Global Ultrasonic Radar Market : Share, Size, Trends by 2025-2032

MARKET INSIGHTS

The global Ultrasonic Radar Market was valued at US$ 1.7 billion in 2024 and is projected to reach US$ 3.4 billion by 2032, at a CAGR of 9.0% during the forecast period 2025-2032. While the U.S. holds the largest market share at USD 310 million in 2024, China is expected to witness accelerated growth with projected revenues reaching USD 420 million by 2032.

Ultrasonic radar systems utilize high-frequency sound waves to detect objects and measure distances through echolocation technology. These systems consist primarily of transmitters, receivers, and signal processors, finding applications in automotive parking assistance, collision avoidance, and autonomous navigation across various industries. The market is segmented into PA (Parking Assist) and APA (Automatic Parking Assist) ultrasonic radar systems, with APA systems projected to grow at a faster 9.2% CAGR through 2032.

The market expansion is driven by increasing ADAS adoption in vehicles, with over 45% of new cars globally now equipped with ultrasonic sensors. However, technological challenges in harsh weather conditions remain a restraint. Key industry players including Valeo, Bosch, and Denso collectively hold 58% market share, with recent developments focusing on higher frequency (80+ kHz) sensors for improved accuracy in autonomous vehicle applications.

MARKET DYNAMICS MARKET DRIVERS

Growing Demand for Advanced Driver-Assistance Systems (ADAS) to Accelerate Market Expansion

The ultrasonic radar market is experiencing robust growth due to the increasing adoption of ADAS in modern vehicles. With over 60% of new vehicles globally now equipped with some form of ADAS, ultrasonic sensors have become indispensable for parking assistance and collision avoidance systems. These radar systems provide accurate short-range detection, typically between 30 cm to 500 cm, making them ideal for low-speed maneuverability. Automakers are increasingly integrating multiple ultrasonic sensors around vehicle perimeters to enable 360-degree obstacle detection, driving component demand. The expansion of autonomous vehicle testing programs across North America, Europe, and Asia further amplifies this need for reliable proximity sensing solutions.

Expansion of Industrial Automation to Fuel Ultrasonic Radar Adoption

Industrial sectors are rapidly adopting ultrasonic radar technology for material handling, robotic positioning, and conveyor belt monitoring applications. The technology’s immunity to environmental factors like dust, smoke, or lighting conditions makes it particularly valuable in manufacturing environments. Recent advancements in signal processing algorithms have enhanced measurement accuracy to sub-millimeter levels, enabling precise robotic control in automated assembly lines. With the global industrial automation market projected to maintain steady growth, ultrasonic radar solutions are becoming critical components in smart factory implementations across automotive, electronics, and logistics sectors.

MARKET CHALLENGES

Signal Interference Issues to Hamper Market Progress

While ultrasonic radar offers numerous advantages, the technology faces persistent challenges with signal interference in crowded electromagnetic environments. Multiple ultrasonic sensors operating simultaneously can create signal crosstalk, leading to false readings or detection failures. This limitation becomes particularly pronounced in complex industrial settings where numerous automated systems operate in close proximity. Current solutions involving time-division multiplexing or frequency modulation add complexity and cost to system implementations. Additionally, environmental factors such as temperature fluctuations and humidity variations can impact signal propagation characteristics, requiring sophisticated compensation algorithms to maintain accuracy.

Other Challenges

Limited Detection Range The effective operating range of ultrasonic radar typically falls below 5 meters, restricting its applications compared to competing technologies like LiDAR or microwave radar. This range limitation prevents ultrasonic solutions from being used in highway-speed collision avoidance systems where longer detection distances are required.

Acoustic Noise Sensitivity High ambient noise levels in industrial environments can mask ultrasonic signals, reducing system reliability. Although signal processing techniques help mitigate this issue, they increase computational requirements and power consumption.

MARKET RESTRAINTS

Competition from Alternative Sensing Technologies to Limit Market Penetration

Ultrasonic radar systems face increasing competition from emerging sensing technologies, particularly in premium automotive applications. While ultrasonic sensors dominate parking assistance applications, their market share in forward collision warning systems is being eroded by camera-based vision systems and millimeter-wave radar. These alternative technologies offer superior performance in critical parameters such as detection range, angular resolution, and resistance to weather conditions. Automotive OEMs are increasingly adopting sensor fusion approaches that combine multiple technologies, potentially reducing the number of ultrasonic sensors per vehicle. This industry shift toward multi-modal sensing architectures could constrain the growth potential for standalone ultrasonic radar solutions.

MARKET OPPORTUNITIES

Emerging Applications in Mobile Robotics to Drive Future Market Growth

The rapid expansion of service robotics and automated guided vehicles (AGVs) presents significant growth opportunities for ultrasonic radar manufacturers. Autonomous mobile robots require robust proximity sensing for navigation and obstacle avoidance in dynamic environments. Emerging applications in healthcare robots, warehouse logistics automatons, and last-mile delivery drones are fueling demand for compact, low-power ultrasonic sensing solutions. The development of advanced phased-array ultrasonic radar systems capable of beam-forming and 3D object classification opens new possibilities for robotic perception systems. With the global service robot market expected to maintain strong growth, ultrasonic radar technologies are well-positioned to capture a substantial portion of this expanding application space.

Smart City Infrastructure Development to Create New Revenue Streams

Municipalities worldwide are deploying intelligent transportation systems as part of smart city initiatives, creating opportunities for ultrasonic radar applications. Innovative implementations include ultrasonic vehicle detection at intersections, parking space monitoring, and traffic flow analysis. These applications benefit from the technology’s reliability and lower cost compared to alternative sensing methods. The increasing focus on pedestrian safety in urban environments is driving demand for ultrasonic crosswalk monitoring systems that can detect vulnerable road users in all weather conditions. As smart city projects gain momentum globally, ultrasonic radar solutions are emerging as cost-effective components for various infrastructure monitoring applications.

ULTRASONIC RADAR MARKET TRENDS Increasing Automotive Safety Requirements Driving Market Growth

The ultrasonic radar market is witnessing robust growth due to stringent automotive safety regulations and the rising adoption of advanced driver assistance systems (ADAS). With over 60% of new passenger vehicles now equipped with parking assistance systems incorporating ultrasonic sensors, demand for high-performance ultrasonic radar solutions has surged. Emerging innovations such as 4D imaging radar are pushing the boundaries of object detection accuracy, enabling vehicles to detect obstacles with millimeter-level precision. Furthermore, the integration of AI-powered signal processing algorithms has enhanced the capability of ultrasonic radar systems to distinguish between static and dynamic objects in challenging environments.

Other Trends

Expansion in Autonomous Robotics

The proliferation of autonomous mobile robots (AMRs) and drones across industrial and commercial applications is creating new opportunities for ultrasonic radar technology. Unlike traditional optical sensors, ultrasonic systems perform reliably in diverse lighting conditions, making them ideal for warehouse automation and last-mile delivery drones. Recent market data indicates that 35% of commercial drones now incorporate ultrasonic obstacle avoidance systems, demonstrating the technology’s crucial role in collision prevention. As robotics manufacturers seek more cost-effective sensing solutions, ultrasonic sensors are becoming preferred alternatives to expensive LiDAR systems for short-range applications.

Miniaturization and Energy Efficiency Advancements

Technological breakthroughs in semiconductor manufacturing are enabling the development of smaller, more power-efficient ultrasonic radar solutions. The latest generation of MEMS-based ultrasonic sensors consumes 40% less power while offering improved detection ranges compared to conventional piezoelectric counterparts. This evolution is particularly significant for battery-powered IoT devices and wearable applications where size and energy constraints dictate design parameters. Concurrently, advancements in beamforming techniques are allowing single ultrasonic sensor units to replace multi-sensor arrays in certain applications, reducing system complexity and cost without compromising performance.

COMPETITIVE LANDSCAPE Key Industry Players

Automotive Giants and Tech Innovators Drive Ultrasonic Radar Market Competition

The global ultrasonic radar market features a mix of established automotive suppliers and emerging technology specialists, creating a dynamic competitive environment. Valeo and Bosch currently dominate the market, collectively holding approximately 35% revenue share in 2024. Their leadership stems from decades of automotive sensor development and strong OEM relationships across Europe, North America, and Asia.

Meanwhile, Denso Corporation has been gaining significant traction through its advanced parking assist systems, while Murata Manufacturing brings unique miniaturization expertise from the electronics sector. These companies are driving innovation in compact radar designs, particularly for drone and robotics applications where size and weight are critical factors.

The competitive intensity is further heightened by Chinese manufacturers like Audiowell Electronics and Hangsheng Electronics who are rapidly expanding their production capacity. These regional players are fueling price competition while simultaneously improving technological capabilities, particularly in the cost-sensitive Asian markets.

Strategic movements in the sector include Continental AG’s 2023 acquisition of a specialized sensor firm to boost its ultrasonic technology portfolio. Similarly, Whetron Electronics recently announced a joint development program with two major Chinese automakers, indicating how partnerships are becoming crucial for market penetration.

List of Key Ultrasonic Radar Companies Profiled Valeo (France) Bosch (Germany) Nicera (Japan) Murata Manufacturing (Japan) Denso Corporation (Japan) Audiowell Electronics(Guangdong)Co.,Ltd. (China) Continental AG (Germany) Coligen (China) Corp. (China) Hangsheng Electronics (China) Whetron Electronics (Taiwan) Tung Thih Electron (Taiwan) Shunhe (China) Longhorn Auto (China) Segment Analysis: By Type

PA Ultrasonic Radar Segment Leads Due to Cost-Effectiveness and Automotive Integration

The market is segmented based on type into:

PA Ultrasonic Radar Subtypes: Single-beam, Multi-beam, and others APA Ultrasonic Radar By Application

Automotive Segment Dominates Market Share Owing to Rising Demand for Parking Assistance Systems

The market is segmented based on application into:

Automotive Drone Robot Other By Frequency Range

40-100kHz Range Holds Major Share Due to Optimal Balance of Range and Resolution

The market is segmented based on frequency range into:

20-40kHz 40-100kHz Above 100kHz Regional Analysis: Ultrasonic Radar Market

North America The North American ultrasonic radar market is experiencing steady growth, driven by strong demand from the automotive sector, particularly for parking assistance and collision avoidance systems. The United States leads the region, accounting for a significant share of the market revenue, supported by stringent safety regulations and the rapid adoption of advanced driver-assistance systems (ADAS). The Infrastructure Investment and Jobs Act has further spurred demand by allocating funds for smart mobility solutions. Key players like Bosch and Continental are investing in next-generation ultrasonic sensing technologies to meet evolving industry needs. However, high development costs and competition from LiDAR-based systems pose challenges to market expansion.

Europe Europe remains a critical hub for ultrasonic radar innovation, with Germany and France at the forefront. The region benefits from strict automotive safety standards under the European New Car Assessment Programme (Euro NCAP), which mandates collision avoidance and parking assistance features. European automakers are integrating ultrasonic radars with AI-powered systems for autonomous driving, creating new market opportunities. Environmental regulations also encourage manufacturers to enhance energy efficiency in sensor production. While market penetration is high, competition from alternative sensing technologies and economic uncertainties in Eastern Europe pose growth constraints.

Asia-Pacific As the fastest-growing ultrasonic radar market, the Asia-Pacific region is powered by China, Japan, and South Korea’s thriving automotive industries. China dominates both production and consumption, with automakers leveraging ultrasonic sensors for cost-effective ADAS solutions. Emerging applications in robotics and drones further boost demand, particularly in industrial automation. However, pricing pressures from regional low-cost manufacturers challenge profitability for global suppliers. India’s expanding auto sector presents significant opportunities, though infrastructure limitations slow widespread adoption. The shift toward electric vehicles (EVs) is expected to drive ultrasonic radar integration in battery management and charging systems.

