanced sensors to understand your sleeping environment and track your sleep quality. The goal of the Sense Sleep system is to provide you with valuable information about how the light, sound, temperature, humidity, and air quality in your bedroom affect your sleep. In the morning, the sleep tracker can tell you if you slept soundly, tossed and turned, or snored more than usual.

14. chiliPAD Sleep System

The ChiliPad Sleep System is a great solution for hot sleepers without needing to change mattresses. Using a constant flow of water through the pad that sits over your regular mattress, it actively maintains the ideal temperature for you.

15. URPOWER Essential Oil Diffuser

Many people swear by aroma therapy for restful sleep. There are tons of essential oil diffusers to choose from on the market, but this is our favorite. It can be programmed to turn on and off and provides quiet misting action for up to six hours. It also has a cool mist function and glows softly in seven different colors.

16. DreamOn Sleep Aid

The latest version of the DreamOn wearable device is a drug-free way to relax, meditate, and sleep better. It works by sending gentle pulses that signal to your brain, helping you get to sleep faster and sleep more deeply.

17. Banala Lite Sleep Cycle Inducing Device

The gadget made by the Banala brand is a mini speaker with integrated isotonic sound technology. It claims to help you fall into a deep sleep with just the touch of a button. The sound emitted by the device supports your natural sleep cycles.

18. Gravity Weighted Sleep Mask

The same calming, deep pressure sensation of a weighted blanket is now available as a sleep mask. It blocks out light, is made of a soothing fabric, and is great for flying and travelling.

19. Trtl Travel Pillow

Finally, there is a travel pillow that is actually ergonomic and comfortable to use. The innovative design of Trtl supports your neck and head so that you can doze off comfortably in a sitting position. No more jolting awake for the duration of your flight because your head slumps or your neck cramps!

20. QuiteOn Earbuds

Instead of headphones that mask noise, QuiteOn has made the world’s smallest noise-cancelling earbuds. They work by detecting sounds with a tiny microphone and projecting anti-noise waves to cancel them out. It’s a great solution for noisy sleep environments, partners who snore, traveling, and workplace distraction.

21. AYO Light Therapy Glasses

This is wearable smart technology that gets more effective as you use it. The AYO glasses deliver programmed light therapy that helps boost daytime energy, improve mood and sleep quality.

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