South America South America’s ultrasonic radar market is nascent but growing, fueled by Brazil and Argentina’s efforts to modernize automotive safety standards. Local manufacturers prioritize affordability, leading to increased adoption of ultrasonic radar systems as a cost-efficient alternative to LiDAR. Economic volatility and supply chain disruptions, however, limit the scope of technological advancements. The aftermarket segment plays a crucial role due to slower OEM adoption, though government initiatives promoting smart mobility could accelerate market expansion in the coming years.

Middle East & Africa The Middle East & Africa region shows moderate growth potential, with the UAE and Saudi Arabia investing in smart city projects and autonomous vehicle trials. Ultrasonic radar adoption is increasing in fleet management and logistics applications. However, low vehicle electrification rates and limited regulatory frameworks hinder broader market penetration. Africa’s market remains underdeveloped, though urbanization and infrastructure investments in select countries could create future opportunities.

Report Scope

This market research report provides a comprehensive analysis of the global and regional Ultrasonic Radar markets, covering the forecast period 2024–2032. It offers detailed insights into market dynamics, technological advancements, competitive landscape, and key trends shaping the industry.

Key focus areas of the report include:

Market Size & Forecast: Historical data and future projections for revenue, unit shipments, and market value across major regions and segments. The global Ultrasonic Radar market was valued at USD million in 2024 and is projected to reach USD million by 2032. Segmentation Analysis: Detailed breakdown by product type (PA Ultrasonic Radar, APA Ultrasonic Radar), application (Automotive, Drone, Robot, Others), and end-user industry to identify high-growth segments and investment opportunities. Regional Outlook: Insights into market performance across North America, Europe, Asia-Pacific, Latin America, and the Middle East & Africa, including country-level analysis where relevant. The U.S. market is estimated at USD million in 2024, while China is projected to reach USD million. Competitive Landscape: Profiles of leading market participants including Valeo, Bosch, Nicera, Murata, Denso, Audiowell Electronics, and others, covering their product offerings, R&D focus, and recent developments. Technology Trends & Innovation: Assessment of emerging technologies in ultrasonic sensing, integration with ADAS systems, and evolving industry standards. Market Drivers & Restraints: Evaluation of factors driving market growth along with challenges, supply chain constraints, regulatory issues, and market-entry barriers. Stakeholder Analysis: Insights for component suppliers, OEMs, system integrators, investors, and policymakers regarding the evolving ecosystem and strategic opportunities.

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The Industrial process variable instruments market is projected to experience robust growth, with its value expected to increase from USD 18,240.36 million in 2023 to USD 24,687.33 million by 2032, reflecting a steady CAGR of 3.42% during this period.The industrial process variable instruments market plays a critical role in maintaining and optimizing industrial processes. These instruments are essential for measuring, monitoring, and controlling various parameters such as temperature, pressure, level, and flow in industries like oil & gas, chemicals, pharmaceuticals, food & beverages, and energy. As industries strive for greater efficiency and automation, the demand for accurate and reliable process variable instruments continues to rise.

Browse the full report at https://www.credenceresearch.com/report/industrial-process-variable-instruments-market

Market Dynamics

1. Growing Demand for Automation

One of the primary drivers of the industrial process variable instruments market is the increasing demand for automation across various industries. With the advent of Industry 4.0, manufacturers are increasingly adopting automated systems that require precise measurement and control of process variables. This shift towards automation is driven by the need to improve operational efficiency, reduce downtime, and ensure product quality. Process variable instruments such as sensors, transmitters, and controllers are integral to achieving these objectives.

2. Technological Advancements

Technological advancements are significantly impacting the industrial process variable instruments market. Innovations in sensor technology, wireless communication, and data analytics are enabling more accurate and real-time monitoring of process variables. For instance, the integration of IoT (Internet of Things) with process variable instruments allows for remote monitoring and predictive maintenance, reducing the risk of equipment failure and unplanned downtime. Additionally, advancements in materials and manufacturing techniques have led to the development of more robust and reliable instruments, capable of withstanding harsh industrial environments.

3. Stringent Regulatory Requirements

Industries such as pharmaceuticals, food & beverages, and chemicals are subject to stringent regulatory requirements regarding safety, quality, and environmental impact. Compliance with these regulations necessitates the use of accurate and reliable process variable instruments to monitor and control critical parameters. For example, in the pharmaceutical industry, maintaining precise temperature and humidity levels is crucial for ensuring product quality and safety. Similarly, in the oil & gas sector, monitoring pressure and flow rates is essential for preventing accidents and ensuring environmental compliance.

4. Increasing Focus on Energy Efficiency

Energy efficiency has become a top priority for industries worldwide, driven by rising energy costs and environmental concerns. Process variable instruments play a vital role in optimizing energy consumption by providing accurate data for process control. For example, flow meters are used to monitor and control the flow of gases and liquids in industrial processes, helping to minimize energy waste. Similarly, temperature and pressure sensors enable precise control of heating and cooling processes, reducing energy consumption and associated costs.

Challenges and Opportunities

1. Challenges: The market faces challenges such as high installation and maintenance costs, particularly for advanced instruments. Additionally, the lack of skilled personnel to operate and maintain these instruments can hinder market growth.

2. Opportunities: Despite the challenges, the market presents significant opportunities for growth. The increasing adoption of smart manufacturing and the growing emphasis on sustainability are expected to drive demand for advanced process variable instruments. Moreover, the rising focus on Industry 4.0 and the integration of IoT and AI in industrial processes offer new avenues for market expansion.

Key Players

Siemens AG

Omron Corporation

Emerson Electric Co.

ABB Ltd

Yokogawa Electric Corporation

Honeywell International, Inc.

Endress+Hauser Group

Schneider Electric SE

Rockwell Automation, Inc.

Yaskawa Electric Corporation

Mitsubishi Electric Corporation

Segments:

By Instrument

Transmitter

Control Valve

By Technology

Programmable Logic Controller (PLC)

Distributed Control System (DCS)

Supervisory Control and Data Acquisition (SCADA)

Manufacturing Execution System (MES)

By End-User

Water and Wastewater Treatment

Chemical Manufacturing

Energy and Utilities

Oil and Gas Extraction

Metals and mining

By Region

North America

The U.S.

Canada

Mexico

Europe

Germany

France

The U.K.

Italy

Spain

Rest of Europe

Asia Pacific

China

Japan

India

South Korea

South-east Asia

Rest of Asia Pacific

Latin America

Brazil

Argentina

Rest of Latin America

Middle East & Africa

GCC Countries

South Africa

Rest of Middle East and Africa

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Temperature and Humidity Transmitter Market Overview and  Forecast Analysis Report 2022

The global temperature and humidity transmitter market is expected to display attractive markets in forthcoming years. Temperature and humidity transmitters are linearized electrical devices which amplify, filter and control the output signal which is used in controlling the industrial devices. Temperature transmitters are a connecting interface to a temperature sensor. Industries such as HVAC and building automation, pharmaceutical and textile use temperature and humidity transmitters in various applications to monitor the temperature feed.

Humidity as measurement criteria in industries spanning chemical, metal, mining, power and pharmaceutical is not to be missed because of its relation to product pricing and health and safety standards of personnel. The humidity transmitters are recognized in HVAC, building automation, food and beverage, textile, pharmaceutical, pulp and paper for adoption of cost-cutting measure and for its safe and secure premises.

Thermocouple sensing type of temperature transmitter and capacitive sensing type markets are market segments higher up the order in temperature and humidity transfer market. The thermocouple sensing type of temperature transmitter is expected to display high market growth because of its robustness, speed-dexterity and temperature medians it can measure. The capacititive market is well-applied in industrial, meteorological and commercial applications.

Browse Full Research Report @ https://www.millioninsights.com/industry-reports/temperature-humidity-transmitter-market

The capacitive segment is best suited for applications which require high accuracy and their accuracy goes as low as 0% relative humidity (RH).Both markets are expected to appear dominant in Asia pacific because of capacity expansions in energy loads and industrial automation is high with optimum cost seeking benefits leading to growth in temperature and humidity transmitter market. Segmentation of Temperature Transmitter Market by sensing type includes resistance temperature detector, thermocouple, universal and multichannel.

Segmentation of temperature transmitter market by mounting type includes DIN Rail, Head and field. Segmentation of temperature transmitter market by communication protocol includes HART and Wireless HART, Foundation Field bus, Profibus, and others. Segmentation by industry includes oil and gas, food and beverage, water and wastewater, pulp and paper, metal mining, chemical, power and pharmaceutical and others.

Segmentation of temperature transmitter market by region includes North America, Europe, Asia Pacific, MEA and Latin America. By sensing technology, segmentation of humidity transmitter market includes capacitive, thermal conductivity and resistive. By industry, segmentation includes HVAC & Building Automation, Food and Beverage, chemical, pulp and paper and pharmaceutical and others. The leading market players in the industry include Emerson Electric Company, Endress + Hauser AG, ABB Ltd., Honeywell International, Yokogawa Electric Corporation, Siemens AG, Schneider Electric SE, WIKA Alexander Weiga SE & Co.

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Acoustic Sensors Market 2022, Size, Industry Share & Trends

Acoustic Sensors Market Overview:

The Acoustic Sensors Market report offers a thorough analysis to define its target market, together with data on market size and company profiles of the leading key players. The study includes an in-depth analysis of the Acoustic Sensors Market as well as the factors influencing geographical differences in the growth of the market.

Request For The Free Sample@https://www.maximizemarketresearch.com/request-sample/6840 

Market Scope:

The market study, which involved market size predictions, statistics calculations, market breakdown, market projections, and data triangulation, was complete, and wide-ranging primary research was carried out to gather data, check and authenticate important figures. It is analyzing important trends and predicts potential changes in the market. This is a crucial phase in the process of choosing a target market, creating new products, and discovering new market segments. To provide vital information throughout the study, all data collected during the market process is submitted to extensive qualitative and quantitative analysis.

Segmentation:

Global Acoustic Sensors Market is majorly segmented by material, types, and sensing parameter. By material, the market is segmented as Quartz, Lithium Tantalate, Lithium Niobate, Gallium Arsenide, Silicon Carbide, Langasite, Zinc Oxide, Aluminum Nitride, Lead Zirconium Titanate, and Polyvinylidene Flouride. The market is segmented by types, which includes Surface Wave and Bulk Wave acoustic sensors. Under this, surface wave acoustic sensor is expected to hold highest market share in the forecast period due to their implementation in television transmitters and radios to generate signals for broadcasting will provide opportunity in the years to come. The Acoustic Sensors are also segmented by sensing parameters, which include Pressure, Temperature, Mass, Torque, Humidity, Viscosity, Chemical Vapor, and Others.

Geographically, the Acoustic Sensors Market has been segmented into North America, Europe, Asia Pacific, Middle East & Africa, and Latin America. North America is expected to be the largest market for Acoustic Sensors market during the forecast period due to the presence of prominent system suppliers, large semiconductor companies and sensor manufacturers. Asia-Pacific is projected to be the fastest growing market for Acoustic Sensors.

Key Players:

Some of the leading players in the Acoustic Sensors Market are:

• API Technologies Corp. • ASR&D Corp. • AVX Corp. • Boston Piezo-Optics Inc. • Burkert • Ceramtec. • Columbia Research Laboratories, Inc • CTS Corp. • ECS, Inc. International. • Siemens AG • Transense Technologies PLC • Pro-micron GmbH • Honeywell Sensing and Productivity Solutions • Murata Manufacturing Co.Ltd. • Teledyne Microwave Solutions. • KYOCERA Corporation • Panasonic Corporation • SENSeOR • EPCOS AG • Vectron

Regional Analysis:

The regional market research analysis for Acoustic Sensors Market also covers particular market driving forces and changes in market laws affecting current and future market trends. Companies that conduct business must understand the nature of those particular markets and judge whether they require customized marketing strategies. To assess the potential market as a whole and identify profitable patterns to build a stronger foundation, current and upcoming trends are researched. The current environment and anticipated trends form the foundation of the geographic market's evaluation. Companies that conduct business abroad must comprehend the characteristics of those specific markets and determine whether they need specialized marketing approaches.

COVID-19 Impact Analysis on Acoustic Sensors Market:

The COVID-19 pandemic drastically hits the world economy. The expansion of healthcare services and other related industries was subsequently impacted by this. It also had a favorable effect on the expansion of the Acoustic Sensors Market. It is mostly caused by a rise in the demand for doctors and other healthcare professionals. During the COVID-19 outbreak, the market for Acoustic Sensors Market manufacturers as well as the profits of companies operating in these industries both experienced a sharp failure in business operations. Urban and rural life both suffered effects from COVID-19. Previously, the disease's epicenter was located in each of the major metropolises in the state capitals. However, a genuine traumatized condition affects both rural and urban populations. Besides, the pandemic caused a spike in interest in online clinics and therapies. Due to lockdowns the import-export restrictions were laid down on the Acoustic Sensors Market.

Key Questions Answered in the Acoustic Sensors Market Report are:

Which market segment accounted for the most percentage of Acoustic Sensors Market in 2021?

How competitive is the market environment?

What are the primary factors influencing the Acoustic Sensors Market's growth?

Which region witnessed the Acoustic Sensors Market in terms of market share?

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Industry 4.0 requires enclosures for smart sensor applications

The fourth industrial revolution, or "Industry 4.0" for short, has already begun, even if many people are not really aware of this. On the one hand, this is due to the fact that most people have already heard of it, but many are struggling with the definition and its real impact on day-to-day working life. In addition, the topical subjects of IoT (Internet of Things) and IIoT (Industrial Internet of Things) are mentioned in the same breath as Industry 4.0. This makes things a little more complex.

IoT in the household

Digitisation and networking can best be used and understood in your own private environment: with your smartphone, which has meanwhile become "man's best friend", you can today control a wide variety of things, no matter where you are. Individual devices such as the smart watch are linked up with other "smart things" and the data is stored in a centralized secure "cloud". All of this is intended to make our everyday life easier for us. In my opinion much of this is absolutely sensible, such as wearable emergency call systems/transmitters in hospitals or social areas. Or also personal tracking systems in occupations with an increased safety risk. An interesting example is the "Capturs" by the French manufacturer of the same name (www.capturs.com). At first glance this GPS tracking system may seem to cater for the fun factor, but a closer look reveals much more: the wearable device makes it possible for friends, family and fans to keep track of routes and thus to be involved live when persons are pursuing their sports activities, regardless of the terminal unit in question. You can export/save the data (route, distance, elevation, duration) and even publish them in social networks. But now the special feature: in the event of crashes or accidents, departure from the predefined route, longer stay at a given location and when the battery is weak, it automatically sends an email or a text message to certain persons. This makes it possible to call for help quickly in case of emergency. The Capturs was installed in the OKW MINITEC series of enclosures and can be used for all outdoor activities: hiking, skiing, climbing, paragliding etc. Other OKW series of enclosures that can be used for wearables are the BODY-CASE and the ERGO-CASE.

Industry 4.0 and IIoT

Let us come back now to the actual topic of "Industry 4.0" and IIoT "Industrial Internet of Things". There is a significant difference between the two concepts – in short, Industry 4.0 is a high-tech strategy for promoting the digitisation of industrial production; IIoT is the concrete use of smart technologies in the manufacturing industry. Many companies are currently discussing the question of how to make internal processes transparent and how to optimise them across different levels/organisations. In IIoT, it is also basically a question of making things smarter by making them communicate with each other. The focus here is on sensors which are embedded in the devices and which constantly gather and centrally deliver data concerning machinery and special application scenarios or data about the user and the entire value-added chain. The main objectives are always the same: providing better quality, optimising processes and streamlining operations, optimising the use of resources, completing orders faster and delivering them faster to the customers. In addition, an important objective is to significantly shorten the market introduction cycle for new products in order to gain a competitive advantage.

Enclosures and IIoT

Even today, many OKW enclosures series are used for the most varied applications in the smart factory. Subsequent use in day-to-day work is highly varied, and the requirements to be met by the enclosures may therefore vary considerably:

Mobile enclosures for the integration of temperature, humidity or presence sensors – ergonomic design for fatigue-free working.

Installed permanently on the wall as gateways – simple, concealed wall mounting, possibly with security functions

In machines/systems with integrated vibration/pressure and status sensors.

In miniature form for wearable applications – on the arm, wrist, around the neck or in the shirt/trouser pocket

Larger sizes in a robust design – if more space is required for installing components/displays. 

Use of high-quality materials for the manufacture of the standard enclosures

High IP classes for the protection of the built-in electronic components and sensors.

Options for modifying the tandard products according to individual customer wishes and requirements.

In the following, I have picked out some interesting examples of customer applications from the field of IIoT for you:

Wireless data logger

With the Almemo 470 wireless data logger by Ahlborn Mess- und Regelungstechnik, you can wirelessly measure climate parameters such as temperature or atmospheric humidity. A flexible connection technology for digital sensors allows the adaptation of a large number of different sensors for measuring different variables.

Application wireless data logger

 Wireless network access point

At field level, the sWave.NET wireless network by steute Schaltgeräte GmbH & Co. KG facilitates variable communication between wireless switching devices and access points, which function in a similar manner to a router. They receive signals from wireless switching devices, bundle them and then transmit them, e.g. by Ethernet or WiFi, to one or more application servers. The access points are installed across the transmission range and communicate with the wireless switchgear.

Application wireless network access point

 Smart TAG

The conbee Smart TAG is based on the Bluetooth 4.x specification with a range of up to 150 m. The fully configurable TAG has an authentication function using out-of-band or SecureSimple pairing, is forgery-proof and has a motion sensor that is capable of detecting manipulation attempts. Status data are transmitted at dynamically adaptable transmission intervals in advertisement packets that provide information about the object to be tracked. The intelligent TAG cyclically reports its identification number, temperature and movement data as well as battery status and optionally also its position.

Application Smart TAG

 Robust UHF reader

RF-Embedded GmbH has developed an RFID reader for the passive ultra high frequency (UHF) radio range, which generates an energy field from electromagnetic waves. As soon as a passive UHF transponder enters the energy field, it sends the content of its memory to the relevant RFID reader.

Application robust UHF reader

We have now drawn up a list of all enclosures that are suitable for the use of smart sensors under a separate heading. Now you can find a suitable sensor enclosure even more quickly.

Overview IIoT/Sensor Enclosures >>

To ensure that the standard enclosures also meet individual customer requirements in terms of company colour, visual adaptation to the usage environment, company logo, the electronic components and cables etc., we offer a wide range of services: painting, printing, EMC aluminium vapour plating as protection from stray radiation, cutouts/openings, for example for USB/SPI/I2C/LAN connectors or control buttons. In industrial enclosures with high IP classes, the use of special pressure compensation elements is a big advantage. A partial vacuum may be created inside sealed enclosures if there is a change of temperature. Moisture and dirt particles may be sucked in, damaging the sensitive electronics. These OKW pressure compensation elements can counteract this, since they allow an especially high air flow. At the same time the innovative design provides reliable protection against dirt and, if required, is absolutely waterproof up to a pressure of 6 bar.

Wireless Sensor Network Market Size Industry Research Report, Trends and Forecasts To 2022

The global wireless sensor network market is accruing pervasively; mainly due to the augmenting demand for the wireless network in some burgeoning industries such as oil & gas and transportation. Additionally, factors such as the growing automation and robotics industry and high reliability of wireless sensor network act as a tailwind to the market growth, escalating the market to further heights on the global platform.Acknowledging the exponential growth, the market perceives currently; Market Research Future (MRFR) in its recently published study report asserts that the global wireless sensor network market is estimated to witness an outstanding growth by 2022, posting a striking CAGR of 14% throughout the forecast period (2016 – 2022).Increasing interference on wireless sensor networks is becoming a key issue in the deployment of wireless sensor networks and wireless communication systems. Simultaneously, with the emergence of 5G communications systems and the Internet of Things (IoT), there are over 50,000 Mn. wireless devices are expected to be on the global space by the year 2020. Given the distribution of radiated output by a transmitter in a specific scenario enables optimal radio planning to take place. This presages the kind of growth the market will be witnessing soon.Additional factors substantiating the market growth include the proliferation of the Internet, IoT, and connected devices. Besides the BYOD trend in the organizations is fostering the growth of the wireless sensor network market, serving as an emerging growth opportunity in the market.The widespread adoption and demand, in turn, foster the market growth of wireless sensor network to a large extent. Moreover, augmented uptake of these networks in military and homeland security is providing impetus to the market growth. On the other hand, skepticism of end-user consumers towards the uptake of this embryonic technology coupled with the risk of failure of wireless sensor network may restrict its adoption further hindering the market growth.Global Wireless Sensor Network Market – Geographical AnalysisThe North American region holds the largest market share in the global wireless sensor network market and is also expected to be the largest revenue generator owing to the continuous technological advancements in the region. The market is mainly driven by the U.S. and Canada owing to the vast developments in the field of technology and the presence of giant technology companies.The European region has acquired the next largest market share in the global wireless sensor network market. The resurging economy in the region is undoubtedly contributing to the market growth significantly, augmenting the uptake of wireless sensor network across the region. The Europe wireless sensor network market is expected to grow with a strong CAGR from 2016 to 2022.The Asia Pacific region is emerging as one of the lucrative markets for the wireless sensor network, globally. Factors such as increasing urbanization and growing sectors such as healthcare, manufacturing, and O&G backed by the improving economy in the region, foster the market growth. The APAC wireless sensor network market is expected to post a remarkable CAGR during 2016-2022.Global Wireless Sensor Network Market – Competitive LandscapeKey market players strive to develop Wireless Sensor Network that is small, sturdy, extremely cost-effective and can deliver high performance. Players employ a continuous improvement strategy to analyze and update products, implementing improvements, launching new technologies that can meet the changing consumer needs and preferences. These Key Players are investing heavily in research and development projects to develop state-of-the-art equipment, facilities, advanced technology, and processes.Get Free Sample Report @ https://www.marketresearchfuture.com/sample_request/1805Key Players:The fervent players in the market of wireless sensor network market are Endress+Hauser AG (Switzerland), ABB Ltd. (Switzerland), Emerson Electric Co. (U.S.), ST Microelectronics (Switzerland),

General Electric Company (U.S.), Siemens AG (Germany), Honeywell International Inc. (U.S.), Texas Instruments (U.S.), Schneider Electric SA (France), and Yokogawa Electric Corporation (Japan).Wireless Sensor Network Market – SegmentationsMRFR has segmented its analysis into six key dynamics for the convenience of understanding; By Applications : Industrial, Oil & gas, Entertainment, Precision Agriculture, Transport, Military, Mining, Food & Beverage, Healthcare, and Environment Monitoring among others. By Sensors : Pressure, Temperature, Humidity, and Flow among others. By Technologies : Bluetooth, Wi-Fi, and WirelessHART among others.By Types : Terrestrial, Underground, Underwater, Multimedia, and Mobile WSNs among others.By Topologies : Star, Tree and Mesh Topologies.By Regions : North America, Europe, APAC and the Rest-of-the-World (RoW)Industry/Innovation/Related News:September 06, 2018 – Researchers at the Public University of Navarre (Spain) published their study of a new tool they have developed that can assess how interference impacts on wireless networks.The research methodology is based on the 3D Ray Launching simulation tool that enables radio propagation in interior environments such as homes, buildings, stations, hospitals, sports areas, industrial environments, shopping areas, etc.And, the tool makes it possible to determine the ideal location for networking wireless devices. the new technology facilitates the correct deployment of these devices and, therefore, optimizes data transmission speed, equipment energy consumption, and cost of deployment.Table of Content:6. Global Wireless Sensor Network Market: By Technologies6.1. Introduction6.2. Market Sub-Segments6.2.1. Wi-Fi6.2.2. Wireless Hart6.2.3. Bluetooth7. Global Wireless Sensor Network Market, By Sensors7.1. Introduction7.2. Market Sub-Segments7.2.1. Pressure7.2.2. Temperature7.2.3. Flow7.2.4. Humidity7.2.5. Image & Surveillance7.2.6. Others8. Global Wireless Sensor Network Market, By Application8.1. Introduction8.2. Market Sub-Segments8.2.1. Oil & Gas8.2.2. Industrial8.2.3. Entertainment8.2.4. Transport8.2.5. Precision Agriculture8.2.6. Military8.2.7. Food & Beverage8.2.8. Mining8.2.9. Healthcare8.2.10. Others9. Global Wireless Sensor Network Market, By Region9.1. Introduction9.1.1. North America9.1.1.1. U.S.9.1.1.2. Canada9.1.2. Europe9.1.2.1. Germany9.1.2.2. France9.1.2.3. UK9.1.2.4. Italy9.1.2.5. Spain9.1.2.6. Rest Of Europe9.1.3. Asia-Pacific9.1.3.1. Japan9.1.3.2. China9.1.3.3. India9.1.3.4. South Korea9.1.3.5. Rest Of Asia-Pacific9.1.4. Middle East & AfricaGet Complete Report @ https://www.marketresearchfuture.com/reports/wireless-sensor-network-market-1805About UsMarket Research Future (MRFR) is an esteemed company with a reputation of serving clients across domains of information technology (IT), healthcare, and chemicals. Our analysts undertake painstaking primary and secondary research to provide a seamless report with a 360 degree perspective. Data is compared against reputed organizations, trustworthy databases, and international surveys for producing impeccable reports backed with graphical and statistical information.We at MRFR provide syndicated and customized reports to clients as per their liking. Our consulting services are aimed at eliminating business risks and driving the bottomline margins of our clients. The hands-on experience of analysts and capability of performing astute research through interviews, surveys, and polls are a statement of our prowess. We constantly monitor the market for any fluctuations and update our reports on a regular basis.Media Contact:Market Research FutureOffice No. 528, Amanora ChambersMagarpatta Road, Hadapsar,Pune - 411028Maharashtra, India+1 646 845 9312Email: [email protected]

Pressure Transmitter

Pressure Transmitter

Pressure transmitters are a common and well understood technology especially within the petroleum, petrochemical, refrigeration and fuel gas markets and they are extremely economical compared to other technologies.

Pressure transmitters are a common and well understood technology especially within the petroleum, petrochemical, refrigeration and fuel gas markets and they are extremely economical compared to other technologies. If a level is to be made in an open vessel a pressure transmitter (PT) is placed at the bottom and the head pressure caused by the weight of the liquid can be used to calculate the height of the liquid. Differential pressure transmitters can be used on pressurised vessels using the same principles (9).

Level measurement using pressure transmitters cannot be deployed in primary separators as the change in temperature will impact the measurement, the change in density of the oil during operation will impact the measurement and any fluctuation of the oil/gas differential pressure control valve or pressure disturbances would also impact on the reading.

Portable dP gauges are used to monitor the dP across strainers, online densitometers, DB&B valves, prover interchange valves, and other devices. All pressure gauges shall be equipped with calibration stickers indicating the last test or calibration date and who performed the calibration. The calibration sticker should be clearly visible and constructed of a rugged material. All recordings on the sticker should be made with indelible ink. The dial gauge cover should be clear and abrasive resistant. The pressure gauge should be readable with permanent figures and markings and equipped with a blowout disc for safety. The scale shall be in graduations of no greater than 2 psig with longer graduations at each 5 psig and numbered at not greater than 10 psig intervals. The error at any point on the scale should not exceed ±2 psig. The maximum allowable working pressure (MAWP) of the dP gauge should be at least equal to the MAWP for the measurement facility.

A differential pressure transmitter is a device that translates physical force to an electrical signal. The most common type of force transducer uses a diaphragm, piston, bourdon tube, or bellows to sense the physical force and various strain/force-sensing devices to convert the deflection of the physical element to an electrical signal. Traditional strain-sensing devices include the following: capacitive cells, piezoresistive strain gauges, piezoelectric quartz material, and electromagnetic devices.

In the United States, companies such as Rosemount, Cameron/Barton, Foxboro, and Ultrasystems have provided transmitters that specialize in safety system pressure measurements. These transmitters may still function successfully on some iPWR designs, but many will have to be reengineered for different mounting configurations, size constraints, and environments. Many iPWR designers, when faced with a modification program, may choose to go with new technologies rather than modifying the old ones. The new technologies may offer advantages in size, redundancy, accuracy, and environmental resilience. Some of these new technologies include microelectromechanical system (MEMS) sensors, fiber optic sensors, and ultrasonic sensors.

In the optical fiber category, a company called Luna Innovations has developed and successfully tested fiber optic pressure sensors, like the one shown in Fig. 6.1, in a research reactor environment. These fiber optic pressure sensors have been shown to operate in radiation environments with flux levels much higher than those compatible with most electronic pressure sensors. With traditional technology, it is necessary to protect traditional electronic gauge pressure transmitter from harsh radiation conditions near the core; this requires the use of long pressure sensing lines, which limit the response time to pressure transients and increase the number of wall penetrations. Luna’s fiber optic pressure sensors are designed to operate in harsh environments. When these pressure sensors were combined with Etalon-based fiber optic temperature sensors providing temperature compensation, drift effects were minimized. The attractiveness of this technology for iPWRs is obvious, with the elimination of sensing lines, the minimization of penetrations, the small size of the sensor, the rapid response to pressure fluctuations, and the operability in high radiation fields. With these attributes, this technology bears merit for primary and secondary side pressure measurement (Dickerson et al., 2009).

Pressure or DPT transmitters have been used to measure liquid levels of open or pressurized tanks, respectively, with proper calibration taking care of the density value of the subject liquid. These types are used for level measurements of boiler drums, all heaters, deaerators, condenser hotwells, condenser surge tanks, and all dosing tanks.

For open tanks, a pressure tapping at a suitable location is connected through the impulse line, to the high-pressure port of the DPT with the low-pressure port open to atmosphere. The pressure (or DP) sensed by the DPT is proportional to the level with a known liquid density (ρ) and force due to (earth’s) gravity (g). With proper calibration, the potential transform can now be used as a level transmitter.

Regarding the pressurized tank or vessel, single-pressure tapping does not serve this purpose as it senses the pressure of the vessel and the pressure of the liquid level. To balance out the vessel pressure, another pressure tapping for sensing it is connected, through the impulse line, to the low-pressure port of a DPT so that the output will only be proportional to the liquid level only with known ρ and g.

Another new technology for pressure sensing is the polymer-derived ceramic MEMS sensor. At the forefront of this technology, a company, Sporian Microsystems, has developed a pressure/temperature sensor made to survive high temperatures (Fig. 6.2). This technology offers a solution for pressure sensing in iPWRs due to its hardy environment survivability and its small size. The small size allows for the installation of redundant units and the measurement of pressure at many points, possibly with fewer penetrations than traditional sensors.

These new technologies have attributes like small size, heat survivability, radiation hardness, fast response, and low maintenance. These attributes are highly valued in iPWR designs for obvious reasons.

The Series-211 differential absolute pressure transmitter can accurately measure positive, negative or differential pressure and send the corresponding 4–20 mA output signal to a recording system. It is not position sensitive and can be mounted in any orientation without compromising accuracy. It also features a power LED, so one always knows when the transmitter is operating. The compact, light-weight design makes installation simple and easy. Two inlets for the pressure connections are located on the front of the unit, labeled “High” and “Low”. For differential pressure measurement, the higher pressure should be connected to the “High” pressure port. For positive pressure, the “Low” pressure port should be left vented to atmospheric pressure. Periodically, it is necessary to recalibrate the gauge to maintain the accuracy. For “zero” gauge, the pressure connection needs to be removed from both pressure ports and to adjust the zero potentiometer until the output is 4 mA. To span the gauge, the full scale pressure to be applied to “High” pressure port and to adjust the span potentiometer until the output is 20 mA. The salient features of the pressure transmitter are compact design, LED power indication, 2-wire design, 4–20 mA output, ± 0.25% accuracy level, 0–90 mmHg pressure range, –25 °C to 70 °C operating temperature ranges, 2-wire output signal and 12–30 VDC power supply.

Drum level is measured by differential thermowell temperature transmitter installed in line with Figures XII/3.5-1(a,b). Note that for drum-level measurement a temperature-equalizing column has been used to ensure that in both limbs of DPTs temperatures are equal, meaning that the densities are equal. So far, the discussion has been about installation and making the two limbs’ temperatures equal. Now level is measured by because there is an incumbent pressure P1 at the top, which needs to be subtracted to get the level. So, finally, one is left with P1 at the top and P1 + pressure due to water head (P) on the other limb. Therefore DP = pressure due to water head, P = h × ρ × g.

For a particular place, g is always constant. So water head P varies with h (level) and density, which in turn depends on temperature. In the drum, incumbent pressure is due to saturated steam pressure, and for saturated steam for each pressure there is a particular temperature. Therefore, saturation pressure is chosen to compensate/correct the density effect. Temperature is a sluggish parameter, so pressure is chosen to compensate.

Degradation of the transmitter’s accuracy and response time (two uncorrelated phenomena) are the two most important consequences of ageing. Ageing caused by heat and humidity can cause the transmitter sealing materials to fail, allowing moisture to enter the transmitter housing. This can cause calibration shifts and high-frequency noise at the transmitter’s output, which can render the transmitter inoperable or unreliable. Though NPP I&C failure data indicates that calibration drift accounts for anywhere from 59% to 77% of all age-related failure in pressure transmitters (fow blockage, fatigue, and other factors accounting for the remaining age-related failures), a survey of the nuclear industry in the early 1990s showed that fewer than 10% of NPP pressure transmitters actually drift out of tolerance and that in a typical two-year fuel cycle only about 1–3% of transmitters suffer calibration failure.

The analog signal operates over a 4–20 mA range (0 to 5 Vdc with a 250 Ω high-precision pull-up resistor). For proper analog signal discrimination, the tertiary device should be equipped with at least a 12-bit ADC converter. Digital signals are preferred over analog signals for accuracy. However, the tertiary device must be able to communicate with the secondary devices using a common communications protocol. The status signals typically are used for indicating block valve status (fully open, fully closed, in travel), generating commands to obtain a sample (activation of sample extractor), and alarm status.

The transmitters should be equipped with a display of the current readings at the transmitter housing in appropriate engineering units. The transmitters should be equipped with both analog and digital output to the tertiary device.

For analog communications to the tertiary device, a 4–20 mA signal is preferred and requires a high-precision 250 Ω pull-up resistor (to convert from 0 to 5 Vdc). The dampening parameters should be turned off or set to its lower limit. For digital communications to the tertiary device, the update interval of the transmitter should be less than or equal to 1 second. The transmitters should be equipped with an appropriate communications protocol and the dampening parameters should be turned off or set to its lower limit.

The sensing lines that bring the pressure signals from the process to the transmitter can become partially or totally blocked due to sludge, boron solidification (PWRs), and other debris in the reactor coolant, causing sluggish dynamic performance in the transmitter. According to NRC data, blockages, voids, and leaks account for nearly 70% of the age-related problems in sensing lines. Nevertheless, the effects of ageing on response time are even less significant than the effects on calibration. The response times of 84% of transmitters tested in a 1994 study written by the author for Nuclear safety were unaffected by ageing. Of the remainder, only 4% delivered response times that could be considered failing.

Global Process Automation & Instrumentation Market – Industry Analysis and Forecast (2019-2027)

Global Process Automation & Instrumentation Market size was US$ 71.4 Bn in 2019 and is expected to reach US$ XX Bn by 2027, at a CAGR of 6% during the forecast period.

Global Process Automation & Instrumentation Market

The report study has analyzed the revenue impact of COVID -19 pandemic on the sales revenue of market leaders, market followers, and market disrupters in the report, and the same is reflected in our analysis.

Market Definition

Process automation is a system using digital technology to execute a process or processes to complete a function or workflow in a certain industry. Process instrumentation is a systemthat allows real-time measuring, analyzing, and controlling physical quantities such as levels, pressure, flow, pH, humidity, and temperature.

Market Dynamics

Growing adoption of process automation and instrumentation system in various industries such as in food & beverage, mining, oil and gas, semiconductor manufacturing, marine, and others is a major driving factor behind the growth of the market.The increasing importance of optimum utilization of resources and industrial automation, rising demand of cost-efficient and energy-efficient automation and instrumentation processes, growing requirement for multi variable pressure transmitter, high adoption of safety automation systems, a surge in the adoption of IoT technology in various industrial applications and increasing stringent regulations and compliance in process industries are expected to improve the growth of the market during the forecast period.

Process automation and instrumentation system provide some benefits such as reduced labour costs, improved quality, safety,and consistency, which are ultimately propelling the growth of the market.

However, the high initial investment for execution and considerable maintenance cost for process instrumentation and automation solutions are major restraining factors that could hamper the growth of the market. Lack of technically skilled workforce and concerns regarding increasing cyber-attacks could hinder the growth of the market.

Global Process Automation & Instrumentation Market: Segmentation Analysis

By instrument, the field instrument segment dominated the market in 2019 and is expected to maintain its dominance at CAGR of XX% during the forecast period. Growing adoption of field instruments in various industries to measure and control various automation processes is driving the growth of the market.Field instrumentconsists of actuators, sensors, robust communication, and intelligent signal processing tools and it can be operated inharsh environments.

Field instruments provide some benefits such as increased safety and security, advanced sensing capability, safety through diagnostics, and highly accurate measurement, which lead to the increasing demand of field instruments in various industries for process automation.

Alternatively, the control valves segment is projected to witness high growth at CAGR of XX% during the forecast period. Increasing adoption of control valves in industries to ensure accurate flow control, to reduce wastage and resources, and to enable automatic operations is propelling the growth of the market.

By solution, the MES segment is projected to witness high growth at CAGR of XX% during the forecast period.MES stands fora manufacturing execution system (MES). It is an information system that is used to connect, control, and monitor complex manufacturing systems and to understand the real-time conditions on the plant floor. MES provides some benefits such as more accurate capture of cost-information, improved fault finding, reduced downtime, and increased uptime, reduced waste, and reduced inventory, which are ultimately impelling the growth of the market.

Global Process Automation & Instrumentation Market: Regional Analysis

Region-wise, North America held the largest market share in 2019 and is expected to witness high growth at CAGR of XX% during the forecast period. The US and Canada are major key contributors behind the growth of the market. The growth is attributed to growing technological advancements and the presence of well-established various manufacturing industries.

Increasing adoption of industrial automation, factory automation systems, and increasing investments by the US governments in the petrochemical & chemical industry is driving the growth of the market in the region.

The objective of the report is to present a comprehensive analysis of the Global Process Automation & Instrumentation Market including all the stakeholders of the industry. The past and current status of the industry with forecasted market size and trends are presented in the report with the analysis of complicated data in simple language. The report covers all the aspects of the industry with a dedicated study of key players that includes market leaders, followers, and new entrants.

PORTER, SVOR, PESTEL analysis with the potential impact of micro-economic factors of the market have been presented in the report. External as well as internal factors that are supposed to affect the business positively or negatively have been analyzed, which will give a clear futuristic view of the industry to the decision-makers. The report also helps in understanding Global Process Automation & Instrumentation Market dynamics, structure by analyzing the market segments and projects the Global Process Automation & Instrumentation Market. Clear representation of competitive analysis of key players by Application, price, financial position, Product portfolio, growth strategies, and regional presence in the Global Process Automation & Instrumentation Market make the report investor’s guide. The Scope of Global Process Automation & Instrumentation Market

Global Process Automation & Instrumentation Market, By Instrument

• Field Instrument • Control Valve • Analytical Instrument Global Process Automation & Instrumentation Market, By Solution

• PLC • DCS • SCADA • HMI • Safety Automation • APC • MES Global Process Automation & Instrumentation Market, By Industry

• Food & Beverages • Pharmaceuticals • Chemicals • Energy & Power • Oil & Gas • Metals & Mining • Water & Wastewater • Pulp & Paper • Others Global Process Automation & Instrumentation Market, By Region

• North America • Europe • Asia Pacific • South America • Middle East & Africa Global Process Automation & Instrumentation Market, Key Players

• ABB • Siemens • Emerson Electric • Schneider Electric • Honeywell International • General Electric • Mitsubishi Electric • Rockwell Automation • Endress+Hauser • Yokogawa Electric • HollySys

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Aerospace Telemetry Market Strategic Insights and key Business Influencing Factors | Major Players – Cobham, Honeywell, L-3 communications, Zodiac Aerospace, Curtiss-Wright, Dassault Aviation.

Aerospace Telemetry Market is extremely vital for the aerospace sector as it allows an uninterrupted network of communications with the systems by which the ground stations can access real time and accurate data. The aerospace telemetry was introduced as balloon-borne radiosonde, a device that automatically measures meteorological data such as temperature, barometric pressure, and humidity and sends the information to an Earth station by radio. The techniques developed in aerospace industry are applied in many industrial operations including the transmission of data from internal-combustion engines during tests, from steam turbines in operation and from conveyor belts inside mass-production ovens.

The Global Aerospace Telemetry Market accounted for USD 17.45 million in 2017 and is projected to grow at a CAGR of 2.1% the forecast period of 2018 to 2025. The upcoming market report contains data for historic years 2016, the base year of calculation is 2017 and the forecast period is 2018 to 2025.

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Competitive Analysis: Global  Aerospace Telemetry   Market

The renowned players in the aerospace telemetry market are BAE systems, Cobham, Honeywell, L-3 communications, Zodiac Aerospace, Curtiss-Wright, Dassault Aviation, Finmeccanica, Kongsberg Gruppen, NetAcquire Corporation and Orbit Technologies.

Key Pointers Covered in the Global  Aerospace Telemetry Market Trends and Forecast to 2026

Global  Aerospace Telemetry Market New Sales Volumes

Global  Aerospace Telemetry Market Replacement Sales Volumes

Global  Aerospace Telemetry Market Installed Base

Global  Aerospace Telemetry Market By Brands

Global  Aerospace Telemetry Market Size

Global  Aerospace Telemetry Market Procedure Volumes

Global  Aerospace Telemetry Market Product Price Analysis

Global  Aerospace Telemetry Market Healthcare Outcomes

Global  Aerospace Telemetry Market Cost of Care Analysis

Global  Aerospace Telemetry Market Regulatory Framework and Changes

Global  Aerospace Telemetry Market Prices and Reimbursement Analysis

Global  Aerospace Telemetry Market Shares in Different Regions

Recent Developments for Global  Aerospace Telemetry Market Competitors

Global  Aerospace Telemetry Market Upcoming Applications

Global  Aerospace Telemetry Market Innovators Study

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 Market Segmentation: Global Aerospace Telemetry Market

The global aerospace telemetry market is based on type, components, application and geographical segments.

Based on type, the market is segmented into radio and satellite.

Based on components, the market is segmented into sensors, display, transmitter, recorder and control devices.

Based on applications, the market is segmented into civil aviation and defense.

Based on geography, the market report covers data points for 28 countries across multiple geographies such as North America, South America, Europe, Asia-Pacific and Middle East & Africa. Some of the major countries covered in this report are U.S., Canada, Germany, France, U.K., Netherlands, Switzerland, Turkey, Russia, China, India, South Korea, Japan, Australia, Singapore, Saudi Arabia, South Africa, and Brazil among others.

 Scope of the  Aerospace Telemetry   Market

Global Aerospace Telemetry Market, By Type (Radio and Satellite), By Component (sensors, Display, Transmitter, Recorder and Control Devices), By Application (Civil Aviation and Defense) and By Geographical Segments (North America, South America, Europe, Asia-Pacific, Middle East and Africa)- Industry Trends and Forecast to 2025

The Global Aerospace Telemetry Market accounted for USD 17.45 million in 2017 and is projected to grow at a CAGR of 2.1% the forecast period of 2018 to 2025. The upcoming market report contains data for historic years 2016, the base year of calculation is 2017 and the forecast period is 2018 to 2025.

Telemetry is a term for innovations that obliges to gather data as estimations or measurable information and forward it to IT frameworks in a remote area. This term can be utilized as a part of reference to a wide range of frameworks. For example, remote frameworks utilizing radio, ultrasonic or infrared advances, or a few kinds of frameworks working over phone or PC systems. Others may utilize distinctive systems like SMS messaging. In the software world, telemetry offers bits of knowledge to end clients for identification of bugs and issues, for better insights into execution without the need to request criticism from clients.

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Key insights in the report:

Complete and distinct analysis of the market drivers and restraints

Key Market players involved in this industry

Detailed analysis of the Market Segmentation

Competitive analysis of the key players involved

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Something about iBeacon SDK

Possible use cases and business models for a beacon that enables location-dependent user interaction even inside buildings are currently being hotly debated. In-store advertising and discounts, mobile payments, navigation, public transport, localization in public buildings and museums and home automation are just the tips of the iceberg. And of course the omnipresent collection of data – now new and with precise location information. Before learning more about ibeacon technology, we will also mention ibeacon SDK in the article.

What is the hype?

The iBeacon protocol developed by Apple based on Bluetooth Low Energy is supported by a variety of devices. The article explains iBeacons and Bluetooth Low Energy and uses the example of developing an Android app for location-dependent shopping lists to show the location-dependent interaction of an app with iBeacons. The implementation is based on MOKOSmart ibeacon SDK.

iBeacon, Bluetooth 4.0, BLE, SMART. Wot?

The basic technology for iBeacon is Bluetooth. Bluetooth Low Energy (BLE), which is often referred to as the Bluetooth Smart marketing label, has been included in version 4.0 of the Bluetooth standard. BLE is not backward compatible with previous versions called Bluetooth Classic. Bluetooth 4.0 specifies that standard-compliant devices must implement one or both variants, i.e. Low Energy or Classic.

BLE is implemented on almost all current smartphones such as the iPhone 4+ and the Samsung Galaxy 3+. An iPhone can function both as a receiver of iBeacon signals and – unlike Android – as a beacon itself. Android includes BLE drivers from API version 18, i.e. Android 4.3. Incidentally, current computers are also BLE-capable. In Windows, however, the drivers are only on board from Windows 8 and since around mid-2011, BLE has been available on Apple computers.

BLE continues to support a variety of peripheral devices such as heart rate monitors and toy helicopters, thermometers, fitness equipment and toothbrushes, yes, toothbrushes and sneakers.

Interesting in connection with iBeacons is the Sensor

Tag from Texas Instruments, which in addition to its function as an iBeacon can also measure temperature, humidity, pressure and acceleration. The Sensor Tag also comes with a gyroscope, a magnetometer and two hardware buttons. The ideal device to remotely control presentations while transmitting and displaying the moisture and temperature of the speaker’s hands. I think my next sandpit project will be stage fright-o-mat. You can find a detailed list of devices on the official Bluetooth website.

GATT ready

The communication model used by devices to exchange data is called the GATT – Generic Attribute Profile. GATT defines the roles of the client and server. The client requests data from the server via services. A service groups several atomic key/value pairs, which are called characteristics. Both services and characteristics are identified via UUIDs and can also contain further descriptions. Services and their characteristics are cataloged in the form of profiles; the specification defines a whole range of them from the fields of healthcare, sport and fitness and – in our case interesting – proximity sensing. The individual profiles and their services and characteristics can be found in the Bluetooth developer portal under GATT Specifications.

Get to the beacon

So what are iBeacons? iBeacon is a very simple technology (and a trademark of Apple that enables location-dependent interaction with applications. A beacon sends out a signal that can be received with BLE-compatible devices and processed by applications installed on it Signal contains the identification of the beacon and the reception strength. Ibeacons themselves are, therefore – contrary to inaccurate statements in the press – unable to deliver content or track customer behavior. This is the responsibility of the receiving applications and therefore developers.

iBeacon IRL

Larger deployments of iBeacons in Germany will probably be a long time coming, but there are some examples from the USA and the Netherlands. For example, Major League Baseball has equipped 28 stadiums with iBeacons and uses them, among other things, for check-ins in the MLB app “At the Ballpark”.

A showcase was implemented in the Rubens House in Antwerp, which offers background information such as X-rays of paintings and geocaching games for visitors.

The prime example in terms of size comes from Apple itself. Over 250 Apple Stores have been equipped with iBeacons. In combination with the Apple Store app, location-dependent messages are sent to buyers who are in the store. However, the possible interactions currently seem to be quite limited: First reviews report only two different (and quite generic) messages that they would have received. Special offers or specific information about individual products nearby were not offered.

Functionality

iBeacon SDK does not use a separate BLE profile, but rather Bluetooth advertising packages, i.e. broadcast packages, which are used to discover Bluetooth devices. If you are interested in the exact structure of the package, you can read this, for example, on Adam Warski’s blog.

Such a package is sent at regular intervals that can be configured via GATT. It contains the UUID of the beacon, which is typically preconfigured by the manufacturer. So all MOKOSmart beacons send the same UUID. Major and minor IDs are also used to identify the individual beacons. Major IDs can represent, for example, a branch of a shop or a restaurant in a franchise chain, the minor IDs a single shelf or a table.

Furthermore, the signal strength is included in the advertising package, which can be used to measure the distance of the receiver from the beacon. However, you cannot expect high accuracy here, since the signal can be obstructed by spatial obstacles such as furniture or people.

IBeacon SDK offers two concepts for the interaction of an app with this information: ranging and region monitoring. When ranging, the distance to the beacon is determined. Due to the inaccuracy mentioned above, this takes place in only three stages. “Immediate” is a distance of a few centimeters, “Near” is a few meters and “Far” is a distance of over ten meters. Ranging is only possible if the receiving app is active.

This is not necessary for region monitoring. In this mode, an inactive app can also be notified when entering or leaving a region defined by one or more beacons. At the latest now it is becoming clear what makes this technology attractive for advertising and retail. In addition, for most beacons, the transmission strength and the interval can be configured in order to optimize the battery life based on local conditions.

“Most beacons” implies that there is more than one manufacturer of iBeacons on the market. In fact, there are quite a few: MOKOSmart, Kontakt.io, Gelo, Estimote and Gimbal. In addition to the hardware, these manufacturers also offer iBeacon SDK service and cloud solutions for the management of beacons. The hobbyists among us can set up iBeacon transmitters themselves with relatively little effort using Raspberry Pi or Arduino.

Flashing list

Let us assume the following situation for the implementation example: The developer is in the supermarket on Saturday morning. Hungry children are waiting at home and in the afternoon there is a bake sale at school. Only then will the weekend really start. So good reasons to hurry up. Unfortunately, the shopping list is long and not adapted to the layout of the supermarket. If the supermarket were equipped with iBeacons in the different departments, a shopping list app could highlight the appropriate entries and significantly reduce the stress level of the (of course completely fictional) developer.

Since our app has to communicate with Bluetooth, we first require BLUETOOTH and BLUETOOTH_ADMIN authorizations in the Android manifest. In order to be able to use the service offered by the Estimote API to interact with iBeacons, we must also make it known and place the downloaded API in our libs/directory.

Our prototype consists of a simple, pre-filled list and pre-defined regions, i.e. departments in our supermarket. A list entry knows which region it is assigned to. In our example, we only assign one beacon to each region. It is also possible to combine a list of beacons into one region. The main activity is responsible for recognizing the current region and forwards this information to an adapter, which is responsible for highlighting the list entries. In addition, we add the option to select the active region without beacons to make our UI testable without additional hardware.

In the activity’s on Create method, we instantiate a Beacon Manager from MOKOSmart for our app. We use a listener for the region monitoring by making the current region known to our adapter and defining the interval for the beacon scans. In the example, we define that one second should be scanned and then 250 ms should have waited. These values ​​are chosen relatively aggressively to get quick results in tests. In reality, the difficult balance between responsiveness vs. To meet Battery Life. In this prototype, we also fill our shopping list with dummy values. We start or stop monitoring in the on () Start or onStop () method of the main activity.

The ItemList

Adapter is implemented as a derivative of android.widget.Array Adapter and overrides the get View () method, which is called for each line to be displayed. The title of the item is written in the first line of the review defined in the layout, in the second the assigned region.

As can be seen in Listing 1, the entered region is transferred to the adapter in the on Entered Region () callback of the MonitoringListener, which is assigned to our BeaconManager: itemListAdapter.setRegion (region). When calling getView (), this checks whether the region of the entry in the line matches the current region. If this is the case, it colors the background of the line. Additionally or alternatively, one could also put the entries for the current zone at the beginning by sorting the list.

The code of the application is clear; it doesn’t take many implementations effort to receive iBeacon signals and handle them in the app. The iBeacon concepts ranging and monitoring are mapped in the MOKOSmart iBeacon SDK so that they can be used intuitively. The full source code of the app can be found on GitHub.

Conclusion and outlook

We saw that interacting with iBeacons using the MOKOSmart iBeacon SDK is easy to do. So I don’t expect major hurdles in the technology of implementation, but rather in the deployment of the beacons and the tuning of transmission power. These parameters have a direct impact on the responsiveness of the application when the location changes. In any case, the balancing should be difficult.

For particularly interesting, e.g. B. in the area of ​​home automation, I consider the combination of iBeacons with sensors, as in the Sensor Tag from Texas Instruments mentioned above. Estimote will also launch mobile beacons with motion and temperature sensors on the market with Estimote Stickers. The first developer previews should have been delivered at the end of October 2014, but no kits were shipped by the end of 2014.

It remains to be seen whether the “Indoor Navigation” application area can be mapped robustly with this technology. Due to the susceptibility of the Bluetooth signal to interference factors, strong illumination with iBeacon signals of the corresponding area and position calculations using triangulation with room plans would be necessary. Appropriate solutions are offered by MOKOSmart (Indoor Navigation ibeacon SDK) and various other manufacturers such as LabWerk, but the author is not aware of any practical reports.

With the development of an app interacting with iBeacons, security and data protection aspects must also be taken into account. Due to the simplicity of the signal, iBeacon is prone to spoofing, which should not be forgotten during development. Data such as the current location and the movement profile that can be collected based on user behavior also have a high need for protection.

Pogue's holiday picks: 8 cool, surprising tech gifts

The holiday season is the lifeblood of the tech industry. About 70% of U.S. consumers will buy tech stuff as gifts this holiday season, spending an average of $478 each, according to the Consumer Tech Association.

Most of that stuff is predictable: laptops, tablets, phones, Amazon (AMZN) Echos. OK, we get it.

But what if your lucky recipient already has that stuff, doesn’t want it, or doesn’t deserve an expenditure that big?

That’s where these more offbeat tech gift ideas come in. They join my earlier list of ideas for less expensive (but still surprising) gifts.

ConnectSense Smart Outlet $60

You’ve heard of the Internet of Things, right? It’s those gadgets that you can control with a phone app. You know—thermostats, light bulbs, door locks.

But if you get an Internet of Things outlet, you can control anything from your phone. Anything you plug in: lamp, heater, fan, radio, TV, Christmas lights, whatever.

There are lots of these “smart outlets.” But I’m a particular fan of the ConnectSense Smart Outlet ($60), because it’s compatible with Apple’s (AAPL) HomeKit. First, that means an incredibly easy setup: Open the ConnectSense app, point your phone’s camera at the sticker on the outlet, and boom—the device is recognized and configured.

You can control either outlet from an app, by voice, or from miles away.

HomeKit also means that you can turn the outlets on and off remotely, either from your phone’s Control Center (you don’t have to open some app first) or by voice. You can say, “Hey Siri—turn on the Christmas tree” [or whatever you’ve named that outlet] or “Hey Siri—turn on the Table Lamp!”

It just works.

You can also set up schedules for these on-and-off-turnings, or (if you have an Apple TV) even control it from across the internet. The app tells you how much energy each formerly dumb device has consumed.

Then again, if you’re not an Apple person, you might prefer the Wemo Mini Smart Plug; it lets you voice-control your outlet using Alexa or “OK Google” commands. It’s only $34, although it has only one outlet.

Logitech Craft Keyboard

You wouldn’t think there’s much call for PC peripherals anymore. Those were the hot items during the holidays maybe 20 years ago—but now? Who’d want a mouse or keyboard for Christmas?

You might, if you could try the Logitech Craft Keyboard for Mac or Windows (MSFT). It feels like it’s made of stealth-bomber carbon-fiber or something. It’s fully wireless, super thin, super sturdy, with a great typing feel and a complete set of keys, including a numeric keypad.

The best part, though, is the knob at top left, called the Crown. It’s an input device that works in three ways: You can turn it, you can tap it, and you can click it down—and in many programs, you can program what those things do!

You might set it up so that in most apps, turning it controls volume; tapping it means Play/Pause music; and pressing it switches apps. In Photoshop, you can have it change brush sizes. In a web browser, turning it might switch among open tabs.

It’s a great keyboard—with a knob.

Sadly, those customizable functions are available only in Microsoft Office and Adobe programs like Photoshop, Illustrator, and Premiere—not any program you want. I’d love for that knob to scroll the timeline in Final Cut, for example. Still, this keyboard transforms the experience of typing and doing creative work. The computer nerd in your life will adore it.

ReMarkable Tablet

What a weird, wonderful product!

The ReMarkable tablet, born as a Kickstarter success story, is true to its name. It’s pretty remarkable, and you can mark it over and over again.

It feels like a legal pad: very light, easily one-handable. You use the included stylus to write on it. (The stylus never needs batteries or charging.) There’s no lag when you write, and the grayscale E-Ink screen has no glass (the company says that the tablet is “virtually indestructible”); it’s a finely textured plastic, so it feels exactly like you’re writing on paper.

The ReMarkable is like a Kindle that you can write or draw on.

You can have your “paper” be blank, lined, or equipped with a grid, like graph paper. You can import PDF documents and mark them up, easy as pie—incredible if you’re a teacher or a lawyer or something.

And in real time, anything you write or draw on the tablet shows up on your computer, ready for sharing or printing. It’s all automatic and wireless.

I recognize that upon hearing the $600 price, a natural reaction might be, “Holy moly—for that money, you could buy an older iPad or Android tablet! Which is color, and has speakers and microphone and a backlight!”

And that’s all true. On the other hand, the comparison isn’t quite right. This thing isn’t a full-blown computer with a complex operating system and millions of apps. It’s simple, true to function, and an absolute joy to use. There’s really nothing else like it.

EvaLight Personal Air Conditioner

This little box, from Evapolar, sits on your desk and cools you much more effectively than a simple fan; it’s an actual personal air conditioner. It can’t chill an entire room; it creates a cocoon of cool only around you, using a tiny fraction as much energy (10 watts) as a regular air conditioner (900 watts).

It’s a personal air conditioner for your desk.

Now, the science of this thing makes no sense to me: You fill its reservoir with water, and its “evaporation pads” humidify the air that it blows on you.

I’ve always thought that heat is worse when the air is moist. (You know: “It’s not the heat, it’s the humidity!”) Don’t air conditioners work by drying the air they blow at you? I asked the company, and the response wasn’t crystal clear: “When the hot air is saturated with water, it gets cooled.”

In other words, it works because it works, I guess.

Well, whatever; the point is, it does work. It’s very quiet, it simultaneously filters the air, and it drops the temperature around you as much as 55 degrees Fahrenheit in dry climates—much less in humid climates like Florida.

Eero 2 Mesh WiFi Network

The Eero was one of the first mesh WiFi systems for consumers. When I reviewed it last year, I wrote:

Instead of installing just one Wi-Fi transmitter, you install a set of them, spaced evenly throughout your house.  The result is a single "mesh network" that blankets the entire house with a good, strong signal. (The company’s marketing pitch goes like this: Expecting a single router to fill an entire home with Wi-Fi is like expecting one speaker to fill every room with music.) Eero smashes the dead-zone problem like a sledgehammer on an ant. It’s drop-dead simple to set up and a joy to use.

Now there’s the Eero 2, which lowers the whole-home price of entry, from $500 to $350. That’s because the $350 kit includes only one main router—and two half-size “beacons” (satellite units), which plug into any power outlet.

These three WiFi pieces can blanket a four-bedroom house with no dead spots.

As a lovely touch, the beacons also double as automatic night lights, whose brightness adjusts to the room.

Why put so much effort into making these gizmos small and attractive? Because they work best when they’re out in the open. “We don’t want people putting them behind the dresser or a couch,” the company tells me, which is exactly what you’d do if they were ugly.

The Eero 2 is also 20% to 30 % faster than the original Eeros, and offers twice the range. The app is still lovely and simple to use; you can set the whole thing up in about six minutes.

(The company also offers a $100-a-year subscription service that offers whole-home virus/malware protection and parental controls. You’d know if that’s appealing to you.)

Prank Packs

These things are hilarious. They’re incredibly real-looking, earnestly designed packages—yes, empty boxes ($5)—for terrible products. They’re pranks: You’re supposed to put a real gift inside, and then enjoy that moment when the recipients tear off the wrapping to behold what they think is a huge misfire of a gift. “Oh, uh…wow. Thanks!”

(And what’s wrong with regular gift bags? As the website puts it: “Because gift bags are boring and dull and mundane and stale and they end up in landfills. Prank Packs are entertaining, colorful, and rigid. Last we checked, no one throws away entertaining, colorful, and rigid items.”)

If you have a baby, you might really enjoy the convenience of the Crib Dribbler, which is essentially a hamster-cage water dispenser for infants. The testimonials on the back are fantastic. (“I forgot I had a baby for six wonderful hours!”)

Or how about the Tech Neck? It holds your phone so you can be hands-free—by clamping a bendable arm around your neck.

Real boxes for fake products.

Then there’s the Earwax Candle Kit, the Bathe+Brew (shower coffee maker + soap dispenser), the Cheese Printer (“Adding a nutritious component to fond memories is as easy as One, Two, Brie!”), and many more. You can look them over here. (The funniest stuff is often on the back.)

And don’t miss the same company’s prank gift cards, like the one that’s redeemable at the SOAK Hot-Tub Dining restaurants, or Barry Del Greco’s MobileRub massage trailer.

You can slip an actual, useful gift card into one of these phony, hilarious sleeves.

I’m also a fan of their fake wine labels. They neatly cover up the real labels of bottles (front and back)—perfect for the wine you bring when you’re a dinner guest. (They peel off to reuse.) There’s Highway Bounty 2011 Table Wine (“Harvested Daily from HWY 64, Teminville”), for example, and my favorite, Chateau La-Di-Da.

There are hilarious bogus wine labels available, too.

Lyric Speaker

OK, this last one—holy moly. It’s called the Lyric Speaker, and it’s hand-made in Japan, and it’s just unbelievably cool.

It’s a Bluetooth speaker the size of a small suitcase. The front and back are glass. And somehow, when you connect it to your WiFi and play music from your phone, the lyrics of the song appear suspended in space inside the glass. I have no idea what kind of display technology it’s using; it’s crisp grayscale images on transparent glass. You can see through this thing.

Art? Music? You decide.

This is not just karaoke. The lyrics don’t just scroll; they use different fonts, sizes, animations styles, and background visuals to create live, moving art. The speaker really is an art piece as much as it is a speaker; you could sit and stare at it for hours. (The company says it has 2 million songs’ lyrics in its database. When you choose a song it doesn’t know, it plays super-cool screensaver visuals instead.)

Now, I don’t really expect you to buy this thing unless you’re in Donald Trump’s tax bracket. It costs $4,500 for the black one, $5,600 in gold color. But hey, cut me some slack—my previous gift idea was a $5 cardboard box.

Happy Hollydays!

So there you go—gift ideas nobody saw coming. All of ‘em are great, in their own ways—and all of ‘em will lead to a delightful day of playing with the new toys.

More from David Pogue:

Royal Caribbean’s big bet on new tech

Battle of the 4K streaming boxes: Apple, Google, Amazon, and Roku

iPhone X review: Gorgeous, pricey, and worth it

Inside the Amazon company that’s even bigger than Amazon

The $50 Google Home Mini vs. the $50 Amazon Echo Dot — who wins?

The Fitbit Ionic doesn’t quite deserve the term ‘smartwatch’

Augmented reality? Pogue checks out 7 of the first iPhone AR apps 

David Pogue, tech columnist for Yahoo Finance, is the author of “iPhone: The Missing Manual.” He welcomes nontoxic comments in the comments section below. On the web, he’s davidpogue.com. On Twitter, he’s @pogue. On email, he’s [email protected]. You can read all his articles here, or you can sign up to get his columns by email. 

The first model of Raspberry Pi was developed in the UK for the promotion of teaching basic computer science in schools. It has size that of a credit card and can be plugged into computer monitor or TV, and has the capability of doing everything a Desktop PC can do. Let’s have a look into 21 great uses of Raspberry Pi.

1. Building a Robot with Raspberry Pi

If Raspberry Pi could have a second name, it would have definitely been a Robot. Raspberry Pi can be used as the main brain in drones and Remote-Controlled Planes. A robotic arm can also be made with it which can hand over to you a cup of Coffee.

2. Hosting a Website

A Raspberry Pi can be used as a web server. You can host your own personal website or a Professional one by installing the right software and libraries. The advantage is that it requires less power and can be used on local network instead of the internet.

3. Forecasting Weather

Temperature and air humidity can be measured with the help of Raspberry pi. You just need a breadboard, jumper wires and the right type of sensors to sense and predict the weather

4. A Desktop Computer

A computer monitor, keyboard, mouse and a hard disk for extra storage is all that you need to build a home PC. It will need its own operating system as it can’t run Windows or MacOS.

5. Wi-Fi Extender

If you are having a Wi-Fi connection problem at the corner of your home, then Raspberry Pi can act as a booster for you. It is cheap and directly connects to your Wi-Fi adapter.

6. Making a Minecraft game

Raspberry Pi can play an addictive game for you. The Raspberry Pi will act as the Server for the Minecraft. But the downside is that you cannot have more players and high graphics.

7.Smart Home

Your House can be controlled remotely with the help of Raspberry Pi. Be it your light switches, security cameras and Washing machine. You just know basic programming and the right electronic for a specific task.

8. Virtual Private Network

If you are in a country where there is ban on social websites, then there is no need to worry. Your Raspberry Pi can act as a cheap VPN without consuming a large amount of power and can handle few connections efficiently.

9. Raspberry Pi Cloud Server

Your Raspberry Pi can act as a one drive or Dropbox and you just need the Own Cloud Software to be installed into it.

10. Telephone with Raspberry Pi

The Raspberry Pi can make calls for you and the cost of making a phone is much likely that of an ordinary smart phone available at local market.

11. Printing Server

The Common Unit Printing System and the associated sharing software with the Raspberry Pi can make a complete Printing System for you. The main purpose of the Raspberry Pi here is it will ensure the computer Windows can access the printer via a network.

12. Camera

If you want to take photos or videos, capture and save files or stream to the internet, a Raspberry Pi is there for you. All you need is an infrared LED attached to it. You can also use it to monitor your pet or a CCTV at the door of your entrance.

13. Making a Raspberry Pi Twitter Bot

A twitter bot will tweet, retweet, like based on the programming code you have written on your Raspberry Pi. You need to develop twitter API and then connect it with your Raspberry Pi.

14. Radio Station

A Raspberry Pi can act as a FM Radio Signal transmitter by using the Spread Spectrum Clock Signal. You can broadcast live by using advanced tools with your Raspberry Pi

15. AI Assistant

Just as many Assistants available they’re at the market, one can make an assistant with the help of Raspberry Pi which can set be as an alarm clock or tell you weather news.

16. Distance Sensor

One of the fantastic Do It Yourself project is you can make a distance measurement device with Raspberry Pi.

17. Smart TV

Just as a Desktop PC, you can make a TV by connecting Raspberry Pi with a monitor or Screen and installing the necessary software.

18. Wireless Video Surveillance Robot

Once you know that you can build Camera and Robot with Raspberry Pi, the next step is to combine both of these projects and build a video surveillance that can be wireless controlled

19. Live Streaming

You have online apps and websites built for live and video calling, but that uses a lot of bandwidth. A Raspberry Pi can be helpful to build a Live-streaming app for you that is cost efficient.

20. Smart Mirror

A magic mirror which is a webpage run from a web server housed inside your Raspberry Pi will show futuristic displays like daily weather, calendar, etc.

21. Ultra-Power Supply

If you are making a project which requires consistent power supply, Raspberry Pi can help you by acting as an Ultra-Power Supply device.

Drive high CAGR by Global Humidity and Temperature Transmitters Market Along with Top Key Players like Emerson Electric, ABB, Endress+Hauser, Siemens, etc.

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The global Humidity and Temperature Transmitters market research report studies market overview defining; definition, types, applications latest trends to identify the revenues and the progress of the market over the forecast period. The report offers preventive and premeditated management along with emphasizes the summary of the global Humidity and Temperature Transmitters market along with classifications and market chain structures. It also highlights authorized statistics of the global Humidity and Temperature Transmitters market.

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Product Type Coverage (Market Size & Forecast, Major Company of Product Type etc.): Duct Mount Humidity and Temperature Transmitters, Wall Mount Humidity and Temperature Transmitters ACompany Coverage (Sales Revenue, Price, Gross Margin, Main Products etc.):  Emerson Electric, ABB, Endress+Hauser, Siemens, Yokogawa Electric, Wika Alexander Wiegand, Johnson Controls, Honeywell International, Schneider Electric, Vaisala, Dwyer Instruments Application Coverage (Market Size & Forecast, Different Demand Market by Region, Main Consumer Profile etc.): Food & Beverage, HVAC & Building Automation, Pharmaceutical, Pulp & Paper, Oil & Gas, Water & Wastewater, Metal & Mining, Chemical, Power,

The fundamental purpose of this Humidity and Temperature Transmitters market report is to provide a correct and strategic analysis of the Profile Projectors industry. The report scrutinizes each segment and sub-segments presents before you a 360-degree view of the said market.It provides a deep insight into the industry parameters by accessing the market growth, consumption volume, the upcoming market trends, and the different prices variation for the forecast year.

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Human Centric Lighting Market Potential Demand and Analysis Of Key Players- Research Forecast To 2027

The global wireless sensor network market is accruing pervasively; mainly due to the augmenting demand for the wireless network in some burgeoning industries such as oil & gas and transportation. Additionally, factors such as the growing automation and robotics industry and high reliability of wireless sensor network act as a tailwind to the market growth, escalating the market to further heights on the global platform.Acknowledging the exponential growth, the market perceives currently; Market Research Future (MRFR) in its recently published study report asserts that the global wireless sensor network market is estimated to witness an outstanding growth by 2022, posting a striking CAGR of 14% throughout the forecast period (2016 – 2022).Increasing interference on wireless sensor networks is becoming a key issue in the deployment of wireless sensor networks and wireless communication systems. Simultaneously, with the emergence of 5G communications systems and the Internet of Things (IoT), there are over 50,000 Mn. wireless devices are expected to be on the global space by the year 2020. Given the distribution of radiated output by a transmitter in a specific scenario enables optimal radio planning to take place. This presages the kind of growth the market will be witnessing soon.Additional factors substantiating the market growth include the proliferation of the Internet, IoT, and connected devices. Besides the BYOD trend in the organizations is fostering the growth of the wireless sensor network market, serving as an emerging growth opportunity in the market.The widespread adoption and demand, in turn, foster the market growth of wireless sensor network to a large extent. Moreover, augmented uptake of these networks in military and homeland security is providing impetus to the market growth. On the other hand, skepticism of end-user consumers towards the uptake of this embryonic technology coupled with the risk of failure of wireless sensor network may restrict its adoption further hindering the market growth.Global Wireless Sensor Network Market – Geographical AnalysisThe North American region holds the largest market share in the global wireless sensor network market and is also expected to be the largest revenue generator owing to the continuous technological advancements in the region.  The market is mainly driven by the U.S. and Canada owing to the vast developments in the field of technology and the presence of giant technology companies.The European region has acquired the next largest market share in the global wireless sensor network market.  The resurging economy in the region is undoubtedly contributing to the market growth significantly, augmenting the uptake of wireless sensor network across the region. The Europe wireless sensor network market is expected to grow with a strong CAGR from 2016 to 2022.The Asia Pacific region is emerging as one of the lucrative markets for the wireless sensor network, globally. Factors such as increasing urbanization and growing sectors such as healthcare, manufacturing, and O&G backed by the improving economy in the region, foster the market growth.  The APAC wireless sensor network market is expected to post a remarkable CAGR during 2016-2022.Get Free Sample Report @ https://www.marketresearchfuture.com/sample_request/1805Wireless Sensor Network Market – SegmentationsMRFR has segmented its analysis into six key dynamics for the convenience of understanding; By Applications      : Industrial, Oil & gas, Entertainment, Precision Agriculture, Transport, Military, Mining, Food & Beverage, Healthcare, and Environment Monitoring among others. By Sensors               : Pressure, Temperature, Humidity, and Flow among others. By Technologies     : Bluetooth, Wi-Fi, and WirelessHART among others.By Types                   : Terrestrial, Underground, Underwater, Multimedia, and Mobile WSNs among others.By Topologies         : Star, Tree and Mesh Topologies.By Regions              : North America, Europe, APAC and the Rest-of-the-World (RoW)Global Wireless Sensor Network Market –

Competitive LandscapeKey market players strive to develop Wireless Sensor Network that is small, sturdy, extremely cost-effective and can deliver high performance. Players employ a continuous improvement strategy to analyze and update products, implementing improvements, launching new technologies that can meet the changing consumer needs and preferences. These Key Players are investing heavily in research and development projects to develop state-of-the-art equipment, facilities, advanced technology, and processes.Key Players:The fervent players in the market of wireless sensor network market are Endress+Hauser AG (Switzerland), ABB Ltd. (Switzerland), Emerson Electric Co. (U.S.), ST Microelectronics (Switzerland), General Electric Company (U.S.), Siemens AG (Germany), Honeywell International Inc. (U.S.), Texas Instruments (U.S.), Schneider Electric SA (France), and Yokogawa Electric Corporation (Japan).Industry/Innovation/Related News:September 06, 2018 – Researchers at the Public University of Navarre (Spain) published their study of a new tool they have developed that can assess how interference impacts on wireless networks.The research methodology is based on the 3D Ray Launching simulation tool that enables radio propagation in interior environments such as homes, buildings, stations, hospitals, sports areas, industrial environments, shopping areas, etc.And, the tool makes it possible to determine the ideal location for networking wireless devices. the new technology facilitates the correct deployment of these devices and, therefore, optimizes data transmission speed, equipment energy consumption, and cost of deployment.Table of Content:3. Research Methodology3.1 Research Process3.2 Primary Research3.3 Secondary Research3.4 Market Size Estimation3.5 Forecast Model4. Market Dynamics4.1 Drivers4.2 Restraints4.3 Opportunities4.4 Challenges4.5 Macroeconomic Indicators5. Market Factor Analysis5.1 Value Chain Analysis/Supply Chain Analysis5.2 Porters Five Forces5.2.1. Bargaining Power Of Suppliers5.2.2. Bargaining Power Of Customer5.2.3. Intensity Of Competitor’s5.2.4. Threat Of New Entrants5.2.5 Threat Of Substitutes6. Global Wireless Sensor Network Market: By Technologies6.1. Introduction6.2. Market Sub-Segments6.2.1. Wi-Fi6.2.2. Wireless Hart6.2.3. Bluetooth7. Global Wireless Sensor Network Market, By Sensors7.1. Introduction7.2. Market Sub-Segments7.2.1. Pressure7.2.2. Temperature7.2.3. Flow7.2.4. Humidity7.2.5. Image & Surveillance7.2.6. OthersGet Complete Report @ https://www.marketresearchfuture.com/reports/wireless-sensor-network-market-1805About UsMarket Research Future (MRFR) is an esteemed company with a reputation of serving clients across domains of information technology (IT), healthcare, and chemicals. Our analysts undertake painstaking primary and secondary research to provide a seamless report with a 360 degree perspective. Data is compared against reputed organizations, trustworthy databases, and international surveys for producing impeccable reports backed with graphical and statistical information.We at MRFR provide syndicated and customized reports to clients as per their liking. Our consulting services are aimed at eliminating business risks and driving the bottomline margins of our clients. The hands-on experience of analysts and capability of performing astute research through interviews, surveys, and polls are a statement of our prowess. We constantly monitor the market for any fluctuations and update our reports on a regular basis.Media Contact:Market Research FutureOffice No. 528, Amanora ChambersMagarpatta Road, Hadapsar,Pune - 411028Maharashtra, India+1 646 845 9312Email: [email protected]

Wireless Sensor Market Research – Industry Analysis, Growth, Size, Share, Trends, Forecast to 2025

4 March 2019 - Global Wireless Sensor Market is expected to grow at a significant CAGR in the upcoming years as the scope and its applications are increasing across the globe. A standard measurement tool equipped with transmitters to convert signals from process control instruments into a radio transmission is referred to a wireless sensor. A receiver interprets the radio signal which then converts the wireless signal to the preferred output. Wireless sensors are easily available in the market and can measure a wide range of parameters such as pressure, temperature, flow, etc.

The factors that propel the growth of the Wireless Sensor Market include increasing demand, rapid urbanization & industrialization, and product development & technological innovations. In addition, factors such as changing standard of living, cost efficacy, and wide range of applications significantly fuel the market growth. Furthermore, wireless sensor decreases the operational costs as they do not need electric wiring which ultimately excludes the need for extra ducts for installation.

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On the other hand, there are also factors that may obstruct the market growth such as maturity of end-user, environmental impact, and limited bandwidth of wireless sensors. Wireless Sensor Market is classified on the basis of product type, industry, distribution channel and geography. The market is segmented by product type as acoustic sensors, biosensors, electrical & magnetic sensors, pressure and flow sensors, gas and chemical sensors, motion and surveillance sensors, temperature and humidity sensors and others.

Wireless Sensor Market is classified on industry as banking, defense, energy, healthcare, manufacturing, retail, transportation, and others. Wireless Sensor Industry is segmented by distribution channel as online stores, specialty stores and others. Wireless Sensor Market is classified on the basis of geography as North America, Latin America, Western Europe, Eastern Europe, Asia Pacific, Japan and Middle East and Africa.

The North American region consists of the U.S., and Canada. Latin America region consists of Mexico and Brazil. The Western European region consists of Germany, Italy, France, England and Spain. The Eastern European region consists of Poland and Russia. Asia Pacific region consists of China, India, ASEAN, Australia & New Zealand. The Middle East and African region consists of GCC, South Africa and North Africa.

By geography, North America is projected to account a significant share of the Wireless Sensor Market. However, Asia Pacific is projected to be the fastest growing region in the Wireless Sensor Market. Some of the key players that fuel the growth of the market include ABB, Honeywell Process Solutions, General Electric, Siemens and Yokogawa Electric.

The other prominent players operating in the Wireless Sensor Market include Ambient Micro, Aruba Networks (Hewlett-Packard Enterprise), Microstrain, Atmel, STMicroelectronics, BAE Systems, Rockwell Collins, Bosch, Cisco Systems, Drägerwerk, Schneider Electric, Dust Networks, Silicon Laboratories, NXP Semiconductor (Freescale Semiconductor), OmniVision Technologies, Gastronics, OMRON, Industrial Scientific Corporation (ISC), Microsemi Corporation, EnoCean, Mitsubishi Electric, and Thermo Fisher Scientific. The key players are focusing on inorganic growth to sustain themselves amidst fierce competition. As such, mergers, acquisitions, and joint ventures are the need of the hour.

Market Segment:

The following manufacturers are covered in this report:

• Deltatrak

• Electrochem

• Techkor Instrumentation

• MicroStrain

• SparkFun

• Beijing kunlun coast sensing technology co

• RONDS

• SHENZHEN RION TECHNOLOGY CO., LTD

• Teko-TD

Wireless Sensor Breakdown Data by Type

• Wireless Temperature Sensors

• Wireless Accelerometers

• Wireless Pressure Sensors

• Wireless Dust Sensors

• Others

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Global Humidity and Temperature Transmitters Market 2019 Demand, Overview, Price and Forecasts To 2025

The Humidity and Temperature Transmitters report provides an independent information about the Humidity and Temperature Transmitters industry supported by extensive research on factors such as industry segments, size & trends, inhibitors, dynamics, drivers, opportunities & challenges, environment & policy, cost overview, porters five force analysis, and key companies profiles including business overview and recent development.

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The report would be based on industry data clearly referenced from authentic and reliable information sources such as statistics, industry associations, website of ministry and companies etc, market research reports, magazines, trade journals, annual reports, presentations, telephone interview etc.

The report includes regions as follows:

North America

Europe

Asia & Pacific

LAMEA

Table of Contents

1 EXECUTIVE SUMMARY

2 METHODOLOGY

3 TRENDS AND DRIVERS

3.1 Humidity and Temperature Transmitters Market Size and Trends

3.2 Opportunities in Humidity and Temperature Transmitters

3.3 Market Inhibitors

4 MARKET DYNAMICS

4.1 Humidity and Temperature Transmitters Industry Chain

4.2 Humidity and Temperature Transmitters Cost Analysis

4.3 Humidity and Temperature Transmitters Pricing Strategy

4.4 Distribution Structure

4.5 Enter Strategy

5 MARKET AND TECHNICAL CHALLENGES

5.1 Commercialization Stage

5.2 Economic Impact

5.3 Competitive landscape Overview

5.4 Regulatory/Government policy

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